CN214419120U - Anti-sticking agent smearing device for aerated building block mold - Google Patents

Abstract

The utility model belongs to the technical field of building materials production facility and specifically relates to an air entrainment building block mould antiseize agent paints device is related to, including two frames that are located the mould both sides respectively, span the crossbeam that sets up in the mould top, be vertical telescopic link of arranging and set up in the telescopic link bottom and adsorb the mechanism of paining that has antiseize agent, wherein, the crossbeam both ends slide respectively and set up on two preset slide rails of frame, and be equipped with the first drive assembly who is used for driving the crossbeam along slide rail extending direction removal between crossbeam and the frame, one side at telescopic link top has set firmly a slider, the slider slides and sets up in the horizontal spout that the crossbeam was preset, and be equipped with the second drive assembly who is used for driving the slider along horizontal spout extending direction removal on the crossbeam. This application can reduce the drawing of patterns degree of difficulty of pouring piece, promotes the quality of air entrainment building block.

Description

Anti-sticking agent smearing device for aerated building block mold

Technical Field

The application relates to the field of building material production equipment, in particular to an anti-sticking agent smearing device for an aerated building block die.

Background

The aerated concrete block is produced by a high-temperature autoclaved equipment process, has the advantages of light weight, good heat insulation performance, strong shock resistance, good processing performance, high temperature resistance, strong adaptability and the like, and is widely applied to the construction of high-rise buildings at present.

The production process flow of the aerated building block generally comprises the steps of batching, stirring, pouring, pre-curing, cutting, autoclaving, curing and the like in sequence, wherein the pouring process is to pour the prepared concrete slurry into a mold, so that the concrete slurry is pre-cured in the mold to form a pouring piece, and the cutting process can be carried out after the pouring piece is demoulded to form the aerated building block.

However, the inventor believes that the concrete slurry is easily adhered to the inner wall of the mold, so that the cast part is difficult to demould, and even the surface or the corner of the cast part is damaged in the demoulding process, so that the quality of the aerated building block formed by subsequent processing is influenced; therefore, further improvement can be made.

SUMMERY OF THE UTILITY MODEL

In order to reduce the drawing of patterns degree of difficulty of pouring member, promote the quality of aerated building block, this application provides an aerated building block mould anti-sticking agent paints device.

The above object of the present application is achieved by the following technical solutions:

the utility model provides an air entrainment building block mould antiseize agent paints device, includes that two are located the frame of mould both sides respectively, span the crossbeam that sets up in the mould top, be vertical arrangement the telescopic link and set up in the telescopic link bottom and adsorb the mechanism of paining that has antiseize agent, wherein, the crossbeam both ends slide respectively and set up on two frame preset slide rails, and be equipped with the first drive assembly who is used for driving the crossbeam along slide rail extending direction removal between crossbeam and the frame, one side at telescopic link top has set firmly a slider, the slider slides and sets up in the horizontal spout that the crossbeam was predetermine, and be equipped with the second drive assembly who is used for driving the slider along horizontal spout extending direction removal on the crossbeam.

Through adopting above-mentioned technical scheme, the telescopic link is through cooperation first drive assembly and second drive assembly, can drive and paint the mechanism and remove along vertical direction, along mould length direction and along mould width direction, thereby make the antiseized agent that adsorbs in painting the mechanism can scribble the inner wall of establishing at the mould, so that the drawing of patterns of pouring member, and the condition that reduces the in-process pouring member surface of drawing of patterns or corner damage takes place, thereby guarantee the quality of the air entrainment building block of follow-up processing formation.

Optionally, the smearing mechanism includes a support, a rotating shaft rotatably disposed on the support, and a third driving assembly, wherein bristles are disposed on an outer circumferential surface of the rotating shaft, the bristles are exposed at two sides and a bottom of the support, and the third driving assembly is disposed on the support and is used for driving the rotating shaft to rotate.

Through adopting above-mentioned technical scheme, when third drive assembly drive pivot rotated, the pivot can drive the brush hair at the pivoted in-process and rotate for anti-sticking agent attached to on the brush hair can scribble the inner wall of establishing at the mould more evenly, so that the drawing of patterns of pouring member.

Optionally, the third driving assembly includes a driven pulley, a driving pulley, a transmission belt and a third driving motor, the driven pulley, the driving pulley and the transmission belt are fixedly disposed on the rotating shaft, and the third driving motor is fixedly disposed on the top of the support, wherein the driving pulley is fixedly disposed on an output shaft of the third driving motor, and the driving pulley is connected to the driven pulley through the transmission belt.

Through adopting above-mentioned technical scheme, when third driving motor operation, third driving motor drives two pivots simultaneously through the belt drive mode and rotates to the realization will be attached to the antiseized agent on the brush hair and scribble the inner wall of establishing at the mould more evenly.

Optionally, the first driving assembly includes two first driving motors respectively fixed at two ends of the cross beam, two transmission racks respectively fixed on the frame, and two transmission gears, wherein the two transmission gears are respectively fixed on output shafts of the two first driving motors, and the two transmission gears are respectively engaged with the two transmission racks.

By adopting the technical scheme, when the two first driving motors run synchronously, the two driving racks run synchronously, and the cross beam is driven to move along the extension direction of the slide rail in a gear-rack intermeshing driving mode, so that the smearing mechanism moves along the length direction of the mold.

Optionally, the second driving assembly includes a screw rod and a second driving motor, the screw rod is rotatably disposed in the horizontal sliding groove and is connected to a nut seat preset on the slider, the second driving motor is fixedly disposed at one end of the horizontal sliding groove, and an output shaft of the second driving motor is connected to one end of the screw rod.

By adopting the technical scheme, when the second driving motor operates, the screw rod rotates and drives the nut seat and the sliding block to move along the extending direction of the horizontal sliding groove through threaded connection transmission, so that the action that the smearing mechanism moves along the width direction of the mold is realized.

Optionally, the telescopic link includes first support arm, second support arm and telescopic cylinder, wherein, the second support arm slides and sets up in the vertical chute that first support arm one side was predetermine, telescopic cylinder sets firmly in the top of vertical chute, and telescopic cylinder's piston rod is connected with second support arm top.

Through adopting above-mentioned technical scheme, telescopic cylinder can drive the second support arm and slide in vertical spout for the telescopic link has flexible function, thereby realizes smearing the action that the mechanism stretched into in the mould or promoted to the mould top.

Optionally, a reinforcing rib plate is fixedly arranged at the bottom of the cross beam.

Through adopting above-mentioned technical scheme, the bending resistance of crossbeam can be strengthened to the reinforcing floor for the crossbeam is difficult for the atress to take place to warp.

Optionally, timing oil squirts are fixedly arranged at two ends of the cross beam, oil outlets of the timing oil squirts are communicated with one oil dripping pipe, and one ends, far away from the corresponding timing oil squirts, of the oil dripping pipes are located above the two slide rails respectively.

Through adopting above-mentioned technical scheme, timing oil squirt can be regularly through dripping on oil pipe adds lubricating oil to the slide rail to slow down the wearing and tearing in the slide rail use, increase the life who paints the device.

In summary, the present application includes at least one of the following beneficial technical effects:

the telescopic rod can drive the smearing mechanism to move in the vertical direction, the length direction of the mold and the width direction of the mold by matching with the first driving assembly and the second driving assembly, so that an anti-sticking agent adsorbed on the smearing mechanism can be smeared on the inner wall of the mold, the demolding of a poured piece is facilitated, the condition that the surface or the corners of the poured piece is damaged in the demolding process is reduced, and the quality of an aerated building block formed by subsequent processing is ensured;

when the third driving assembly drives the rotating shaft to rotate, the rotating shaft can drive the bristles to rotate in the rotating process, so that the anti-sticking agent attached to the bristles can be more uniformly coated on the inner wall of the mold, and the demolding of the casting piece is facilitated;

the timing oil ejector can add lubricating oil to the slide rail through oil dripping pipe regularly to slow down the wearing and tearing in the slide rail use, increase the life who paints the device.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.

Fig. 2 is an enlarged view of a in fig. 1.

Fig. 3 is an enlarged view of B in fig. 1.

Fig. 4 is a schematic view of the overall structure of the application mechanism in the embodiment of the present application.

Description of reference numerals: 1. a frame; 2. a cross beam; 21. moving the trolley; 3. a telescopic rod; 31. a first support arm; 32. a second support arm; 33. a telescopic cylinder; 34. a vertical chute; 4. a smearing mechanism; 41. a support; 411. a top plate; 412. a side plate; 413. avoiding holes; 42. a rotating shaft; 43. a third drive assembly; 431. a driven pulley; 432. a driving pulley; 433. a transmission belt; 434. a third drive motor; 44. brushing; 5. a slide rail; 6. a first drive assembly; 61. a first drive motor; 62. a drive rack; 63. a transmission gear; 7. a slider; 71. a horizontal chute; 8. a second drive assembly; 81. a screw rod; 82. a second drive motor; 83. a nut seat; 9. a reinforcing rib plate; 10. a timing oil ejector; 11. a dropping oil pipe.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses device is paintd to air entrainment building block mould antiseize agent.

Referring to fig. 1, the anti-sticking agent smearing device for the aerated block mold comprises two racks 1, a cross beam 2, an expansion link 3 and a smearing mechanism 4 adsorbed with an anti-sticking agent, wherein the two racks 1 are fixedly arranged on the ground of an upper production workshop, the two racks 1 are respectively positioned on two sides of the mold, and the tops of the two racks 1 are respectively provided with a slide rail 5 extending along the length direction of the mold; the crossbeam 2 extends along the width direction of the mold and is arranged above the mold in a crossing manner, two ends of the crossbeam 2 are respectively provided with a movable trolley 21 which is matched with any one slide rail 5 in a sliding manner, and the two movable trolleys 21 are respectively arranged on the two slide rails 5 in a sliding manner, so that the crossbeam 2 can move along the extension direction of the slide rails 5, namely the crossbeam 2 can move along the length direction of the mold; the telescopic rod 3 is vertically arranged, a sliding block 7 is fixedly arranged on one side of the top of the telescopic rod 3, a horizontal sliding groove 71 in sliding fit with the sliding block 7 is formed in one side of the cross beam 2, and the sliding block 7 is arranged in a horizontal plane in a sliding mode, so that the sliding block 7 and the telescopic rod 3 can move along the extending direction of the horizontal sliding groove 71, namely the sliding block 7 and the telescopic rod 3 can move along the width direction of the mold; the smearing mechanism 4 is fixedly arranged at the bottom of the telescopic rod 3, and the telescopic rod 3 has an extending or shortening function, so that the smearing mechanism 4 can extend into the mold or be lifted above the mold along with the extension or shortening of the telescopic rod 3.

Referring to fig. 1 and 2, a first driving assembly 6 is arranged between the beam 2 and the frame 1, and the first driving assembly 6 can be used for driving the beam 2 to move along the extending direction of the slide rail 5, so that the beam 2, the slide block 7, the telescopic rod 3 and the smearing mechanism 4 can move along the length direction of the mold; the beam 2 is provided with a second driving assembly 8, and the second driving assembly 8 can be used for driving the sliding block 7 to move along the extending direction of the horizontal sliding groove 71, so that the sliding block 7, the telescopic rod 3 and the smearing mechanism 4 can move along the width direction of the mold. To sum up, through the first drive assembly 6 of telescopic link 3 cooperation and second drive assembly 8, can drive daub mechanism 4 and remove along vertical direction, along mould length direction and along mould width direction, thereby make the antiseized agent that adsorbs on daub mechanism 4 can scribble the inner wall of establishing at the mould, so that the drawing of patterns of pouring member, and reduce the in-process pouring member surface of drawing of patterns or the condition of corner damage and take place, thereby guarantee the quality of the air entrainment building block of follow-up processing formation.

Referring to fig. 1 and 3, specifically, in this embodiment, the first driving assembly 6 includes two first driving motors 61, two transmission racks 62 and two transmission gears 63, wherein the two transmission racks 62 are both arranged along the extending direction of the slide rail 5, the two transmission racks 62 are respectively fixed on the two racks 1, the two first driving motors 61 are respectively fixed at two ends of the cross beam 2, the two transmission gears 63 are respectively fixed on output shafts of the two first driving motors 61, and the two transmission gears 63 are respectively engaged with the two transmission racks 62. When the two first driving motors 61 run synchronously, the two driving racks 62 run synchronously, and the beam 2 is driven to move along the extending direction of the slide rail 5 in a gear-rack intermeshing transmission mode, so that the smearing mechanism 4 moves along the length direction of the mold.

In the present embodiment, the second driving assembly 8 includes a screw 81 disposed along the extending direction of the horizontal sliding groove 71 and a second driving motor 82, wherein a nut seat 83 adapted to be connected with the screw 81 is disposed on the sliding block 7, the screw 81 is rotatably disposed in the horizontal sliding groove 71, the screw 81 is connected with the nut seat 83, the second driving motor 82 is fixedly disposed at one end of the horizontal sliding groove 71, and an output shaft of the second driving motor 82 is connected with one end of the screw 81. When the second driving motor 82 operates, the screw rod 81 rotates and drives the nut seat 83 and the sliding block 7 to move along the extending direction of the horizontal sliding groove 71 through the threaded connection transmission, so that the smearing mechanism 4 moves along the width direction of the mold.

Referring to fig. 1 and 2, in this embodiment, the telescopic rod 3 includes a first arm 31, a second arm 32 and a telescopic cylinder 33, wherein the first arm 31 and the second arm 32 are vertically arranged, the slider 7 is disposed on one side of the top of the first arm 31, the smearing mechanism 4 is disposed on the bottom of the second arm 32, a vertical chute 34 extending vertically is disposed on one side of the first arm 31, an inner contour of the vertical chute 34 matches an outer contour of the second arm 32, so that the second arm 32 can be slidably disposed in the vertical chute 34, the telescopic cylinder 33 is fixedly disposed on the top of the vertical chute 34, a piston rod of the telescopic cylinder 33 is arranged vertically downward, and the piston rod of the telescopic cylinder 33 is fixedly connected to the top of the second arm 32, so that the telescopic cylinder 33 can drive the second arm 32 to slide in the vertical chute 34, so that the telescopic rod 3 has a telescopic function, thereby realizing the action that the smearing mechanism 4 extends into the mould or is lifted above the mould.

Referring to fig. 1 and 4, in the present embodiment, the applying mechanism 4 includes a support 41, a rotating shaft 42 and a third driving assembly 43, wherein the support 41 includes a top plate 411 and two side plates 412, the top plate 411 is connected and fixed with the bottom of the telescopic rod 3, the two side plates 412 are respectively fixed at two ends of the top plate 411 to form the support 41 with an inverted u-shaped cross section, the rotating shaft 42 in the present embodiment is provided with two rotating shafts 42, the two rotating shafts 42 are arranged in parallel and spaced apart from each other, two ends of each rotating shaft 42 respectively rotatably penetrate through the two side plates 412 of the support 41, an outer circumferential surface of each rotating shaft 42 is provided with bristles 44 capable of adsorbing the anti-sticking agent, and the bristles 44 are exposed at two sides of the support 41 and the bottom of the support 41; the third driving assembly 43 is disposed on the bracket 41, and the third driving assembly 43 is used for driving the rotating shaft 42 to rotate, and the rotating shaft 42 can drive the bristles 44 to rotate in the rotating process, so that the anti-sticking agent can be more uniformly coated on the inner wall of the mold, and the demolding of the casting piece is facilitated.

Specifically, in this embodiment, the third driving assembly 43 includes driven pulleys 431, a driving pulley 432, a transmission belt 433, and a third driving motor 434, wherein the number of the driven pulleys 431 is equal to the number of the rotating shafts 42, that is, the number of the driven pulleys 431 in this embodiment is two, the two driven pulleys 431 are respectively and fixedly disposed at the middle positions of the two rotating shafts 42, the third driving motor 434 is fixedly disposed on the top surface of the top plate 411 of the bracket 41, the driving pulley 432 is fixedly disposed on the output shaft of the third driving motor 434, and the driving pulley 432 and the driven pulleys 431 are connected through the transmission belt 433, wherein the top plate 411 of the bracket 41 is provided with an avoiding hole 413 for the transmission belt 433 to pass through. When the third driving motor 434 is operated, the third driving motor 434 simultaneously drives the two rotating shafts 42 to rotate through a belt transmission manner, so that the anti-sticking agent is more uniformly coated on the inner wall of the mold.

Referring to fig. 1, in the present embodiment, a reinforcing rib 9 extending along the length direction of the bottom of the cross beam 2 is fixedly arranged at the bottom of the cross beam 2 by welding, and the reinforcing rib 9 can enhance the bending resistance of the cross beam 2, so that the cross beam 2 is not easily deformed by a force.

In this embodiment, crossbeam 2's both ends all set firmly timing grease squirt 10, the built-in lubricating oil that is equipped with of timing grease squirt 10, two timing grease squirt 10's oil-out all communicates with a drip oil pipe 11, and two drip oil pipes 11 keep away from the top that corresponding timing grease squirt 10 is located two slide rails 5 respectively, timing grease squirt 10 can be regularly through drip oil pipe 11 add lubricating oil to slide rail 5 on, wear in the use of slide rail 5 is slowed down, the life of device is paintd in the increase.

The implementation principle is as follows: under the effect of first drive assembly 6, scribble mechanism 4 and can follow mould length direction and remove, under second drive assembly 8's effect, scribble mechanism 4 and can follow mould width direction and remove, under the effect of telescopic link 3, scribble mechanism 4 and can follow vertical direction and remove and stretch into in the mould or promote the top to the mould, namely, cross first drive assembly 6 of telescopic link 3 cooperation and second drive assembly 8, can drive and scribble mechanism 4 along vertical direction, move along mould length direction and along mould width direction, thereby make the antiseized agent that adsorbs on scribbling mechanism 4 can scribble the inner wall of establishing at the mould, so that the drawing of patterns of casting, and reduce the in-process casting piece surface or the condition of corner damage of drawing of patterns and take place, thereby guarantee the quality of the air entrainment building block of follow-up processing formation.

The embodiments of the present invention are preferred embodiments of the present application, and the scope of protection of the present application is not limited by the embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a device is paintd to air entrainment building block mould antiseize agent which characterized in that: comprises two frames (1) respectively positioned at two sides of a mould, a beam (2) arranged above the mould in a crossing way, a vertically arranged telescopic rod (3) and an applying mechanism (4) which is arranged at the bottom of the telescopic rod (3) and is adsorbed with an anti-sticking agent, wherein, two ends of the beam (2) are respectively arranged on the sliding rails (5) preset on the two frames (1) in a sliding way, and a first driving component (6) for driving the beam (2) to move along the extension direction of the sliding rail (5) is arranged between the beam (2) and the frame (1), a sliding block (7) is fixedly arranged on one side of the top of the telescopic rod (3), the sliding block (7) is arranged in a horizontal sliding groove (71) which is preset in the cross beam (2) in a sliding way, and a second driving component (8) for driving the sliding block (7) to move along the extension direction of the horizontal sliding groove (71) is arranged on the cross beam (2).

2. The aerated block mold anti-sticking agent smearing device according to claim 1, wherein: the smearing mechanism (4) comprises a support (41), a rotating shaft (42) and a third driving assembly (43), wherein the rotating shaft (42) is rotatably arranged on the support (41), bristles (44) are arranged on the peripheral surface of the rotating shaft (42), the bristles (44) are exposed out of two sides and the bottom of the support (41), and the third driving assembly (43) is arranged on the support (41) and used for driving the rotating shaft (42) to rotate.

3. The aerated block mold anti-sticking agent smearing device according to claim 2, wherein: the third driving assembly (43) comprises a driven pulley (431) fixedly arranged on the rotating shaft (42), a driving pulley (432), a transmission belt (433) and a third driving motor (434) fixedly arranged on the top of the bracket (41), wherein the driving pulley (432) is fixedly arranged on an output shaft of the third driving motor (434), and the driving pulley (432) is connected with the driven pulley (431) through the transmission belt (433).

4. The aerated block mold anti-sticking agent smearing device according to claim 1, wherein: the first driving assembly (6) comprises two first driving motors (61) which are fixedly arranged at two ends of the cross beam (2) respectively, two transmission racks (62) which are fixedly arranged on the rack (1) respectively and two transmission gears (63), wherein the two transmission gears (63) are fixedly arranged on output shafts of the two first driving motors (61) respectively, and the two transmission gears (63) are meshed with the two transmission racks (62) respectively.

5. The aerated block mold anti-sticking agent smearing device according to claim 1, wherein: the second driving assembly (8) comprises a screw rod (81) and a second driving motor (82), wherein the screw rod (81) is arranged along the extending direction of the horizontal sliding groove (71), the screw rod (81) is rotatably arranged in the horizontal sliding groove (71), the screw rod (81) is connected with a nut seat (83) which is preset on the sliding block (7), the second driving motor (82) is fixedly arranged at one end of the horizontal sliding groove (71), and an output shaft of the second driving motor (82) is connected with one end of the screw rod (81).

6. The aerated block mold anti-sticking agent smearing device according to claim 1, wherein: the telescopic rod (3) comprises a first support arm (31), a second support arm (32) and a telescopic cylinder (33), wherein the second support arm (32) is arranged in a vertical sliding groove (34) which is preset on one side of the first support arm (31) in a sliding mode, the telescopic cylinder (33) is fixedly arranged at the top of the vertical sliding groove (34), and a piston rod of the telescopic cylinder (33) is connected with the top end of the second support arm (32).

7. The aerated block mold anti-sticking agent smearing device according to claim 1, wherein: and a reinforcing rib plate (9) is fixedly arranged at the bottom of the cross beam (2).

8. The aerated block mold anti-sticking agent smearing device according to claim 1, wherein: timing oil squirts (10) are all set firmly at crossbeam (2) both ends, two the oil-out of timing oil squirt (10) all communicates with one drop oil pipe (11), and two the one end that corresponding timing oil squirt (10) was kept away from in drop oil pipe (11) is located the top of two slide rails (5) respectively.

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