CN219885582U - Autoclaved aerated concrete block transfer device - Google Patents

Abstract

The utility model discloses a transfer device for autoclaved aerated concrete blocks, which relates to the technical field of autoclaved aerated concrete block production, and comprises: the front end of the backup plate is connected with a fork; the first placing frame and the second placing frame are arranged at the top of the fork; the traction piece is connected with the fixing piece; the traction piece comprises a positioning roller arranged in the first placement frame, a supporting belt is wound outside the positioning roller, the free end of the supporting belt is connected with a movable roller, and the movable roller can be connected with the second placement frame. According to the autoclaved aerated concrete block transfer device, the top of the fork is covered by the windable supporting belt, so that the technical problem that the conventional autoclaved aerated concrete block transfer device cannot be matched with a pushing plate when in use is effectively solved, the applicability of the transfer device is further realized, the tray filled with blocks can be transferred, and meanwhile, the blocks can be directly placed on the device.

Description

Autoclaved aerated concrete block transfer device

Technical Field

The utility model relates to the technical field of autoclaved aerated concrete blocks, in particular to an autoclaved aerated concrete block transfer device.

Background

The autoclaved aerated concrete block is a porous concrete product which is prepared by taking fly ash, lime, cement, gypsum, slag and the like as main raw materials, adding a proper amount of a gas generating agent, a regulator and a bubble stabilizer, and carrying out the technological processes of proportioning, stirring, pouring, standing, cutting, high-pressure steam curing and the like.

At present, an autoclaved aerated concrete block transfer device is disclosed in the prior patent, and patent publication number: CN217260163U, including base and the multiunit universal wheel of setting in the base bottom, be provided with clamping and limiting mechanism on the base, clamping and limiting mechanism includes fixed plate, limiting plate, elastic component and inoxidizing coating, be provided with multiunit fixed plate on the base, be provided with two sets of limiting plates between the fixed plate, be provided with multiunit elastic component between fixed plate and the limiting plate, be provided with the inoxidizing coating on the limiting plate, the base is U type distribution, be provided with adjustable stop mechanism on the base. Firstly, be equipped with centre gripping stop gear, enlarged transfer device's application scope to improve the yield of autoclaved aerated concrete block processing, secondly, be equipped with adjustable stop gear, improved the spacing stability of autoclaved aerated concrete block vertical direction, thereby improved the transfer work efficiency of autoclaved aerated concrete block.

However, in the implementation process of the technical scheme, at least the following technical problems are found:

can not be matched with a pushing disc for use: to the building block of stack on pushing away the dish in advance, can't transport through the device, can only transport through fork truck, therefore the device can not directly use so application scope is little with pushing away the dish cooperation, so when transporting the building block, need select the transfer device who corresponds according to the position of building block stack in advance, seriously influence the convenience of device transportation building block, lead to getting of building block put and need spend a large amount of time and energy, for this reason, we propose an autoclaved aerated concrete block transfer device.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the utility model provides an autoclaved aerated concrete block transfer device, which solves the technical problems that the existing autoclaved aerated concrete block cannot be directly matched with a pushing disc for use when being transferred, and is inconvenient to transfer.

(II) technical scheme

In order to achieve the above purpose, the utility model is realized by the following technical scheme:

this transfer device of autoclaved aerated concrete block includes the fork truck main part, utilize fork truck's function, so can insert the building block with the tray, and transport, in order to can transport the building block that does not put on the tray, set up the supporting belt that can improve fork area under force at its top, improve the atress area of device through the supporting belt, conveniently directly put the building block on the device, and peg graft in the inside of this supporting belt has the banding support bar, make the supporting belt can keep specific shape, when avoiding the building block to put, the supporting belt takes place to warp, and when receiving and releasing the supporting belt, also only need with the supporting belt rolling can, have the fork truck state that resumes originally this moment, improve the suitability of device from this:

the front end of the backup plate is connected with two forks;

the fixing piece is arranged at the top of the fork and near the end part, so that the supporting belt can be conveniently covered on the fork after the movable roller is placed; and

the traction piece is connected with the fixing piece and is used for driving the building blocks to move on the pallet fork, and meanwhile, the stress area of the pallet fork can be increased, so that the building blocks can be conveniently placed;

the fixing piece comprises a first placing frame and a second placing frame which are respectively arranged at the front end and the rear end of the fork, and a space is provided for placing the positioning roller and the movable roller;

the traction piece comprises a positioning roller arranged in the first placement frame, a supporting belt is wound outside the positioning roller, the free end of the supporting belt is connected with a movable roller, the position of the movable roller is convenient to adjust freely, and the movable roller can be connected with the second placement frame.

Preferably, the placing frame is divided into two sections and is arranged on the two forks, so that the normal work of the forks is prevented from being influenced;

wherein, rack two can slide in the spout at fork top, conveniently accomodate rack two in the spout, avoid influencing the normal work of fork.

Preferably, the end part of the movable roller is provided with a bearing seat which can be embedded in the second rack, so that the movable roller can still rotate when being embedded in the second rack, and the support belt can slide on the fork stably conveniently;

when the movable roller is connected with the second placement frame, the supporting belt between the positioning roller and the movable roller covers the top of the fork, and at the moment, the building blocks can be placed on the device directly.

Preferably, the front end of the backup plate is provided with an embedded groove, and the embedded groove is positioned above the positioning roller;

the movable roller can be embedded in the embedded groove and used for temporarily placing the movable roller, so that the fork is exposed, and the normal work of the fork is prevented from being influenced.

Preferably, the bottom of the supporting belt is provided with a plurality of supporting bars at equal intervals, and the extending direction of the supporting bars is consistent with the length direction of the positioning roller, so that the supporting belt can keep a specific shape, and the supporting belt is prevented from deforming when the building blocks are placed;

the length of the supporting bar is smaller than that of the positioning roller, and the supporting bar is prevented from affecting the gear at the end part of the positioning roller.

Preferably, the main structure of the forklift body is as follows: the rear end of the backup plate is provided with a steering seat which can freely rotate so as to adjust the moving direction of the device, and the steering seat is connected with the top of the backup plate through a hydraulic rod so as to jack up a fork, thereby being convenient to be matched with conveying lines with different heights and simultaneously being matched with a conveying belt;

wherein, the traction lever is installed to one side of turning to the seat for adjust the hydraulic pressure pole, simultaneously, the convenience of customers pulling device removes.

Preferably, the bottom of the fork is connected with two mutually-crossed supporting rods, and the crossing parts of the two supporting rods are connected through a rotating shaft, one supporting rod is hinged with the fork, and the other supporting rod is in sliding connection with the fork, so that the height of the device is adjusted.

Preferably, the positioning roller is driven to rotate by a driver arranged on the backup plate, so that the supporting belt rotates, and the device building blocks contacted with the supporting belt are transported to the rear part of the fork, thereby reducing the difficulty of placing the building blocks;

wherein, the driver contains the motor of installing on the backup plate lateral wall, and all be connected with the interlock gear on the output shaft of motor and on the one end of locating roller and motor homonymy, two interlock gear intermeshing drives the epaxial interlock gear rotation of its output when the motor circular telegram, because this interlock gear meshes with the interlock gear on the locating roller, so when the motor circular telegram, can drive the locating roller rotation, drive the supporting belt simultaneously for the building block that contacts with the supporting belt removes to the fork rear end, thereby reduces the frictional force that the building block removed to the fork, on the convenient building block removed to the fork.

(III) beneficial effects

1. The top of the fork is covered by adopting the windable supporting belt, so that the technical problem that the conventional autoclaved aerated concrete masonry transfer device cannot be matched with a pushing disc for use in use is effectively solved, the applicability of the transfer device is further realized, the tray filled with the building blocks can be transferred, meanwhile, the building blocks can be directly placed on the device, the application range of the device is enlarged, and multiple transfer devices are prevented from being prepared at the same time;

2. because the driver is adopted to drive the supporting belt to move on the fork, the technical problem that the existing autoclaved aerated concrete masonry transfer device cannot be matched with a building block production line when in use is effectively solved, and further rapid transfer of building blocks is realized, meanwhile, stacked building blocks can be guided to the device, and transfer after the device is convenient.

Drawings

The foregoing description is only an overview of the present utility model, and is intended to provide a better understanding of the present utility model, as it is embodied in the following description, with reference to the preferred embodiments of the present utility model and the accompanying drawings.

FIG. 1 is one of the overall block diagrams in an embodiment of the present utility model;

FIG. 2 is one of the overall block diagrams in an embodiment of the present utility model;

FIG. 3 is a block diagram of an embodiment of the present utility model with support straps removed;

FIG. 4 is a diagram showing one of the overall construction of the fork after lifting in accordance with the present utility model;

FIG. 5 is a block diagram of structure A of FIG. 4 in accordance with the present utility model;

FIG. 6 is a second overall view of the fork after lifting in accordance with the present utility model.

Legend description: 1. a backup plate; 2. a fork; 3. a fixing member; 31. a first placing frame; 32. a second placing frame; 4. a traction member; 41. a positioning roller; 42. a movable roller; 43. a support belt; 44. a support bar; 45. an embedding groove; 5. a driver; 51. a motor; 52. a linkage gear; 6. a support rod; 7. a steering seat; 8. a hydraulic rod; 9. a traction rod.

Detailed Description

According to the autoclaved aerated concrete block transfer device, the technical problem that the existing autoclaved aerated concrete block cannot be matched with a pushing disc for use when in use is solved, and when the existing autoclaved aerated concrete block transfer device is used, the top of a fork is covered by adopting a windable supporting band, so that the applicability of the transfer device is realized, a tray filled with blocks can be transferred, meanwhile, the blocks can be directly placed on the device, and multiple transfer devices are prevented from being prepared at the same time; because the driver is adopted to drive the supporting belt to move on the fork, the rapid transfer of the building blocks is realized, and meanwhile, the stacked building blocks can be guided to the device, so that the transfer is convenient.

Example 1

The technical scheme in the embodiment of the utility model aims to solve the technical problem that the existing autoclaved aerated concrete block cannot be matched with a pushing disc for use when in use, and the overall thought is as follows:

according to the autoclaved aerated concrete block transfer device, the autoclaved aerated concrete block transfer device comprises a forklift body (a backup plate 1, a pallet fork 2 and the like), and the function of the forklift is utilized, so that blocks with pallets can be inserted and transferred, in order to be capable of improving the bearing area of the pallet fork 2 when the blocks which are not placed on the pallets are transferred, the top of the autoclaved aerated concrete block transfer device is provided with a supporting band 43 capable of improving the bearing area of the pallet fork 2, the bearing area of the autoclaved aerated concrete block transfer device is improved through the supporting band 43, the blocks are conveniently and directly placed on the autoclaved aerated concrete block transfer device, as shown in fig. 2, and a rod-shaped supporting band 44 is inserted into the supporting band 43, so that the supporting band 43 can keep a specific shape, and the supporting band 43 is only required to be rolled when the supporting band 43 is folded and released, and then the original forklift state is restored, so that the applicability of the autoclaved aerated concrete block transfer device is improved:

the front end of the backup plate 1 is connected with two forks 2 as shown in figure 1;

the fixing piece 3 is arranged at the top of the fork 2 and near the end part, so that the supporting belt 43 can cover the fork 2 after the movable roller 42 is placed, as shown in fig. 2; and

the traction piece 4 is connected with the fixing piece 3, and the traction piece 4 is used for driving the building blocks to move on the pallet fork 2, and meanwhile, the stress area of the pallet fork 2 can be increased, so that the building blocks can be conveniently placed;

wherein, the fixing member 3 comprises a first placing frame 31 and a second placing frame 32 which are respectively arranged at the front end and the rear end of the pallet fork 2, as shown in fig. 1 and 2, a space is provided for placing the positioning roller 41 and the movable roller 42;

the traction member 4 comprises a positioning roller 41 arranged in the first placing frame 31, a supporting belt 43 is wound on the outer portion of the positioning roller 41, a movable roller 42 is connected to the free end of the supporting belt 43, the position of the movable roller 42 is convenient to adjust freely, and the movable roller 42 can be connected with the second placing frame 32, as shown in fig. 2.

In some examples, the second rack 32 is divided into two sections and is disposed on the two forks 2, as shown in fig. 1, so as to avoid affecting the normal operation of the forks 2;

wherein, rack two 32 can slide in the spout at fork 2 top, conveniently accomodate rack two 32 in the spout, avoid influencing fork 2's normal work.

In some examples, the end of the movable roller 42 is provided with a bearing seat, and the bearing seat can be embedded in the second rack 32, so that when the movable roller 42 is embedded in the second rack 32, the movable roller can still rotate, and the support belt 43 can slide on the pallet fork 2 stably;

when the movable roller 42 is connected with the second placement frame 32, the supporting belt 43 between the positioning roller 41 and the movable roller 42 covers the top of the pallet fork 2, as shown in fig. 2, at this time, the building blocks can be placed directly on the device.

In some examples, the front end of the backup plate 1 is provided with an embedded groove 45, and the embedded groove 45 is located above the positioning roller 41;

the movable roller 42 may be embedded in the embedded groove 45, as shown in fig. 1, and is used for temporarily placing the movable roller 42, so as to expose the pallet fork 2, and avoid affecting the normal operation of the pallet fork 2.

In some examples, the bottom of the supporting band 43 is arranged with a plurality of supporting bars 44 at equal intervals, and the extending direction of the supporting bars 44 is consistent with the length direction of the positioning roller 41, so that the supporting band 43 can maintain a specific shape, and the supporting band 43 is prevented from deforming when the building blocks are placed;

wherein the length of the supporting bar 44 is smaller than the length of the positioning roller 41 (and the specifications of the positioning roller 41 and the movable roller 42 are the same), and the supporting bar 44 is prevented from affecting the gears at the end parts of the positioning roller 41.

In some examples, the main structure of the forklift body (which may employ existing forklift structures) is as follows: the rear end of the backup plate 1 is provided with a steering seat 7 which can freely rotate so as to adjust the moving direction of the device, and the steering seat 7 is connected with the top of the backup plate 1 through a hydraulic rod 8, so that the pallet fork 2 is jacked up, and as shown in fig. 4, the pallet fork is convenient to be matched with conveying lines with different heights and can be matched with a conveying belt;

wherein, a traction rod 9 is installed on one side of the steering seat 7 and used for adjusting the hydraulic rod 8, and meanwhile, a user can conveniently pull the device to move.

In some examples, two struts 6 are connected to the bottom of the fork 2, and the intersections of the two struts 6 are connected by a rotation shaft, as shown in fig. 4, in which one strut 6 is hinged to the fork 2 and the other strut 6 is slidably connected to the fork 2, thereby adjusting the height of the device.

In the specific implementation process, when the building blocks need to be placed on the pallet fork 2, the second placing frame 32 positioned in the sliding groove is pulled outwards to form the shape shown in fig. 1, then the movable roller 42 placed in the embedded groove 45 is taken down and placed in the second placing frame 32, and the bearing seats at the two ends of the movable roller 42 are spliced in the second placing frame 32 to form the shape shown in fig. 2, at the moment, the building blocks can be placed on the device directly, and the rod-shaped supporting bars 44 are spliced in the supporting band 43, so that the supporting band 43 can keep the specific shape, the supporting band 43 is prevented from deforming when the building blocks are placed, the stability of the device is improved, and then the building blocks can be transported; or when in use, the top of the pallet fork 2 corresponds to the production line, and then the building blocks on the production line are pushed towards the direction of the pallet fork 2, so that the building blocks enter the supporting belt 43, and the placing difficulty of the building blocks can be reduced.

When the pallet fork 2 is needed, the movable roller 42 is taken out from the second placing frame 32 and replaced in the embedding groove 45, as shown in fig. 1, and then the second placing frame 32 is pushed into the sliding groove (on the pallet fork 2), as shown in fig. 3, so that the function of the pallet fork 2 can be directly used.

Example 2

Based on the embodiment 1, the embodiment of the utility model effectively solves the technical problem that the existing autoclaved aerated concrete cannot be matched with a block production line (or the stacked blocks are complicated to carry) when being used, and the overall thought is as follows:

the positioning roller 41 is driven to rotate by a driver 5 arranged on the backup plate 1, so that the supporting belt 43 rotates, and the device building blocks contacted with the supporting belt 43 are transported to the rear part of the pallet fork 2, thereby reducing the difficulty of placing the building blocks;

the driver 5 includes a motor 51 installed on a sidewall of the backup plate 1, and an output shaft of the motor 51 and one end of the same side of the positioning roller 41 and the motor 51 are connected with a linkage gear 52, and the two linkage gears 52 are meshed with each other, so when the motor 51 is electrified, the linkage gear 52 on the output shaft is driven to rotate, and when the motor 51 is electrified, the linkage gear 52 is meshed with the linkage gear 52 on the positioning roller 41, the positioning roller 41 can be driven to rotate, and meanwhile, the supporting belt 43 is driven, so that a block contacted with the supporting belt 43 moves towards the rear end of the pallet fork 2, friction force of the block moving onto the pallet fork 2 is reduced, and the block is convenient to move onto the pallet fork 2.

Finally, it should be noted that: it is apparent that the above examples are only illustrative of the present utility model and are not limiting of the embodiments. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. And obvious variations or modifications thereof are contemplated as falling within the scope of the present utility model.

Claims (8)

1. An autoclaved aerated concrete block transfer device, characterized in that the transfer device comprises:

the front end of the backup plate (1) is connected with two forks (2);

the fixing piece (3) is arranged at the top of the fork (2) and is close to the end part; and

the traction piece (4) is connected with the fixing piece (3), and the traction piece (4) is used for increasing the stressed area of the fork (2);

wherein the fixing piece (3) comprises a first placing frame (31) and a second placing frame (32) which are respectively arranged at the front end and the rear end of the fork (2);

the traction piece (4) comprises a positioning roller (41) arranged in the first placing frame (31), a supporting belt (43) is wound on the outer portion of the positioning roller (41), a movable roller (42) is connected to the free end of the supporting belt (43), and the movable roller (42) can be connected with the second placing frame (32).

2. The autoclaved aerated concrete block transfer device as recited in claim 1 wherein: the second placing frame (32) is divided into two sections and is arranged on the two forks (2);

wherein the second placing frame (32) can slide in a sliding groove at the top of the pallet fork (2).

3. The autoclaved aerated concrete block transfer device as recited in claim 1 wherein: the end part of the movable roller (42) is provided with a bearing seat which can be embedded in the second placing frame (32);

when the movable roller (42) is connected with the second placing frame (32), a supporting belt (43) between the positioning roller (41) and the movable roller (42) covers the top of the fork (2).

4. An autoclaved aerated concrete block transfer device as recited in claim 3 wherein: an embedded groove (45) is formed in the front end of the backup plate (1), and the embedded groove (45) is positioned above the positioning roller (41);

wherein the movable roller (42) can be embedded in the embedded groove (45).

5. The autoclaved aerated concrete block transfer device as recited in claim 1 wherein: a plurality of supporting strips (44) are distributed at equal intervals at the bottom of the supporting strip (43), and the extending direction of the supporting strips (44) is consistent with the length direction of the positioning roller (41);

wherein the length of the supporting bar (44) is smaller than the length of the positioning roller (41).

6. The autoclaved aerated concrete block transfer device as recited in claim 1 wherein: the positioning roller (41) is driven to rotate by a driver (5) arranged on the backup plate (1);

the driver (5) comprises a motor (51) arranged on the side wall of the backup plate (1), an output shaft of the motor (51) and one end of the same side of the positioning roller (41) and the motor (51) are connected with a linkage gear (52), and the two linkage gears (52) are meshed with each other.

7. The autoclaved aerated concrete block transfer device as recited in claim 1 wherein: the rear end of the backup plate (1) is provided with a steering seat (7), and the steering seat (7) is connected with the top of the backup plate (1) through a hydraulic rod (8);

wherein, a traction rod (9) is arranged at one side of the steering seat (7).

8. The autoclaved aerated concrete block transfer device of claim 7, wherein: the bottom of fork (2) is connected with two intercrossing's branch (6), and two the junction of branch (6) is connected through the pivot, one of them branch (6) is articulated with fork (2), another branch (6) with fork (2) sliding connection.