CN217025097U - A transfer device for evaporating press aerated concrete block forming box of sand - Google Patents

Abstract

The utility model relates to a transfer device for an autoclaved sand aerated concrete block forming box, and belongs to the technical field of autoclaved sand aerated concrete block forming box transfer equipment. The automatic lifting device comprises a rack, a transverse conveying mechanism, a lifting frame and a jaw mechanism, wherein the transverse conveying mechanism is arranged on the rack, the lifting frame is arranged on the transverse conveying mechanism through the lifting mechanism, the jaw mechanisms are symmetrically arranged on the inner side of the lifting frame, and one end of each jaw mechanism is connected with the lifting frame through an angle adjusting hydraulic cylinder. This transfer device passes through jack catch mechanism and realizes locking the flange post of shaping case, utilizes angle modulation pneumatic cylinder to realize that jack catch mechanism erects the frame along removing and drives shaping case upset 90 degrees, compares in the current portal crane and hawser cooperation that adopts effectively reduces the hand labor volume, improves upset operating efficiency, has solved the problem that the building block collision damage easily appears when current transfer device artifical supplementary upset is not in place.

Description

A transfer device for evaporating press aerated concrete block forming box

Technical Field

The utility model relates to a transfer device for an autoclaved aerated concrete block forming box, and belongs to the technical field of autoclaved aerated concrete block forming box transfer equipment.

Background

The autoclaved aerated concrete block is a novel lightweight porous green environment-friendly building material which takes cement, lime, silica sand and the like as main raw materials; is widely used in the field of construction. The production process of the autoclaved sand aerated concrete block comprises the steps of batching, pulping, forming, cutting and autoclaved sand setting, wherein in the forming process, a special fermentation forming box is required to be used for storing slurry, heat preservation and moisture preservation are carried out, fermentation forming is carried out, after the autoclaved sand aerated concrete block is formed in the fermentation forming box, the fermentation forming box is required to be transferred to an appointed station through a transfer device and then turned over for 90 degrees, and the subsequent autoclaved sand aerated concrete block is convenient to discharge.

Thus current transfer device adopts portal crane and hawser cooperation to lift by crane the flange post of forming box side and transports, because of the reason of its structure, need overturn 90 degrees with it through manual assistance, thereby make things convenient for the follow-up unloading operation of evaporating sand aerated concrete block, above-mentioned in-process adopts artifical upset amount of labour big, the upset is inefficient, unsuitable production line continuity of operation, utilize artifical upset forming box to appear the condition that the upset is not in place easily simultaneously, need many times to adjust, it places the unstable problem that the emergence rocked the collision and damaged to appear evaporating sand aerated concrete block easily when the adjustment is not in place, consequently, it is necessary to improve it.

Disclosure of Invention

The utility model aims to provide a transfer device for an autoclaved aerated concrete block forming box, which effectively reduces the amount of manual labor, improves the turnover operation efficiency and solves the problem that the blocks are easy to collide and damage when the conventional transfer device is not turned in place manually.

The utility model achieves the above objects by the following technical scheme

The utility model provides a transfer device for evaporating press aerated concrete block forming box, includes frame, transverse conveying mechanism, elevating system, crane and jack catch mechanism, its characterized in that: the frame is provided with a transverse conveying mechanism, the transverse conveying mechanism is provided with a lifting frame through a lifting mechanism, the inner sides of the lifting frame are symmetrically provided with clamping jaw mechanisms, and one end of each clamping jaw mechanism is connected with the lifting frame through an angle adjusting hydraulic cylinder.

The transverse conveying mechanism is composed of a movable transverse frame, a movable vertical frame, a transmission motor, a roller, a guide rod, guide wheels and a mounting seat, wherein the movable transverse frame is slidably mounted on the rack through the transmission motor and the roller, the guide wheels are symmetrically mounted on the outer side of the movable transverse frame through the mounting seat and the guide rod, the guide wheels are in contact connection with the rack, and the movable vertical frame is symmetrically mounted on the inner side of the movable transverse frame.

The lifting mechanism is composed of a connecting rod, an assembling seat, a driving motor, a transmission shaft, a driving bevel gear, a driven bevel gear, a rack, a gear, a limiting guide rail and a limiting wheel, the transmission shaft and the connecting rod are respectively installed at two ends of the assembling seat, two ends of the transmission shaft are respectively connected with the movable vertical frame through the gear and the rack, two ends of the connecting rod are respectively connected with the movable vertical frame through the limiting guide rail and the limiting wheel, the driving motor is arranged on the lifting frame, and the driving motor is connected with the transmission shaft through the driving bevel gear and the driven bevel gear.

The cross section of the lifting frame is H-shaped.

The claw mechanism consists of a claw plate, locking claws and locking hydraulic cylinders, the locking claws are symmetrically arranged at two ends of the claw plate, the locking hydraulic cylinders are arranged between the two locking claws above the claw plate, and the locking hydraulic cylinders are movably connected with the two locking claws.

The hook plate is a rectangular plate-shaped body, the hook plate is arranged in an inclined manner, and a locking groove with a downward opening in the radial direction is formed in the hook plate corresponding to the locking claw.

Compared with the prior art, the utility model has the beneficial effects that:

the transfer device for the autoclaved aerated concrete block forming box is characterized in that a movable cross frame, a movable vertical frame, a transmission motor, a roller, a guide rod, a guide wheel and an installation seat of a transverse conveying mechanism are mutually matched to enable a lifting frame to slide leftwards or rightwards along a rack, so that a jaw mechanism is conveniently driven to synchronously move, a connecting rod, an assembly seat, a driving motor, a transmission shaft, a driving bevel gear, a driven bevel gear, a rack, a gear, a limiting guide rail and a limiting wheel of a lifting mechanism can drive the lifting frame to slide upwards or downwards along the movable vertical frame, so that the jaw mechanism is conveniently driven to synchronously move upwards and downwards, a flange column of the forming box is locked through a jaw plate, a locking jaw and a locking hydraulic cylinder of the jaw mechanism, the jaw mechanism is driven to turn over the forming box for 90 degrees along the movable vertical frame by utilizing an angle adjusting hydraulic cylinder, compared with the existing portal crane and cable rope matching, the labor amount is effectively reduced, improve upset operating efficiency, solved the problem that the building block collision damage easily appears when the artifical supplementary upset of current transfer device is not in place.

Drawings

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

FIG. 2 is a right side view of the structure of FIG. 1;

FIG. 3 is a left side view of the structure of FIG. 1;

fig. 4 is a schematic structural view of the 90-degree working state of the turnover forming box.

In the figure: 1. a frame; 2. moving the transverse frame; 3. moving the vertical frame; 4. a drive motor; 5. a roller; 6. a guide bar; 7. a guide wheel; 8. a mounting seat; 9. a lifting frame; 10. a connecting rod; 11. assembling a seat; 12. a drive motor; 13. a drive shaft; 14. a driving bevel gear; 15. a driven bevel gear; 16. a rack; 17. a gear; 18. limiting a guide rail; 19. a limiting wheel; 20. a hook plate; 21. a locking claw; 22. locking a hydraulic cylinder; 23. locking the groove; 24. an angle adjusting hydraulic cylinder; 25. a hydraulic cylinder mounting plate; 26. forming a box; 27. a flanged post.

Detailed Description

As shown in figures 1-4

This a transfer device for autoclaved sand aerated concrete block forming box includes frame 1, transverse conveying mechanism, elevating system, crane 9 and jack catch mechanism, install transverse conveying mechanism on 1 top of frame, transverse conveying mechanism is by removing crossbearer 2, remove and erect frame 3, drive motor 4, gyro wheel 5, guide bar 6, leading wheel 7 and mount pad 8 constitute, it sets up in 1 top of frame to remove crossbearer 2, gyro wheel 5 is installed through axostylus axostyle and axle bed in 2 bottoms of removal crossbearer, be provided with the guide rail on the frame 1 that corresponds with gyro wheel 5, be provided with drive motor 4 on the removal crossbearer 2, drive motor 4 passes through the drive belt and is connected with the axostylus axostyle, in operation, drive motor 4 drives gyro wheel 5 through the axostylus axostyle and rolls along 1 guide rail of frame, thereby it rotates to drive removal crossbearer 2 synchronous emergence.

Remove 2 outside symmetry fixed mounting of crossbearer and have mount pad 8, fixed mounting has guide bar 6 on the mount pad 8, 6 one end of guide bar extends to frame 1 one side, is equipped with leading wheel 7 on the guide bar 6 that extends to frame 1 one side, is provided with the guide rail on the frame 1 that corresponds with guide wheel 7, in operation, through the guide rail cooperation of guide bar 6 and leading wheel 7 with frame 1 to guarantee that remove crossbearer 2 can be steady take place to slide on frame 1.

The inner side of the movable transverse frame 2 is symmetrically and fixedly provided with movable vertical frames 3, the movable vertical frames 3 extend to the inner side of the rack 1, the movable vertical frames 3 of the transverse conveying mechanism extending to the inner side of the rack 1 are provided with lifting frames 9 through lifting mechanisms, and the cross sections of the lifting frames 9 are H-shaped.

The lifting mechanism is composed of a connecting rod 10, an assembling seat 11, a driving motor 12, a transmission shaft 13, a driving bevel gear 14, a driven bevel gear 15, a rack 16, a gear 17, a limiting guide rail 18 and a limiting wheel 19, wherein the section of the assembling seat 11 is U-shaped, the assembling seat 11 is symmetrically and fixedly installed on the lifting frame 9, two ends of the assembling seat 11 respectively extend to the outer side of the lifting frame 9, the transmission shaft 13 and the connecting rod 10 are movably installed at two ends of the assembling seat 11 extending to the outer side of the lifting frame 9 through bearings respectively, the transmission shaft 13 is located on one side of the lifting frame 9, two end heads of the transmission shaft 13 are respectively and fixedly installed with the gear 17, the lifting frame 9 corresponding to the gear 17 is provided with the rack 16, and the gear 17 is meshed with the rack 16.

The connecting rod 10 is located the other side of crane 9, and connecting rod 10 both ends end respectively fixed mounting has spacing wheel 19, is provided with spacing guide rail 18 on the crane 9 that corresponds with spacing wheel 19, spacing wheel 19 and spacing guide rail 18 sliding connection.

A driving motor 12 is fixedly arranged on the lifting frame 9 on the inner side of the assembling seat 11 through a motor mounting seat 8, a driving bevel gear 14 is fixedly arranged on a driving shaft of the driving motor 12, a driven bevel gear 15 is fixedly arranged on a transmission shaft 13 corresponding to the driving bevel gear 14, the driven bevel gear 15 is meshed and connected with the driving bevel gear 14, and when the lifting frame works, the driving motor 12 drives the driven bevel gear 15 to rotate through the driving bevel gear 14, so that the lifting frame 9 ascends or descends along the movable vertical frame 3 through the mutual matching of a gear 17 and a rack 16.

The inner side of the lifting frame 9 is symmetrically provided with a claw mechanism, the claw mechanism is composed of a claw plate 20, locking claws 21 and locking hydraulic cylinders 22, the claw plate 20 is a rectangular plate-shaped body, the claw plate 20 is obliquely arranged on the lifting frame 9 through a rotating shaft, the locking claws 21 are symmetrically and movably arranged at two ends of the claw plate 20 through pin shafts, the locking claws 21 are hook-shaped, the locking hydraulic cylinders 22 are arranged between the two locking claws 21 above the claw plate 20, two ends of the locking hydraulic cylinders 22 are movably connected with the two locking claws 21 through connecting plates and pin shafts, the claw plate 20 corresponding to the locking claws 21 is provided with locking grooves 23 with openings facing downwards in the radial direction, and in operation, the two locking claws 21 are simultaneously held tightly inwards or opened outwards through controlling the extension or contraction of piston rods of the locking hydraulic cylinders 22, so that the locking claws 21 lock or unlock the locking grooves 23.

An angle adjusting hydraulic cylinder 24 is arranged above one end of the jaw mechanism, a piston rod at one end of the angle adjusting hydraulic cylinder 24 is movably connected with the jaw plate 20 of the jaw mechanism, a hydraulic cylinder mounting plate 25 is movably mounted at the other end of the angle adjusting hydraulic cylinder 24, and a hydraulic cylinder mounting plate is fixedly mounted on the lifting frame 9.

When the transfer device is used, firstly, the transmission motor 4 is controlled to enable the movable transverse frame 2 and the movable vertical frame 3 to drive the lifting frame 9 to move to the upper side of the forming box 26 to be transferred, then the driving motor 12 is controlled to enable the lifting frame 9 to integrally move downwards along the movable vertical frame 3, the locking groove 23 of the claw mechanism is connected with the flange column 27 on the side edge of the forming box 26 in a matched mode, the piston rod of the hydraulic control locking cylinder 22 stretches out, the distance between the tops of the two claws gradually increases under the action of the hydraulic control locking cylinder 22, so that the two claws rotate relative to the claw plate 20 along respective pin shafts respectively, in the process, the claws are matched with the locking groove 23 of the claw plate 20, and the locking of the flange column 27 of the forming box 26 is realized.

After the claw mechanism of the transfer device locks the forming box 26, the lifting frame 9 is driven to ascend through the lifting mechanism, the forming box 26 is separated from the ground, the transverse conveying mechanism synchronously drives the forming box 26 to move to a specified place, the piston rod of the angle regulation hydraulic cylinder 24 is controlled to stretch out, in the process, the distance between one end, connected with the angle regulation hydraulic cylinder 24, of the claw plate 20 and the lifting frame 9 gradually increases, the distance between the other end of the claw plate 20 and the lifting frame 9 gradually decreases, therefore, the forming box 26 rotates around a pin shaft on the movable vertical frame 3, when the piston rod of the angle regulation hydraulic cylinder 24 completely stretches out, the claw mechanism drives the forming box 26 to synchronously rotate by 90 degrees, the lifting mechanism is controlled to drive the forming box 26 to descend to the specified place, subsequent blanking operation is facilitated, namely, the whole transfer operation of the transfer device is completed.

This a transfer device for autoclaved aerated concrete block forming box makes crane 9 take place to slide left or right along frame 1 through transverse conveying mechanism, thereby conveniently drive jack catch mechanism synchronous motion, it takes place to rise or descend along removing erector 3 to drive crane 9 through elevating system, thereby conveniently drive jack catch mechanism and carry out the elevating movement in step, realize locking flange post 27 to forming box 26 through jack catch mechanism, utilize angle modulation pneumatic cylinder 24 to realize that jack catch mechanism drives forming box 26 upset 90 degrees along removing erector 3, compare in the current effective reduction hand labor volume of portal crane and hawser cooperation of adopting, improve upset operating efficiency, the problem of the artifical supplementary upset of current transfer device easily appearing building block collision damage when not in place of upset is solved.

Claims (6)

1. The utility model provides a transfer device for evaporating press aerated concrete block forming box, includes frame (1), transverse conveying mechanism, elevating system, crane (9) and jack catch mechanism, its characterized in that: a transverse conveying mechanism is arranged on the rack (1), a lifting frame (9) is arranged on the transverse conveying mechanism through a lifting mechanism, clamping jaw mechanisms are symmetrically arranged on the inner side of the lifting frame (9), and one end of each clamping jaw mechanism is connected with the lifting frame (9) through an angle adjusting hydraulic cylinder (24).

2. The transfer device for the autoclaved aerated concrete block forming box according to claim 1, which is characterized in that: the transverse conveying mechanism is composed of a movable transverse frame (2), a movable vertical frame (3), a transmission motor (4), idler wheels (5), guide rods (6), guide wheels (7) and a mounting seat (8), wherein the movable transverse frame (2) is slidably mounted on a rack (1) through the transmission motor (4) and the idler wheels (5), the guide wheels (7) are symmetrically mounted on the outer side of the movable transverse frame (2) through the mounting seat (8) and the guide rods (6), the guide wheels (7) are in contact connection with the rack (1), and the movable vertical frame (3) is symmetrically mounted on the inner side of the movable transverse frame (2).

3. The transfer device for the autoclaved aerated concrete block forming box according to claim 1, which is characterized in that: the lifting mechanism is composed of a connecting rod (10), an assembling seat (11), a driving motor (12), a transmission shaft (13), a driving bevel gear (14), a driven bevel gear (15), a rack (16), a gear (17), a limiting guide rail (18) and a limiting wheel (19), the transmission shaft (13) and the connecting rod (10) are installed at two ends of the assembling seat (11) respectively, two ends of the transmission shaft (13) are connected with a movable vertical frame (3) through the gear (17) and the rack (16) respectively, two ends of the connecting rod (10) are connected with the movable vertical frame (3) through the limiting guide rail (18) and the limiting wheel (19) respectively, the driving motor (12) is arranged on a lifting frame (9), and the driving motor (12) is connected with the transmission shaft (13) through the driving bevel gear (14) and the driven bevel gear (15).

4. The transfer device for the autoclaved aerated concrete block forming box according to claim 1, which is characterized in that: the section of the lifting frame (9) is H-shaped.

5. The transfer device for the autoclaved aerated concrete block forming box according to claim 1, which is characterized in that: the clamping jaw mechanism is composed of a hook plate (20), locking claws (21) and locking hydraulic cylinders (22), the locking claws (21) are symmetrically arranged at two ends of the hook plate (20), the locking hydraulic cylinders (22) are arranged between the two locking claws (21) above the hook plate (20), and the locking hydraulic cylinders (22) are movably connected with the two locking claws (21).

6. The transfer device for the autoclaved aerated concrete block forming box according to claim 5, characterized in that: the hook plate (20) is a rectangular plate-shaped body, the hook plate (20) is arranged in an inclined manner, and a locking groove (23) with a downward opening in the radial direction is formed in the hook plate (20) corresponding to the locking claw (21).

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