CN112621866B

CN112621866B - PVC pipe processing is with continuous feeding mechanism

Info

Publication number: CN112621866B
Application number: CN202011260716.7A
Authority: CN
Inventors: 夏晓培
Original assignee: Guangzhou Lishi Tubing Co ltd
Current assignee: Guangzhou Lishi Tubing Co ltd
Priority date: 2020-11-12
Filing date: 2020-11-12
Publication date: 2022-10-21
Anticipated expiration: 2040-11-12
Also published as: CN112621866A

Abstract

The invention discloses a continuous feeding mechanism for processing a PVC pipe, and belongs to the field of feeding mechanisms. A continuous feeding mechanism for processing a PVC pipe comprises a cutting machine body and a workbench, wherein a driving assembly is arranged on the outer wall of the cutting machine body, the output end of the driving assembly is respectively connected with a cutting assembly and a transmission assembly, a feeding mechanism is arranged on the bottom wall of the workbench, the output end of the feeding mechanism penetrates through the workbench and extends upwards, one end, away from the driving assembly, of the transmission assembly is connected with the feeding mechanism, a cutting table is arranged on the cutting machine body, a fixing assembly is arranged on the cutting table, a circulating and reciprocating assembly is connected onto the outer wall of the feeding mechanism, the output end of the circulating and reciprocating assembly is connected with the fixing assembly, a guide plate is arranged on the outer wall of the workbench, and one end, away from the workbench, of the guide plate is matched with the cutting table; the invention has simple structure and convenient use, can effectively reduce the labor intensity and improve the production efficiency, and can also effectively improve the safety performance during production.

Description

Continuous feeding mechanism is used in processing of PVC pipe

Technical Field

The invention relates to the technical field of feeding mechanisms, in particular to a continuous feeding mechanism for processing a PVC pipe.

Background

PVC is polyvinyl chloride, which is an initiator of vinyl chloride monomer in peroxide, azo compounds and the like; or polymers polymerized by a radical polymerization mechanism under the action of light and heat, vinyl chloride homopolymers and vinyl chloride copolymers are collectively called vinyl chloride resins.

The invention discloses a PVC pipe cutting device which comprises a workbench, wherein a cutting mechanism is arranged on the upper surface of the workbench, a placing table is arranged on the upper surface of the workbench and positioned between a group of first sliding rails, a vertical rod is arranged on the upper surface of the workbench and positioned in front of the placing table, a first vertical mounting plate is arranged on the upper surface of the vertical rod, a controller is arranged on the front surface of the first vertical mounting plate, a mains supply interface is arranged on the side surface of the workbench, a power supply terminal of the controller is connected with the mains supply interface through a lead, and the output end of the controller is respectively connected with a first electric trolley, a second electric trolley, a first hydraulic cylinder, a rotating motor, a third electric trolley, a first electric push rod and a first micro linear motor through leads. The invention has the advantages of strong fixing capability, liberation of manpower, improvement of working efficiency, reduction of potential safety hazard, convenient use and strong novelty.

Through retrieval, the invention patent with publication number CN107825504A discloses a PVC pipe cutting machine, includes: a box body; the cylinder barrel of the hydraulic cylinder is fixed on the inner top surface of the box body; the motor is fixed on the end part of the piston rod of the hydraulic cylinder, and a saw blade is fixed on an output shaft of the motor; the synchronous transmission device is linked with the motor; the first supporting rod is vertically fixed in the box body; the second supporting rod is transversely and fixedly connected to the bottom end of the first supporting rod; and the clamping device can be controlled by the synchronous transmission device to automatically clamp or loosen the PVC pipe to be cut. The clamping of the invention is indirectly controlled by the movement of the motor, and compared with the prior art, the invention omits a driving device for independently controlling the clamping device, thereby simplifying the structure of the cutting machine on one hand, and reducing the manufacturing cost and the working energy consumption of the cutting machine on the other hand.

Although the two cutting devices for PVC pipes can improve the working efficiency to a certain extent or simplify the structure of the cutting equipment, the two cutting devices need to continuously feed the pipes needing to be cut manually when the PVC pipes are cut, so that the labor intensity is still high, the working efficiency is still influenced to a certain extent, and the continuous feeding mechanism for PVC pipe processing is particularly important.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides a continuous feeding mechanism for processing a PVC pipe.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a PVC pipe processing is with continuous feeding mechanism, includes cutting machine body and workstation, be provided with drive assembly on the cutting machine body outer wall, the drive assembly output is connected with respectively and cuts off subassembly and drive assembly, be provided with feeding mechanism on the workstation diapire, it has the guide way to open on the workstation roof, the feeding mechanism output passes the guide way and upwards extends, drive assembly keeps away from drive assembly's one end and is connected with feeding mechanism, be provided with the cutting bed on the cutting machine body, the inside cavity that opens of cutting bed, the inside fixed subassembly that is provided with of cavity, the fixed subassembly output passes the cutting bed and upwards extends, be connected with the reciprocating assembly of circulation on the feeding mechanism outer wall, the reciprocating assembly output of circulation is connected with fixed subassembly, be provided with the stock guide on the workstation outer wall, the one end that the workstation was kept away from to the stock guide matches with the cutting bed.

Preferably, the transmission assembly comprises a first connecting rod, a second connecting rod and a cam, the first connecting rod is connected to the outer wall of the output end of the driving assembly, the second connecting rod is connected to one end, far away from the driving assembly, of the first connecting rod, one end of the cam is rotatably connected with the second connecting rod, and the other end of the cam is connected with the feeding mechanism.

Preferably, feeding mechanism includes first axis of rotation, first axis of rotation passes through the fixed bolster to be connected on the workstation diapire, be connected with the third connecting rod on the first axis of rotation outer wall, it has the second axis of rotation to rotate on the third connecting rod inner wall, it is connected with group material fork to rotate on the second axis of rotation outer wall, the one end of keeping away from the third connecting rod of group material fork is passed the guide way and is upwards extended, just it slides with the guide way and links to each other to dial the material fork.

Preferably, the third connecting rods are symmetrically provided with two groups, and the two groups of third connecting rods are connected through a second rotating shaft.

Preferably, the feeding mechanisms are provided with two groups, and the two groups of feeding mechanisms are connected through a belt.

Preferably, the length of the first rotating shaft is smaller than the length from the shifting fork to the cam.

Preferably, the reciprocating component comprises a half gear, a rack frame and a fourth connecting rod, the half gear is connected to the outer wall of the first rotating shaft, the rack frame is meshed with the half gear, one end of the fourth connecting rod is connected with the rack frame, and the other end of the fourth connecting rod penetrates through the cutting table to be connected with the fixing component.

Preferably, fixed subassembly includes the slide bar, fixedly connected with fixed plate on the slide bar outer wall, it is connected with crank link assembly to rotate on the fixed plate diapire, the one end that crank link assembly kept away from the fixed plate is connected with the slide, slide sliding connection is on the slide bar outer wall, be connected with the jack catch on the slide roof, the one end that the slide was kept away from to the jack catch passes the cutting bed and upwards extends.

Preferably, the crank connecting rod assembly comprises a rotating disc and a connecting rod, the rotating disc is rotatably connected to the bottom wall of the fixing plate, one end of the connecting rod is rotatably connected to the bottom wall of the rotating disc, and the other end of the connecting rod is rotatably connected with the sliding plate.

Preferably, the sliding plate, the clamping jaws and the connecting rod are symmetrically provided with two groups, and the top wall of the cutting table is provided with sliding grooves matched with the clamping jaws.

Compared with the prior art, the invention provides a continuous feeding mechanism for processing a PVC pipe, which has the following beneficial effects:

1. according to the continuous feeding mechanism for processing the PVC pipe, the feeding mechanism is arranged, so that the pipe needing to be cut off and processed can be automatically and continuously fed, the manual feeding mode in the prior art is replaced, the labor intensity can be effectively reduced, and meanwhile, the safety performance of cutting off work is improved.

2. This PVC is continuous feeding mechanism for pipe processing, through the transmission assembly who sets up, and then when cutting machine body during operation, can drive feeding mechanism through the transmission assembly who sets up and carry out work simultaneously, and then improve the pay-off and cut off the unity of operation, and then improve the quality of cutting off.

3. This PVC is continuous feeding mechanism for pipe processing, through the reciprocal subassembly of circulation that sets up, and then when feeding mechanism will need the tubular product of cutting leading-in to the cutting bed on, can drive fixed subassembly simultaneously and fix tubular product, avoid taking place to collapse the condition of leaving in the tubular product cutting process, and cause the potential safety hazard to the staff.

The device has the advantages of simple structure and convenient use, can effectively reduce labor intensity and improve production efficiency, and can also effectively improve safety performance during production.

Drawings

FIG. 1 is a first schematic structural diagram of a continuous feeding mechanism for PVC pipe processing according to the present invention;

FIG. 2 is a second schematic structural view of a continuous feeding mechanism for PVC pipe processing according to the present invention;

FIG. 3 is a front view of a continuous feeding mechanism for PVC pipe processing according to the present invention;

FIG. 4 is a third schematic structural view of a continuous feeding mechanism for PVC pipe processing according to the present invention;

FIG. 5 is a fourth schematic structural view of a continuous feeding mechanism for PVC pipe processing according to the present invention;

FIG. 6 is a first schematic structural diagram of a fixing assembly of a continuous feeding mechanism for PVC pipe processing according to the present invention;

FIG. 7 is a second schematic structural view of a fixing assembly of the continuous feeding mechanism for PVC pipe processing according to the present invention;

fig. 8 is a schematic structural view of a part a in the composition 4 of the continuous feeding machine for processing a PVC pipe according to the present invention.

In the figure: 1. a cutter body; 101. a work table; 102. a guide groove; 103. cutting the table; 104. a stock guide; 2. a transmission assembly; 201. a first link; 202. a second link; 203. a cam; 3. a feeding mechanism; 301. a first rotating shaft; 302. fixing a bracket; 303. a third link; 304. a second rotating shaft; 305. a material shifting fork; 306. a belt; 4. a cyclic reciprocating assembly; 401. a half gear; 402. a rack frame; 403. a fourth link; 5. a fixing assembly; 501. a slide bar; 502. a fixing plate; 503. a slide plate; 504. a jaw; 505. rotating the disc; 506. a connecting rod; 507. a chute.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Example 1:

referring to fig. 1-8, a continuous feeding mechanism for processing a PVC pipe, including a cutting machine body 1 and a workbench 101, a driving assembly is arranged on the outer wall of the cutting machine body 1, the output end of the driving assembly is respectively connected with a cutting assembly and a transmission assembly 2, a feeding mechanism 3 is arranged on the bottom wall of the workbench 101, a guide groove 102 is cut on the top wall of the workbench 101, the output end of the feeding mechanism 3 penetrates through the guide groove 102 and extends upwards, one end of the transmission assembly 2, which is far away from the driving assembly, is connected with the feeding mechanism 3, a cutting table 103 is arranged on the cutting machine body 1, a cavity is formed inside the cutting table 103, a fixing assembly 5 is arranged inside the cavity, the output end of the fixing assembly 5 penetrates through the cutting table 103 and extends upwards, a circulating reciprocating assembly 4 is connected on the outer wall of the feeding mechanism 3, the output end of the circulating reciprocating assembly 4 is connected with the fixing assembly 5, a guide plate 104 is arranged on the outer wall of the workbench 101, and one end of the guide plate 104, which is far away from the workbench 101, is matched with the cutting table 103.

The transmission assembly 2 comprises a first connecting rod 201, a second connecting rod 202 and a cam 203, the first connecting rod 201 is connected to the outer wall of the output end of the driving assembly, the second connecting rod 202 is connected to one end, far away from the driving assembly, of the first connecting rod 201, one end of the cam 203 is rotatably connected with the second connecting rod 202, and the other end of the cam is connected with the feeding mechanism 3.

The feeding mechanism 3 comprises a first rotating shaft 301, the first rotating shaft 301 is connected to the bottom wall of the workbench 101 through a fixing support 302, a third connecting rod 303 is connected to the outer wall of the first rotating shaft 301, a second rotating shaft 304 is rotated on the inner wall of the third connecting rod 303, a material shifting fork 305 is connected to the outer wall of the second rotating shaft 304 in a rotating mode, one end, far away from the third connecting rod 303, of the material shifting fork 305 penetrates through the guide groove 102 and extends upwards, and the material shifting fork 305 is connected with the guide groove 102 in a sliding mode.

The third connecting rods 303 are symmetrically arranged in two groups, and the two groups of third connecting rods 303 are connected through a second rotating shaft 304.

The feeding mechanisms 3 are provided with two groups, and the two groups of feeding mechanisms 3 are connected through a belt 306.

The length of the first rotating shaft 301 is less than the length of the fork 305 to the cam 203.

When in use, the pipe to be cut is placed on the workbench 101 and is matched with the shifting fork 305 on the workbench 101, then the driving component is started to drive the cutting component and the transmission component 2 to rotate respectively, the pipe is cut by the arranged cutting component, when the driving component rotates, the first connecting rod 201 is driven to rotate, thereby driving the second connecting rod 202 connected with the driving component to rotate, and the second connecting rod 202 makes circular motion along the central axis of the output end of the driving component, thereby driving the cam 203 connected with the second connecting rod 202 to rotate, and thus driving the first rotating shaft 301 to rotate, thereby driving the third connecting rod 303 connected to the outer wall of the first rotating shaft 301 to rotate along the central axis of the first rotating shaft 301, is connected with one end of the third connecting rod 303 far away from the first rotating shaft 301 through a shifting fork 305, the shifting fork 305 is driven to move left and right along the guide groove 102 and move up and down along the guide groove 102, so as to convey the pipe placed on the top wall of the workbench 101, when the pipe is transported to the rightmost end of the workbench 101, through the arranged material guide plate 104, the tube conveyed to the rightmost end of the table 101 is then guided to the upper part of the cutting station 103, further, the arranged feeding mechanism 3 can automatically and continuously feed the pipe to be cut and processed, further replacing the manual feeding mode in the prior art, not only can effectively reduce the labor intensity, but also can increase the safety performance of the cutting-off work, and through the arranged transmission assembly 2, and then when the cutting machine body 1 works, the transmission assembly 2 can drive the feeding mechanism 3 to work simultaneously, so that the uniformity of feeding and cutting-off operation is improved, and the cutting-off quality is improved.

Example 2:

referring to fig. 1-7, a continuous feeding mechanism for processing PVC pipes, which is substantially the same as that in embodiment 1, and further, a continuous feeding mechanism for processing PVC pipes, includes a cutting machine body 1 and a workbench 101, a driving assembly is disposed on an outer wall of the cutting machine body 1, an output end of the driving assembly is connected with a cutting assembly and a transmission assembly 2 respectively, a feeding mechanism 3 is disposed on a bottom wall of the workbench 101, a guide slot 102 is cut on a top wall of the workbench 101, an output end of the feeding mechanism 3 penetrates through the guide slot 102 and extends upward, one end of the transmission assembly 2, which is far away from the driving assembly, is connected with the feeding mechanism 3, a cutting table 103 is disposed on the cutting machine body 1, a cavity is cut inside the cutting table 103, a fixing assembly 5 is disposed inside the cavity, an output end of the fixing assembly 5 penetrates through the cutting table 103 and extends upward, a circulating reciprocating assembly 4 is connected on an outer wall of the feeding mechanism 3, an output end of the circulating reciprocating assembly 4 is connected with the fixing assembly 5, a guide plate 104 is disposed on an outer wall of the workbench 101, and one end of the guide plate 104, which is far away from the workbench 101, is matched with the cutting table 103.

The reciprocating module 4 comprises a half gear 401, a rack frame 402 and a fourth connecting rod 403, wherein the half gear 401 is connected to the outer wall of the first rotating shaft 301, the rack frame 402 is connected with the half gear 401 in a meshing manner, one end of the fourth connecting rod 403 is connected with the rack frame 402, and the other end of the fourth connecting rod 403 passes through the cutting table 103 and is connected with the fixed module 5.

Fixed subassembly 5 includes slide bar 501, fixedly connected with fixed plate 502 on the slide bar 501 outer wall, the rotation is connected with crank link assembly on the fixed plate 502 diapire, the one end that fixed plate 502 was kept away from to crank link assembly is connected with slide 503, slide 503 sliding connection is on slide bar 501 outer wall, be connected with jack catch 504 on the slide 503 top wall, the one end that slide 503 was kept away from to jack catch 504 passes cutting table 103 and upwards extends.

The crank-link assembly comprises a rotary disc 505 and a connecting rod 506, the rotary disc 505 is rotatably connected to the bottom wall of the fixed plate 502, one end of the connecting rod 506 is rotatably connected to the bottom wall of the rotary disc 505, and the other end is rotatably connected to the sliding plate 503.

The sliding plate 503, the claws 504 and the connecting rods 506 are symmetrically arranged in two groups, and the top wall of the cutting table 103 is provided with sliding grooves 507 matched with the claws 504 in a chiseling mode.

Meanwhile, when the first rotating shaft 301 rotates, the half gear 401 connected to the outer wall of the first rotating shaft is driven to rotate, when the half gear 401 rotates, the rack frame 402 meshed with the half gear is driven to move, so that the fourth connecting rod 403 connected to the rack frame 402 is driven to move, the sliding plate 503 is driven to slide along the sliding rod 501, when the sliding plate 503 slides along the sliding rod 501, the connecting rod 506 connected to the sliding plate 503 is driven to slide and rotate along the sliding rod 501, the rotating disc 505 connected to the sliding plate is driven to rotate, the two groups of connecting rods 506 connected to the rotating disc 505 are driven to simultaneously slide and rotate along the sliding rod 501, the two groups of sliding plates 503 connected to the connecting rods 506 are driven to simultaneously slide along the sliding rod 501, so that the pipe conveyed to the cutting table 103 is fixed, the phenomenon that the pipe is broken away in the cutting process is avoided, and the safety performance is effectively improved; and then through the reciprocal subassembly 4 of circulation and the fixed subassembly 5 that set up to when the tubular product that feeding mechanism 3 will need the cutting is leading-in to cutting bed 103 on, can drive fixed subassembly 5 simultaneously and fix the tubular product, avoid taking place to collapse the condition of leaving in the tubular product cutting process, and cause the potential safety hazard to the staff.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered as the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims

1. A continuous feeding mechanism for processing a PVC pipe comprises a cutting machine body (1) and a workbench (101), and is characterized in that a driving assembly is arranged on the outer wall of the cutting machine body (1), the output end of the driving assembly is connected with a cutting assembly and a transmission assembly (2) respectively, a feeding mechanism (3) is arranged on the bottom wall of the workbench (101), a guide groove (102) is formed in the top wall of the workbench (101), the output end of the feeding mechanism (3) penetrates through the guide groove (102) and extends upwards, one end, far away from the driving assembly, of the transmission assembly (2) is connected with the feeding mechanism (3), a cutting table (103) is arranged on the cutting machine body (1), a cavity is formed in the cutting table (103), a fixing assembly (5) is arranged in the cavity, the output end of the fixing assembly (5) penetrates through the cutting table (103) and extends upwards, a circulating reciprocating assembly (4) is connected to the outer wall of the feeding mechanism (3), the output end of the circulating reciprocating assembly (4) is connected with the fixing assembly (5), a guide plate (104) is arranged on the outer wall of the workbench (101), and one end, far away from the cutting table (103) is matched with the guide plate (103);

the transmission assembly (2) comprises a first connecting rod (201), a second connecting rod (202) and a cam (203), the first connecting rod (201) is connected to the outer wall of the output end of the driving assembly, the second connecting rod (202) is connected to one end, far away from the driving assembly, of the first connecting rod (201), one end of the cam (203) is rotatably connected with the second connecting rod (202), and the other end of the cam is connected with the feeding mechanism (3);

the feeding mechanism (3) comprises a first rotating shaft (301), the first rotating shaft (301) is connected to the bottom wall of the workbench (101) through a fixing support (302), a third connecting rod (303) is connected to the outer wall of the first rotating shaft (301), a second rotating shaft (304) is rotated on the inner wall of the third connecting rod (303), a material shifting fork (305) is rotatably connected to the outer wall of the second rotating shaft (304), one end, far away from the third connecting rod (303), of the material shifting fork (305) penetrates through the guide groove (102) and extends upwards, and the material shifting fork (305) is connected with the guide groove (102) in a sliding mode;

the circulating and reciprocating assembly (4) comprises a half gear (401), a rack frame (402) and a fourth connecting rod (403), the half gear (401) is connected to the outer wall of the first rotating shaft (301), the rack frame (402) is meshed with the half gear (401) to be connected, one end of the fourth connecting rod (403) is connected with the rack frame (402), and the other end of the fourth connecting rod penetrates through the cutting table (103) to be connected with the fixing assembly (5).

2. The continuous feeding mechanism for processing the PVC pipes as claimed in claim 1, wherein the third connecting rods (303) are symmetrically arranged in two groups, and the two groups of the third connecting rods (303) are connected with each other through a second rotating shaft (304).

3. The continuous feeding mechanism for processing the PVC pipes as claimed in claim 2, wherein the feeding mechanisms (3) are provided in two groups, and the two groups of feeding mechanisms (3) are connected with each other through a belt (306).

4. The continuous feeding mechanism for PVC pipe processing according to claim 3, wherein the length of the first rotating shaft (301) is less than the length from the shifting fork (305) to the cam (203).

5. The continuous feeding mechanism for the processing of the PVC pipes as claimed in claim 1, wherein the fixing assembly (5) comprises a sliding rod (501), a fixing plate (502) is fixedly connected to the outer wall of the sliding rod (501), a crank link assembly is rotatably connected to the bottom wall of the fixing plate (502), a sliding plate (503) is connected to one end of the crank link assembly, which is far away from the fixing plate (502), the sliding plate (503) is slidably connected to the outer wall of the sliding rod (501), a clamping jaw (504) is connected to the top wall of the sliding plate (503), and one end, which is far away from the sliding plate (503), of the clamping jaw (504) penetrates through the cutting table (103) and extends upwards.

6. The continuous feeding mechanism for processing the PVC pipes as claimed in claim 5, wherein the crank-link assembly comprises a rotating disc (505) and a connecting rod (506), the rotating disc (505) is rotatably connected to the bottom wall of the fixed plate (502), one end of the connecting rod (506) is rotatably connected to the bottom wall of the rotating disc (505), and the other end of the connecting rod is rotatably connected to the sliding plate (503).

7. The continuous feeding mechanism for PVC pipe processing according to claim 6, wherein the sliding plate (503), the clamping jaws (504) and the connecting rod (506) are symmetrically arranged in two groups, and the top wall of the cutting table (103) is provided with a sliding groove (507) matched with the clamping jaws (504).