CN218370512U - Aerated concrete block stacker - Google Patents

Abstract

The utility model provides an aerated concrete block stacker, which comprises a supporting leg, a lifting bracket, a driving device, a pair of fork arms, a vacuum adsorption device and a horizontal driving device; the aerated concrete block is characterized in that the aerated concrete block can slide to the outer edges of the front ends of a pair of fork arms by using a vacuum adsorption device, a plurality of vacuum adsorption nozzles on the vacuum adsorption device are attached to one side surface of the aerated concrete block, the vacuum adsorption nozzles generate adsorption force on the aerated concrete block, then the vacuum adsorption device drives the adsorbed aerated concrete block to slide inwards along the fork arms, the bottom end surfaces of the aerated concrete block are placed on the top end surfaces of the pair of fork arms, and finally the aerated concrete block is transferred to a position needing to be parked by the lifting motion of the fork arms; compare traditional stacker transport aerated concrete block's in-process, it does not need with the help of lifting device or artificial help in this application stacker, and its transport transfer process more accelerates convenient and fast, and transport transfer efficiency is higher.

Description

Aerated concrete block stacker

Technical Field

The utility model relates to an aerated concrete production facility technical field, concretely relates to aerated concrete block stacker.

Background

The aerated concrete block is a novel building material which is light, porous, heat-insulating, good in fireproof performance, nailable, sawable and planeable and has a certain shock resistance, and is widely applied to high-rise frame structure buildings.

In the production process of the aerated concrete block, the cured aerated concrete block needs to be sent to a product yard. Generally, the handling of the aerated concrete blocks needs to be carried by means of a stacker, and in the handling process, as the aerated concrete blocks are in a cuboid shape and the weight of a single aerated concrete block is heavy, the handling of the aerated concrete blocks to the fork arms on the stacker needs to be carried out by means of hoisting equipment or manpower, so that the whole transfer process of the aerated concrete blocks is complex and tedious.

Disclosure of Invention

To the defect that exists among the prior art, the utility model aims at providing an aerated concrete block stacker aims at solving the problem that current aerated concrete block still need just can transport to stacker yoke with the help of lifting device or manual work at the in-process that the stack was transported.

In order to achieve the above object, the utility model adopts the following technical scheme:

the application provides an aerated concrete block stacker, aerated concrete block stacker includes:

supporting legs;

the lifting support is vertically arranged on the supporting leg, and the lifting support and the supporting leg form lifting sliding connection in the vertical direction;

the driving device is connected with the lifting support and is used for driving the lifting support to move up and down in a reciprocating manner;

the pair of fork arms are horizontally and fixedly arranged at the top end of the lifting bracket in parallel;

the vacuum adsorption device comprises a vacuum adsorption main body and a plurality of vacuum adsorption nozzles arranged on the front end face of the vacuum adsorption main body, the bottom ends of the left side and the right side of the vacuum adsorption main body are respectively provided with a sliding block extending outwards and horizontally, the inner end faces of a pair of fork arms are respectively provided with a sliding groove in sliding fit with the sliding block along the length direction of the inner end faces, and the vacuum adsorption main body is arranged on the pair of fork arms in a sliding mode through the sliding block;

and the horizontal driving device is connected with the vacuum adsorption main body and is used for driving the vacuum adsorption main body to reciprocate back and forth along the pair of fork arms.

Further, horizontal drive arrangement includes driving motor, transmission shaft, chain, drive sprocket and driven sprocket, driving motor fixed mounting be in the lifting support top, both ends rotate respectively around the yoke and install driven sprocket and drive sprocket, chain drive installs between drive sprocket and the driven sprocket, driving motor passes through the transmission shaft with drive sprocket links to each other, the vacuum adsorption main part rotate the driven sprocket who installs through its left and right sides with chain drive links to each other.

Furthermore, the bottom of supporting leg still installs the gyro wheel.

The beneficial effects of the utility model are that:

the vacuum adsorption device is arranged on the pair of fork arms in a sliding mode and can slide back and forth along the pair of fork arms, when the aerated concrete block needs to be carried, the vacuum adsorption device can slide to the outer edges of the front ends of the pair of fork arms, a plurality of vacuum adsorption nozzles on the vacuum adsorption device are attached to one side face of the aerated concrete block, the vacuum adsorption nozzles are used for generating adsorption force on the aerated concrete block, then the vacuum adsorption device drives the adsorbed aerated concrete block to slide inwards along the fork arms, the bottom end face of the aerated concrete block is placed on the top end faces of the pair of fork arms, and finally the aerated concrete block is transferred to a position needing to be parked through the lifting movement of the fork arms; compare traditional stacker transport aerated concrete block's in-process, it does not need with the help of lifting device or artificial help in this application stacker, and its transport transfer process more accelerates convenient and fast, and transport transfer efficiency is higher.

Drawings

Fig. 1 is a schematic perspective view of an aerated concrete block stacker according to an embodiment of the present application (a horizontal driving device is not shown).

Fig. 2 is an exploded view of the vacuum suction device and the yoke in the embodiment of the present application.

Fig. 3 is a schematic view of a three-dimensional structure of an aerated concrete block stacker according to an embodiment of the application.

FIG. 4 is a schematic structural diagram of the working principle of the aerated concrete block stacker in the embodiment of the application.

In the figure:

100-aerated concrete block stacker, 200-aerated concrete blocks, 1-supporting legs, 2-driving devices, 3-lifting supports, 4-fork arms, 41-sliding grooves, 5-vacuum adsorption devices, 51-vacuum adsorption main bodies, 52-vacuum adsorption nozzles, 53-sliding blocks, 6-horizontal driving devices, 61-driving motors, 62-transmission shafts, 63-driving chain wheels, 64-driven chain wheels, 65-chains and 7-rollers.

Detailed Description

The present invention will be described in further detail with reference to the drawings and the following detailed description.

Referring to fig. 1 to 3, the present embodiment provides an aerated concrete block stacker 100 including a support leg 1, a lifting bracket 3, a driving device 2, a pair of yoke arms 4, a vacuum adsorption device 5, and a horizontal driving device 6.

Lifting support 3 is vertical to be installed in the top of supporting leg 1 to constitute the lift sliding connection of vertical direction with it, drive arrangement 2 links to each other with lifting support 3 for drive lifting support 3 moves. A pair of yoke 4 is parallel fixed mounting in the top of lifting support 3 horizontally, and the bottom of vacuum adsorption equipment 5 is installed on a pair of yoke 4 sliding, constitutes the sliding connection of fore-and-aft direction with it. The horizontal driving device 6 is connected to the vacuum adsorption device 5 for driving the vacuum adsorption device 5 to slide back and forth along the pair of yoke arms 4.

Specifically, referring to fig. 1 and 2, the vacuum adsorption device 5 includes a vacuum adsorption body 51 and a plurality of vacuum adsorption nozzles 52 mounted on a front end surface of the vacuum adsorption body 51. The bottom ends of the left and right sides of the vacuum adsorption main body 51 are respectively provided with a slide block 53 extending horizontally outwards, the inner end surfaces of the pair of fork arms 4 are respectively provided with a slide groove 41 matched with the slide block 53 in a sliding way along the length direction, and the vacuum adsorption main body 51 is installed on the pair of fork arms 4 in a sliding way through the slide block 53.

Referring to fig. 3, the horizontal driving device 6 in the present embodiment includes a driving motor 61, a transmission shaft 62, a chain 65, a driving sprocket 63, and a driven sprocket 64. Drive motor 61 fixed mounting is on lifting support 3 top, and the front and back both ends of yoke 4 are rotated respectively and are installed driven sprocket 64 and drive sprocket 63, and the transmission of chain 65 is installed between drive sprocket 63 and driven sprocket 64, and drive motor 61 links to each other with drive sprocket 63 through transmission shaft 62, and the driven sprocket 64 that the rotation of vacuum adsorption main part 51 was installed through its left and right sides links to each other with the transmission of chain 65.

When the driving motor 61 acts, the driving motor drives the driving chain wheel 63 to rotate through the transmission shaft 62, the driving chain wheel 63 further drives the chain 65 to rotate, the chain 65 in a rotating state further drives the vacuum adsorption main body 51 to move back and forth through the transmission chain 65, and therefore the vacuum adsorption device 5 moves back and forth along the fork arm 4.

In addition, in order to move the whole device conveniently, in some embodiments, rollers 7 are respectively installed around the bottom ends of the supporting legs 1.

Referring to fig. 4, the operation of the aerated concrete block stacker 100 in this embodiment will be described as follows:

when the aerated concrete block 200 needs to be carried, the vacuum adsorption device 5 can slide to the outer edge of the front end of the pair of fork arms 4, the plurality of vacuum adsorption nozzles 52 on the vacuum adsorption device 5 are attached to one side surface of the aerated concrete block 200, the vacuum adsorption nozzles 52 generate adsorption force on the aerated concrete block 200, then the vacuum adsorption device 5 drives the adsorbed aerated concrete block 200 to slide inwards along the fork arms 4, the bottom end surface of the aerated concrete block 200 is placed on the top end surfaces of the pair of fork arms 4, and finally the aerated concrete block 200 is transferred to a position needing to be parked through the lifting motion of the fork arms 4; compare traditional stacker transport aerated concrete block 200's in-process, it does not need with the help of lifting device or artificial help in this application stacker, and its transport transfer process accelerates convenient and fast more, and transport transfer efficiency is higher.

It will be apparent to those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims and their equivalent technologies, the present invention is also intended to include such modifications and variations.

Claims (3)

1. The utility model provides an aerated concrete block stacker which characterized in that, aerated concrete block stacker includes:

supporting legs;

the lifting support is vertically arranged on the supporting leg, and the lifting support and the supporting leg form lifting sliding connection in the vertical direction;

the driving device is connected with the lifting support and is used for driving the lifting support to move up and down in a reciprocating manner;

the pair of fork arms are horizontally and fixedly arranged at the top end of the lifting bracket in parallel;

the vacuum adsorption device comprises a vacuum adsorption main body and a plurality of vacuum adsorption nozzles arranged on the front end face of the vacuum adsorption main body, the bottom ends of the left side and the right side of the vacuum adsorption main body are respectively provided with a sliding block extending outwards and horizontally, the inner end faces of a pair of fork arms are respectively provided with a sliding groove in sliding fit with the sliding block along the length direction of the inner end faces, and the vacuum adsorption main body is arranged on the pair of fork arms in a sliding mode through the sliding block;

and the horizontal driving device is connected with the vacuum adsorption main body and is used for driving the vacuum adsorption main body to reciprocate back and forth along the pair of fork arms.

2. The aerated concrete block stacker according to claim 1, wherein the horizontal driving device comprises a driving motor, a transmission shaft, a chain, a driving sprocket and a driven sprocket, the driving motor is fixedly mounted at the top end of the lifting bracket, the driven sprocket and the driving sprocket are respectively rotatably mounted at the front end and the rear end of the fork arm, the chain is drivingly mounted between the driving sprocket and the driven sprocket, the driving motor is connected with the driving sprocket through the transmission shaft, and the vacuum adsorption main body is drivingly connected with the chain through the driven sprockets rotatably mounted at the left side and the right side of the vacuum adsorption main body.

3. An aerated concrete block stacker according to claim 1 or 2 wherein the bottom end of the support leg is further provided with rollers.

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