CN216470727U - Pipe material loading attachment - Google Patents

Abstract

The utility model discloses a pipe material loading attachment, including the storage silo, pipe material push mechanism and pipe material hoist mechanism, wherein the storage silo includes stack platform and the bracket that frame and slope set up, the stack platform has the opening of unloading, be equipped with on the bracket and enclose the fender, the opening of unloading and the interval that encloses between the fender satisfy and pass through in single pipe material to make the pipe material that falls into on the bracket be the individual layer continuous arrangement, the output and the pipe material push mechanism of bracket correspond to be connected, pipe material push mechanism is with pipe material propelling movement to pipe material hoist mechanism, it accomplishes the material loading to promote the pipe material by pipe material hoist mechanism. The utility model discloses a pipe material loading attachment can carry out the material loading to the pipe material of stacking together automatically, guarantees that the material loading position is accurate, improves material loading efficiency.

Description

Pipe material loading attachment

Technical Field

The utility model relates to a tubular product processing equipment technical field, concretely relates to pipe material loading attachment.

Background

The pipe is widely used, pipe workpieces are directly stacked in a box in the production and processing of the pipe, the feeding supplement of the workpieces is carried one by one manually, or the whole frame workpieces are poured into the box by special equipment, the pipe feeding device is suitable for the pipe materials with smaller quality and shorter length, but for the workpieces with larger quality or longer length, the pipe feeding device adopts the mode of manual carrying or whole frame pouring, the accurate feeding cannot be realized, the position of the workpiece is changed, the consistency of the workpiece cannot be guaranteed, the automation of the feeding cannot be realized, and the efficiency is lower.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome the not enough of prior art existence, provide one kind and can carry out the material loading to the pipe material of stacking together automatically, guarantee that the material loading position is accurate, improve material loading efficiency's pipe material loading attachment.

In order to solve the technical problem, the utility model discloses a following technical scheme:

the utility model provides a pipe material loading attachment, includes storage silo, pipe material push mechanism and pipe material hoist mechanism, wherein the storage silo include the frame and the slope set up in stack platform and bracket in the frame, the stack platform has the opening of unloading, be equipped with on the bracket with the opening of unloading corresponds fender that encloses of adaptation, the opening of unloading with enclose the interval between the fender and satisfy and pass through in single pipe material, so that fall into pipe material on the bracket is the individual layer and arranges in succession, the output of bracket with pipe material push mechanism corresponds the connection, pipe material push mechanism with pipe material propelling movement extremely pipe material hoist mechanism, by pipe material hoist mechanism promotes pipe material and accomplishes the material loading.

As a further improvement of the above technical solution:

and the stacking platform is movably connected with an adjusting side plate so as to adjust the distance between the two sides of the stacking platform.

The rack is movably connected with an adjusting baffle plate to adjust the distance between the two sides of the bracket.

The adjusting baffle is connected to the rack in a sliding mode through at least one group of sliding mechanisms, each sliding mechanism comprises a guide rod fixedly connected to the rack and a linear bearing connected to the guide rod in a sliding mode, and the adjusting baffle is fixedly connected with the linear bearings.

The pipe material pushing mechanism comprises a first base, a pushing piece connected to the first base in a sliding mode and a first driving device used for driving the pushing piece to move in a reciprocating mode, wherein the pushing piece comprises a bearing portion used for bearing a pipe material and a blocking portion used for blocking the pipe material to be pushed.

The first base is provided with a limiting part, and the distance between the limiting part and the first base is satisfied with the passing of a single pipe material.

The first base is provided with a guide plate in an inclined mode, the feeding end of the guide plate is flush with the discharging height of the pushing piece, and the discharging end of the guide plate is connected into the pipe material lifting mechanism.

The pipe material lifting mechanism comprises a second base, a lifting assembly connected to the second base in a sliding mode and a second driving device used for driving the lifting assembly to move in a reciprocating mode.

The lifting assembly comprises a plurality of lifting pieces which are arranged in a step shape, and in any two adjacent lifting pieces, the discharging height of one lifting piece is the same as the feeding height of the next lifting piece.

The second base is provided with a material sensor for detecting the feeding condition of the lifting assembly, and the material sensor is electrically connected with the second driving device.

Compared with the prior art, the utility model has the advantages of:

the utility model discloses a pipe material loading attachment is by the storage silo, pipe material pushing mechanism and pipe material hoist mechanism are constituteed, wherein the storage silo is including stack platform and the bracket that the slope set up, the pipe material of stacking in the stack platform rolls to the incline direction, only can allow single pipe material to pass through between the fender owing to the opening of unloading and the enclosing of bracket, consequently, the pipe material that falls into on the bracket earlier rolls to the bracket bottom, the pipe material that falls into afterwards arranges in proper order on the bracket, it is accurate to go up the material position, guarantee the uniformity of pipe material, the output of bracket corresponds with pipe material pushing mechanism, pipe material pushing mechanism pushes away pipe material to pipe material hoist mechanism in batches at interval, the flexibility of material loading is improved, promote the pipe material by pipe material hoist mechanism and accomplish the material loading, the whole is cut into parts to the pipe material of piling in automation, improve material loading efficiency greatly.

Drawings

Fig. 1 is a front view structure diagram of the present invention.

Fig. 2 is a schematic perspective view of the present invention.

Fig. 3 is an enlarged view of detail a in fig. 2.

Fig. 4 is a schematic structural diagram of the pipe pushing mechanism provided by the present invention.

Fig. 5 is a schematic view of a part of the structure of the pipe pushing mechanism provided by the present invention.

Fig. 6 is a schematic structural view of the pipe lifting mechanism provided by the present invention.

Illustration of the drawings:

1. a storage bin; 101. a frame; 102. a stacking table; 1021. a discharge opening; 103. a bracket; 1031. fencing; 104. adjusting the side plate; 105. adjusting the baffle; 2. a pipe pushing mechanism; 201. a first base; 202. a pushing member; 2021. a bearing part; 2022. a blocking portion; 203. a first driving device; 204. a stopper; 205. a guide plate; 3. a pipe lifting mechanism; 301. a second base; 302. a lifting assembly; 3021. a lifting member; 303. a second driving device; 4. a sliding mechanism; 401. a guide bar; 402. a linear bearing; 5. a material sensor.

Detailed Description

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

As shown in fig. 1 and fig. 2, the tube feeding device of this embodiment includes a storage bin 1, a tube pushing mechanism 2, and a tube lifting mechanism 3, wherein the storage bin 1 includes a frame 101, and a stacking platform 102 and a bracket 103 obliquely disposed on the frame 101, the stacking platform 102 has a discharge opening 1021, the bracket 103 is provided with a barrier 1031 corresponding to the discharge opening 1021, a distance between the discharge opening 1021 and the barrier 1031 is satisfied for a single tube to pass through, so that the tubes falling on the bracket 103 are arranged in a single-layer continuous manner, an output end of the bracket 103 is correspondingly connected to the tube pushing mechanism 2, the tube pushing mechanism 2 pushes the tubes to the tube lifting mechanism 3, and the tube lifting mechanism 3 lifts the tubes to complete feeding. The pipe material feeding device comprises a storage bin 1, a pipe material pushing mechanism 2 and a pipe material lifting mechanism 3, wherein the storage bin 1 comprises a stacking platform 102 and a bracket 103 which are arranged in an inclined mode, pipe materials stacked in the stacking platform 102 roll in the inclined direction, only a single pipe material can pass through a space between a discharging opening 1021 and a baffle 1031 of the bracket 103, and therefore the pipe materials falling into the bracket 103 roll to the bottom of the bracket 103 first, the pipe materials falling into the bracket 103 are sequentially arranged on the bracket 103, the feeding position is accurate, the consistency of the pipe materials is guaranteed, the output end of the bracket 103 corresponds to the pipe material pushing mechanism 2, the pipe material pushing mechanism 2 pushes the pipe materials to the pipe material lifting mechanism 3 at intervals in batches, the feeding flexibility is improved, the pipe materials are lifted by the pipe material lifting mechanism 3, the pipe materials are automatically integrated into the stacked pipe materials, and the feeding efficiency is greatly improved.

Furthermore, an adjusting side plate 104 is movably connected to the stacking platform 102 to adjust the distance between two sides of the stacking platform 102. In this embodiment, the stacking platform 102 is movably connected with an adjusting side plate 104, and the position of the adjusting side plate 104 can be flexibly changed according to the length of the stacked pipe materials, so as to adapt to pipe materials with any length, realize flush treatment of the pipe materials, and ensure consistent loading position.

Further, an adjusting baffle 105 is movably connected to the frame 101 to adjust the distance between the two sides of the bracket 103. In this embodiment, the frame 101 is movably connected with an adjusting baffle 105, so that the position of the adjusting baffle 105 can be flexibly changed to adapt to the length of the pipe on the stacking table 102, thereby adapting to the pipe with any length and ensuring the position of the pipe on the bracket 103 to be accurate and consistent.

Further, as shown in fig. 3, the adjusting baffle 105 is slidably connected to the frame 101 through at least one set of sliding mechanism 4, the sliding mechanism 4 includes a guide rod 401 fixedly connected to the frame 101 and a linear bearing 402 slidably connected to the guide rod 401, and the adjusting baffle 105 is fixedly connected to the linear bearing 402. In this embodiment, the adjusting baffle 105 is connected to the frame 101 in a sliding manner, the number of sets of the required sliding mechanisms 4 is two, the position of the adjusting baffle 105 can be located by manually locking the linear bearing 402, and the sliding mechanism 4 has the advantages of simple structure, good operation stability and low cost.

Further, as shown in fig. 4 and fig. 5, the tube material pushing mechanism 2 includes a first base 201, a pushing member 202 slidably connected to the first base 201, and a first driving device 203 for driving the pushing member 202 to reciprocate, wherein the pushing member 202 includes a supporting portion 2021 for supporting the tube material and a blocking portion 2022 for blocking the tube material to be pushed. In this embodiment, the number of the first driving devices 203 is two, and the first driving devices 203 are respectively disposed on two sides of the first base 201, the first driving devices 203 drive the pushing member 202 to slide on the first base 201 in a reciprocating manner, and the pushing member 202 is disposed in an inclined manner; when the pushing member 202 is in the low position, the tube material on the bracket 103 falls onto the bearing portion 2021 of the pushing member 202, the width of the bearing portion 2021 is adapted to the outer diameter of a single tube material, that is, only a single tube material is pushed each time, at this time, the first driving device 203 drives the pushing member 202 to slide to the high position, the bearing portion 2021 plays a role in bearing the tube material, the tube material is pushed to the high position, in the pushing process, the blocking portion 2022 plays a role in blocking the tube material which is not pushed, the tube material to be pushed is prevented from falling below the bearing portion 2021, when the pushing member 202 is in the high position, the tube material automatically falls into the tube material lifting mechanism 3, at this time, the first driving device 203 drives the pushing member 202 to slide to the low position, and the above is a working process of the complete tube material pushing mechanism 2.

Further, a limiting member 204 is disposed on the first base 201, and a distance between the limiting member 204 and the first base 201 is satisfied for a single pipe material to pass through. In this embodiment, the first base 201 is provided with the limiting member 204, the distance between the limiting member 204 and the first base 201 can only allow a single pipe to pass through, during the pushing process of the pipe, the pipe on the supporting portion 2021 can smoothly pass through the gap between the limiting member 204 and the first base 201, and the following pipe is limited by the limiting member 204 at the original position, so as to avoid the position change caused by the pipe being lifted.

Further, a guide plate 205 is obliquely arranged on the first base 201, a feeding end of the guide plate 205 is flush with a discharging height of the pushing member 202, and a discharging end of the guide plate 205 is connected to the tube lifting mechanism 3. In this embodiment, the guide plate 205 is disposed obliquely, and when the pushing member 202 is in the high position, the tube material thereon rolls along the guide plate 205 to the tube material lifting mechanism 3 under the action of gravity.

Further, as shown in fig. 6, the tube material lifting mechanism 3 includes a second base 301, a lifting assembly 302 slidably connected to the second base 301, and a second driving device 303 for driving the lifting assembly 302 to reciprocate. In this embodiment, the lifting assembly 302 is slidably connected to the second base 301 through a sliding mechanism composed of a guide rail and a slider, and has the advantages of simple structure, convenient and fast assembly, and low cost.

Further, the lifting assembly 302 includes a plurality of lifting members 3021 arranged in a ladder shape, and in any two adjacent lifting members 3021, the discharging height of one lifting member 3021 is the same as the charging height of the next lifting member 3021. In this embodiment, the lifting assembly 302 is composed of four lifting members 3021, the four lifting members 3021 are arranged in a step shape and are correspondingly driven by four sets of second driving devices 303, the feeding height of the first lifting member 3021 is flush with the discharging end of the guide plate 205, the discharging height of the first lifting member 3021 is the same as the feeding height of the next lifting member 3021, and so on, the four lifting members 3021 sequentially act to lift the pipe material layer by layer, the automation degree is high, and the feeding efficiency is greatly improved.

Further, a material sensor 5 for detecting the material feeding condition of the lifting assembly 302 is disposed on the second base 301, and the material sensor 5 is electrically connected to the second driving device 303. In this embodiment, the second base 301 is provided with a material sensor 5, the material sensor 5 is used for detecting the feeding condition on the first lifting member 3021, and when detecting that a tube material enters the first lifting member 3021, the sensor sends a signal to control the second driving device 303 to act in sequence.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above-mentioned embodiments. For those skilled in the art, the modifications and changes obtained without departing from the technical idea of the present invention shall be considered as the protection scope of the present invention.

Claims (10)

1. A pipe material feeding device is characterized by comprising a storage bin (1), a pipe material pushing mechanism (2) and a pipe material lifting mechanism (3), wherein the storage bin (1) comprises a frame (101), a stacking platform (102) and a bracket (103) which are obliquely arranged on the frame (101), the stacking platform (102) is provided with a discharging opening (1021), the bracket (103) is provided with a baffle (1031) correspondingly matched with the discharging opening (1021), the distance between the discharge opening (1021) and the enclosure (1031) is satisfied with the passing of a single pipe material, so that the pipe materials falling onto the bracket (103) are continuously arranged in a single layer, the output end of the bracket (103) is correspondingly connected with the pipe material pushing mechanism (2), the pipe material pushing mechanism (2) pushes the pipe material to the pipe material lifting mechanism (3), and the pipe material lifting mechanism (3) lifts the pipe material to complete feeding.

2. The pipe feeding device according to claim 1, wherein an adjusting side plate (104) is movably connected to the stacking platform (102) to adjust the distance between two sides of the stacking platform (102).

3. The pipe feeding device according to claim 1, wherein an adjusting baffle (105) is movably connected to the frame (101) to adjust the distance between two sides of the bracket (103).

4. The pipe feeding device according to claim 3, wherein the adjusting baffle (105) is slidably connected to the frame (101) through at least one set of sliding mechanism (4), the sliding mechanism (4) comprises a guide rod (401) fixedly connected to the frame (101) and a linear bearing (402) slidably connected to the guide rod (401), and the adjusting baffle (105) is fixedly connected to the linear bearing (402).

5. The tube feeding device according to claim 1, wherein the tube pushing mechanism (2) comprises a first base (201), a pushing member (202) slidably connected to the first base (201), and a first driving device (203) for driving the pushing member (202) to move reciprocally, wherein the pushing member (202) comprises a bearing portion (2021) for bearing the tube and a blocking portion (2022) for blocking the tube to be pushed.

6. The tube material feeding device according to claim 5, wherein a limiting member (204) is disposed on the first base (201), and a distance between the limiting member (204) and the first base (201) is satisfied for a single tube material to pass through.

7. The pipe material feeding device according to claim 5, wherein a guide plate (205) is arranged on the first base (201) in an inclined manner, the feeding end of the guide plate (205) is flush with the discharging height of the pushing member (202), and the discharging end of the guide plate (205) is connected to the pipe material lifting mechanism (3).

8. A tube feeding device according to claim 1, characterized in that said tube lifting mechanism (3) comprises a second base (301), a lifting assembly (302) slidably connected to said second base (301), and a second driving device (303) for driving said lifting assembly (302) to reciprocate.

9. A pipe feeding device according to claim 8, characterized in that the lifting assembly (302) comprises a plurality of lifting members (3021) arranged in a ladder-like manner, and in any two adjacent lifting members (3021), the discharging height of one lifting member (3021) is the same as the feeding height of the next lifting member (3021).

10. The tube feeding device according to claim 8, wherein a material sensor (5) for detecting the material feeding condition of the lifting assembly (302) is disposed on the second base (301), and the material sensor (5) is electrically connected to the second driving device (303).

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