A new material stirring device

Abstract

The present application relates to a kind of stirring equipment, especially a kind of stirring equipment for new material.The technical problem of the present application is to provide a kind of stirring equipment for new material, which can improve stirring efficiency and save time and effort.The technical scheme of the present application is: a kind of stirring equipment for new material, including bottom plate, support plate, fixed frame, stirring box, stirring mechanism and collection mechanism, support plate is provided on the bottom plate, the top of support plate is provided with fixed frame, stirring box is connected between support plate and fixed frame, stirring mechanism is provided between bottom plate and stirring box, and collection mechanism is provided between bottom plate and stirring box.By the cooperation between stirring mechanism and collection mechanism, the continuous stirring of material can be realized, and the discharge of material can be facilitated, and the screening effect of material is achieved.

Description

Technical Field

[0001] This invention relates to a mixing device, and more particularly to a mixing device for novel materials. Background Technology

[0002] New wall materials can effectively reduce environmental pollution, save a lot of production costs, and increase the usable area of ​​houses, among other advantages. A large part of these materials are green building materials, with features such as light weight, heat insulation, sound insulation, and heat preservation. Some materials even have fireproof functions. Due to the popularization of high-rise buildings, masonry structures are becoming less and less common, meaning fewer and fewer load-bearing walls are being built with bricks. A large number of bricks are being replaced by lightweight, sound-insulating, and heat-preserving lightweight bricks or blocks that only serve a protective function.

[0003] The production of wall materials requires mixing, but most current wall material mixing devices have simple structures, reducing mixing efficiency and failing to meet current user needs. Therefore, it is necessary to develop a new type of material mixing equipment that can improve mixing efficiency and save time and labor. Summary of the Invention

[0004] In order to overcome the shortcomings of existing mixing devices, which are mostly simple in structure, reduce the mixing efficiency of wall materials, and cannot meet people's current needs, the technical problem of the present invention is to provide a new type of material mixing device that can improve mixing efficiency and save time and labor.

[0005] The technical solution of the present invention is as follows: a new material mixing device, comprising a base plate, a support plate, a fixed frame, a mixing tank, a mixing mechanism and a collecting mechanism, wherein the base plate is provided with a support plate, the top of the support plate is provided with a fixed frame, the mixing tank is connected between the support plate and the fixed frame, the mixing mechanism is provided between the base plate and the mixing tank, and the collecting mechanism is provided between the base plate and the mixing tank.

[0006] In one embodiment, the stirring mechanism includes a motor, a rotating shaft, a first stirring blade, a second stirring blade, a gear, and a cam. The motor is located in the middle of the base plate, and the motor output shaft is provided with a rotating shaft. The rotating shaft is rotatably connected to the stirring box. The first stirring blade is provided on one side of the rotating shaft, the second stirring blade is provided in the middle of the rotating shaft, the gear is provided on one side of the rotating shaft, and the cam is provided on the top of the rotating shaft.

[0007] In one embodiment, the collection mechanism includes a collection box, a filter funnel, a water outlet pipe, and a valve. The collection box is located on one side of the base plate, and the filter funnel is located on the collection box. The water outlet pipe is located on one side of the mixing tank, and the valve is rotatably connected to the water outlet pipe.

[0008] In one embodiment, a solid feeding mechanism is also included. The solid feeding mechanism includes a first support frame, a feeding box, a feeding port, a slide rail, a fixed rod, a winding wheel, a traction line, a connecting plate, a rack, a connecting block, a first guide rod, a first spring, a fixed block, a baffle, a second guide rod, and a second spring. The first support frame is provided on one side of the top of the fixed frame, and the feeding box is provided on the first support frame. The feeding port is provided on one side of the bottom of the feeding box, and a slide rail is provided on one side of the feeding port. A fixed rod is provided on one side of the slide rail, and a winding wheel is rotatably connected to the fixed rod. A second guide rod is provided on one side of the slide rail, and a baffle is slidably connected to the second guide rod. A second spring is connected between one side of the baffle and the slide rail. Fixed blocks are connected to both sides of the bottom of the feeding box, and a first guide rod is connected between the fixed blocks. Two connecting blocks are slidably connected to the first guide rod. A rack is connected between one side of the connecting blocks, and a first spring is connected between one side of the connecting block and one side of the fixed block. A connecting plate is provided on one side of the rack, and a traction line is connected between one side of the connecting plate and one side of the baffle. The traction line passes around the winding wheel.

[0009] In one embodiment, a liquid dispensing mechanism is also included. The liquid dispensing mechanism includes a second support frame, an additive box, a spray head, a plug rod, a third spring, a first connecting rod, and a filling port. The second support frame is provided on one side of the top of the fixed frame, and the additive box is provided on the second support frame. The spray head is provided in the middle of the bottom of the additive box, and the filling port is provided on one side of the top of the additive box. The plug rod is slidably connected to the additive box, and the third spring is evenly provided between the upper part of the plug rod and the additive box. The first connecting rod is provided on one side of the plug rod, and the first connecting rod is slidably connected to the additive box.

[0010] In one embodiment, a shaking mechanism is also included. The shaking mechanism includes a turntable, a filter screen, a rubber block, a fourth spring, a first connecting ring, and a second connecting ring. The turntable is movably connected to the mixing tank, and the filter screen is provided on the turntable. The rubber block is slidably connected to the middle of the rotating shaft, and the rubber block is connected to the filter screen. The fourth spring is provided on both sides of the rubber block. Two first connecting rings are slidably connected to the rotating shaft, and the first connecting rings are connected to the fourth springs. Two second connecting rings are provided on the rotating shaft, and the second connecting rings are located outside the first connecting rings.

[0011] In one embodiment, a crushing mechanism is also included. The crushing mechanism includes a fixed plate, a rod sleeve, a second connecting rod, a grinder, and a fifth spring. The fixed plate is provided on one side of the mixing tank. The rod sleeve is provided on the fixed plate. The second connecting rod is slidably connected to the rod sleeve. The fifth spring is connected between the top of the second connecting rod and the rod sleeve. The grinder is provided at the bottom of the second connecting rod.

[0012] In one embodiment, the sleeve is cylindrical.

[0013] The beneficial effects are: 1. Through the cooperation between the stirring mechanism and the collecting mechanism, the material can be continuously stirred, and the material can be easily discharged and screened.

[0014] 2. By coordinating the solid feeding mechanism and the liquid feeding mechanism, the effect of automatically feeding solids and liquids at intervals can be achieved. Attached Figure Description

[0015] Figure 1 This is a schematic diagram of the main structure of the present invention.

[0016] Figure 2 This is a schematic diagram of the first partial three-dimensional structure of the present invention.

[0017] Figure 3 This is a schematic diagram of the second partial three-dimensional structure of the present invention.

[0018] Figure 4 This is a schematic diagram of the third part of the three-dimensional structure of the present invention.

[0019] Figure 5 This is a schematic diagram of the fourth partial three-dimensional structure of the present invention.

[0020] Figure 6 This is a schematic diagram of the fifth partial three-dimensional structure of the present invention.

[0021] Figure 7 This is a schematic diagram of the sixth partial three-dimensional structure of the present invention.

[0022] Figure 8 This is a schematic diagram of the seventh partial three-dimensional structure of the present invention.

[0023] Figure 9 This is a schematic diagram of the eighth partial three-dimensional structure of the present invention.

[0024] Component names and numbers in the diagram: 1_Base plate, 2_Support plate, 3_Fixed frame, 4_Mixing tank, 5_Mixing mechanism, 50_Motor, 51_Rotating shaft, 52_First stirring blade, 53_Second stirring blade, 54_Missing gear, 55_Cam, 6_Collection mechanism, 60_Collection box, 61_Filter funnel, 62_Water outlet pipe, 63_Valve, 7_Solid feeding mechanism, 70_First support frame, 71_Feeding box, 72_Feeding port, 73_Slide rail, 74_Fixed rod, 75_Winding wheel, 76_Traction line, 77_Connecting plate, 78_Rack, 79_Connecting block, 710_First guide rod, 7 11_First Spring, 712_Fixing Block, 713_Baffle, 714_Second Guide Rod, 715_Second Spring, 8_Liquid Discharge Mechanism, 80_Second Support Frame, 81_Additive Box, 82_Spray Head, 83_Blocking Rod, 84_Third Spring, 85_First Connecting Rod, 86_Feeding Port, 9_Shaking Mechanism, 90_Turntable, 91_Filter Screen, 92_Rubber Block, 93_Fourth Spring, 94_First Connecting Ring, 95_Second Connecting Ring, 10_Crushing Mechanism, 100_Fixing Plate, 101_Rod Sleeve, 102_Second Connecting Rod, 103_Grinder, 104_Fifth Spring. Detailed Implementation

[0025] The following description is only a preferred embodiment of the present invention and does not limit the scope of protection of the present invention.

[0026] Example 1

[0027] A new type of material mixing equipment, such as Figure 1-5 As shown, it includes a base plate 1, a support plate 2, a fixing frame 3, a mixing tank 4, a mixing mechanism 5, and a collecting mechanism 6. The support plate 2 is provided on the base plate 1, and the fixing frame 3 is provided on the top of the support plate 2. The mixing tank 4 is connected between the support plate 2 and the fixing frame 3. The mixing mechanism 5 is provided between the base plate 1 and the mixing tank 4, and the collecting mechanism 6 is provided between the base plate 1 and the mixing tank 4.

[0028] The stirring mechanism 5 includes a motor 50, a rotating shaft 51, a first stirring blade 52, a second stirring blade 53, a gear 54, and a cam 55. The motor 50 is located in the middle of the base plate 1. The output shaft of the motor 50 is provided with the rotating shaft 51. The rotating shaft 51 is rotatably connected to the stirring box 4. The first stirring blade 52 is located at the lower part of the rotating shaft 51, the second stirring blade 53 is located in the middle of the rotating shaft 51, the gear 54 is located at the upper part of the rotating shaft 51, and the cam 55 is located at the top of the rotating shaft 51.

[0029] The collection mechanism 6 includes a collection box 60, a filter funnel 61, a water outlet pipe 62, and a valve 63. The collection box 60 is located on the front side of the base plate 1, and the filter funnel 61 is located on the collection box 60. The water outlet pipe 62 is located on the lower front side of the mixing tank 4, and the valve 63 is rotatably connected to the water outlet pipe 62.

[0030] When it is necessary to stir the new material, first pour the material into the mixing tank 4, then start the motor 50. The output shaft of the motor 50 rotates, driving the rotating shaft 51, the first stirring blade 52, the second stirring blade 53, the gear 54, and the cam 55 to rotate. The first stirring blade 52 and the second stirring blade 53 rotate to stir the material. When it is necessary to remove the material, open the valve 63 so that the material flows through the water outlet pipe 62 to the filter funnel 61 for filtration, and finally flows into the collection tank 60 for collection. Then close the valve 63. When not in use, turn off the motor 50.

[0031] Example 2

[0032] Based on Example 1, such as Figure 6-9 As shown, it also includes a solid feeding mechanism 7, which includes a first support frame 70, a feeding box 71, a feeding port 72, a slide rail 73, a fixing rod 74, a winding wheel 75, a traction line 76, a connecting plate 77, a rack 78, a connecting block 79, a first guide rod 710, a first spring 711, a fixing block 712, a baffle 713, a second guide rod 714, and a second spring 715. The first support frame 70 is located on the top right side of the fixing frame 3, and the feeding box 71 is located on the first support frame 70. The feeding port 72 is located on the bottom right side of the feeding box 71. A slide rail 73 is located in front of the feeding port 72, and a fixing rod 74 is located in front of the slide rail 73. A winding wheel 75 is rotatably connected to the fixing rod 74. A second guide rod 714 is provided on the upper part of the rail 73. A baffle 713 is slidably connected to the second guide rod 714. A second spring 715 is connected between the front side of the baffle 713 and the rail 73. Fixing blocks 712 are connected to the front and rear sides of the bottom of the feed box 71. A first guide rod 710 is connected between the fixing blocks 712. Two connecting blocks 79 are slidably connected to the first guide rod 710. A rack 78 is connected between the left sides of the connecting blocks 79. A first spring 711 is connected between the rear connecting block 79 and the rear fixing block 712. A connecting plate 77 is provided on the front side of the rack 78. A traction line 76 is connected between the right side of the connecting plate 77 and the front side of the baffle 713. The traction line 76 passes around the winding wheel 75.

[0033] When solid materials need to be fed, they are first poured into the feeding box 71. When the gear 54 rotates and meshes with the rack 78, the rack 78 and the connecting plate 77 move backward, the first spring 711 is compressed, and through the traction line 76, the baffle 713 moves forward, and the second spring 715 is moved. At this time, the material falls downward. When the gear 54 rotates and separates from the rack 78, under the action of the first spring 711, the rack 78 and the connecting plate 77 move forward to reset. When the traction line 76 is released, under the action of the second spring 715, the baffle 713 moves backward to reset, and the material stops falling.

[0034] It also includes a liquid dispensing mechanism 8, which includes a second support frame 80, an additive box 81, a spray head 82, a plug rod 83, a third spring 84, a first connecting rod 85, and a filling port 86. The second support frame 80 is located on the top left side of the fixed frame 3. The additive box 81 is located on the second support frame 80. The spray head 82 is located in the middle of the bottom of the additive box 81. The filling port 86 is located on the rear side of the top of the additive box 81. The plug rod 83 is slidably connected to the additive box 81. The third spring 84 is evenly distributed between the upper part of the plug rod 83 and the additive box 81. The first connecting rod 85 is located on the right side of the plug rod 83. The first connecting rod 85 is slidably connected to the additive box 81.

[0035] When liquid needs to be dispensed, it is first poured into the additive tank 81 through the filling port 86. When the cam 55 rotates and contacts the first connecting rod 85, the first connecting rod 85 and the blocking rod 83 move upward, causing the third spring 84 to be stretched. At this time, the blocking rod 83 and the spray head 82 move away from each other, and the liquid flows into the mixing tank 4 through the spray head 82. When the cam 55 rotates and separates from the first connecting rod 85, the first connecting rod 85 and the blocking rod 83 move downward and reset under the action of the third spring 84. At this time, the blocking rod 83 blocks the spray head 82, and the liquid stops falling downward. This achieves the effect of dispensing liquid intermittently.

[0036] It also includes a shaking mechanism 9, which includes a turntable 90, a filter screen 91, a rubber block 92, a fourth spring 93, a first connecting ring 94, and a second connecting ring 95. The turntable 90 is movably connected to the mixing tank 4, and the filter screen 91 is provided on the turntable 90. The rubber block 92 is slidably connected to the middle of the rotating shaft 51, and the rubber block 92 is connected to the filter screen 91. The fourth spring 93 is provided on both the upper and lower sides of the rubber block 92. Two first connecting rings 94 are slidably connected to the rotating shaft 51, and the first connecting rings 94 are connected to the fourth springs 93. Two second connecting rings 95 are provided on the rotating shaft 51, and the second connecting rings 95 are located outside the first connecting rings 94.

[0037] The rotating shaft 51 drives the second connecting ring 95 to rotate. When the second connecting ring 95 contacts the first connecting ring 94, the first connecting ring 94 moves, causing the fourth spring 93 to deform, which in turn drives the filter screen 91 and the turntable 90 to move up and down. At the same time, the rotating shaft 51 drives the filter screen 91 to rotate. When the second connecting ring 95 and the first connecting ring 94 separate, the fourth spring 93 drives the filter screen 91 and the turntable 90 to move and reset. In this way, the material can be continuously shaken and screened.

[0038] It also includes a crushing mechanism 10, which includes a fixed plate 100, a rod sleeve 101, a second connecting rod 102, a grinder 103 and a fifth spring 104. The fixed plate 100 is provided on the front side of the mixing tank 4. The rod sleeve 101 is provided on the fixed plate 100. The second connecting rod 102 is slidably connected to the rod sleeve 101. The fifth spring 104 is connected between the top of the second connecting rod 102 and the rod sleeve 101. The grinder 103 is provided at the bottom of the second connecting rod 102.

[0039] When the solid falls downwards and is not screened, it remains on the filter screen 91. The rotation of the filter screen 91 causes the solid to rotate, and under the action of the fifth spring 104, the grinder 103 grinds the solid. The ground solid material falls downwards.

[0040] The above description is merely a specific embodiment of the present invention, but the scope of protection of the present invention is not limited thereto. Any variations or substitutions that can be easily conceived by those skilled in the art within the technical scope disclosed in the present invention should be included within the scope of protection of the present invention. Therefore, the scope of protection of the present invention should be determined by the scope of the claims.

Claims

1. A mixing device for novel materials, characterized in that it includes: It has a base plate (1), a support plate (2), a fixing frame (3), a mixing tank (4), a mixing mechanism (5), and a collection mechanism (6). The base plate (1) is provided with a support plate (2), the top of the support plate (2) is provided with a fixing frame (3), the mixing tank (4) is connected between the support plate (2) and the fixing frame (3), the mixing mechanism (5) is provided between the base plate (1) and the mixing tank (4), and the collection mechanism (6) is provided between the base plate (1) and the mixing tank (4). The stirring mechanism (5) includes a motor (50), a rotating shaft (51), a first stirring blade (52), a second stirring blade (53), a missing gear (54), and a cam (55). The motor (50) is located in the middle of the base plate (1). The output shaft of the motor (50) is provided with a rotating shaft (51). The rotating shaft (51) and the stirring box (4) are rotatably connected. The first stirring blade (52) is provided on one side of the rotating shaft (51), the second stirring blade (53) is provided in the middle of the rotating shaft (51), the missing gear (54) is provided on one side of the rotating shaft (51), and the cam (55) is provided on the top of the rotating shaft (51). The collection mechanism (6) includes a collection box (60), a filter funnel (61), a water outlet pipe (62) and a valve (63). The collection box (60) is located on one side of the bottom plate (1), and the filter funnel (61) is located on the collection box (60). The water outlet pipe (62) is located on one side of the mixing tank (4), and the valve (63) is rotatably connected to the water outlet pipe (62). It also includes a solid feeding mechanism (7), which includes a first support frame (70), a feeding box (71), a feeding port (72), a slide rail (73), a fixing rod (74), a winding wheel (75), a traction line (76), a connecting plate (77), a rack (78), a connecting block (79), a first guide rod (710), a first spring (711), a fixing block (712), a baffle (713), a second guide rod (714), and a second spring (715). The first support frame (70) is provided on one side of the top of the fixing frame (3), and the feeding box (71) is provided on the first support frame (70). The feeding port (72) is provided on one side of the bottom of the feeding box (71), and the slide rail (73) is provided on one side of the feeding port (72). The fixing rod (74) is provided on one side of the slide rail (73), and the winding wheel is rotatably connected to the fixing rod (74). (75) A second guide rod (714) is provided on one side of the slide rail (73). A baffle (713) is slidably connected to the second guide rod (714). A second spring (715) is connected between one side of the baffle (713) and the slide rail (73). Fixed blocks (712) are connected to both sides of the bottom of the feed box (71). A first guide rod (710) is connected between the fixed blocks (712). Two connecting blocks (79) are slidably connected to the first guide rod (710). A rack (78) is connected between one side of the connecting blocks (79). A first spring (711) is connected between one side of the connecting block (79) and one side of the fixed block (712). A connecting plate (77) is provided on one side of the rack (78). A traction line (76) is connected between one side of the connecting plate (77) and one side of the baffle (713). The traction line (76) passes around the winding wheel (75).

2. The novel material mixing device according to claim 1, characterized in that, It also includes a liquid feeding mechanism (8), which includes a second support frame (80), an additive box (81), a spray head (82), a plug rod (83), a third spring (84), a first connecting rod (85), and a filling port (86). The top side of the fixed frame (3) is provided with a second support frame (80), the second support frame (80) is provided with an additive box (81), the bottom middle of the additive box (81) is provided with a spray head (82), the top side of the additive box (81) is provided with a filling port (86), the plug rod (83) is slidably connected to the additive box (81), the third spring (84) is evenly provided between the upper part of the plug rod (83) and the additive box (81), the first connecting rod (85) is provided on one side of the plug rod (83), and the first connecting rod (85) and the additive box (81) are slidably connected.

3. The novel material mixing device according to claim 2, characterized in that, It also includes a shaking mechanism (9), which includes a turntable (90), a filter screen (91), a rubber block (92), a fourth spring (93), a first connecting ring (94), and a second connecting ring (95). The turntable (90) is movably connected to the mixing tank (4), and the filter screen (91) is provided on the turntable (90). The rubber block (92) is slidably connected in the middle of the rotating shaft (51), and the rubber block (92) is connected to the filter screen (91). The fourth spring (93) is provided on both sides of the rubber block (92). Two first connecting rings (94) are slidably connected on the rotating shaft (51), and the first connecting rings (94) are connected to the fourth spring (93). Two second connecting rings (95) are provided on the rotating shaft (51), and the second connecting rings (95) are located outside the first connecting rings (94).

4. The novel material mixing device according to claim 3, characterized in that, It also includes a crushing mechanism (10), which includes a fixed plate (100), a rod sleeve (101), a second connecting rod (102), a grinder (103) and a fifth spring (104). A fixed plate (100) is provided on one side of the mixing tank (4), a rod sleeve (101) is provided on the fixed plate (100), a second connecting rod (102) is slidably connected to the rod sleeve (101), a fifth spring (104) is connected between the top of the second connecting rod (102) and the rod sleeve (101), and a grinder (103) is provided at the bottom of the second connecting rod (102).

5. The novel material mixing device according to claim 4, characterized in that, The sleeve (101) is cylindrical.

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