CN217075922U - Transfer device for producing autoclaved aerated concrete blocks of energy-saving building materials - Google Patents

Abstract

The utility model relates to a transfer equipment technical field especially relates to a transfer device of autoclaved aerated concrete block production usefulness of energy-conserving building materials. The technical scheme includes that the device comprises a support, a transfer trolley, two guide rails, two side boxes and two sleeve frames, the two guide rails are arranged, a rail is arranged between the two guide rails, the lower ends of the guide rails and the lower ends of the rail are fixed on the support, a driving wheel is rotatably mounted on the upper end face of the rail through a rotating shaft, the transfer trolley is located between the two guide rails, bearing wheels are rotatably mounted at four corners of the lower end face of the transfer trolley through the rotating shaft, deflection wheels are rotatably mounted at two ends of two sides of the transfer trolley through the rotating shaft, side plates are fixed on two sides of the transfer trolley, a through groove is formed in the middle of each side plate, the two sleeve frames are arranged, two ends of the two sleeve frames are respectively sleeved in the through grooves of the two side plates in a sliding mode, and the side boxes are fixed on the outer sides of the side plates. The utility model discloses possess and operate steadily, need not manual operation and protectiveness strong, ensure the advantage of transportation security.

Description

Transfer device for producing autoclaved aerated concrete blocks of energy-saving building materials

Technical Field

The utility model relates to a transfer equipment technical field specifically is a transfer device of autoclaved aerated concrete block production usefulness of energy-conserving building materials.

Background

The autoclaved aerated concrete block is a porous concrete product prepared by using fly ash, lime, cement, gypsum, slag and the like as main raw materials, adding a proper amount of a gas former, a regulator and a bubble stabilizer, and carrying out the processes of batching, stirring, pouring, standing, cutting, high-pressure steam curing and the like. The autoclaved aerated concrete block has excellent construction characteristics, can produce various specifications in a factory, can be sawed, planed, drilled and nailed like wood, has higher construction speed due to larger volume, and can be used as a filling material of a common building.

The existing autoclaved aerated concrete blocks need to be stacked on transfer equipment through a stacker crane after production is finished, and then the blocks are transported to a designated storage station through the transfer equipment. The existing transfer device is too simple in structure, poor in stability, easy to bump in the transportation process, and poor in practicability due to the fact that the existing transfer device needs to be pushed manually; and current transfer device protection nature is poor, can't provide the protection that the building block was piled in the transportation, and the accident easily causes that collapses.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an energy-conserving building materials evaporate transfer device that presses aerated concrete block production usefulness possesses the steady operation, need not manual operation and protectiveness strong, ensures the advantage of transportation security, solves the problem among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a transfer device for producing autoclaved aerated concrete blocks of energy-saving building materials comprises a support, two transfer vehicles, guide rails, side boxes and a sleeve frame, wherein the two guide rails are arranged, a rail is arranged between the two guide rails, the lower ends of the guide rails and the rail are fixed on the support, the upper end surface of the rail is rotatably provided with a driving wheel through a rotating shaft, the transfer vehicles are positioned between the two guide rails, the four corners of the lower end surface of the transfer vehicles are rotatably provided with bearing wheels through rotating shafts, the two ends of the two sides of the transfer vehicles are rotatably provided with deflection wheels through rotating shafts, the two sides of the transfer vehicles are both fixed with side plates, the middle parts of the side plates are provided with through grooves, the sleeve frame is provided with two sleeve frames, the two ends of the two sleeve frames are respectively sleeved in the through grooves of the two side plates in a sliding manner, the side boxes are fixed on the outer sides of the side plates, the upper side and the lower side inside of the side boxes are both slidably provided with built-in frames, and the sleeve frame is connected with the corresponding built-in frame through the linkage block.

Preferably, the supports are equidistantly distributed on the lower end faces of the guide rail and the track, the supports are designed in a C shape, and the anti-skid pads are fixed at the two ends of each support. The support of guide rail and track is carried out through the support, and the slipmat improves support stability.

Preferably, the deflection wheel is attached to the inner wall of the guide rail, the bearing wheel is attached to the bottom end of the inner portion of the guide rail, and the driving wheel is attached to the middle of the lower end face of the transfer trolley. The steering guide of the transfer trolley is carried out through the deflection wheel, the bearing wheel improves the bearing capacity of the transfer trolley, and the driving wheel carries out the traction of the transfer trolley.

Preferably, a connecting groove is formed between the side box and the through groove, and the linkage block penetrates through the connecting groove to be connected with the built-in frame. The distribution of the linkage blocks is realized through the connecting grooves.

Preferably, the inboard of built-in frame is fixed with the swivel nut, four lead screws are installed in the rotation of side incasement portion equidistance, and four lead screws difference screw threads run through the swivel nut that corresponds, and the swivel nut in two built-in frames is the dislocation distribution. The corresponding thread insert is driven by the screw threads of the screw rod, and the thread insert drives the built-in frame to lift.

Preferably, a conveying belt is arranged in a notch on the upper end face of the transfer trolley, storage batteries are embedded in two sides of the transfer trolley, and the storage batteries and the rotating wheels of the conveying belt are distributed in a staggered mode. The discharging of the building block stack is realized through the conveying belt, and the storage battery supplies power for the device.

Compared with the prior art, the beneficial effects of the utility model are as follows: the device is started by external control equipment, power is supplied by a storage battery, a motor arranged in a side box is started to drive a screw rod to rotate during stacking, the screw rod drives a corresponding screw sleeve in a threaded manner, the screw sleeve drives a corresponding built-in frame to descend, the built-in frame drives a sleeve frame in a through groove to descend through a linkage block, the sleeve frame moves to two sides of a transfer trolley, an opening between side plates is opened, the building blocks are stacked on a conveying belt on the upper side of the transfer trolley through a stacking machine, the sleeve frame is reset after stacking is finished, the pile of the building blocks is protected at the side edge through the sleeve frame to avoid collapse, a motor arranged in a track is started to drive a driving wheel to rotate, the driving wheel drives the transfer trolley to move, the stability is improved through the rotation of a bearing wheel on a guide rail, the traction during the steering of the transfer trolley is realized through the contact of a deflection wheel on the inner wall of the guide rail, the friction is reduced, the stability is ensured, when the sleeve frame is lowered when the building blocks are transported to an unloading position, the conveying belt is started to discharge the pile outwards, the runner dislocation distribution of battery and conveyer belt, this device is easy and simple to handle, through automated design, need not manual operation, raises the efficiency, and the device operates steadily simultaneously, and the security is strengthened in the protectiveness, ensures to transport the security.

Drawings

FIG. 1 is a schematic view of the structure of the present invention;

FIG. 2 is a schematic side view of the present invention;

fig. 3 is a schematic view of the side box structure of the present invention.

In the figure: 1. a support; 2. a conveyor belt; 3. a transfer trolley; 4. a storage battery; 5. a guide rail; 6. a through groove; 7. a side box; 8. a linkage block; 9. a side plate; 10. sleeving a frame; 11. a track; 12. a drive wheel; 13. a load-bearing wheel; 14. a deflection wheel; 15. a built-in frame; 16. a threaded sleeve; 17. and a screw rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example one

Referring to fig. 1 to 3, the present invention provides an embodiment: a transfer device for producing autoclaved aerated concrete blocks of energy-saving building materials comprises a support 1, a transfer trolley 3 and guide rails 5, wherein two guide rails 5 are arranged, a rail 11 is arranged between the two guide rails 5, the lower ends of the guide rails 5 and the rail 11 are fixed on the support 1, the support 1 is equidistantly distributed on the lower end surfaces of the guide rails 5 and the rail 11, the support 1 is in a C-shaped design, anti-skid pads are fixed at two ends of the support 1, the support 1 supports the guide rails 5 and the rail 11 through the support 1, the stability of the support 1 is improved through the anti-skid pads, driving wheels 12 are rotatably arranged on the upper end surface of the rail 11 through a rotating shaft, the transfer trolley 3 is positioned between the two guide rails 5, bearing wheels 13 are rotatably arranged at four corners of the lower end surface of the transfer trolley 3 through the rotating shaft, deflection wheels 14 are rotatably arranged at two ends of two sides of the transfer trolley 3 through the rotating shaft, the deflection wheels 14 are attached to the inner walls of the guide rails 5, the bearing wheels 13 are attached to the inner bottom ends of the guide rails 5, the driving wheel 12 is attached to the middle of the lower end face of the transfer vehicle 3, the steering guide of the transfer vehicle 3 is performed by the deflection wheel 14, the bearing force of the transfer vehicle 3 is improved by the bearing wheel 13, and the driving wheel 12 performs traction of the transfer vehicle 3.

Example two

Referring to fig. 1 to 3, the present invention provides an embodiment: a transfer device for producing autoclaved aerated concrete blocks of energy-saving building materials comprises a transfer trolley 3, side boxes 7 and sleeve frames 10, wherein side plates 9 are fixed on two sides of the transfer trolley 3, a through groove 6 is formed in the middle of each side plate 9, the number of the sleeve frames 10 is two, two ends of each sleeve frame 10 are respectively sleeved in the through grooves 6 of the two side plates 9 in a sliding mode, the side boxes 7 are fixed on the outer sides of the side plates 9, a connecting groove is formed between each side box 7 and the corresponding through groove 6, a linkage block 8 penetrates through the connecting groove to be connected with an internal frame 15, distribution of the linkage block 8 is achieved through the connecting groove, the internal frames 15 are respectively installed on the upper side and the lower side of the inside of each side box 7 in a sliding mode, each sleeve 10 is connected with the corresponding internal frame 15 through the linkage block 8, screw sleeves 16 are fixed on the inner sides of the internal frames 15, four screw rods 17 are installed in the side boxes 7 in an equidistant rotating mode, and the four screw rods 17 respectively penetrate through the corresponding screw sleeves 16 in a threaded mode, the screw sleeves 16 in the two built-in frames 15 are distributed in a staggered mode, the screw sleeves 16 corresponding to the screw sleeves are driven through the screw threads of the screw rods 17, the screw sleeves 16 drive the built-in frames 15 to ascend and descend, the conveying belt 2 is arranged in the notch of the upper end face of the transfer trolley 3, the storage batteries 4 are embedded into the two sides of the transfer trolley 3, the storage batteries 4 and the rotating wheels of the conveying belt 2 are distributed in a staggered mode, unloading of building block piles is achieved through the conveying belt 2, and the storage batteries 4 supply power to the device.

The working principle is as follows: in the utility model, the device is started by external control equipment, power is supplied by a storage battery 4, a lead screw 17 is driven to rotate by a built-in motor of a side box 7 during stacking, the lead screw 17 drives a corresponding screw sleeve 16 by screw threads, the screw sleeve 16 drives a corresponding built-in frame 15 to descend, the built-in frame 15 drives a sleeve frame 10 in a through groove 6 to descend by a linkage block 8, the sleeve frame 10 moves to two sides of a transfer vehicle 3, an opening between side plates 9 is opened, building blocks are stacked on a conveying belt 2 on the upper side of the transfer vehicle 3 by a stacker crane, the sleeve frame 10 is reset after stacking is finished, the sleeve frame 10 protects the side edges of the building block stack to avoid collapse, the built-in motor of a starting track 11 drives a driving wheel 12 to rotate, the driving wheel 12 drives the transfer vehicle 3 to move, the stability is improved by the rotation of a bearing wheel 13 on a guide rail 5, the inner wall of the guide rail 5 is laminated by a deflection wheel 14, the traction of the transfer vehicle 3 during the transfer vehicle is realized, when reducing friction, ensure stability, when transporting to the position of unloading, descend set frame 10, start conveyer belt 2 and pile the outside discharge with the building block, the runner staggered distribution of battery 4 and conveyer belt 2. The working principle of the present invention is the above.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a transfer device of energy-conserving building materials's autoclaved aerated concrete block production usefulness, includes support (1), transfer car (3), guide rail (5), side case (7) and cover frame (10), its characterized in that: the two guide rails (5) are arranged, a track (11) is arranged between the two guide rails (5), the lower ends of the guide rails (5) and the track (11) are fixed on the support (1), the upper end face of the track (11) is rotatably provided with a driving wheel (12) through a rotating shaft, the transfer trolley (3) is positioned between the two guide rails (5), four corners of the lower end face of the transfer trolley (3) are rotatably provided with bearing wheels (13) through rotating shafts, two ends of two sides of the transfer trolley (3) are rotatably provided with deflection wheels (14) through rotating shafts, two sides of the transfer trolley (3) are respectively fixed with a side plate (9), the middle of each side plate (9) is provided with a through groove (6), the sleeve frames (10) are arranged in two, two ends of the two sleeve frames (10) are respectively sleeved in the through grooves (6) of the two side plates (9) in a sliding manner, the side boxes (7) are fixed on the outer sides of the side plates (9), built-in frames (15) are arranged on the upper side and the lower side of the interior of the side box (7) in a sliding mode, and the sleeve frames (10) are connected with the corresponding built-in frames (15) through linkage blocks (8).

2. The transfer device for producing the autoclaved aerated concrete block of the energy-saving building material according to claim 1, which is characterized in that: support (1) equidistance distributes at the lower terminal surface of guide rail (5) and track (11), support (1) is the design of C font, and the both ends of support (1) all are fixed with the slipmat.

3. The transfer device for producing the autoclaved aerated concrete block of the energy-saving building material according to claim 1, which is characterized in that: the deviation wheel (14) is attached to the inner wall of the guide rail (5), the bearing wheel (13) is attached to the bottom end of the inner portion of the guide rail (5), and the driving wheel (12) is attached to the middle of the lower end face of the transfer trolley (3).

4. The transfer device for producing the autoclaved aerated concrete block of the energy-saving building material according to claim 1, which is characterized in that: a connecting groove is formed between the side box (7) and the through groove (6), and the linkage block (8) penetrates through the connecting groove to be connected with the built-in frame (15).

5. The transfer device for producing the autoclaved aerated concrete block of the energy-saving building material according to claim 1, which is characterized in that: the inner side of the built-in frame (15) is fixed with a threaded sleeve (16), four screw rods (17) are rotatably arranged in the side box (7) at equal intervals, the four screw rods (17) respectively penetrate through the corresponding threaded sleeves (16) in a threaded mode, and the threaded sleeves (16) in the two built-in frames (15) are distributed in a staggered mode.

6. The transfer device for producing the autoclaved aerated concrete block of the energy-saving building material according to claim 1, which is characterized in that: the conveying belt (2) is arranged in a notch in the upper end face of the transfer trolley (3), storage batteries (4) are embedded into the two sides of the transfer trolley (3), and the storage batteries (4) and the rotating wheels of the conveying belt (2) are distributed in a staggered mode.

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