CN212639217U - Jacking pipe conveying structure - Google Patents

Abstract

The utility model discloses a jacking pipe conveying structure, which is arranged on a round pipe conveying device and comprises a fixed frame, a conveying mechanism and a jacking mechanism, wherein the conveying mechanism is arranged on the fixed frame and is provided with a feeding end and a discharging end for conveying a round pipe from the feeding end to the discharging end; jacking mechanism locates conveying mechanism's discharge end to when supplying conveying mechanism to carry the pipe to jacking mechanism position, through jacking mechanism jacking pipe, be convenient for select or take of pipe. Defeated tubular construction of jacking can carry the pipe high-efficient steadily and with its bearing jacking, be convenient for select or take of pipe, improved the transport efficiency of pipe.

Description

Jacking pipe conveying structure

Technical Field

The utility model belongs to the technical field of conveying equipment technique and specifically relates to a defeated tubular construction of jacking is related to.

Background

In the furniture production industry, the metal round pipe is a common component for splicing and assembling to form a furniture frame body, and the production efficiency of the round pipe can directly influence the production efficiency of furniture, so that the conveying efficiency and the processing efficiency of the round pipe are particularly important in the production of the furniture. However, the common plane conveyor belt type conveying device is not suitable for conveying round tubes, and the round tubes are easy to roll on the conveying belt, so that the round tubes are inconvenient to pick or take.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a defeated tubular construction of jacking can improve pipe conveying efficiency.

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

a jacking pipe conveying structure is arranged on a circular pipe conveying device and comprises a fixed frame, a conveying mechanism and a jacking mechanism, wherein the conveying mechanism is arranged on the fixed frame and is provided with a feeding end and a discharging end and used for conveying a circular pipe from the feeding end to the discharging end; the jacking mechanism is arranged at the discharge end of the conveying mechanism, so that when the conveying mechanism conveys the round pipe to the position of the jacking mechanism, the round pipe is jacked by the jacking mechanism, and the round pipe is conveniently selected or taken;

the conveying mechanism comprises a base, a pipe conveying conveyor belt and a driving motor, the base is arranged at the top end of the fixing frame, a driven rotating shaft is rotatably arranged at the feeding end of the base, a driving rotating shaft is rotatably arranged at the discharging end of the base, two ends of the pipe conveying conveyor belt are oppositely sleeved on the driven rotating shaft and the driving rotating shaft, a plurality of pipe body bearing pieces are arranged on the pipe conveying conveyor belt at equal intervals and used for bearing the circular pipe, the driving motor is arranged at the discharging end of the base, and the driving motor is matched with the driving rotating shaft;

the jacking mechanism comprises two sets of jacking components, the two sets of jacking components are arranged on two sides of the discharge end of the base relatively, and the two ends of the circular pipe are supported relatively through the two sets of jacking components and are jacked.

As a further technical solution of the utility model: the U-shaped pipe body bearing part is characterized in that the U-shaped pipe body bearing part is in a U shape, two bearing arms are oppositely arranged at two ends of the U-shaped pipe body bearing part, a supporting groove is formed in each bearing arm, a circular pipe is supported on a pipe conveying belt through the U-shaped pipe body bearing part, and the middle section of the circular pipe is accommodated in the supporting grooves of the two bearing arms.

As a further technical solution of the utility model: the jacking assembly comprises a jacking cylinder and a jacking support piece, the jacking cylinder is arranged on the base, and the jacking support piece is arranged on a telescopic rod of the jacking cylinder; be equipped with the bearing board on the jacking holds in the palm, the bearing board is equipped with a plurality of constant head tanks in the top equidistant, through constant head tank bearing pipe to the jacking cylinder that supplies two sets of jacking subassemblies starts simultaneously, drives the jacking and holds in the palm the piece and rises, and two jacking hold in the palm the both ends that the corresponding constant head tank corresponds the bearing pipe on the piece, hold in the palm the many pipes of piece bearing jacking simultaneously through two jacking.

As a further technical solution of the utility model: the jacking supporting piece is provided with a plurality of buffer blocks on one side of the bearing plate, and each buffer block corresponds to one positioning groove to play a role in buffering.

As a further technical solution of the utility model: two protection plates are oppositely arranged on two sides of the base of the fixing frame to play a role in protection.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model provides a defeated tubular construction of jacking can carry the pipe high-efficient steadily and with its bearing jacking, be convenient for select or take of pipe, improved the conveying efficiency of pipe.

Drawings

Fig. 1 is a schematic view of a circular tube conveying apparatus.

Fig. 2 is a partial view of fig. 1.

Fig. 3 is a partial view of fig. 1.

Fig. 4 is a schematic diagram of a tube lifting feeding structure.

FIG. 5 is a schematic view of a down tube discharge structure.

FIG. 6 is a partial view of a jacking pipe conveying structure.

Detailed Description

The following detailed description of the embodiments of the present invention will be made with reference to the accompanying drawings. It should be understood that the description herein is only for purposes of illustration and explanation, and is not intended to limit the scope of the present disclosure.

Referring to fig. 1, a circular tube conveying apparatus includes a frame 10, a tube lifting and feeding structure 20, a tube discharging structure 30, and a tube lifting and conveying structure 40. The rack 10 is provided with a fixing plate 11 at the front end and a mounting plate 12 on the top surface, the pipe lifting and feeding structure 20 is mounted on the fixing plate 11, the lower pipe discharging structure 30 is mounted on the mounting plate 12, one end of the jacking pipe conveying structure 40 is mounted at the lower end of the rack 10 below the lower pipe discharging structure 30, so that the pipe lifting and feeding structure 20 can convey round pipes to the lower pipe discharging structure 30, the lower pipe discharging structure 30 can discharge round pipes to one end of the jacking pipe conveying structure 40, and the round pipes can be conveyed to the other end from one end of the jacking pipe conveying structure 40 through the jacking pipe conveying structure 40 and can be supported for jacking.

Referring to fig. 1, 2 and 4, the tube lifting and feeding structure 20 includes a storage hopper 21 and a tube lifting mechanism 22, the storage hopper 21 and the tube lifting mechanism 22 are both disposed on the fixing plate 11, the storage hopper 21 is provided with a storage cavity 211, a bottom wall of the storage cavity 211 is inclined downward toward the direction of the rack 10, so that a round tube can be stored in the storage cavity 211 of the storage hopper 21, the tube lifting mechanism 22 includes a tube lifting platform 221, a mounting seat 222 and a tube lifting cylinder 223, the tube lifting platform 221 is movably and vertically mounted on the fixing plate 11, a top end of the tube lifting platform 221 extends into the storage cavity 211, the tube lifting platform 221 is provided with a tube lifting plate 201 at a top end, the mounting seat 222 is mounted on the fixing plate 11 below the tube lifting plate 201, a bottom end of the mounting seat 222 is provided with the tube lifting cylinder 223, a telescopic rod of the tube lifting cylinder 223 penetrates through the mounting seat 222 to be connected with the tube lifting plate 201, so that a telescopic rod of the tube lifting cylinder 223 can drive the tube lifting cylinder 223, the tube lifting plate 201 supports and lifts the round tube in the material storage cavity 211, and conveys the round tube into the lower tube discharging structure 30.

Furthermore, two pipe lifting pieces 202 are oppositely arranged on two sides of the pipe lifting plate 201, the pipe lifting pieces 202 are L-shaped, a material guide chute 203 is arranged on the pipe lifting pieces 202, and the bottom wall of the material guide chute 203 is inclined downwards towards the lower pipe discharging structure 30, so that the round pipe can be conveniently conveyed to the lower pipe discharging structure 30.

Furthermore, a guide structure 23 is arranged between the tube lifting plate 201 and the mounting seat 222, and the tube lifting table 221 is more stably lifted and lowered through the guide structure 23. The guide structures 23 are two groups, two groups of guide structures 23 are arranged oppositely, each guide structure 23 comprises a guide sleeve 231 and a guide rod 232, the guide sleeves 231 are arranged on the mounting base 222, one end of each guide rod 232 is arranged in each guide sleeve 231, and the other end of each guide rod 232 is connected with the tube lifting plate 201.

Further, the mounting seat 222 is provided with a touch sensor 204 at the top end, and the tube raising plate 201 is prevented from colliding with the mounting seat 222 by the touch sensor 204.

Furthermore, two limiting plates 205 are oppositely arranged on two sides of the fixing plate 11, the pipe lifting platform 221 is movably installed between the two limiting plates 205 in a lifting manner, and the two limiting plates 205 correspondingly support against two sides of the pipe lifting platform 221, so that the lifting movement of the pipe lifting platform 221 is more stable.

Referring to fig. 1, 2 and 5, the lower pipe discharging structure 30 includes a discharging hopper 31 and a pipe blocking mechanism 32, the discharging hopper 31 is disposed on the mounting plate 12, the discharging hopper 31 is provided with a discharging cavity 311 and a discharging pipe 312 disposed below the discharging cavity 311 and communicated with the discharging cavity 311, the discharging pipe 312 passes through the mounting plate 12 and is disposed above the jacking pipe conveying structure 40, so that the pipe lifting pipe feeding structure 20 conveys a circular pipe into the discharging cavity 311, the circular pipe is conveyed from the discharging cavity 311 into the discharging pipe 312, and the circular pipe is output through the discharging pipe 312; the pipe blocking mechanism 32 is arranged on the discharge hopper 31 and used for controlling the output of the round pipe.

Further, the bottom wall of the discharging cavity 311 is inclined downwards towards the end far away from the pipe lifting and feeding structure 20, and the discharging pipe 312 is arranged below the end, far away from the pipe lifting and feeding structure 20, of the discharging cavity 311, so that circular pipes can be conveniently conveyed into the discharging pipe 312 from the discharging cavity 311.

Further, the pipe blocking mechanism 32 comprises a pipe orifice blocking mechanism 33, and the pipe orifice blocking mechanism 33 is arranged above a pipe orifice of the discharge pipe 312 communicated with the discharge cavity 311 and used for controlling the conveying of the circular pipe from the discharge cavity 311 to the discharge pipe 312; the pipe orifice intercepting mechanism 33 comprises an intercepting plate 331 and a pipe orifice cylinder 332, one end of the intercepting plate 331 extends into the discharge cavity 311 and is located above the pipe orifice, the other end of the intercepting plate 331 is connected with a telescopic rod of the pipe orifice cylinder 332, and the telescopic rod of the pipe orifice cylinder 332 stretches and retracts to drive the intercepting plate 331 to move up and down relative to the pipe orifice so that the intercepting plate 331 blocks a circular pipe from entering the discharge pipe 312 from the pipe orifice.

Further, the pipe blocking mechanism 32 comprises a discharge intercepting mechanism 34, and the discharge intercepting mechanism 34 is arranged on the discharge pipe 312 and used for controlling the output of the round pipe from the inside of the discharge pipe 312 to the jacking pipe conveying structure 40; the discharging intercepting mechanism 34 comprises a plurality of intercepting cylinder groups 341, the discharging pipe 312 forms a plurality of storage sections 301 at equal intervals from top to bottom, one intercepting cylinder group 341 is arranged on each storage section 301, each intercepting cylinder group 341 comprises a plurality of intercepting cylinders 342 arranged side by side, and telescopic rods of the intercepting cylinders 342 extend into the discharging pipe 312 to intercept and store circular pipes in the storage sections 301.

Further, the pipe blocking mechanism 32 includes a discharging sensor 35, the discharging sensor 35 is disposed at one end of the discharging pipe 312 adjacent to the jacking pipe conveying structure 40, and is used for sensing the jacking pipe conveying structure 40, controlling the operations of the pipe orifice intercepting mechanism 33 and the discharging pipe intercepting mechanism 34, and discharging the circular pipe from the discharging hopper 31 to the jacking pipe conveying structure 40.

Referring to fig. 1, 3 and 6, the jacking pipe conveying structure 40 includes a fixing frame 41, a conveying mechanism 42 and a jacking mechanism 43, the conveying mechanism 42 is mounted on the fixing frame 41, the conveying mechanism 42 is provided with a feeding end 401 and a discharging end 402, the feeding end 401 of the conveying mechanism 42 is arranged at the lower end of the frame 10 below the lower pipe discharging structure 30, and is used for conveying a circular pipe, which is fed from the lower pipe discharging structure 30 to the feeding end 401, to the discharging end 402; the conveying mechanism 42 comprises a base 421, a pipe conveying belt 422 and a driving motor 423, wherein the base 421 is arranged at the top end of the fixing frame 41, the base 421 is rotatably provided with a driven rotating shaft 403 at a feeding end 401 and a driving rotating shaft 404 at a discharging end 402, two ends of the pipe conveying belt 422 are relatively sleeved on the driven rotating shaft 403 and the driving rotating shaft 404, the pipe conveying belt 422 is provided with a plurality of pipe body supporting pieces 405 at equal intervals, the pipe body supporting pieces 405 are U-shaped, two ends of the pipe body supporting pieces 405 are relatively provided with two supporting arms 406, each supporting arm 406 is provided with a supporting groove 407, a circular pipe is supported on the pipe conveying belt 422 through the pipe body supporting pieces 405, and the middle section of the circular pipe is accommodated in the supporting grooves 407 of the two supporting arms 406; the driving motor 423 is arranged at the discharging end 402 of the base 421, the driving motor 423 is matched with the driving rotating shaft 404, and the driving rotating shaft 404 is driven to rotate by the driving motor 423, so that the pipe conveying belt 422 rotates on the driving rotating shaft 404 and the driven rotating shaft 403, and a circular pipe is conveyed from the feeding end 401 to the discharging end 402; jacking mechanism 43 locates conveying mechanism 42's discharge end 402 to when supplying conveying mechanism 42 to carry the pipe to jacking mechanism 43 position, through jacking mechanism 43 jacking pipe, be convenient for select or take of pipe.

The jacking mechanism 43 comprises two groups of jacking assemblies 431, the two groups of jacking assemblies 431 are oppositely arranged at two sides of the discharge end 402 of the base 421, and two ends of the circular pipe are relatively supported and jacked through the two groups of jacking assemblies 431; each jacking subassembly 431 includes jacking cylinder 432 and jacking support 433, jacking cylinder 432 is located on base 421, and on jacking support 433 located jacking cylinder 432's the telescopic link, the flexible jacking support 433 lift activity of drive through jacking cylinder 432's telescopic link to with jacking support 433 bearing pipe, be equipped with bearing board 51 on jacking support 433, bearing board 51 is equipped with a plurality of constant head tanks 52 on the top equidistantly, through constant head tank 52 bearing pipe, for the jacking cylinder 432 of two sets of jacking subassemblies 431 to start simultaneously, drive jacking support 433 and rise, the both ends of the corresponding constant head tank 52 corresponding bearing pipe on two jacking support 433, through the many root pipes of two jacking supports bearing jacking simultaneously, the efficiency of selecting or taking of pipe has been improved.

Furthermore, the jacking support member 433 is provided with a plurality of buffer blocks 53 at one side of the support plate 51, and each buffer block 53 corresponds to a positioning groove 52 for buffering.

Furthermore, two protection plates 54 are oppositely arranged on two sides of the base 421 of the fixing frame 41 for protection.

The conveying method of the circular tube conveying device comprises the following steps: in the pipe lifting and feeding structure 20, a round pipe to be conveyed is poured into the storage cavity 211 of the storage hopper 21, the pipe lifting mechanism 22 is started, the telescopic rod of the pipe lifting cylinder 223 stretches and retracts to drive the pipe lifting plate 201 to lift in the storage cavity 211, and the pipe lifting plate 201 supports and lifts the round pipe in the storage cavity 211 and conveys the round pipe to the discharge cavity 311 of the discharge hopper 31;

in the lower pipe discharging structure 30, the lifting conveying pipe structure 40 is sensed by the discharging sensor 35, and the operations of the pipe orifice intercepting mechanism 33 and the discharging intercepting mechanism 34 are controlled, so that the materials are sequentially conveyed into the discharging pipe 312 from the discharging cavity 311, and are sequentially output to the feeding end 401 of the conveying mechanism 42 from the discharging pipe 312;

in the pipe jacking and conveying structure 40, the pipe body supporting member 405 supports the circular pipe on the pipe conveying belt 422, and along with the rotation of the pipe conveying belt 422, the circular pipe is conveyed from the feeding end 401 to the discharging end 402 of the conveying mechanism 42, and then when the circular pipe is conveyed to the position of the jacking mechanism 43, the jacking mechanism 43 jacks the circular pipe.

To sum up, the utility model relates to a defeated tubular construction of jacking can carry the pipe high-efficient steadily and with its bearing jacking, the pipe of being convenient for select or take, improved the conveying efficiency of pipe.

As long as the idea created by the present invention is not violated, various different embodiments of the present invention can be arbitrarily combined, and all the embodiments should be regarded as the content disclosed by the present invention; the utility model discloses an in the technical conception scope, carry out multiple simple variant and different embodiments to technical scheme and go on not violating the utility model discloses the arbitrary combination of the thought of creation all should be within the protection scope.

Claims (5)

1. The utility model provides a jacking defeated tubular construction installs on pipe conveyor, its characterized in that: the pipe conveying device comprises a fixing frame (41), a conveying mechanism (42) and a jacking mechanism (43), wherein the conveying mechanism (42) is arranged on the fixing frame (41), and the conveying mechanism (42) is provided with a feeding end (401) and a discharging end (402) and is used for conveying a round pipe from the feeding end (401) to the discharging end (402); the jacking mechanism (43) is arranged at the discharge end (402) of the conveying mechanism (42) so that when the conveying mechanism (42) conveys the round pipe to the position of the jacking mechanism (43), the round pipe is jacked through the jacking mechanism (43), and the round pipe is convenient to select or take;

the conveying mechanism (42) comprises a base (421), a pipe conveying conveyor belt (422) and a driving motor (423), the base (421) is arranged at the top end of the fixing frame (41), a driven rotating shaft (403) is rotatably arranged at a feeding end (401) of the base (421), a driving rotating shaft (404) is rotatably arranged at a discharging end (402), two ends of the pipe conveying conveyor belt (422) are oppositely sleeved on the driven rotating shaft (403) and the driving rotating shaft (404), a plurality of pipe body supporting pieces (405) are arranged on the pipe conveying conveyor belt (422) at equal intervals and used for supporting a circular pipe, the driving motor (423) is arranged at the discharging end (402) of the base (421), and the driving motor (423) is matched with the driving rotating shaft (404);

jacking mechanism (43) include two sets of jacking components (431), and the discharge end (402) both sides of base (421) are located relatively to two sets of jacking components (431), through the relative both ends and the jacking of bearing the pipe of two sets of jacking components (431).

2. The jacking pipe conveying structure of claim 1, wherein: the U-shaped pipe body bearing piece (405) is relatively provided with two bearing arms (406) at two ends of the U-shaped pipe body bearing piece (405), each bearing arm (406) is provided with a bracket (407), a circular pipe is supported on the pipe conveying belt (422) through the pipe body bearing piece (405), and the middle section of the circular pipe is accommodated in the brackets (407) of the two bearing arms (406).

3. The jacking pipe conveying structure of claim 1, wherein: the jacking assembly (431) comprises a jacking cylinder (432) and a jacking support piece (433), the jacking cylinder (432) is arranged on the base (421), and the jacking support piece (433) is arranged on a telescopic rod of the jacking cylinder (432); be equipped with bearing board (51) on jacking support (433), bearing board (51) are equipped with a plurality of constant head tanks (52) on the equidistant ground in top, through constant head tank (52) bearing pipe to jacking cylinder (432) of supplying two sets of jacking subassemblies (431) start simultaneously, drive jacking support (433) and rise, corresponding constant head tank (52) on two jacking support (433) correspond the both ends of bearing pipe, hold in the palm many pipes of piece bearing jacking simultaneously through two jacking.

4. The jacking pipe conveying structure of claim 3, wherein: jacking support piece (433) are equipped with a plurality of buffer blocks (53) in bearing board (51) one side, and each buffer block (53) corresponds a constant head tank (52), plays the cushioning effect.

5. The jacking pipe conveying structure of claim 1, wherein: two protection plates (54) are oppositely arranged on two sides of the base (421) of the fixing frame (41) to play a role in protection.

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