A device for heating and shaping fireclay

Abstract

The utility model relates to fireproof mortar technology field, especially a kind of fireproof mortar heating plastic forming device, including heating assembly, including body, the door plate of setting in the body surface and the front observation window of setting in the door plate surface;And rotating assembly, including rotating plate and the outer frame of setting in the rotating plate surface;And plastic forming component, by directly placing plastic forming box in heating assembly interior, make fireproof mortar can follow rotating plate and rotate, uniformly heat, after heating is completed, by the upper connecting rod of setting in outside, back connecting rod and side connecting rod to fireproof mortar and shape, heating assembly can play the role of heat preservation, after plastic forming is completed, again take out, simultaneously, plastic forming box can be directly taken out, the place of fireproof mortar is convenient, the moving frame on the surface of plastic forming box can be directly taken down, it is convenient to use shovel directly to fireproof mortar, avoid the shape change of fireproof mortar caused by transfer.

Description

Technical Field

[0001] This utility model relates to the field of fireproof putty technology, and in particular to a fireproof putty heating and shaping device. Background Technology

[0002] Fireproof putty is a flexible flame-retardant material with high fire resistance and low smoke emission. It has excellent fire-blocking, smoke-blocking, oil-resistant, water-resistant, and corrosion-resistant properties. It is mainly used for sealing holes in wires and cables to prevent fires from spreading to adjacent rooms and reducing fire damage. It also has smoke-blocking, fireproofing, and dustproofing functions. Therefore, this sealant is widely used in power plants, industrial and mining enterprises, high-rise buildings, shipbuilding, power, post and telecommunications, substations, metallurgical and other system engineering projects for sealing vertical and horizontal wire and cable penetration holes. However, fireproof putty will harden at low temperatures. Before use, the fireproof putty needs to be heated, and then the organic sealant is kneaded evenly and embedded into the hole, and then smoothed with a scraper.

[0003] Existing methods involve heating fireproof putty in a microwave oven. However, since fireproof putty needs to be shaped while it is still hot, removing it from the microwave oven and then reshaping it causes heat loss and accelerates the cooling process, requiring repeated heating. Furthermore, the high temperature of the fireproof putty makes it difficult to handle, making the shaping process quite troublesome. Therefore, a fireproof putty heating and shaping device is proposed to solve the above problems. Utility Model Content

[0004] Therefore, the technical problem to be solved by this utility model is that the fireproof putty is heated in a microwave oven and then cooled in the air quickly, while the high-temperature fireproof putty is not easy to touch, which makes shaping difficult.

[0005] This utility model proposes the following technical solution: a fireproof clay heating and shaping device, comprising...

[0006] The heating assembly includes a body, a door panel disposed on the surface of the body, and a front observation window disposed on the surface of the door panel; and,

[0007] The rotating assembly includes a rotating plate and an outer frame disposed on the surface of the rotating plate; and,

[0008] The shaping assembly includes a shaping box, an upper plate disposed inside the shaping box, an upper connecting rod disposed on the surface of the upper plate, a back connecting rod disposed on the surface of the body, a back transmission rod disposed on the surface of the shaping box, and a back pressure plate connected to the back transmission rod.

[0009] In a preferred embodiment of the fireproof clay heating and shaping device of this utility model: a side transmission rod is inserted into the surface of the shaping box, and a side pressure plate is connected to one end of the side transmission rod.

[0010] In a preferred embodiment of the fireproof clay heating and shaping device of this utility model: a side connecting rod is inserted into the surface of the machine body, the side connecting rod is correspondingly arranged with the side transmission rod, and the back connecting rod is correspondingly arranged with the back transmission rod.

[0011] In a preferred embodiment of the fireproof clay heating and shaping device of this utility model: a positive magnetic block is fixed at one end of the back connecting rod and the side connecting rod, and a negative magnetic block is fixed at one end of the back connecting rod and the side connecting rod, and the negative magnetic block and the positive magnetic block are sleeved together.

[0012] In a preferred embodiment of the fireproof clay heating and shaping device of this utility model: a limiting box is fixed on the surface of the shaping box, a spring is fixed inside the limiting box, and the other end of the spring is connected to the back pressure plate and the side pressure plate.

[0013] In a preferred embodiment of the fireproof clay heating and shaping device of this utility model: a movable frame is slidably connected inside the shaping box, and a positioning groove is provided on the surface of the shaping box, with the movable frame inserted into the positioning groove.

[0014] In a preferred embodiment of the fireproof clay heating and shaping device of this utility model: the bottom of the movable frame is provided with a limiting groove, and the surface of the shaping box is provided with a locking rod.

[0015] In a preferred embodiment of the fireproof clay heating and shaping device of this utility model: the bottom of the shaping box is provided with a placement groove, and the surface of the rotating plate is provided with a locking block.

[0016] In a preferred embodiment of the fireproof clay heating and shaping device of this utility model: the surface of the outer frame is provided with a horizontal groove, and the horizontal groove is correspondingly arranged with the movable frame.

[0017] In a preferred embodiment of the fireproof clay heating and shaping device of this utility model: an upper observation window is fixed at the upper end of the machine body, a rubber ring is inserted into the surface of the upper observation window, and the upper connecting rod is set inside the rubber ring.

[0018] The beneficial effects of this fireproof putty heating and shaping device are as follows: by placing the shaping box directly inside the heating component, the fireproof putty can rotate with the rotating plate and be heated evenly. After heating, the fireproof putty is shaped by the upper connecting rod, back connecting rod and side connecting rod set on the outside. The heating component can play a role in heat preservation. After shaping, it can be taken out. At the same time, the shaping box can be taken out directly, which is convenient for removing the fireproof putty. The movable frame on the surface of the shaping box can be directly removed, which is convenient for using the fireproof putty directly with a scraper and avoids changes in the shape of the fireproof putty caused by transfer. Attached Figure Description

[0019] To more clearly illustrate the technical solutions of the embodiments of this utility model, the accompanying drawings of the embodiments of this utility model will be briefly described below. Obviously, the drawings described below only relate to some embodiments of this utility model and are not intended to limit the scope of this utility model. Wherein:

[0020] Figure 1 This is a schematic diagram of the main structure of this utility model.

[0021] Figure 2 This is a cross-sectional structural diagram of the present invention.

[0022] Figure 3 This is a schematic diagram of the shaping component in this utility model.

[0023] Figure 4 This is a schematic diagram of the structure of the shaping box in this utility model.

[0024] Figure 5 This is a schematic diagram of the internal structure of the shaping box in this utility model.

[0025] Figure 6 This is a schematic diagram of the structure of the movable frame in this utility model.

[0026] Figure 7 This is a schematic diagram of the rotating component in this utility model. Detailed Implementation

[0027] To enable those skilled in the art to better understand this utility model, the present utility model will be further described in detail below with reference to specific embodiments and accompanying drawings.

[0028] The terminology used in this invention refers to those general terms currently widely used in the art in consideration of the functionality of this invention; however, these terms may vary according to the intent, precedent, or new technology of those skilled in the art. Furthermore, specific terms may be chosen by the applicant, and in such cases, their detailed meanings will be described in the detailed description of this invention. Therefore, the terminology used in this specification should not be construed as simple names, but rather based on the meaning of the terms and the overall description of this invention.

[0029] Example 1, referring to Figures 1 to 7 This embodiment provides a fireproof clay heating and shaping device, including,

[0030] Heating assembly 1 includes a body 11, a door panel 12 disposed on the surface of the body 11, and a front observation window 13 disposed on the surface of the door panel 12; rotating assembly 2 includes a rotating plate 21 and an outer frame 22 disposed on the surface of the rotating plate 21; and shaping assembly 3 includes a shaping box 31, an upper plate 32 disposed inside the shaping box 31, an upper connecting rod 33 disposed on the surface of the upper plate 32, a back connecting rod 34 disposed on the surface of the body 11, a back transmission rod 35 disposed on the surface of the shaping box 31, and a back pressure plate 36 connected to the back transmission rod 35; the rotating plate 21 and the shaping box 31 are independently set, so that the shaping box 31 can be removed separately for easy placement and removal of fireproof putty, while the shaping box 31 does not directly contact the body 11, and the shaping box 31 can rotate with the rotating plate 21, so that the microwave can heat the fireproof putty evenly.

[0031] Usage: Place the fireproof putty inside the molding box 31, then place the molding box 31 in the middle of the outer frame 22 on the surface of the rotating plate 21. Close the door panel 12. The heating component 1 is a microwave oven, which heats the fireproof putty by microwaves. The microwaves pass through the molding box 31 to heat the fireproof putty inside. The rotating plate 21 rotates, and the outer frame on the surface drives the molding box 31 to rotate, thereby heating the fireproof putty evenly. After heating is complete, observe the relative position of the upper plate 32 and the molding box 31 through the front observation window 13. Rotate the upper connecting rod 33 to align the upper plate 32 with the molding box 31. Press down on the upper connecting rod 33, and the upper plate 32 moves downward into the molding box. Inside 31, rotating the upper connecting rod 33 causes the upper plate 32 to rotate, which in turn rotates the molding box 31, aligning the back connecting rod 34 with the back transmission rod 35. Pushing the back connecting rod 34 pushes the back transmission rod 35 to move, and the back transmission rod 35 pushes the back pressure plate 36 to move, thus squeezing the heated fireproof putty. The back pressure plate 36, in conjunction with the upper plate 32, shapes the fireproof putty into the required shape. After shaping, the upper connecting rod 33 is lifted upwards, and the upper plate 32 is detached from the molding box 31. The door panel 12 is opened, and the molding box 31 is lifted, thus detaching the molding box 31 from the outer frame 22 on the surface of the rotating plate 21, allowing the molding box 31 to be removed as a whole, making it convenient to remove the fireproof putty inside the molding box 31.

[0032] Example 2, refer to Figures 1 to 7 This is the second embodiment of the present invention, which differs from the previous embodiment in that it also includes,

[0033] A side transmission rod 39 is inserted into the surface of the molding box 31, and one end of the side transmission rod 39 is connected to a side pressure plate 46. The side pressure plate 46 is located inside the molding box 31 and its position is changed by the push of the side connecting rod 37, thereby squeezing the fireproof putty. A side connecting rod 37 is inserted into the surface of the body 11, and the side connecting rod 37 is correspondingly arranged with the side transmission rod 39. The back connecting rod 34 and the back transmission rod 35 are correspondingly arranged. A through hole 14 is provided on the surface of the body 11, and the side connecting rod 37 and the back connecting rod 34 are located inside the through hole 14, so that the side connecting rod 37 and the back connecting rod 34 push the side transmission rod 39 and the back transmission rod 35 to move outside the body 11.

[0034] A positive magnetic block 40 is fixed to one end of the back connecting rod 34 and the side connecting rod 37, and a negative magnetic block 38 is fixed to one end of the back transmission rod 35 and the side transmission rod 39. The negative magnetic block 38 and the positive magnetic block 40 are sleeved together. The positive magnetic block 40 and the negative magnetic block 38 are arranged in cooperation and attract each other through magnetic force. When the side connecting rod 37 and the back connecting rod 34 push the side transmission rod 39 and the back transmission rod 35 inward, the negative magnetic block 38 and the positive magnetic block 40 are connected. When the side connecting rod 37 and the back connecting rod 34 pull outward, the magnetic force connecting the negative magnetic block 38 and the positive magnetic block 40 drives the side transmission rod 39 and the back transmission rod 35 to move.

[0035] A limiting box 45 is fixed to the surface of the molding box 31. A spring 47 is fixed inside the limiting box 45. The other end of the spring 47 is connected to the back pressure plate 36 and the side pressure plate 46. The spring 47 is located between the limiting box 45 and the back pressure plate 36 and the side pressure plate 46. When the back pressure plate 36 and the side pressure plate 46 move into the molding box 31, the spring 47 is stretched, thereby helping the back pressure plate 36 and the side pressure plate 46 return to their original positions.

[0036] An upper observation window 15 is fixed to the upper end of the body 11. A rubber ring 16 is inserted into the surface of the upper observation window 15, and the upper connecting rod 33 is located inside the rubber ring 16. The upper observation window 15 and the front observation window 13 cooperate to observe the internal situation of the body 11 from multiple angles. The rubber ring 16 is located on the surface of the upper observation window 15 and can fit against the surface of the upper connecting rod 33, thereby locking the upper connecting rod 33 so that the upper plate 32 can stop at the required height and change the state of the molding box 31 from rotating to non-rotating.

[0037] Usage: Place the fireproof putty inside the molding box 31, then place the molding box 31 in the middle of the outer frame 22 on the surface of the rotating plate 21. Close the door panel 12. The heating component 1 is a microwave oven, which heats the fireproof putty by microwaves. The microwaves pass through the molding box 31 to heat the fireproof putty inside. The rotating plate 21 rotates, and the outer frame on the surface drives the molding box 31 to rotate, thereby uniformly heating the fireproof putty. After heating is complete, observe the relationship between the upper plate 32 and the molding box 31 through the front observation window 13 and the upper observation window 15. Relative position, rotate the upper connecting rod 33 to align the upper plate 32 with the molding box 31, press the upper connecting rod 33 down, and the upper plate 32 moves downward into the molding box 31. Rotate the upper connecting rod 33, and the upper plate 32 rotates, causing the molding box 31 to rotate, so that the back connecting rod 34 and the side connecting rod 37 are aligned with the back transmission rod 35 and the side transmission rod 39 respectively. Push the back connecting rod 34 and the side connecting rod 37, so that the positive magnetic blocks 40 on the surface of the back connecting rod 34 and the side connecting rod 37 are connected with the antimagnetic blocks 38 on the surface of the back transmission rod 35 and the side transmission rod 39. At the same time, the back connecting rod 34 and the side connecting rod 37 are connected. Rod 34 and side connecting rod 37 drive back transmitting rod 35 and side transmitting rod 39 to move. The movement of back transmitting rod 35 and side transmitting rod 39 pushes back pressure plate 36 and side pressure plate 46 to move, compressing the heated fireproof putty. Spring 47 is connected to back pressure plate 36 and side pressure plate 46, causing them to move and stretching spring 47. When the force applied to back connecting rod 34 and side connecting rod 37 stops, spring 47 returns to its original position, pulling back pressure plate 36 and side pressure plate 46 back to their original positions. 35 and side transmission rod 39 are driven back to their original positions. Back pressure plate 36 and side pressure plate 46 work together with upper plate 32 to shape the fireproof putty into the required shape. After shaping, upper connecting rod 33 is lifted upward. Due to the presence of rubber ring 16, upper connecting rod 33 stops at the required height. Upper plate 32 is disengaged from shaping box 31. Door plate 12 is opened and shaping box 31 is lifted. Shaping box 31 is then disengaged from outer frame 22 on rotating plate 21, allowing shaping box 31 to be removed as a whole, making it convenient to remove the fireproof putty inside shaping box 31.

[0038] Example 3, referring to Figures 1 to 7 This is the third embodiment of the present invention, which differs from the previous embodiment in that it also includes,

[0039] The molded box 31 has a sliding connection to a movable frame 41 inside. The surface of the molded box 31 is provided with a positioning groove 44, and the movable frame 41 is inserted into the positioning groove 44. The movable frame 41 is located inside the molded box 31 and can be completely detached from the molded box 31. The fireproof putty will be placed directly on the surface of the movable frame 41, so that when the fireproof putty is taken out, it can be avoided to cut it off from top to bottom, ensuring that the fireproof putty is taken out intact. The positioning groove 44 can hold the movable frame 41. When the movable frame 41 extends a certain distance out of the positioning groove 44, the movable frame 44 is exactly located at the position of the horizontal groove 23.

[0040] The bottom of the movable frame 41 is provided with a limiting groove 42, and the surface of the plastic box 31 is provided with a locking rod 48. When the back pressure plate 36 moves inside the plastic box 31, the back pressure plate 36 squeezes the fireproof putty, and the fireproof putty pushes the movable frame 41 to move. Since the locking rod 48 is locked in the limiting groove 42, the movable frame 41 does not move inside the plastic box 31. When it is necessary to remove the movable frame 41, the movable frame 41 is lifted upward, and the movable frame 41 moves inside the positioning groove 44, providing space for one end of the movable frame 41 to be lifted, thereby disengaging the limiting groove 42 and the locking rod 48, and the movable frame 41 can be removed.

[0041] The bottom of the molding box 31 is provided with a placement groove 43, and the surface of the rotating plate 21 is provided with a locking block 24. The locking blocks 24 are of different sizes and work with the placement groove 43 to lock the position of the molding box 31, ensuring that the positioning groove 44 on the surface of the molding box 31 is always aligned with the horizontal groove 23, and ensuring the normal placement and removal of the moving frame 41.

[0042] The surface of the outer frame 22 is provided with a horizontal groove 23, which is correspondingly provided with the movable frame 41. When the movable frame 41 extends a certain distance from the positioning groove 44, the movable frame 44 is exactly located at the position of the horizontal groove 23, so as to avoid the outer frame 22 blocking the movable frame 41.

[0043] Usage: The molding box 31, upper plate 32, upper connecting rod 33, side transmission rod 39, side connecting rod 37, back connecting rod 34, back transmission rod 35, back pressure plate 36, side pressure plate 47, and limit box 45 are all made of transparent glass to avoid microwave reflection. Fireproof putty is placed inside the molding box 31, and then the molding box 31 is placed in the middle of the outer frame 22 on the surface of the rotating plate 21. The placement slot 43 at the bottom of the molding box 31 is connected to the locking block 24. The door panel 12 is closed. The heating component 1 is a microwave oven. The microwave device is activated, and microwaves pass through the molding box 31 to irradiate the fireproof putty inside. Microwaves are a type of electromagnetic wave. The body 11 contains a power supply, magnetron, control circuit, and cooking cavity. The power supply provides approximately 4000 volts of high voltage to the magnetron. Under power excitation, microwaves are continuously generated and coupled into the cooking cavity through a waveguide system. The fireproof clay absorbs microwave energy in the microwave field, increasing its internal heat and raising its temperature. The rotating plate 21 rotates, driving the molding box 31 to rotate through the outer frame, thus uniformly heating the fireproof clay. After heating, the relative positions of the upper plate 32 and the molding box 31 are observed through the front observation window 13 and the upper observation window 15. The upper connecting rod 33 is rotated to align the upper plate 32 with the molding box 31. The upper connecting rod 33 is pressed down, and the upper plate 32 moves downward into the molding box 31. Rotating the upper connecting rod 33 causes the upper plate 32 to rotate, driving the molding box 31 to rotate, so that the back connecting rod 34 and the side connecting rod 37 are respectively connected to the back connecting rod 35 and the side connecting rod 36. Alignment 9, pushing back connecting rod 34 and side connecting rod 37, causing the positive magnetic block 40 on the surface of back connecting rod 34 and side connecting rod 37 to connect with the antimagnetic block 38 on the surface of back transmitting rod 35 and side transmitting rod 39. At the same time, back connecting rod 34 and side connecting rod 37 drive back transmitting rod 35 and side transmitting rod 39 to move. Back transmitting rod 35 and side transmitting rod 39 move, pushing back pressure plate 36 and side pressure plate 46 to move, squeezing the heated fireproof putty. Spring 47 is connected to back pressure plate 36 and side pressure plate 46, so back pressure plate 36 and side pressure plate 46 move, and spring 47 is stretched. When the force applied to back connecting rod 34 and side connecting rod 37 stops, spring 47 returns to its original position, pulling back pressure plate 36 and side pressure plate 46 back to their original position. Back transmitting rod 35 and side transmitting rod 39 The back pressure plate 36 and the side pressure plate 46, together with the upper plate 32, mold the fireproof putty into a cuboid or cube, not limited to a cuboid or cube. After molding, the upper connecting rod 33 is lifted upward. Due to the presence of the rubber ring 16, the upper connecting rod 33 stops at the required height. The upper plate 32 disengages from the molding box 31, the door panel 12 is opened, and the molding box 31 is lifted. The molding box 31 then disengages from the outer frame 22 on the surface of the rotating plate 21, thus removing the molding box 31 as a whole. The moving frame 41 is then lifted, and one end of the moving frame 41 moves inside the positioning groove 44, thus lifting one end of the moving frame 41 and causing the limiting groove 42 to disengage from the locking rod 48, thus completely removing the moving frame 41 and facilitating the removal of the fireproof putty from the surface of the moving frame 41.

[0044] Finally, it should be noted that the methods and devices described in detail above are merely embodiments, and those skilled in the art can modify these embodiments in different ways as long as they do not depart from the scope of this utility model.

Claims

1. A fireclay heating and shaping device, characterized by: include, The heating assembly (1) includes a body (11), a door panel (12) disposed on the surface of the body (11), and a front observation window (13) disposed on the surface of the door panel (12); and, The rotating assembly (2) includes a rotating plate (21) and an outer frame (22) disposed on the surface of the rotating plate (21); and, The shaping component (3) includes a shaping box (31), an upper plate (32) disposed inside the shaping box (31), an upper connecting rod (33) disposed on the surface of the upper plate (32), a back connecting rod (34) disposed on the surface of the body (11), a back transmission rod (35) disposed on the surface of the shaping box (31), and a back pressure plate (36) connected to the back transmission rod (35).

2. The fireproof clay heating and shaping device as described in claim 1, characterized in that: A side transmission rod (39) is inserted into the surface of the molding box (31), and one end of the side transmission rod (39) is connected to a side pressure plate (46).

3. The fireproof clay heating and shaping device as described in claim 2, characterized in that: A side connecting rod (37) is inserted into the surface of the body (11). The side connecting rod (37) is correspondingly arranged with the side transmission rod (39), and the back connecting rod (34) and the back transmission rod (35) are correspondingly arranged.

4. The fireproof clay heating and shaping device as described in claim 3, characterized in that: A positive magnetic block (40) is fixed at one end of the back connecting rod (34) and the side connecting rod (37), and a negative magnetic block (38) is fixed at one end of the back transmission rod (35) and the side transmission rod (39). The negative magnetic block (38) and the positive magnetic block (40) are sleeved together.

5. The fireproof clay heating and shaping device as described in claim 4, characterized in that: A limiting box (45) is fixed to the surface of the shaping box (31), and a spring (47) is fixed inside the limiting box (45). The other end of the spring (47) is connected to the back pressure plate (36) and the side pressure plate (46).

6. The fireproof clay heating and shaping device as described in claim 5, characterized in that: The shaping box (31) is slidably connected to a movable frame (41), and the surface of the shaping box (31) is provided with a positioning groove (44), and the movable frame (41) is inserted into the positioning groove (44).

7. The fireproof clay heating and shaping device as described in claim 6, characterized in that: The bottom of the movable frame (41) is provided with a limiting groove (42), and the surface of the shaping box (31) is provided with a locking rod (48).

8. The fireproof clay heating and shaping device as described in claim 7, characterized in that: The bottom of the shaping box (31) is provided with a placement groove (43), and the surface of the rotating plate (21) is provided with a locking block (24).

9. The fireproof clay heating and shaping device as described in claim 8, characterized in that: The surface of the outer frame (22) is provided with a horizontal groove (23), which is correspondingly provided with the movable frame (41).

10. The fireproof clay heating and shaping device as described in claim 9, characterized in that: The upper end of the body (11) is fixed with an upper observation window (15), and a rubber ring (16) is inserted into the surface of the upper observation window (15). The upper connecting rod (33) is set inside the rubber ring (16).

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