CN220667009U - Conveying device for aerated concrete block pouring mold - Google Patents

Abstract

The application discloses aerated concrete block pouring die's conveyor relates to concrete production equipment technical field, has improved the laborious problem of shallow, and it includes ground, automobile body and a plurality of control assembly, control assembly includes the fixing base, rotates the seat and sets up the tight wheel of support on rotating the seat, automobile body lower extreme department is provided with a plurality of and rotates the wheel, the automobile body lower extreme still is provided with the control strip that supplies the tight wheel of support to support, be provided with the rotatory control piece of control rotation seat on the fixing base, it rotates central line horizontal direction and extends to rotate the seat, be provided with the rotatory rotation subassembly of control support tight wheel on the rotation seat, support tight wheel rotation central line horizontal direction and extend. The application can save labor in pushing.

Description

Conveying device for aerated concrete block pouring mold

Technical Field

The application relates to the technical field of concrete production equipment, in particular to a conveying device of an aerated concrete block pouring die.

Background

The aerated concrete block is used as an important component for wall material innovation and building energy conservation, has the advantages of light weight, good heat preservation, good sound absorption effect, certain strength, machinability and the like, and is generally formed by crushing, ball milling, metering, pulping, stirring, pouring, resting and cutting raw materials, steaming at high temperature and high pressure, wherein the poured concrete has large weight and needs to be used for special transportation vehicles before being transported to cutting equipment.

The existing conveying device for the pouring mould of the aerated concrete block shown in fig. 1 comprises a loading truck 10 and a movable wheel 101 arranged at the lower end of the loading truck 10, wherein concrete blocks are placed in the loading truck 10, then the loading truck 10 is pushed, and the loading truck 10 is moved to the next cutting process by the movable wheel 101, so that the loading truck 10 is manually pushed, the concrete has a certain weight, and the cart is laborious.

Disclosure of Invention

In order to make the shallow laborsaving, this application provides a conveyor of aerated concrete block pouring mould.

The application provides a conveyor of aerated concrete block pouring mould adopts following technical scheme:

the utility model provides an aerated concrete block pouring die's conveyor, includes ground, automobile body and a plurality of control assembly, control assembly includes the fixing base, rotates the seat and sets up the tight wheel of support on rotating the seat, automobile body lower extreme department is provided with a plurality of and rotates the wheel, the automobile body lower extreme still is provided with the control strip that supplies the tight wheel to support tightly, be provided with the rotatory control piece of control rotation seat on the fixing base, it rotates the seat rotation central line horizontal direction and extends, be provided with the rotatory rotation subassembly of control tight wheel on the rotation seat, it rotates central line horizontal direction extension to support the tight wheel.

Through adopting above-mentioned technical scheme, through automobile body loading concrete, the control piece adjustment supports the position of tight wheel and makes to support tight wheel can support to the control strip on, then supports tight wheel under the effect of rotating the subassembly and begins to rotate, supports tight wheel and supports tight control strip, under the effect of friction force between tight wheel and the control strip, the automobile body is driven by the tight wheel and moves forward, drives the automobile body through the tight wheel and removes and replace manual shallow, realizes the laborsaving effect of shallow.

Optionally, the rotating assembly includes a rotating motor and a gearbox arranged on the rotating motor, and the output shaft of the gearbox is arranged on the tight pulley.

Through adopting above-mentioned technical scheme, give power through rotating the motor to through gearbox adjustment rotating the torque and the rotational speed of motor, then gearbox output shaft drives the tight wheel rotation of supporting, realizes that the rotating assembly drives the rotatory effect of tight wheel of supporting.

Optionally, the rotation seat is connected on the fixing base through the axle rotation, the control piece is control cylinder, control cylinder includes control cylinder body and control piston rod, control cylinder body rotates to be connected on the fixing base, one side that control piston rod kept away from control cylinder body rotates to be connected on the rotation seat.

By adopting the technical scheme, the control cylinder is started, the control piston rod can drive the rotating seat to move towards the direction close to or far away from the cylinder body, and the control piston rod is rotationally connected on the rotating seat due to the fact that the rotating seat is rotationally connected on the fixed seat, so that the effect that the control cylinder drives the rotating seat to rotate is achieved.

Optionally, be provided with the fixed plate on the fixing base, be provided with the limiting plate on the fixed plate, rotate the seat rotation in-process, the terminal surface can supply to rotate the seat butt under the limiting plate.

Through adopting above-mentioned technical scheme, through limiting plate restriction rotation seat's rotation angle, the correct position of adjustment tight wheel is supported in the convenient assurance.

Optionally, one side that the fixed plate is close to the limiting plate is equipped with adjusting screw, the limiting plate vertical direction slides on adjusting screw, threaded connection has two regulating blocks on the adjusting screw, two the regulating block butt respectively is at the up end of limiting plate and the lower terminal surface of limiting plate.

Through adopting above-mentioned technical scheme, the limiting plate can carry out the ascending slip of vertical direction along adjusting screw, can adjust the height of limiting plate according to actual conditions, then accomplishes the fixed of limiting plate through the centre gripping of two regulating blocks.

Optionally, a guide rod is arranged on the fixed plate, and a guide groove for sliding the guide rod in the vertical direction is formed in the limiting plate.

Through adopting above-mentioned technical scheme, under the cooperation of guide bar and guide way, make limiting plate slip in-process keep stable.

Optionally, chamfer angles are arranged on two sides of the length direction of the control bar.

Through adopting above-mentioned technical scheme, conveniently support the tight wheel through the chamfer and get into on the control strip.

Optionally, the control strip is provided with a tightening groove for the tightening wheel to be clamped in.

Through adopting above-mentioned technical scheme, strengthen the frictional force between tight pulley and the control strip through the cell wall on tight groove horizontal direction.

Optionally, a moving groove for sliding the rotating wheel is formed in the ground.

By adopting the technical scheme, the sliding direction of the vehicle body is limited under the cooperation of the rotating wheel and the moving groove, so that the vehicle body is kept stable in the sliding process.

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

the position of the supporting wheel is adjusted through the control piece, then the rotating assembly drives the supporting wheel to rotate, the supporting wheel can be supported tightly on the control strip, the car body is driven to move through the friction force of the supporting wheel, the car body is driven to move through the supporting wheel to replace the manual cart, and the labor-saving effect of the cart is achieved.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the prior art;

FIG. 2 is a schematic view of the overall structure of the present embodiment;

FIG. 3 is a schematic cross-sectional view of the ground in this embodiment;

fig. 4 is a schematic structural view of the fixing base and the rotating base in the present embodiment;

FIG. 5 is a schematic cross-sectional view of the fixing plate and the limiting plate in the present embodiment;

fig. 6 is a schematic sectional view of the vehicle body and the tight pulley in this embodiment.

Reference numerals illustrate: 1. ground surface; 11. a mounting groove; 12. a moving groove; 13. a lifting groove; 2. a vehicle body; 21. a rotating wheel; 22. a control bar; 221. a tightening groove; 222. chamfering; 3. a control assembly; 31. a fixing seat; 311. a first rotary base; 312. a third rotary seat; 32. a rotating seat; 321. a first connection plate; 322. a second connecting plate; 323. a second rotating seat; 33. a tight pulley; 4. a control member; 41. a control cylinder; 411. a control cylinder; 412. a control piston rod; 5. a fixing plate; 51. adjusting a screw; 52. a guide rod; 6. a limiting plate; 61. a slip groove; 62. a guide groove; 7. an adjusting block; 71. a thread groove; 8. a rotating assembly; 81. a rotating motor; 82. a gearbox; 9. triggering a switch; 91. a lifting rod; 10. a loading vehicle; 101. the wheel is moved.

Detailed Description

The present application is described in further detail below in conjunction with figures 2-6.

The embodiment of the application discloses a conveying device of an aerated concrete block pouring die.

Referring to fig. 2 and 3, the conveying device of the aerated concrete block pouring mold comprises a ground 1, a vehicle body 2 and a plurality of control components 3, wherein an installation groove 11 for installing the control components 3 is formed in the ground 1, the control components 3 comprise a fixed seat 31, a rotating seat 32 and a supporting wheel 33, wherein the fixed seat 31 is fixedly installed at the bottom of the installation groove 11, a first rotating seat 311 is installed on the fixed seat 31, the rotating seat 32 is connected to the first rotating seat 311 through shaft rotation, and the supporting wheel 33 is installed on the rotating seat 32.

Referring to fig. 3 and 4, a control member 4 is installed on the fixed seat 31, the control member 4 is a control cylinder 41, the control cylinder 41 includes a control cylinder 411 and a control piston rod 412, a first connection plate 321 is installed at one side on the rotating seat 32, the first connection plate 321 is perpendicular to the rotating seat 32, a second connection plate 322 is provided on the first connection plate 321, and the second connection plate 322 is parallel to the rotating seat 32.

Referring to fig. 3 and 4, a second rotating seat 323 is installed at a side of the second connection plate 322 close to the control piston rod 412, and a side of the control piston rod 412 remote from the control cylinder 411 is rotatably coupled to the second rotating seat 323 by a shaft. The third rotary seat 312 is mounted on the fixed seat 31, and a side of the control cylinder 411 away from the control piston rod 412 is pivotally connected to the third rotary seat 312.

Referring to fig. 3 and 4, since the rotary seat 32 is rotatably connected to the fixed seat 31, the control piston rod 412 is rotatably connected to the rotary seat 32, the control cylinder 41 is activated, and the control piston rod 412 slides in a direction approaching or separating from the control cylinder 411, thereby achieving the effect of rotating the rotary seat 32 on the fixed seat 31.

Referring to fig. 4 and 5, the fixing base 31 is further provided with the fixing plate 5, the fixing plate 5 is provided with the limiting plate 6, the lower end surface of the limiting plate 6 can be abutted by the rotating base 32 in the rotating process of the rotating base 32, at this time, the rotating base 32 cannot continue to rotate, the rotating angle of the rotating base 32 is limited by the limiting plate 6, and the position deviation of the supporting wheel 33 caused by overlarge rotating angle of the rotating base 32 is reduced.

Referring to fig. 4 and 5, an adjusting screw 51 is welded on one side of the fixing plate 5 near the limiting plate 6, the adjusting screw 51 extends in a vertical direction, a sliding groove 61 for sliding the adjusting screw 51 is formed in the limiting plate 6, two adjusting blocks 7 are mounted on the adjusting screw 51, a threaded groove 71 matched with a threaded portion of the adjusting screw 51 is formed in the adjusting block 7, and the two adjusting blocks 7 are located at the upper end and the lower end of the limiting plate 6 respectively.

Referring to fig. 4 and 5, the height of the limiting plate 6 is adjusted according to the actual situation, when the limiting plate 6 slides to a designated position, then the adjusting block 7 is rotated to enable two adjustments to be respectively abutted against the upper end and the lower end of the limiting plate 6, and as the adjusting block 7 can be fixed on the adjusting screw 51 through threads, the effect of fixing the limiting plate 6 is achieved through clamping of the two adjusting blocks 7.

Referring to fig. 4 and 5, in order to maintain stability during the sliding process of the limiting plate 6, the fixing plate 5 is welded with a guide rod 52, the limiting plate 6 is provided with a guide groove 62 for sliding the guide rod 52 in the vertical direction, and the possibility of shaking during the sliding process of the limiting plate 6 is reduced by the cooperation of the guide rod 52 and the guide groove 62.

Referring to fig. 3 and 4, a rotating assembly 8 is mounted on a rotating seat 32, the rotating assembly 8 is a rotating motor 81 and a gearbox 82 which are fixed on the rotating seat 32, the rotating motor 81 is connected with a variable box, an output shaft of the gearbox 82 is fixedly connected with a supporting wheel 33, power is supplied through the rotating motor 81, torque and rotating speed of the rotating motor 81 are adjusted through the gearbox 82, and then the output shaft of the gearbox 82 drives the supporting wheel 33 to rotate, so that the effect that the rotating assembly 8 drives the supporting wheel 33 to rotate is achieved.

Referring to fig. 2 and 3, a plurality of rotating wheels 21 are installed at the lower end of the vehicle body 2, the sliding of the vehicle body 2 is realized through the rotating wheels 21, in order to keep the sliding process of the vehicle body 2 stable, a moving groove 12 for sliding the rotating wheels 21 is formed on the ground 1, the sliding direction of the rotating wheels 21 is limited through the wall of the moving groove 12, and the possibility of the vehicle body 2 shifting is reduced.

Referring to fig. 6, a control bar 22 is further installed at the lower end of the vehicle body 2, a tightening groove 221 is formed in the control bar 22, when the lower end of the wheel is located at the upper end of the mounting groove 11, the tightening wheel 33 can rotate into the tightening groove 221, at this time, the effect that the tightening wheel 33 rotates to drive the vehicle body 2 to move towards the rotation direction of the tightening wheel 33 is achieved through the friction force between the tightening wheel 33 and the bottom of the tightening groove 221, the friction force between the tightening bar and the control bar 22 is reinforced through the groove wall in the horizontal direction of the tightening groove 221, and the possibility of slipping of the tightening wheel 33 is reduced.

Referring to fig. 6, in order to facilitate the entering of the tightening wheel 33 into the tightening groove 221, chamfers 222 are provided on both sides of the control bar 22 in the longitudinal direction, and the tightening wheel 33 enters into the tightening groove 221 along the chamfers 222, so as to reduce the possibility that the tightening wheel 33 is stuck at both ends of the control bar 22.

Referring to fig. 4 and 6, a trigger switch 9 is further installed on the ground 1, the trigger switch 9 is a lifting rod 91 sliding on the ground 1 in the vertical direction, a lifting groove 13 for sliding the lifting rod 91 in the vertical direction is formed in the ground 1, when the vehicle body 2 moves towards the direction close to the installation groove 11, the control bar 22 is firstly abutted to the lifting rod 91, at this time, the trigger switch 9 starts the rotating motor 81 and the gearbox 82, the abutting wheel 33 starts to rotate, the starting time of the rotating motor 81 and the gearbox 82 is determined through the trigger switch 9, and the energy saving effect of the rotating motor 81 and the gearbox 82 is achieved.

The implementation principle of the conveying device of the aerated concrete block pouring die provided by the embodiment of the application is as follows:

the height of the limiting plate 6 is adjusted, then the adjusting blocks 7 are rotated to enable the two adjusting blocks 7 to respectively abut against the upper end face and the lower end face of the limiting plate 6, the limiting plate 6 is fixed at the moment, the control cylinder 41 is started to adjust the rotation angle of the rotating seat 32 according to the rotation angle of the limiting plate 6 limiting the rotating seat 32, and the adjustment of the position of the abutting wheel 33 is completed.

When the car body 2 moves towards the direction close to the mounting groove 11, the control bar 22 can be abutted on the lifting rod 91, at the moment, the trigger switch 9 drives the rotating motor 81 and the gearbox 82 to be started, the abutting wheel 33 enters the abutting groove 221 along the chamfer 222, the abutting wheel 33 rotates, the car body 2 is driven to move towards the rotating direction of the abutting wheel 33 by the rotation of the abutting wheel 33 through the friction between the abutting wheel 33 and the groove bottom of the abutting groove 221, and the car body 2 is driven to move to replace a manual cart through the abutting wheel 33, so that the effect of saving labor of the cart is achieved.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (9)

1. The utility model provides a conveyor of aerated concrete block pouring mould which characterized in that: including ground (1), automobile body (2) and a plurality of control assembly (3), control assembly (3) include fixing base (31), rotate seat (32) and set up tight wheel (33) of supporting on rotating seat (32), automobile body (2) lower extreme department is provided with a plurality of and rotates wheel (21), automobile body (2) lower extreme still is provided with control strip (22) that supply tight wheel (33) to support tightly, be provided with control on fixing base (31) and rotate seat (32) rotatory control (4), rotate seat (32) rotation central line horizontal direction and extend, be provided with on rotating seat (32) and control tight wheel (33) rotatory rotating assembly (8), tight wheel (33) rotation central line horizontal direction of supporting extends.

2. The delivery device for an aerated concrete block casting mold of claim 1, wherein: the rotating assembly (8) comprises a rotating motor (81) and a gearbox (82) arranged on the rotating motor (81), and an output shaft of the gearbox (82) is arranged on the abutting wheel (33).

3. The delivery device for an aerated concrete block casting mold of claim 2, wherein: the rotary seat (32) is connected to the fixed seat (31) through shaft rotation, the control piece (4) is a control cylinder (41), the control cylinder (41) comprises a control cylinder body (411) and a control piston rod (412), the control cylinder body (411) is connected to the fixed seat (31) in a rotary mode, and one side, far away from the control cylinder body (411), of the control piston rod (412) is connected to the rotary seat (32) in a rotary mode.

4. The delivery device for an aerated concrete block casting mold of claim 1, wherein: the fixed seat (31) is provided with a fixed plate (5), the fixed plate (5) is provided with a limiting plate (6), and the lower end surface of the limiting plate (6) can be abutted by the rotating seat (32) in the rotating process of the rotating seat (32).

5. The delivery device for an aerated concrete block casting mold of claim 4, wherein: one side of fixed plate (5) is close to limiting plate (6) is equipped with adjusting screw (51), on adjusting screw (51) that limiting plate (6) vertical direction slided, threaded connection has two regulating blocks (7) on adjusting screw (51), two regulating blocks (7) butt respectively at the up end of limiting plate (6) and the lower terminal surface of limiting plate (6).

6. The delivery device for an aerated concrete block casting mold of claim 5, wherein: the fixing seat (31) is provided with a guide rod (52), and the limiting plate (6) is provided with a guide groove (62) for sliding the guide rod (52) in the vertical direction.

7. The delivery device for an aerated concrete block casting mold of claim 1, wherein: and chamfers (222) are arranged on two sides of the control strip (22) in the length direction.

8. The delivery device for an aerated concrete block casting mold of claim 1, wherein: the control strip (22) is provided with a tightening groove (221) for the tightening wheel (33) to be clamped in.

9. The delivery device for an aerated concrete block casting mold of claim 1, wherein: the ground (1) is provided with a moving groove (12) for sliding the rotating wheel (21).