Portable mobile multifunctional pouring equipment and use method
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- CHINA MCC17 GRP CO LTD
- Filing Date
- 2023-10-12
- Publication Date
- 2026-06-19
Smart Images

Figure CN117127811B_ABST
Abstract
Description
Technical Field
[0001] This invention relates to the field of pouring equipment technology, specifically to a portable, mobile, multifunctional pouring equipment and its usage method. Background Technology
[0002] Pouring equipment is an essential component in the pouring of concrete for building structures. It provides a channel for pouring concrete (lightweight concrete, fluid materials) and uses a pouring machine to transport the poured concrete (lightweight concrete, fluid materials) through pipes and pouring pipelines into the building structure mold. When pouring concrete (lightweight concrete, fluid materials) into the hopper, splashing occurs. In actual operation, it is necessary to add clean water to the hopper to mix with the concrete (lightweight concrete, fluid materials) according to the actual situation. In view of this, traditional devices are not perfect and lack facilities to prevent concrete (lightweight concrete, fluid materials) from splashing and contaminating the pouring machine. A portable, mobile, multi-functional pouring equipment and its usage method can provide convenience for solving the above problems.
[0003] The shortcomings of existing pouring equipment are:
[0004] 1. Patent document: CN211548818U, a concrete pouring machine, "including a pouring machine body, a control panel at the front end of the pouring machine body, casters at the lower end of the pouring machine body, a fixing mechanism at one end of the pouring machine body, a fixing sleeve above the fixing mechanism at one end of the pouring machine body, a movable rod at one end of the fixing sleeve, an adjustment handle at one end of the pouring machine body near the fixing sleeve, a connecting wire at one end of the pouring machine body near the adjustment handle, and a storage mechanism inside the pouring machine body. The concrete pouring machine of this utility model facilitates the storage of the connecting wire and the fixing of the device, making it more convenient and stable during processing." Traditional devices are not perfect; they lack facilities to prevent concrete (lightweight concrete, fluid materials) from splashing and contaminating the pouring machine, requiring workers to hold wooden boards for shielding.
[0005] 2. Traditional devices are not perfect and do not provide protection for the control keys to prevent them from being accidentally touched during concrete (lightweight concrete, fluid materials) pouring, thus reducing safety.
[0006] 3. Traditional equipment is not perfect. There is no facility to easily add clean water into the hopper. Usually, it is necessary to manually hold the water pipe to add water, which increases labor consumption.
[0007] 4. Traditional devices are not perfect and lack facilities to prevent concrete (lightweight concrete, fluid materials) from clogging during pouring, which affects the speed at which concrete (lightweight concrete, fluid materials) is poured into the hopper. Summary of the Invention
[0008] The purpose of this invention is to provide a portable, mobile, multifunctional pouring device to solve the problems mentioned in the background art.
[0009] To achieve the above objectives, the present invention provides the following technical solution: a portable mobile multifunctional pouring equipment, including a pouring machine, wherein a hopper is installed on the front of the pouring machine;
[0010] Rotating rods are installed on both sides of the hopper. Support plates are installed on the outer sides of the rotating rods. A baffle is installed on the top of the support plate. A groove is opened on the top of the baffle. A rubber strip is fitted inside the groove. A bolt is threaded through the rubber strip. A push handle is installed on the top of the bolt. A connecting plate is installed on the outer side of the bolt via a bearing. A set of insertion holes is opened through the rubber strip. A set of insertion rods is installed at the bottom of the connecting plate, and the insertion rods pass through the insertion holes. A handle is installed on the top of the connecting plate. A protective layer is fitted on the outer side of the insertion rods and the bolt. The protective layer is located inside the groove and on the front of the baffle.
[0011] Preferably, a wheel plate is installed at the bottom of the hopper, a wheel rod is installed through the wheel plate and the interior of the casting machine, and rollers are installed on the outer side of the wheel rod, with the rollers located on both sides of the casting machine and the hopper.
[0012] Preferably, the top of the pouring machine is equipped with a cover, a hinge is installed on one side of the pouring machine, a control panel is installed at the opening and closing end of the hinge, multiple control keys are installed on one side of the control panel, a heat dissipation mesh is installed through one side of the pouring machine, a pressure gauge is installed on one side of the pouring machine, and the pressure gauge is located on top of the heat dissipation mesh, and the heat dissipation mesh is located on the back of the control panel.
[0013] Preferably, a side plate is installed on one side of the baffle, and a protective plate is installed on one end of the side plate. A clearance groove is opened through the bottom and back of the left side of the protective plate, and an opening is opened through one side of the protective plate, which is connected to the clearance groove. A transparent layer is installed inside the clearance groove. A frame plate is installed on one side of the protective plate, and a rotating rod is installed through the inside of the frame plate. A cover plate is installed outside the rotating rod, and a transparent plate is installed through the inside of the cover plate. Multiple transparent shells are installed on the back of the transparent plate, and a label is placed inside the transparent shell.
[0014] Preferably, the top of the hopper is equipped with a hopper opening, the inner side of the hopper is equipped with a screening grate, the front of the casting machine is equipped with a pipe, and the outer side of the pipe is equipped with a flange.
[0015] The position of the transparent shell corresponds to the position of the control key.
[0016] Preferably, an end plate is installed on the front of the hopper, a support column is installed through the end plate via a bearing, a push ring is installed on the outside of the support column, a support is installed on the top of the support column, a water pipe is installed through the support, a connecting ring is installed at one end of the water pipe, a corrugated pipe is installed at the bottom of the connecting ring, a sleeve is installed at the bottom end of the corrugated pipe, and a rubber ring is installed on the inner side of the sleeve.
[0017] Preferably, a side plate is hinged to the left side of the baffle, three magnets are mounted on the front of the side plate, and multiple cone rods are mounted on the back of the side plate. The positions of the cone rods correspond to the gap positions of the sieve grate. Four unblocking rods are mounted on the outside of the cone rods, and a hook rod is mounted on each unblocking rod at a position away from the cone rod. Three rubber sleeves are inlaid on the front of the baffle, and an iron plate is mounted on the inside of the rubber sleeves.
[0018] Preferably, the method of using the casting equipment is as follows:
[0019] S1. First, the staff can push the pouring machine according to the actual needs. Under the action of external force and the cooperation of the wheel plate, the pouring machine pushes the roller through the wheel rod. Under the action of external force, the roller rolls around the wheel rod with the friction of the ground. The pouring machine can move the hopper together with the roller to the appropriate working location and then power on the pouring machine.
[0020] S2. Subsequently, the workers need to use the fixing components to connect the pouring pipeline to the discharge pipe from the flange. Then, the pouring concrete (lightweight concrete, fluid material) for the main building construction needs to be poured into the inner side of the hopper through the hopper opening and the screening grate. After that, the workers need to operate the control keys with the support of the control panel to start the pouring machine, suck in the pouring concrete (lightweight concrete, fluid material) from the hopper and discharge it from the discharge pipe to the connected pouring pipeline, so that the pouring concrete (lightweight concrete, fluid material) can be poured into the main building through the connected pouring pipeline.
[0021] S3. When it is necessary to inject concrete (lightweight concrete, fluid material) into the inner side of the hopper, the operator can push the baffle according to the actual situation. Under the action of external force, the baffle rotates clockwise around the rotating rod via the support plate, so that the baffle is supported and placed on the front of the machine cover. At the same time, the operator needs to push the bolt around the bearing via the push handle, so that the bolt drives the connecting plate upward by using the thread action with the rubber strip. Under the action of external force, the connecting plate drives the insert rod to move upward along the insertion hole, so that the insert rod and bolt separate from the protective layer. Then, the operator pulls the connecting plate upward by the handle, so that the connecting plate drives the rubber strip from the inside of the groove to the outside via the bearing and bolt. This process releases the protective layer from its fixation, allowing it to be removed and replaced. The bolts are then rotated, causing them to move downwards using the threaded action with the rubber strip. Simultaneously, the bolts, through the bearings and connecting plate, drive the insert rod through the insertion hole. One end of the new protective layer is then fitted onto the outside of the bottom of the insert rod and bolt. The rubber strip is then inserted into the groove using the handle, allowing it to engage with the groove and press to secure the protective layer. This allows the protective layer to protect the front of the baffle, facilitating the interception of splashed concrete (lightweight concrete, fluid materials) from the hopper and inside the hopper opening, preventing the splashed concrete (lightweight concrete, fluid materials) from adhering to the pouring machine and machine cover.
[0022] S4. When the baffle is rotated counterclockwise, it will move the protective plate through the side plate under the action of external force, so that the protective plate covers all the control keys on the inside using the relief groove. Then, the operator can see the control keys through the transparent plate, transparent layer and opening. The protective plate, transparent layer and transparent plate work together to protect the control keys. The operator can also place the label with the name of the corresponding control key on the inside of the transparent shell according to the actual needs. The operator can see the name written on the label through the transparent shell and judge the function of the corresponding control key by the name written on the label at the corresponding position. The operator can pull the cover plate with the support of the frame plate according to the actual needs. Under the action of external force, the cover plate will drive the transparent plate to rotate 180 degrees counterclockwise around the rotating rod, so that the transparent layer is exposed. Then, the operator can use his / her fingers to push the transparent layer to deform from the appropriate position inside the opening and push the corresponding control key through the transparent layer. Thus, the device can effectively protect the control keys during the pouring work and prevent the control keys from being accidentally touched.
[0023] S5. Finally, according to the actual needs, the staff can use the inclined angle of the rubber ring to squeeze the rubber ring and insert it into the inside of the rubber ring under the support of the sleeve. The rubber ring uses its own elasticity to squeeze and fix the water delivery pipeline. Then, according to the actual needs, the staff can push the push ring under the support of the end plate. Under the action of external force, the push ring pushes the support column to rotate around the bearing. Under the action of external force, the support column drives the support to rotate. Under the action of external force, the support drives the water pipe to rotate together. The opening of one end of the water pipe moves to the inside of the hopper opening. Then, the water passes through the water delivery pipeline and enters the inside of the rubber ring. Then, the water will pass through the rubber ring and enter the inside of the corrugated pipe. It will then pass through the corrugated pipe and the connecting ring and flow into the inside of the water pipe. It will then be discharged into the inside of the hopper opening under the support of the support. Then, the water will pass through the hopper opening and the screening grate and be added to the inside of the hopper to mix with the building concrete (lightweight concrete, fluid material).
[0024] Preferably, step S2 further includes the following steps:
[0025] S21. When concrete (lightweight concrete, fluid material) is poured into the hopper and becomes clogged at the screening grate, the worker can, with the support of the baffle, push the side plate counterclockwise 180 degrees around the hinge, so that the front of the side plate is in contact with the front of the baffle. At the same time, under the action of external force, the side plate will drive the magnet to insert into the inside of the rubber sleeve under the support of the baffle, and under the action of external force, the rubber sleeve will be squeezed and deformed, so that the magnet can be in contact with the iron plate and be attracted to the front of the iron plate by magnetic force. The rubber sleeve, with its own elasticity, combined with the magnetic attraction between the magnet and the iron plate, firmly supports the side plate on the front of the baffle. Afterwards, the worker needs to push the baffle around the rotating rod. Rotating counterclockwise causes the baffle to move under the influence of external force and the connection of the magnet, hinge, and rubber sleeve, placing the side plate at the top of the hopper opening. Simultaneously, the side plate moves the cone rod under the influence of external force, allowing the cone rod to drive the unblocking rod through the gap at the corresponding position of the screening grate. Then, rotating the baffle clockwise around the rotating rod allows the side plate to move along with the unblocking rod via the cone rod. At the same time, the unblocking rod moves the hook rod under the influence of external force. During the movement, the hook rod, unblocking rod, and cone rod use their sharp ends to disturb and unblock the poured concrete (lightweight concrete, fluid material) blocking the inside of the screening grate, preventing the added poured concrete (lightweight concrete, fluid material) from clogging.
[0026] Compared with the prior art, the beneficial effects of the present invention are:
[0027] 1. This invention features a rotating rod that provides rotational support to the support plate under the support of the hopper. The support plate supports the baffle, which in turn provides a barrier against splashed concrete (lightweight concrete, fluid materials). The baffle allows the operator to push the baffle as needed, causing it to rotate clockwise around the rotating rod under external force, positioning it on the front of the machine cover. Simultaneously, the operator pushes a bolt around a bearing using a push handle, causing the bolt to move the connecting plate upwards via the threaded action with the rubber strip. This, in turn, causes the connecting plate to move the insert rod upwards along the insertion hole under external force, separating the insert rod and bolt from the protective layer. Finally, the connecting plate is pulled upwards using a handle. The connecting plate, via bearings and bolts, pulls the rubber strip out from the inside of the groove to the outside, thus releasing the protective layer from its fixing function. The protective layer is then removed and replaced. The bolts are rotated, causing them to move downwards using the threaded action with the rubber strip. Simultaneously, the bolts, via bearings and the connecting plate, drive the insert rod through the insertion hole. One end of the new protective layer is then fitted onto the outside of the bottom of the insert rod and bolt. The rubber strip is then inserted into the inside of the groove using a handle, allowing it to engage with the groove and compress and fix the protective layer. This allows the protective layer to protect the front of the baffle, facilitating the interception of poured concrete (lightweight concrete, fluid materials) splashed from the hopper and inside the hopper opening. This device effectively prevents splashed poured concrete (lightweight concrete, fluid materials) from adhering to the pouring machine and its cover.
[0028] 2. This invention features side panels that provide stable support for the protective plate under the support of the baffle. The protective plate provides space for the clearance grooves, which in turn provide clearance for the control keys. This allows the protective plate to cover and protect the control keys. The protective plate also provides stable support for the frame plate, which in turn supports the rotating rod. The rotating rod provides rotational support for the cover plate. When the baffle is rotated counterclockwise, it moves the protective plate via the side panels under external force, allowing the protective plate to cover all the control keys inside using the clearance grooves. The operator can then view the control keys through the transparent plate, transparent layer, and opening. The protective plate, transparent layer, and transparent plate work together to protect the control keys, and the operator can adjust the position according to actual needs. Labels with the corresponding control key names are placed inside the transparent shell, allowing workers to see the names written on them. By referring to the names on the labels, workers can determine the function of the corresponding control keys. As needed, workers can pull the cover plate with the support of the support plate, causing the cover plate to rotate the transparent plate 180 degrees counterclockwise around the rotating rod, exposing the transparent layer. Workers can then use their fingers to push the transparent layer from a suitable position inside the opening to deform it and operate the corresponding control key through the transparent layer. This device effectively protects the control keys during pouring operations, preventing accidental activation.
[0029] 3. This invention features an end plate that, supported by a hopper, provides rotational support to a support column via bearings. The support column provides stable support to the water pipe. The corrugated pipe can deform under external force and rebound after the force is removed. Workers can, as needed, insert the rubber ring into the inner side of the pipe, supported by the sleeve, using the angle of the rubber ring to compress and fix the water pipe using its elasticity. Then, workers can, as needed, push the push ring with the end plate as support, causing the push ring to push around the bearing as a center under external force. The rotating support causes the support to rotate under external force, which in turn causes the water pipe to rotate. This moves one end of the water pipe to the inside of the hopper opening, allowing clean water to pass through the water supply pipe into the inside of the rubber ring. The water then passes through the rubber ring into the inside of the corrugated pipe, and through the corrugated pipe and connecting ring into the inside of the water pipe. Supported by the support, the water then flows out into the inside of the hopper opening. The water then passes through the hopper opening and the screening grate to be added to the inside of the hopper and mixes with the concrete (lightweight concrete, fluid material) being poured. This allows the device to easily add clean water to the inside of the hopper, saving manpower.
[0030] 4. This invention features a side plate hinged to the left side of the baffle. The side plate provides stable support for the magnet, allowing it to adhere to the metal surface using magnetic force. It also provides stable support for the tapered rod, one end of which is sharp. With the support of the baffle, the operator can rotate the side plate 180 degrees counterclockwise around the hinge, bringing its front side into contact with the front of the baffle. Simultaneously, the side plate, under external force, causes the magnet to be inserted into the inner side of the rubber sleeve, and the sleeve is deformed by the external force, allowing the magnet to adhere to the iron plate and adhere to its front side. The rubber sleeve, using its elasticity and the magnetic attraction between the magnet and the iron plate, firmly supports the side plate on the front of the baffle. The operator then needs to rotate the rod around the hinge... The baffle is rotated counterclockwise, causing the side plate to be positioned at the top of the hopper opening under the action of external force and the connection of the magnet, hinge, and rubber sleeve. At the same time, the side plate moves the cone rod under the action of external force, causing the cone rod to drive the unblocking rod through the gap at the corresponding position of the screening grate. Then, the baffle is rotated clockwise around the rotating rod, allowing the side plate to move along with the unblocking rod through the cone rod. Simultaneously, the unblocking rod moves the hook rod under the action of external force. During the movement, the hook rod, unblocking rod, and cone rod use their sharp ends to disturb and unblock the poured concrete (lightweight concrete, fluid material) blocking the inside of the screening grate, preventing the added poured concrete (lightweight concrete, fluid material) from clogging and increasing the pouring speed of the poured concrete (lightweight concrete, fluid material). Attached Figure Description
[0031] Figure 1 This is a schematic diagram of the overall structure of the present invention;
[0032] Figure 2 This is a three-dimensional structural diagram of the pouring machine of the present invention;
[0033] Figure 3 This is a schematic diagram of the three-dimensional structure of the end plate of the present invention;
[0034] Figure 4 This is a schematic diagram of the three-dimensional structure of the adhesive ring of the present invention;
[0035] Figure 5 This is a schematic diagram of the tapered rod structure of the present invention;
[0036] Figure 6 This is a schematic diagram of the iron plate structure of the present invention;
[0037] Figure 7 This is a schematic diagram of the clearance groove structure of the present invention;
[0038] Figure 8 This is a schematic diagram of the rubber strip structure of the present invention;
[0039] Figure 9 This is a schematic diagram of the groove structure of the present invention.
[0040] In the diagram: 1. Pouring machine; 2. Hopper; 3. Wheel plate; 4. Wheel rod; 5. Roller; 6. Machine cover; 7. Hinge; 8. Control panel; 9. Control key; 10. Heat dissipation mesh; 11. Pressure gauge; 12. Hopper opening; 13. Screening grate; 14. Concrete (lightweight concrete, fluid material) pipe end; 15. Flange; 16. Rotating rod; 17. Support plate; 18. Baffle; 19. Groove; 20. Rubber strip; 21. Bolt; 22. Push handle; 23. Connecting plate; 24. Insertion hole; 25. Insertion rod; 26. Handle; 27. 1. Protective layer; 28. Side plate; 29. Guard plate; 30. Leaving groove; 31. Through opening; 32. Transparent layer; 33. Frame plate; 34. Rotary rod; 35. Cover plate; 36. Transparent plate; 37. Transparent shell; 38. Marking; 39. End plate; 40. Support column; 41. Push ring; 42. Support; 43. Water pipe; 44. Connecting ring; 45. Corrugated pipe; 46. Sleeve; 47. Rubber ring; 48. Side plate; 49. Magnet; 50. Conical rod; 51. Unblocking rod; 52. Hook rod; 53. Rubber sleeve; 54. Iron plate. Detailed Implementation
[0041] The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of the present invention.
[0042] In the description of this invention, it should be noted that the terms "upper," "lower," "inner," "outer," "front end," "rear end," "both ends," "one end," and "the other end," etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are used only for the convenience of describing this invention and for simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and should not be construed as indicating or implying relative importance.
[0043] In the description of this invention, it should be noted that, unless otherwise explicitly specified and limited, the terms "installed," "equipped with," "connected," etc., should be interpreted broadly. For example, "connection" can be a fixed connection, a detachable connection, or an integral connection; it can be a mechanical connection or an electrical connection; it can be a direct connection or an indirect connection through an intermediate medium; it can be a connection within two components. Those skilled in the art can understand the specific meaning of the above terms in this invention based on the specific circumstances.
[0044] Please see Figure 1 and Figure 2This invention provides an embodiment of a portable, mobile, multi-functional pouring device, comprising a pouring machine 1, a wheel plate 3 mounted on the bottom of a hopper 2, a wheel rod 4 penetrating the interior of the wheel plate 3 and the pouring machine 1, and rollers 5 mounted on the outer side of the wheel rod 4, with the rollers 5 located on both sides of the pouring machine 1 and the hopper 2. The pouring machine 1 provides stable support for the hopper 2, and the hopper 2 provides a channel for concrete (lightweight concrete, fluid material) to enter the pouring machine 1. The hopper 2 also provides stable support for the wheel plate 3. The wheel plate 3 and the pouring machine 1 provide rotational support for the rollers 5 through the wheel rod 4. Operators can push the pouring machine 1 as needed, allowing the pouring machine 1 to engage with the wheel plate 3 under external force. The roller 5 is pushed by the wheel rod 4, causing the roller 5 to roll around the wheel rod 4 under the action of external force and the friction with the ground. This allows the pouring machine 1 to move the hopper 2 to a suitable working location using the roller 5. The hopper 2 is installed on the front of the pouring machine 1, and the machine cover 6 is installed on the top of the pouring machine 1. A hinge 7 is installed on one side of the pouring machine 1, and a control panel 8 is installed at the opening and closing end of the hinge 7. Multiple control keys 9 are installed on one side of the control panel 8. A heat dissipation mesh 10 is installed through one side of the pouring machine 1, and a pressure gauge 11 is installed on one side of the pouring machine 1, with the pressure gauge 11 located on top of the heat dissipation mesh 10, which is located on the back of the control panel 8. The hopper 2 has a hopper opening installed on the top. 12. A screening grate 13 is installed inside the hopper 2. A pipe 14 is installed through the front of the pouring machine 1, and a flange 15 is installed on the outside of the pipe 14. Workers can pull the control panel 8 with the support of the pouring machine 1 as needed, causing the control panel 8 to rotate clockwise around the hinge 7 to open an opening on one side of the pouring machine 1. This facilitates maintenance of the internal facilities of the pouring machine 1 through the opening. The heat dissipation mesh 10 provides a passage for air circulation, allowing the pouring machine 1 to dissipate heat. The pressure gauge 11 displays the operating pressure of the pouring machine 1 for reference. After the pouring machine 1 starts, it will pour the concrete (lightweight concrete, fluid material) from the hopper 2. The concrete is sucked out and transported to the discharge pipe 14. The workers need to use the fixing parts to connect the pouring pipe to the discharge pipe 14 from the flange 15. Then, the pouring concrete (lightweight concrete, fluid material) for the main construction needs to be poured into the inner side of the hopper 2 through the hopper opening 12 and the screening grate 13. After that, the workers need to operate the control key 9 with the support of the control panel 8 to start the pouring machine 1 to suck in the pouring concrete (lightweight concrete, fluid material) in the hopper 2 and discharge it from the discharge pipe 14 to the connected pouring pipe, so that the pouring concrete (lightweight concrete, fluid material) can be poured into the main construction through the connected pouring pipe. The screening grate 13 can intercept larger impurities in the pouring concrete (lightweight concrete, fluid material).
[0045] Please see Figure 1 , Figure 2 , Figure 6 , Figure 8 and Figure 9 An embodiment of the present invention provides a portable mobile multifunctional pouring device and its usage method, comprising a hopper 2, rotating rods 16 installed on both sides of the hopper 2, a support plate 17 installed on the outer side of the rotating rods 16, a baffle 18 installed on the top of the support plate 17, a groove 19 formed on the top of the baffle 18, a rubber strip 20 fitted inside the groove 19, a bolt 21 threaded through the inside of the rubber strip 20, a push handle 22 installed on the top of the bolt 21, a connecting plate 23 installed on the outer side of the bolt 21 via a bearing, a set of insertion holes 24 formed through the inside of the rubber strip 20, a set of insertion rods 25 installed at the bottom of the connecting plate 23, and the insertion rods 25 passing through the insertion holes 24, and a top of the connecting plate 23 being fitted with... The hopper 2 is fitted with a handle 26, a rod 25, and a bolt 21. A protective layer 27 is fitted over the outside of the hopper 2, which is located inside the groove 19 and on the front of the baffle 18. The hopper 2 can provide rotational support to the support plate 17 via the rotating rod 16. The support plate 17 can stably support the baffle 18. The protective layer 27 is relatively soft and can deform under external force, and can cover the front of the baffle 18. The insertion hole 24 provides a through channel for the rod 25, and the rod 25 and bolt 21 work together to hold the protective layer 27. When concrete (lightweight concrete, fluid material) needs to be poured into the inside of the hopper 2, the worker can push the baffle 18 according to the actual needs, so that the baffle 18 is supported by external force. Rotate the support plate 17 clockwise around the rotating rod 16 to support the baffle 18 on the front of the cover 6. Simultaneously, the operator pushes the bolt 21 around the bearing using the push handle 22. The bolt 21, through its threaded action with the rubber strip 20, moves the connecting plate 23 upwards. Under external force, the connecting plate 23 moves the insertion rod 25 upwards along the insertion hole 24, separating the insertion rod 25 and bolt 21 from the protective layer 27. Then, pull the connecting plate 23 upwards using the handle 26, causing it to pull the rubber strip 20 out of the groove 19 via the bearing and bolt 21, thus releasing the protective layer 27. The protective layer 27 can then be removed and replaced. Then, rotate bolt 21 to move it downwards using the thread action with rubber strip 20. At the same time, bolt 21 will drive insert rod 25 through insert hole 24 via bearing and connecting plate 23. Then, one end of new protective layer 27 is fitted onto the outside of the bottom end of insert rod 25 and bolt 21. Rubber strip 20 is inserted into the inside of groove 19 through handle 26, so that rubber strip 20 can cooperate with groove 19 to squeeze and fix protective layer 27. Protective layer 27 can protect the front of baffle 18, which can intercept the poured concrete (lightweight concrete, fluid material) splashed from the inside of hopper 2 and hopper opening 12, and prevent the splashed poured concrete (lightweight concrete, fluid material) from sticking to pouring machine 1 and machine cover 6.
[0046] Please see Figure 1 , Figure 2 and Figure 7This invention provides an embodiment of a portable, mobile, multi-functional pouring device and its usage method, comprising a baffle 18, a side plate 28 installed on one side of the baffle 18, a protective plate 29 installed at one end of the side plate 28, a clearance groove 30 extending through the bottom and back of the left side of the protective plate 29, an opening 31 extending through one side of the protective plate 29 and communicating with the clearance groove 30, a transparent layer 32 installed inside the clearance groove 30, a support plate 33 installed on one side of the protective plate 29, a rotating rod 34 extending through the inside of the support plate 33, and a cover plate 35 extending outward from the rotating rod 34. A transparent plate 36 is installed through the interior of 35. Multiple transparent shells 37 are installed on the back of the transparent plate 36. A label 38 is placed on the inside of the transparent shell 37. The position of the transparent shell 37 corresponds to the position of the control key 9. The baffle 18 provides stable support for the side plate 28, and the side plate 28 provides support for the protective plate 29. The protective plate 29 can cooperate with the relief groove 30 to provide protection for the control key 9. The cover plate 35 can cover the opening 31 and can cooperate with the protective plate 29 to provide protection for the control key 9. When the baffle 18 is rotated counterclockwise, it will be driven by the side plate 28 under the action of external force. The protective plate 29 moves, allowing the recessed slot 30 to cover all control keys 9 on its inner side. Then, the operator can view the control keys 9 through the transparent plate 36, transparent layer 32, and opening 31. The protective plate 29, transparent layer 32, and transparent plate 36 work together to provide protection for the control keys 9. Furthermore, the operator can place labels 38 with the corresponding control key 9 names inside the transparent shell 37 as needed, allowing them to view the names written on the labels 38 through the transparent shell 37 and identify the correct control key 9 based on the names written on the labels 38 at the corresponding positions. According to the function of the control key 9 at the corresponding position, the operator can pull the cover plate 35 under the support of the support plate 33 as needed. Under the action of external force, the cover plate 35 will drive the transparent plate 36 to rotate 180 degrees counterclockwise around the rotating rod 34, exposing the transparent layer 32. Then, the operator can use their fingers to push the transparent layer 32 to deform from the appropriate position inside the opening 31, and push the control key 9 at the corresponding position through the transparent layer 32. Thus, the device can effectively protect the control key 9 during the pouring work and prevent the control key 9 from being accidentally touched.
[0047] Please see Figure 1 , Figure 3 and Figure 4This invention provides an embodiment of a portable, mobile, multi-functional pouring device and its usage method, comprising a hopper 2, an end plate 39 mounted on the front of the hopper 2, a support column 40 mounted through a bearing inside the end plate 39, a push ring 41 mounted on the outer side of the support column 40, a support 42 mounted on the top of the support column 40, a water pipe 43 mounted through the support 42, a connecting ring 44 mounted at one end of the water pipe 43, a corrugated pipe 45 mounted at the bottom of the connecting ring 44, a sleeve 46 mounted at the bottom end of the corrugated pipe 45, and a rubber ring 47 mounted on the inner side of the sleeve 46. The hopper 2 provides stable support for the end plate 39, the end plate 39 provides rotational support for the support column 40 through the bearing, the support column 40 provides support for the push ring 41, and the push ring 41 allows the worker to easily rotate the support column 40 by gripping the space. The rubber ring 47 has a certain tilt angle, elasticity, and friction, and can deform under external force and rebound after the external force disappears. The worker can adjust the rotation according to the actual needs. Supported by sleeve 46, the water-carrying pipeline is pressed against the rubber ring 47 by its inclined angle and inserted into the inside of the rubber ring 47. The rubber ring 47 uses its own elasticity to press and fix the water-carrying pipeline. Then, as needed, the operator can push the push ring 41 with the support of end plate 39. Under external force, the push ring 41 pushes the support column 40 to rotate around the bearing, causing the support column 40 to rotate under external force, which in turn causes the support 42 to rotate, and the support 42 to rotate the water pipe 43 under external force. As the water pipe rotates, one end of the water pipe 43 moves to the inside of the hopper opening 12. Then, clean water passes through the water supply pipe and enters the inside of the rubber ring 47. The water then passes through the rubber ring 47 and enters the inside of the corrugated pipe 45. It then passes through the corrugated pipe 45 and the connecting ring 44 and flows into the inside of the water pipe 43. It then flows along the water pipe 43 and is discharged into the inside of the hopper opening 12 under the support of the support 42. The water then passes through the hopper opening 12 and the screening grate 13 and is added to the inside of the hopper 2 to mix with the building concrete (lightweight concrete, fluid material).
[0048] Please see Figure 1 , Figure 2 and Figure 3This invention provides an embodiment of a portable, mobile, multifunctional pouring device and its usage method, comprising a baffle 18, a side plate 48 hinged to the left side of the baffle 18, three magnets 49 mounted on the front of the side plate 48, and multiple conical rods 50 mounted on the back of the side plate 48. The positions of the conical rods 50 correspond to the gap positions of the sieve grate 13. Four unblocking rods 51 are mounted on the outer side of the conical rods 50, and a hook rod 52 is mounted on each unblocking rod 51 at a position away from the conical rod 50. Three rubber sleeves 53 are inlaid on the front of the baffle 18, and an iron plate 54 is mounted on the inner side of the rubber sleeves 53. The baffle 18 can be hinged. The chain provides rotational support for the side plate 48, which in turn provides stable support for the cone rod 50. The cone rod 50 provides support for the unblocking rod 51. One end of the unblocking rod 51, the cone rod 50, and the hook rod 52 is relatively sharp. The iron plate 54 is made of metal. When concrete (lightweight concrete, fluid material) is poured into the inner side of the hopper 2 and becomes blocked at the screening grate 13, the worker can push the side plate 48 counterclockwise by rotating it 180 degrees with the hinge as the center, supported by the baffle 18, so that the front of the side plate 48 is in contact with the front of the baffle 18. At the same time, the side plate 48 will drive the magnet under the action of external force. 49 is inserted into the inner side of the rubber sleeve 53 under the support of the baffle 18, and the rubber sleeve 53 is deformed under the action of external force, so that the magnet 49 can fit against the iron plate 54 and be attracted to the front of the iron plate 54 by magnetic force. The rubber sleeve 53 uses its own elasticity to cooperate with the magnetic attraction between the magnet 49 and the iron plate 54 to firmly support the side plate 48 on the front of the baffle 18. Then, the operator needs to push the baffle 18 counterclockwise with the rotating rod 16 as the center, so that the baffle 18, under the action of external force and the connection of the magnet 49, hinge and rubber sleeve 53, will drive the side plate 48 to be placed on the top of the hopper opening 12. At the same time, the side plate 48 will be on the outside. Under the action of force, the cone rod 50 moves together, causing the cone rod 50 to drive the unblocking rod 51 through the gap at the corresponding position of the sieve grate 13. Then, the baffle 18 is rotated clockwise with the rotating rod 16 as the center, so that the side plate 48 can move together with the unblocking rod 51 through the cone rod 50. At the same time, the unblocking rod 51 will drive the hook rod 52 to move together under the action of external force. During the movement, the hook rod 52, the unblocking rod 51 and the cone rod 50 use their sharp ends to disturb and unblock the poured concrete (lightweight concrete, fluid material) blocking the inside of the sieve grate 13, preventing the added poured concrete (lightweight concrete, fluid material) from clogging.
[0049] Furthermore, the usage method of the casting equipment is as follows:
[0050] S1. First, the staff can push the pouring machine 1 according to the actual needs. Under the action of external force, the pouring machine 1, in cooperation with the wheel plate 3, pushes the roller 5 through the wheel rod 4. Under the action of external force, the roller 5 rolls around the wheel rod 4 with the friction force of the ground. The pouring machine 1 can move the hopper 2 together with the roller 5 to a suitable working location and power the pouring machine 1.
[0051] S2. Subsequently, the workers need to use the fixing components to connect the pouring pipe to the drain pipe 14 from the flange 15. Then, the pouring concrete (lightweight concrete, fluid material) for the main building construction needs to be poured into the inner side of the hopper 2 through the hopper opening 12 and the sieve 13. After that, the workers need to operate the control key 9 with the support of the control panel 8 to start the pouring machine 1 to suck in the pouring concrete (lightweight concrete, fluid material) from the hopper 2 and discharge it from the drain pipe 14 into the connected pouring pipe, so that the pouring concrete (lightweight concrete, fluid material) can be poured into the main building through the connected pouring pipe.
[0052] S3. When it is necessary to inject concrete (lightweight concrete, fluid material) into the inner side of hopper 2, the operator can push the baffle 18 according to the actual situation. Under the action of external force, the baffle 18 rotates clockwise around the rotating rod 16 via the support plate 17, so that the baffle 18 is supported and placed on the front of the machine cover 6. At the same time, the operator needs to push the bolt 21 around the bearing via the push handle 22, so that the bolt 21 drives the connecting plate 23 to move upward through the thread action with the rubber strip 20. Under the action of external force, the connecting plate 23 drives the insertion rod 25 to move upward along the insertion hole 24, so that the insertion rod 25 and the bolt 21 are separated from the protective layer 27. Then, the connecting plate 23 is pulled upward via the handle 26, so that the connecting plate 23 drives the rubber strip 20 from the inside of the groove 19 to the outside through the bearing and the bolt 21. This releases the fixing effect on the protective layer 27, then removes the protective layer 27 for replacement, and rotates the bolt 21 so that the bolt 21 moves downward by the thread action with the rubber strip 20. At the same time, the bolt 21 will drive the insertion rod 25 through the insertion hole 24 through the bearing and connecting plate 23. Then, one end of the new protective layer 27 is fitted onto the outside of the bottom end of the insertion rod 25 and the bolt 21, and the rubber strip 20 is inserted into the inside of the groove 19 by the handle 26, so that the rubber strip 20 can cooperate with the groove 19 to squeeze and fix the protective layer 27, so that the protective layer 27 can protect the front of the baffle 18, which can conveniently intercept the poured concrete (lightweight concrete, fluid material) splashed from the inside of the hopper 2 and the hopper opening 12, and prevent the splashed poured concrete (lightweight concrete, fluid material) from sticking to the pouring machine 1 and the machine cover 6;
[0053] S4. When the baffle 18 is rotated counterclockwise, it will move the protective plate 29 through the side plate 28 under the action of external force. The protective plate 29 uses the relief groove 30 to cover all the control keys 9 on the inside. Then, the staff can see the control keys 9 through the transparent plate 36, the transparent layer 32 and the opening 31. The protective plate 29, the transparent layer 32 and the transparent plate 36 work together to protect the control keys 9. The staff can also place the label 38 with the corresponding name of the control key 9 inside the transparent shell 37 as needed, so that the staff can see the name written on the label 38 through the transparent shell 37 and use the corresponding position. The name written on the label 38 indicates the function of the control key 9 at the corresponding position. According to the actual needs, the staff can pull the cover plate 35 with the support of the support plate 33. Under the action of external force, the cover plate 35 will drive the transparent plate 36 to rotate 180 degrees counterclockwise around the rotating rod 34, so that the transparent layer 32 is exposed. Then, the staff can use their fingers to push the transparent layer 32 to deform from the appropriate position inside the opening 31, and push the control key 9 at the corresponding position through the transparent layer 32. Thus, the device can effectively protect the control key 9 during the pouring work and prevent the control key 9 from being accidentally touched.
[0054] S5. Finally, as needed, the operator can, under the support of the sleeve 46, use the inclined angle of the rubber ring 47 to squeeze the rubber ring 47 and insert it into the inside of the rubber ring 47, so that the rubber ring 47 can use its own elasticity to squeeze and fix the water delivery pipeline. Then, as needed, the operator can, under the support of the end plate 39, push the push ring 41, so that the push ring 41, under the action of external force, pushes the support column 40 to rotate around the bearing, so that the support column 40, under the action of external force, drives the support 42 to rotate, so that the support 42, under the action of external force, drives the support 42 to rotate. Under the action, the water pipe 43 rotates together, causing one end of the water pipe 43 to move to the inside of the hopper opening 12. Then, the clean water passes through the water conveying pipe and enters the inside of the rubber ring 47. The water then passes through the rubber ring 47 and enters the inside of the corrugated pipe 45, and flows through the corrugated pipe 45 and the connecting ring 44 into the inside of the water pipe 43. It then flows along the water pipe 43 and is discharged to the inside of the hopper opening 12 under the support of the support 42. The water then passes through the hopper opening 12 and the screening grate 13 and is added to the inside of the hopper 2 to mix with the building concrete (lightweight concrete, fluid material).
[0055] Furthermore, step S2 also includes the following steps:
[0056] S21. When concrete (lightweight concrete, fluid material) is poured into the hopper 2 and becomes blocked at the screening grate 13, the worker can push the side plate 48 counterclockwise by the hinge with the support of the baffle 18, so that the front of the side plate 48 is in contact with the front of the baffle 18. At the same time, the side plate 48 will drive the magnet 49 to be inserted into the inside of the rubber sleeve 53 with the support of the baffle 18 under the action of external force, and the rubber sleeve 53 will be deformed under the action of external force, so that the magnet 49 can be in contact with the iron plate 54 and be attracted to the front of the iron plate 54 by magnetic force. The rubber sleeve 53 uses its own elasticity and the magnetic attraction between the magnet 49 and the iron plate 54 to firmly support the side plate 48 on the front of the baffle 18. After that, the worker needs to push the baffle 18 with the rotating rod 16 as the center. Rotating counterclockwise causes the baffle 18, under the action of external force and the connection of magnet 49, hinge and rubber sleeve 53, to move the side plate 48 to the top of the hopper opening 12. At the same time, the side plate 48 will move the cone rod 50 together under the action of external force, so that the cone rod 50 will move the unblocking rod 51 through the gap at the corresponding position of the screening grate 13. Then, the baffle 18 is rotated clockwise with the rotating rod 16 as the center, so that the side plate 48 can move together with the unblocking rod 51 through the cone rod 50. At the same time, the unblocking rod 51 will move the hook rod 52 together under the action of external force. During the movement, the hook rod 52, the unblocking rod 51 and the cone rod 50 use their sharp ends to disturb and unblock the poured concrete (lightweight concrete, fluid material) blocking the inside of the screening grate 13, so as to prevent the added poured concrete (lightweight concrete, fluid material) from clogging.
[0057] Working principle: Before using the device, it is necessary to check whether there are any problems that may affect its use. When the operator needs to use the device, the device should first be moved to the work site using roller 5 and powered on. At the same time, the pouring pipe should be connected to the pipeline 14 from the flange 15 using the fixing component. Then, the baffle 18 should be rotated counterclockwise around the rotating rod 16, so that the baffle 18 cooperates with the protective layer 27 to prevent concrete (lightweight concrete, fluid material) from splashing onto the pouring machine 1. At the same time, the produced pouring concrete (lightweight concrete, fluid material) is passed through... The material is poured into the inner side of the hopper 2 through the hopper inlet 12 and the sieve 13. Then, the cover plate 35 is rotated counterclockwise around the rotating rod 34, and the control key 9 at the corresponding position is pressed through the transparent layer 32 to start the pouring machine 1. At the same time, the operator can insert the pipeline for conveying clean water into the inner side of the rubber ring 47 according to the actual needs, so that the clean water is delivered to the inner side of the hopper 2 through the water pipe 43 and mixed with the concrete (lightweight concrete, fluid material). The pouring machine 1 then discharges the concrete (lightweight concrete, fluid material) in the hopper 2 from the discharge pipe 14 for pouring.
[0058] It will be apparent to those skilled in the art that the present invention is not limited to the details of the exemplary embodiments described above, and that the invention can be implemented in other specific forms without departing from its spirit or essential characteristics. Therefore, the embodiments should be considered in all respects as exemplary and non-limiting, and the scope of the invention is defined by the appended claims rather than the foregoing description. Thus, all variations falling within the meaning and scope of equivalents of the claims are intended to be included within the present invention. No reference numerals in the claims should be used to limit the scope of the claims by their position.
Claims
1. A portable, mobile, multi-functional pouring equipment, comprising a pouring machine, characterized in that: A hopper is installed on the front of the pouring machine; Rotating rods are installed on both sides of the hopper. Support plates are installed on the outer sides of the rotating rods. A baffle is installed on the top of the support plates. A groove is opened on the top of the baffle. A rubber strip is fitted inside the groove. A bolt is threaded through the inside of the rubber strip. A push handle is installed on the top of the bolt. A connecting plate is installed on the outside of the bolt via a bearing. A set of insertion holes are opened through the inside of the rubber strip. A set of insertion rods is installed at the bottom of the connecting plate, and the insertion rods pass through the insertion holes. A handle is installed on the top of the connecting plate. A protective layer is fitted on the outside of the insertion rods and the bolts. The protective layer is located inside the groove and on the front of the baffle. The top of the pouring machine is equipped with a cover, a hinge is installed on one side of the pouring machine, a control panel is installed on the opening and closing end of the hinge, multiple control keys are installed on one side of the control panel, a heat dissipation mesh is installed through one side of the pouring machine, a pressure gauge is installed on one side of the pouring machine, and the pressure gauge is located on top of the heat dissipation mesh, and the heat dissipation mesh is located on the back of the control panel. A side plate is installed on one side of the baffle, and a protective plate is installed on one end of the side plate. A clearance groove is opened through the bottom and back of the left side of the protective plate. An opening is opened through one side of the protective plate, and the opening is connected to the clearance groove. A transparent layer is installed inside the clearance groove. A frame plate is installed on one side of the protective plate. A rotating rod is installed through the inside of the frame plate. A cover plate is installed outside the rotating rod. A transparent plate is installed through the inside of the cover plate. Multiple transparent shells are installed on the back of the transparent plate. A label is placed inside the transparent shell. The top of the hopper is equipped with a hopper opening, the inner side of the hopper is equipped with a screening grate, the front of the casting machine is equipped with a pipe, and the outer side of the pipe is equipped with a flange. The position of the transparent shell corresponds to the position of the control key; A side plate is hinged to the left side of the baffle. Three magnets are installed on the front of the side plate, and multiple cone rods are installed on the back of the side plate. The positions of the cone rods correspond to the gap positions of the sieve grate. Four unblocking rods are installed on the outside of the cone rods. A hook rod is installed on each unblocking rod away from the cone rod. Three rubber sleeves are inlaid on the front of the baffle, and an iron plate is installed on the inside of the rubber sleeves.
2. The portable mobile multifunctional pouring equipment according to claim 1, characterized in that: The bottom of the hopper is equipped with a wheel plate, and a wheel rod is installed through the wheel plate and the inside of the casting machine. Rollers are installed on the outside of the wheel rod, and the rollers are located on both sides of the casting machine and the hopper.
3. The portable mobile multifunctional pouring equipment according to claim 2, characterized in that: An end plate is installed on the front of the hopper. A support column is installed through the end plate via a bearing. A push ring is installed on the outside of the support column. A support is installed on the top of the support column. A water pipe is installed through the support. A connecting ring is installed at one end of the water pipe. A corrugated pipe is installed at the bottom of the connecting ring. A sleeve is installed at the bottom end of the corrugated pipe. A rubber ring is installed on the inside of the sleeve.
4. A method of using the portable mobile multifunctional pouring equipment according to claim 3, characterized in that: The steps are as follows: S1. The staff can push the pouring machine according to the actual needs, so that the pouring machine, under the action of external force and in cooperation with the wheel plate, pushes the roller through the wheel rod. Under the action of external force, the roller rolls around the wheel rod with the friction of the ground. The pouring machine drives the hopper to move to the appropriate working location with the roller and then power on the pouring machine. S2. The workers need to use the fixing parts to connect the pouring pipe to the discharge pipe from the flange. The pouring concrete for the main building construction needs to be poured through the hopper opening and the screening grate into the inside of the hopper. Then, the workers operate the control keys with the support of the control panel. The pouring machine starts to suck in the pouring concrete from the hopper and discharge it from the discharge pipe into the connected pouring pipe. The pouring concrete is poured into the main building through the connected pouring pipe. S3. When it is necessary to inject concrete into the inner side of the hopper, the staff pushes the baffle according to the actual situation. Under the action of external force, the baffle rotates clockwise around the rotating rod through the support plate. The baffle is placed on the front of the machine cover. At the same time, the staff pushes the bolt around the bearing through the push handle. The bolt drives the connecting plate to move upward through the thread action with the rubber strip. Under the action of external force, the connecting plate drives the insertion rod to move upward along the insertion hole. The insertion rod and bolt separate from the protective layer. Then, the connecting plate is pulled upward through the handle. The connecting plate drives the rubber strip from the inside of the groove to the outside through the bearing and bolt, thereby releasing the fixing effect on the protective layer. Afterwards, the protective layer is removed and replaced, and the bolt is rotated. The bolt moves downwards using the thread action with the rubber strip. At the same time, the bolt drives the insertion rod through the insertion hole via the bearing and connecting plate. Then, one end of the new protective layer is fitted onto the outside of the bottom end of the insertion rod and the bolt. The rubber strip is then inserted into the inside of the groove using the handle. The rubber strip and the groove cooperate to compress and fix the protective layer. The protective layer protects the front of the baffle, making it easy to intercept the concrete splashed from the hopper and the inside of the hopper opening, preventing the splashed concrete from sticking to the pouring machine and the machine cover. S4. When the baffle is rotated counterclockwise, it will move the protective plate through the side plate under the action of external force. The protective plate uses the relief groove to cover all the control keys on the inside. Then, the staff can see the control keys through the transparent plate, transparent layer and opening. The protective plate, transparent layer and transparent plate work together to protect the control keys. According to the actual needs, the staff can place the labels with the corresponding control key names on the inside of the transparent shell. The staff can see the names written on the labels through the transparent shell and judge the function of the control key at the corresponding position by the names written on the labels at the corresponding positions. According to the actual needs, the staff can pull the cover plate with the support of the frame plate. Under the action of external force, the cover plate will drive the transparent plate to rotate 180 degrees counterclockwise around the rotating rod. The transparent layer will be exposed. Then, the staff can use their fingers to push the transparent layer to deform from the appropriate position inside the opening and push the control key at the corresponding position through the transparent layer. This effectively protects the control keys during the pouring work and prevents the control keys from being accidentally touched. S5. Finally, according to the actual needs, the staff will use the inclined angle of the rubber ring to squeeze the water conveying pipeline under the support of the sleeve and insert it into the inside of the rubber ring. The rubber ring will use its own elasticity to squeeze and fix the water conveying pipeline. Then, according to the actual needs, the staff will push the push ring under the support of the end plate. Under the action of external force, the push ring will push the support to rotate around the bearing. Under the action of external force, the support will drive the support to rotate. Under the action of external force, the support will drive the water pipe to rotate together. One end of the water pipe will move to the inside of the hopper opening. Then, the water will pass through the water conveying pipeline and enter the inside of the rubber ring. Then, the water will pass through the rubber ring and enter the inside of the corrugated pipe, and then pass through the corrugated pipe and the connecting ring to flow into the inside of the water pipe. And then, under the support of the support, the water pipe will be discharged to the inside of the hopper opening. Then, the water will pass through the hopper opening and the screening grate and be added to the inside of the hopper to mix with the concrete being poured.
5. The method of using a portable mobile multifunctional pouring equipment according to claim 4, characterized in that: Step S2 further includes the following steps: S21. When concrete is poured into the hopper and becomes blocked at the sieve grate, the worker, supported by the baffle, pushes the side plate counterclockwise 180 degrees with the hinge as the center. The front of the side plate is in contact with the front of the baffle. At the same time, the side plate will drive the magnet to be inserted into the inside of the rubber sleeve under the support of the baffle. Under the action of the external force, the rubber sleeve is squeezed and deformed, and the magnet can be in contact with the iron plate and be attracted to the front of the iron plate by magnetic force. The rubber sleeve uses its own elasticity to cooperate with the magnetic attraction between the magnet and the iron plate to firmly support the side plate on the front of the baffle. Then, the worker pushes the baffle counterclockwise with the rotating rod as the center. Under the action of the external force and the connection of the magnet, hinge and rubber sleeve, the baffle moves the side plate to the top of the hopper opening. At the same time, the side plate will move the cone rod together under the action of the external force. Under the action of the external force, the cone rod moves the unblocking rod through the gap at the corresponding position of the sieve grate. Then, rotate the baffle clockwise around the rotating rod. The side plate moves together with the unblocking rod through the cone rod. At the same time, the unblocking rod will move together with the hook rod under the action of external force. During the movement, the hook rod, unblocking rod and cone rod use their sharp ends to disturb and unblock the poured concrete that is blocked inside the sieve grate, so as to prevent the added poured concrete from blocking.