CN214190278U - Square pipe pushing and laminating device - Google Patents

Abstract

The utility model provides a square tube pushing and laminating device, which comprises a pushing mechanism and a laminating mechanism which are arranged on a frame, wherein the pushing mechanism comprises a conveying chain, a supporting tube fork plate and a pushing tube cylinder, the conveying chain conveys a plurality of square tubes, and the pushing tube cylinder pushes the square tubes in required number to reach the supporting tube fork plate from the conveying chain; the stacking mechanism comprises a lifting platform and a square tube support, the square tube support is arranged adjacent to the conveying chain and comprises an inner support and an outer support which are vertically arranged on two sides of the lifting platform, the outer support is higher than the inner support, the square tube support and the lifting platform form a stacking platform for bundling square tubes, the tube supporting fork plates are drawn out after the square tubes reach the required number to enable the square tubes to fall onto the lifting platform or the stacked square tubes on the next layer, and the lifting platform moves downwards after the square tubes on each layer are placed. The utility model provides a structure is succinct reasonable, is convenient for operate, convenient adjustment and maintenance, long service life, the square pipe propelling movement lamination device that work efficiency is high.

Description

Square pipe pushing and laminating device

Technical Field

The utility model relates to a steel pipe bundle forming machine technical field especially relates to a side's pipe propelling movement lamination device.

Background

The metal welding round pipe and the square pipe (including the rectangular pipe) are widely used as structural pipes in the fields of building engineering and agriculture. The steel pipe is made of Q235, Q195 low carbon steel metal band. The metal strip coil is made into a round pipe or a square pipe through a series of procedures of uncoiling, butt joint, strip storage, forming, high-frequency welding, shaping, saw cutting, stacking, bundling, hoisting and warehousing and the like.

At present some tubulation enterprises, especially small-size enterprise, the mode of mechanical propelling movement is often adopted to square pipe bundling machine's propelling movement lamination structure, and for example cylinder promotes formula pushing mechanism, pushes the square pipe that arrives to push away on the plywood, carries out corresponding lamination by the lamination mechanism again and handles, consequently, the ubiquitous propelling movement lamination structure of bundling machine is complicated, and working strength is high, and life is short, easily breaks down, and work efficiency is low, seriously influences production.

SUMMERY OF THE UTILITY MODEL

Based on the problem, the utility model aims to provide a square pipe propelling movement lamination device that structure is succinct reasonable, the operation of being convenient for, convenient adjustment and maintenance, long service life, work efficiency is high.

Aiming at the problems, the following technical scheme is provided: the utility model provides a square pipe propelling movement lamination device, is including setting up push mechanism and lamination mechanism in the frame, its characterized in that: the pushing mechanism comprises a conveying chain, a supporting tube fork plate and a pipe pushing cylinder, the conveying chain conveys a plurality of square pipes which are arranged in a direction perpendicular to the conveying direction of the conveying chain, and the pipe pushing cylinder pushes the square pipes with required number to reach the supporting tube fork plate from the conveying chain; the lamination mechanism includes elevating platform and square pipe support, the elevating platform liftable sets up in the below of trusteeship fork board, square pipe support with carry the adjacent setting of chain and including vertical setting at the inner support of elevating platform both sides and outer support, outer support is higher than the inner support and protects, the top and the same high setting of trusteeship fork board of inner support, square pipe support constitutes the lamination platform of beating the other side pipe with the elevating platform, trusteeship fork board takes out after it reaches the square pipe of required quantity and makes square pipe fall to the elevating platform on or the square pipe of the lower floor of laminating, the elevating platform is removed downwards after accomplishing every layer of square pipe and puts.

The utility model discloses further set up to, push mechanism is still including setting up stopping board and stopping board slide in conveyor chain one side, the one end of strutting in stopping board slide is close to free rotation ground articulated installation in the vertical face to the stopping board, side's pipe is free one-way to be passed through the stopping board, but the stopping board slide passes through the slider horizontal slip ground and installs in the frame, the ejector sleeve cylinder is installed in the frame and the stopping board slide provides thrust, side's pipe freely passes through the stopping board under conveyor chain's effect, and promotes the inside direction of strutting of stopping board slide by the ejector sleeve cylinder after reaching required quantity and removes and make side's pipe arrive on trusteeship fork board.

The utility model discloses further set up to, push mechanism still includes accuse pipe swash plate, swash plate cylinder and installs the sensor on the accuse pipe swash plate, the sensor response is crossed the square pipe quantity of accuse pipe swash plate and is detected and reach required square pipe quantity back control swash plate cylinder and upwards jack-up accuse pipe swash plate and make the height that the accuse pipe swash plate is higher than the transport chain.

The utility model discloses further set up to, the lower extreme of strutting outward can install in the frame outwards rotatoryly.

The utility model discloses further set up to, the lower extreme of strutting outward passes through the pivot rotatable fixing in the frame, be equipped with the drive cylinder that drives that the outer support of drive is outside rotatory in the frame, it is articulated with the lower tip of strutting outward to drive the rotatable movable mounting of cylinder in the frame and the tip of its transmission shaft.

The utility model discloses further set up to, the upper surface of trusteeship fork board is the inclined plane of downward sloping along the movement track of square pipe.

The utility model discloses further set up to, the trusteeship fork board promotes through the cylinder to take out and makes every layer of side pipe fall down.

The utility model has the advantages that: the square tube pushing and laminating device provided by the technical scheme carries and laminates the square tube by mutually combining the pushing mechanism and the laminating mechanism, so that the square tube pushing and laminating device is beneficial to the bundling work of the square tube. The working principle is as follows: the square pipes are placed on the conveying chain in sequence, the square pipes which need to be conveyed to the supporting pipe fork plate at each time sequentially pass through the stopping plate through the pipe control inclined plate, then the stopping plate sliding seat is pushed under the action of the pipe pushing cylinder to enable the square pipes to cross the inner supporting plate and reach the supporting pipe fork plate, then the supporting pipe fork plate is pulled out to enable the square pipes to fall into the pipe support above the lifting table, then the lifting table descends downwards to be larger than or equal to the thickness of one layer of square pipes, then the processes are sequentially circulated, each layer of square pipes fall onto the upper surface of the uppermost layer of square pipes on the lifting table until the number of the square pipe stacking layers reaches the requirement and stops, and then the square pipes are bundled. In the process, the square tube bundle accumulation is carried out layer by layer, and the square tube bundle is characterized in that the number of the square tubes on each layer is the same, so that the number of the square tubes on each layer can be controlled and counted by a control device such as a control sloping plate; the square pipe is pushed to the position for bundling in the square pipe support from the conveying chain under the pushing of a pipe pushing device such as a pipe pushing cylinder and the like on the frame, then the pipe supporting fork plate is pulled back, the square pipe falls onto the square pipe on the lower layer, and the square pipe on the lower layer is bundled in the first layer until the bundle is fully bundled. Not only the layer accumulation and the layer falling control of the square pipe are realized, but also the whole device mechanism is simple and reasonable, and is convenient to operate, adjust and maintain.

Drawings

Fig. 1 is a schematic structural view of a square tube pushing and laminating device in an embodiment of the present invention;

the figure shows schematically: 1-a frame; 2-a pushing mechanism; 21-a conveying chain; 22-a hosting fork plate; 23-a push pipe cylinder; 24-a backstop plate; 25-a backstop plate slide; 26-control pipe sloping plate; 3-a lamination mechanism; 31-a lifting table; supporting by a 32-square tube; 321-inner support; 322-external support; 4-square tube; 5, driving a cylinder; 51-a drive shaft;

Detailed Description

The following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

As shown in fig. 1, the square tube pushing and laminating device comprises a pushing mechanism 2 and a laminating mechanism 3 which are arranged on a frame 1, and the pushing mechanism 2 and the laminating mechanism 3 are combined with each other to carry out conveying and laminating tasks on a square tube 4, so that the square tube 4 is favorably bundled.

As shown in fig. 1, the pushing mechanism 2 includes a conveying chain 21, a tube supporting fork 22 and a tube pushing cylinder 23, the conveying chain 21 conveys a plurality of square tubes 4 placed perpendicular to the conveying direction of the conveying chain, and the tube pushing cylinder 23 pushes the square tubes 4 of a required number to reach the tube supporting fork 22 from the conveying chain 21;

as shown in fig. 1, push mechanism 2 is still including setting up at the stopping board 24 and the stopping board slide 25 of conveying chain 21 one side, the one end that is close to trusteeship fork board 22 is installed on stopping board slide 25 to the free rotation ground hinged in the vertical face of stopping board 24, square pipe 4 is free one-way to be passed through stopping board 24, but stopping board slide 25 passes through the slider horizontal slip and installs on frame 1, ejector sleeve cylinder 23 installs on frame 1 and provides thrust to stopping board slide 25, square pipe 4 is in the effect of conveying chain 21 and is gone up freely through stopping board 24, and reaches after the required quantity and promotes by ejector sleeve cylinder 23 that stopping board slide 25 makes square pipe reach trusteeship fork board 22 to trusteeship fork board 22 direction removal. The retaining plate 24 is higher than the conveying chain 21 in a free state in a tilting manner and lower than the conveying chain 21 after being pressed, so that the square pipe 4 can pass through freely and unidirectionally.

As shown in fig. 1, the pushing mechanism 2 further includes a control pipe sloping plate 26, a sloping plate cylinder (not shown) and a sensor (not shown) installed on the control pipe sloping plate 26, the sensor senses the number of the square pipes 4 crossing the control pipe sloping plate 26 and controls the sloping plate cylinder to jack up the control pipe sloping plate 26 upwards after the detection reaches the required number of the square pipes 4, so that the control pipe sloping plate 26 is higher than the height of the conveying chain 21, and further the square pipes 4 with the excessive number are prevented from being conveyed forwards.

As shown in fig. 1, the upper surface of the supporting fork plate 22 is an inclined surface inclined downwards along the movement track of the square pipe 4, and the inclined surface facilitates the transportation and the rapid arrival of the square pipe 4.

As shown in fig. 1, the stacking mechanism 3 includes a lifting platform 31 and a square tube support 32, the lifting platform 31 is arranged below the supporting tube fork plate 22 in a lifting manner, the square tube support 32 is arranged adjacent to the conveying chain 21 and includes an inner support 321 and an outer support 322 which are vertically arranged on two sides of the lifting platform 31, the outer support 322 is higher than the inner support 321, the top of the inner support 321 is arranged at the same height as the supporting tube fork plate 22, the square tube support 32 and the lifting platform 31 form a stacking platform for bundling the square tube 4, the supporting tube fork plate 22 draws out the square tube 4 after reaching the required number of square tubes 4 to make the square tube 4 fall on the lifting platform 31 or the square tube 4 on the next stacked layer, and the lifting platform 31 moves downward after finishing the placement of each layer of square tube 4. The lifting of the lifting platform 31 can be driven to lift in various ways such as an air cylinder, a motor and the like. The supporting tube fork plate 22 is pushed by the air cylinder to be drawn out so that each layer of square tubes 4 falls down.

The working principle of the structure is as follows: the square pipes 4 are sequentially placed on the conveying chain 21, the square pipes 4 required to be conveyed to the supporting pipe fork plate 22 at each time are determined to sequentially pass through the retaining plate 24 through the control pipe inclined plate 26, the retaining plate slide 25 is pushed under the action of the pipe pushing cylinder 23 to enable the square pipes 4 to pass through the inner support 321 and reach the supporting pipe fork plate 22, then the supporting pipe fork plate 22 is pulled out to enable the square pipes 4 to fall into the pipe support 32 above the lifting platform 31, then the lifting platform 31 descends downwards to be larger than or equal to the thickness of one layer of square pipes 4, the processes are sequentially circulated, each layer of square pipes 4 fall onto the upper surface of the uppermost layer of square pipes 4 on the lifting platform 31 until the number of the layers of the square pipes 4 reaches the required number, and then the square pipes 4 are bundled.

The square tube pushing and laminating device can be provided with a controller for controlling the whole device to automatically operate, and the controller controls the cylinder and the electric element which provide power and electric power in the processes of conveying, detecting and automatic laminating of the square tube 4, so that the working efficiency of conveying, laminating and bundling of the square tube 4 of the whole device is improved.

As shown in fig. 1, the lower end of the outer support 322 is rotatably mounted to the frame 1. The lower end of the outer support 322 is rotatably fixed on the frame 1 through a shaft pin, a driving cylinder 5 for driving the outer support 322 to rotate outwards is arranged on the frame 1, the driving cylinder 5 is rotatably and movably mounted on the frame 1, and the end part of a transmission shaft 51 of the driving cylinder is hinged with the lower end part of the outer support 322. The outer support 322 is driven by the driving cylinder 5 to be rotatably arranged, so that the square pipe 4 on the lifting platform 31 can be conveniently moved out after being laminated and bundled, and manpower and electric power are saved.

In the technical scheme, in the work, the square tube 4 bundle accumulation is carried out layer by layer, and the square tube 4 bundling is characterized in that the number of the square tubes 4 on each layer is the same, so that the number of the square tubes 4 on each layer can be controlled and counted by a control device such as a control sloping plate 26; the square tube 4 is pushed to the position for bundling in the square tube support 32 from the conveying chain 21 under the pushing of a tube pushing device such as a tube pushing cylinder 23 and the like on the frame 1, then the tube supporting fork plate 22 is drawn back, and the square tube 4 falls on the square tube 4 on the next layer, so that the bundle is fully bundled on the next layer. Not only the layer accumulation and the layer falling control of the square pipe 4 are realized, but also the whole device mechanism is simple and reasonable, and is convenient to operate, adjust and maintain.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations of the above assumption should also be regarded as the protection scope of the present invention.

Claims (7)

1. The utility model provides a square pipe propelling movement lamination device, is including setting up push mechanism and lamination mechanism in the frame, its characterized in that: the pushing mechanism comprises a conveying chain, a supporting tube fork plate and a pipe pushing cylinder, the conveying chain conveys a plurality of square pipes which are arranged in a direction perpendicular to the conveying direction of the conveying chain, and the pipe pushing cylinder pushes the square pipes with required number to reach the supporting tube fork plate from the conveying chain; the lamination mechanism includes elevating platform and square pipe support, the elevating platform liftable sets up in the below of trusteeship fork board, square pipe support with carry the adjacent setting of chain and including vertical setting at the inner support of elevating platform both sides and outer support, outer support is higher than the inner support and protects, the top and the same high setting of trusteeship fork board of inner support, square pipe support constitutes the lamination platform of beating the other side pipe with the elevating platform, trusteeship fork board takes out after it reaches the square pipe of required quantity and makes square pipe fall to the elevating platform on or the square pipe of the lower floor of laminating, the elevating platform is removed downwards after accomplishing every layer of square pipe and puts.

2. The square tube pushing and laminating device of claim 1, wherein: push mechanism is still including setting up at the stopping board and the stopping board slide of carrying chain one side, but the stopping board is articulated in the vertical face free rotation ground and installs the one end of being close to interior support on the stopping board slide, square pipe is free one-way to be passed through the stopping board, but the stopping board slide passes through the slider horizontal slip and installs in the frame, the ejector sleeve cylinder is installed in the frame and the stopping board slide provides thrust, square pipe freely passes through the stopping board on the effect of carrying the chain, and reaches and promotes the inside direction removal of strutting by the ejector sleeve cylinder and make square pipe arrive on the trusteeship fork board by the ejector sleeve cylinder.

3. The square tube pushing and laminating device according to claim 1 or 2, wherein: push mechanism still includes accuse pipe swash plate, swash plate cylinder and installs the sensor on the accuse pipe swash plate, the sensor response is crossed the square pipe quantity of accuse pipe swash plate and is detected and reach required square pipe quantity after the control swash plate cylinder upwards jack-up accuse pipe swash plate make the height that the accuse pipe swash plate is higher than the transport chain.

4. The square tube pushing and laminating device of claim 1, wherein: the lower end of the outer support can be installed on the frame in an outward rotating mode.

5. The square tube pushing and laminating device of claim 4, wherein: the lower end of the outer support is rotatably fixed on the rack through a shaft pin, a driving cylinder for driving the outer support to rotate outwards is arranged on the rack, the driving cylinder is rotatably and movably mounted on the rack, and the end part of a transmission shaft of the driving cylinder is hinged with the lower end part of the outer support.

6. The square tube pushing and laminating device of claim 1, wherein: the upper surface of the supporting tube fork plate is an inclined surface which is inclined downwards along the motion trail of the square tube.

7. The square tube pushing and laminating device of claim 1, wherein: the trusteeship fork plate pushes and pulls out through the cylinder to make each layer of square tubes fall down.

Images