CN216713846U - Elastic aluminum die transfer motor device - Google Patents

Abstract

The utility model discloses an elastic aluminum die transfer maneuvering device which comprises a base, an upright post, an elastic part and a sliding block, wherein the upright post is installed on the base for supporting, the upright post is of a hollow structure and forms a sliding cavity, the elastic part and the sliding block are installed in the sliding cavity, an operating handle and an aluminum die carrying table are arranged on the sliding block, the operating handle is installed on the sliding block and extends out through a handle sliding hole, a connecting rod is fixed on the aluminum die carrying table, the connecting rod penetrates through the carrying table sliding hole to be fixedly connected with the sliding block, the operating handle moves along the handle sliding hole, and the connecting rod moves along the carrying table sliding hole. The aluminum mould lifting and transferring device adopts a pure mechanical structure to carry out the lifting and transferring of the aluminum mould, has a simple structure, can be used for ejecting and transferring the aluminum mould through the elastic component, and can reduce the labor intensity of the constructor for transferring the aluminum mould up and down.

Description

Elastic aluminum die transfer motor device

Technical Field

The utility model relates to the technical field of construction facility transmission, in particular to an elastic aluminum die transmission mobile device.

Background

The aluminum mould is a mould plate which is made of aluminum alloy section bars as main materials through processes of machining, welding and the like and is suitable for concrete engineering, and is formed by combining a panel, ribs, a main section bar, a plane mould plate, a corner mould plate and an early-dismantling device according to the modulus design of 50 mm. In the building construction process, aluminum alloy templates are increasingly widely used at present. After the on-site concrete pouring and maintenance are completed, workers generally carry and transfer through material transfer holes reserved in the floor slab in the process of removing the aluminum formwork. The workers on the formwork stripping layer pass upwards, and the workers on the construction layer are connected with the workers. Because the aluminum alloy template is great and massive relatively, tear the workman on mould layer and often need stand and pass the template up on the stool, the work risk promotes, and the construction layer workman also often stood down heavy burden when the aluminium mould that comes is passed in the transmission of operation layer lower floor, and working strength is great, and work efficiency is not high.

In order to solve the transmission problem of aluminum mould board, construction personnel have designed multiple aluminum mould board transfer device, for example CN 212897672U's utility model patent has just disclosed an aluminum mould passes material machine, and it utilizes the motor to drive the traction pulley device, thereby it drives the bracket and slides along base support and carries the aluminum mould to transmit between the floor again to have the traction pulley device. The device solves the problem that the aluminum mould is conveyed and delivered up and down by workers, but the transmission of the aluminum mould by the motor causes the structure of the transmission device to be complex and heavy, and the transmission device has more power supply limitation due to the limitation of the motor, and the power supply pull wire of a newly-built building is not easy, so the complexity and the limitation of the transmission of the aluminum mould are added, and the transmission cost is also increased.

SUMMERY OF THE UTILITY MODEL

The utility model provides an aluminum die transfer mobile device which is of a pure mechanical structure and can transfer by elasticity, aiming at the problems that manual transfer of aluminum dies is time-consuming and labor-consuming, so that the burden of workers is large, and the existing aluminum die transfer device is limited by electric drive.

The technical scheme adopted by the utility model for solving the technical problems is as follows: the utility model provides an elasticity aluminium mould transmission motor-driven device includes base, stand, elastomeric element and slider, wherein is used for installing the stand on the base that supports, the stand forms the slip chamber for hollow structure, elastomeric element and slider are installed in the slip chamber, elastomeric element installs the below at the slider, still be provided with handle slide opening and objective table slide opening on the stand, be provided with operating handle and aluminium mould objective table on the slider, operating handle installs and stretches out through the handle slide opening on the slider, be fixed with the connecting rod on the aluminium mould objective table, the connecting rod passes the objective table slide opening and is connected fixedly with the slider, operating handle removes along the handle slide opening, the connecting rod removes along the objective table slide opening.

The utility model further provides an elastic aluminum die transfer maneuvering device, wherein a group of parallel connecting rods are mounted on the aluminum die carrying platform, parallel sliding holes are formed in the upright posts, and the parallel connecting rods penetrate through the parallel sliding holes to be fixedly connected with the sliding blocks.

The utility model further provides an elastic aluminum die transfer maneuvering device, wherein an anti-tilting belt is fixed on the aluminum die objective table, one end of the anti-tilting belt is fixed on the side surface of the aluminum die objective table, and the other end of the anti-tilting belt is fixed through a buckle.

The utility model further provides an elastic aluminum die transfer maneuvering device which comprises a group of stand columns arranged in parallel, operating handles on the parallel stand columns are connected through handle connecting rods to achieve synchronization, and an aluminum die objective table is fixedly installed through the parallel connecting rods.

The utility model further provides an elastic aluminum die transfer maneuvering device which further comprises a locking mechanism, wherein the locking mechanism comprises a hook plate, the hook plate is hinged on the upright post through a pin shaft, and the hinged part is positioned at the lower side of the handle sliding hole.

The present invention further provides an elastic aluminum die transfer motor that employs a spring sleeve with a large amount of expansion.

The utility model has the advantages of

This application carries out the transmission of sending on of aluminium mould through pure mechanical structure, simple structure, and the effect is unusual good. This application passes through elastomeric element and pushes up the transmission with the aluminium mould bullet, reduces the intensity of labour of constructor transmission aluminium mould from top to bottom, and constructor only need pull down the aluminium mould objective table through the operating handle, places the aluminium mould and loosens the handle on the aluminium mould objective table, and elastomeric element can make progress the transmission with aluminium mould jack-up, and easy operation is convenient and laborsaving.

Drawings

Fig. 1 is a side sectional view of the present application.

Fig. 2 is a rear view of the present application.

Fig. 3 is a front view of the present application.

Fig. 4 is a top sectional view of the present application.

Fig. 5 is a front view of another embodiment of the present application.

Fig. 6 is a top sectional view of the embodiment shown in fig. 5.

Fig. 7 is a schematic diagram of the use of the present application.

Fig. 8 is a front view of yet another embodiment of the present application.

Reference numbers in the figures: the anti-tilt device comprises a base support 1, a stand column 2, an elastic component 3, a sliding block 4, an operating handle 41, an aluminum mould loading platform 42, a connecting rod 43, a handle sliding hole 21, an object platform sliding hole 22, a parallel sliding hole 22a, a floor layer 5, a material transfer hole 51, a hook plate 6, a handle connecting rod 7 and an anti-tilt belt 8.

Detailed Description

In order to solve the problems that in the process of removing the aluminum mould, because the aluminum mould is large in size and heavy, workers on a mould removing layer often need to stand on a stool to transfer the template upwards, the working risk is improved, workers on a construction layer often bend down to bear load when the workers on the construction layer carry the aluminum mould upwards on an operation layer, the working strength is high, and the working efficiency is low; and the existing aluminum die transfer device uses the motor to transfer, so that the structure of the transfer device is complex and heavy, the complexity and the limitation of aluminum die transfer are increased, and the transfer cost is increased.

The application provides an elasticity aluminium mould transmission mobile device as shown in figures 1-8 for carry out the transmission from top to bottom of aluminium mould between the floor, compare in current artifical transmission mode and electronic aluminium mould transmission device, this application adopts pure mechanical structure, can enough effectual improvement aluminium mould transmission efficiency, alleviates the workman and carries out the working strength that the aluminium mould transmitted, avoids current aluminium mould transmission device to utilize the motor to transmit again and leads to the complicated heavy, and many problems of restrictive conditions of device structure.

As shown in fig. 1, the elastic aluminum mold transfer maneuvering device described in the present application includes a base 1 of a foundation for installation of the whole device and stability of the device, a column 2 installed on the base 1 and vertically arranged between floors, an elastic component 3 for providing power transfer, and a slide block 4 for driving and lifting the aluminum mold.

The structure and the supporting mode of the base 1 are various, for example, a heavier metal disc is used as the base, a groove for installing the upright post 2 is arranged in the center of the metal disc, the upright post is inserted into the groove, and the upright post and the base are fixed through a locking piece or a direct welding mode; or adopt the mode of bracing piece, the bracing piece sets up around stand column 2, and many spinal branchs vaulting pole welding are on the stand column, and the support of the other end slope of bracing piece supports the base at subaerial stroke, also can set up the collapsible tripod etc. of the lantern ring in the middle of using for convenient to use.

Stand 2 fixed mounting is on base 1, and the length of stand 2 matches with the height of floor, and stand 2 is vertical to be found to fix by the biography material hole between the floor, provides vertical support by stand 2 and passes the aluminium mould to the upper strata, stand 2 is hollow stand structure, and stand 2 itself can adopt circular cylinder or square cylinder, and the inboard hollow area of stand 2 is used for installing elastomeric element 3 and slider 4 as the inner chamber.

The elastic component 3 is a large-sized spring part or an elastic mechanism with large expansion amount such as an elastic sleeve, the elastic component 3 is sleeved in the hollow inner cavity of the upright post 2, a sliding block 4 is arranged above the elastic component 3, and the sliding block 4 is provided with an operating handle 41 for pushing and pulling the sliding block to enable the sliding block to move along the inner cavity of the upright post and a connecting rod 43 for fixedly connecting an aluminum die objective table 42.

As shown in fig. 2 and 3, a handle slide hole 21 is formed in the back surface of the upright post 2, an operating handle 41 passes through the handle slide hole 21 and extends to the outer side of the upright post, and when the operating handle 41 is pulled by a worker during operation, the operating handle 41 moves up and down along the handle slide hole 21; the front of the upright post 2 is provided with an object stage slide hole 22, and the connecting rod 43 passes through the object stage slide hole 22 to connect the aluminum die object stage 42 and the sliding block 4 together, so as to drive the aluminum die object stage 42 to move up and down along the object stage slide hole 22.

As shown in fig. 4, the operating handle 41 and the connecting rod 43 are symmetrically disposed on both sides of the slider with the slider as a center, and the operating handle 41 and the connecting rod 43 move up and down along the handle slide hole 21 and the stage slide hole 22, respectively.

As shown in fig. 7, the elastic aluminum mold transferring motor-driven device is installed and fixed between floors, the upper floor layer 5 is provided with a material transferring hole 51, the elastic aluminum mold transferring motor-driven device is installed below the side of the material transferring hole 51, the aluminum mold stage 42 faces the center of the material transferring hole 51, a worker pulls the operating handle downwards, the operating handle drives the sliding block and the aluminum mold stage connected with the sliding block to move downwards, when the aluminum mold stage moves to the bottom, the worker places the aluminum mold on the aluminum mold stage, slowly releases the operating handle, the sliding block moves upwards under the action of a spring or an elastic sleeve, the length of the aluminum mold is enough to pass through the material transferring hole to protrude out of the upper floor layer by the lifting height of the aluminum mold stage, and the worker at the upper layer grasps the protruding part of the aluminum mold to pull the upper layer to complete the transferring of the aluminum mold.

In order to prevent the aluminum mold from toppling over in the upward transferring process, an anti-toppling belt 8 is fixed on the aluminum mold objective table 42, one end of the anti-toppling belt is fixed on the side face of the aluminum mold objective table 42, the other end of the anti-toppling belt is fixed through a buckle or a buckle and the like, the buckle or the buckle is loosened before the aluminum mold is fixed, the anti-toppling belt 8 bypasses the aluminum mold to be buckled and fixed after the aluminum mold is placed, and the aluminum mold is placed and toppled outwards in the transferring process.

Example 2: as shown in fig. 5 and 6, a parallel slide hole 22a is provided on the front surface of the column 2, the parallel slide hole 22a is formed by a set of parallel stage slide holes 22, and a set of parallel connecting rods 43 are provided on the slide block 4, the connecting rods 43 respectively protruding from the corresponding holes of the parallel slide holes 22a, and the aluminum mold loading table 42 is mounted on the slide block via the parallel connecting rods 43.

The connection and installation of the aluminum mold loading table 42 are reinforced and strengthened by the parallel connecting rods 43, so that the aluminum mold loading table 42 can bear heavier aluminum molds, and the loading capacity of the device and the delivery safety of the aluminum molds are improved.

Example 3: on the basis of the foregoing embodiment, as shown in fig. 2, the flexible aluminum mold transfer device further comprises a locking mechanism, the locking mechanism comprises a hook plate 6, the hook plate 6 is hinged on the upright post 2 through a pin shaft, the hinged position is located on the lower side of the handle sliding hole 21, when the operating handle 41 is pulled down to the lowest position, the hook plate 6 is rotated around the hinged position, the hook plate 6 hooks the operating handle 41 to lock the operating handle, then the aluminum mold is carried to the objective table and placed well, the hook plate 6 is released by pulling the operating handle, and the slide block transfers the aluminum mold to the upper layer under the action of the elastic component.

The hook plate 6 comprises at least a connecting rod hinged to the upright and rotating around the hinge, and a crosspiece for hooking the handle, typically in the form of an L-shaped bar or plate.

Example 4: the single column has poor structural stability, and in order to improve the stability of the elastic aluminum die transfer motorized device and the loading capacity and reliability of the device, the elastic aluminum die transfer motorized device can adopt a double-column structure as shown in fig. 8.

The double-upright structure is arranged in a parallel upright mode, and each upright in the double-upright structure has the same structure as a single upright, and the main difference is that operating handles 41 protruding out of the backs of the uprights are connected through a handle connecting rod 7, and the operating handles on the two uprights synchronously move through the handle connecting rods 7.

The upright post is connected with the aluminum mold loading platform 42 through the connecting rods 43 protruding from the front side, the support of the aluminum mold loading platform 42 is reinforced through the parallel connecting rods 43, the bearing capacity of the aluminum mold loading platform 42 is improved, and the safety and the transfer efficiency are improved.

It is to be understood that the above-described embodiments of the present invention are merely illustrative of or explaining the principles of the utility model and are not to be construed as limiting the utility model. Therefore, any modifications, equivalents, improvements and the like which are made without departing from the spirit and scope of the present invention shall be included in the protection scope of the present invention.

Claims (6)

1. An elastic aluminum die transfer maneuvering device is characterized by comprising a base (1), an upright post (2), an elastic part (3) and a sliding block (4), wherein the upright post (2) is installed on the base (1) for supporting, the upright post (2) is of a hollow structure to form a sliding cavity, the elastic part (3) and the sliding block (4) are installed in the sliding cavity, the elastic part (3) is installed below the sliding block (4), a handle sliding hole (21) and an object stage sliding hole (22) are further formed in the upright post (2), an operating handle (41) and an aluminum die object stage (42) are arranged on the sliding block (4), the operating handle (41) is installed on the sliding block (4) and extends out through the handle sliding hole (21), a connecting rod (43) is fixed on the aluminum die object stage (42), the connecting rod (43) penetrates through the object stage sliding hole (22) to be connected and fixed with the sliding block (4), and the operating handle (41) moves along the handle sliding hole (21), the connecting rod (43) moves along the slide hole (22) of the object stage.

2. The flexible aluminum mold transfer robot as claimed in claim 1, wherein a set of parallel connecting rods (43) is mounted on the aluminum mold stage (42), the column (2) is provided with parallel sliding holes (22 a), and the parallel connecting rods (43) pass through the parallel sliding holes (22 a) to be connected and fixed with the sliding block (4).

3. The flexible aluminum mold transfer robot as claimed in claim 1, wherein the aluminum mold stage (42) is fixed with an anti-roll strip (8) having one end fixed to the side of the aluminum mold stage (42) and the other end fixed by a snap fit.

4. The flexible aluminum mold transfer robot as claimed in claim 1, wherein the flexible aluminum mold transfer robot comprises a set of parallel columns (2), the operating handles on the parallel columns are connected through handle links (7) for synchronization, and the aluminum mold stage (42) is fixedly mounted through parallel connecting rods (43).

5. The flexible aluminum die transfer robot as claimed in claim 1, further comprising a locking mechanism, wherein the locking mechanism comprises a hook plate (6), the hook plate (6) is hinged to the upright (2) by a pin, and the hinged portion is located at the lower side of the handle sliding hole (21).

6. An elastic aluminum die transfer motor according to claim 1, wherein the elastic member (3) employs a spring sleeve having a large amount of expansion and contraction.

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