CN219581851U

CN219581851U - Corrugated pipe slotting device

Info

Publication number: CN219581851U
Application number: CN202320494233.6U
Authority: CN
Inventors: 罗伟林; 黄伦善
Original assignee: Xiangshan Best Machinery Manufacturing Co ltd
Current assignee: Xiangshan Best Machinery Manufacturing Co ltd
Priority date: 2023-03-15
Filing date: 2023-03-15
Publication date: 2023-08-25
Anticipated expiration: 2033-03-15

Abstract

The utility model relates to a corrugated pipe slotting device, which comprises a bench, two feeding mechanisms which are arranged at the top of the bench and are distributed symmetrically left and right, and a cutting mechanism which is arranged at the top of the bench and is matched with the two feeding mechanisms; the feeding mechanism comprises a supporting plate transversely and movably connected to the top of the rack to have a left-right movement function, a feeding motor fixed at the bottom of the supporting plate, a first driving wheel sleeved on a rotating shaft of the feeding motor and positioned above the supporting plate, a first driven wheel rotatably connected to the top of the supporting plate and positioned in front of the first driving wheel, and a driving belt sleeved on the first driving wheel and the first driven wheel; the utility model effectively improves the processing efficiency and reduces the labor intensity of operators; in addition, the processing qualification rate is improved.

Description

Corrugated pipe slotting device

Technical Field

The utility model relates to a corrugated pipe slotting device.

Background

The corrugated pipe is a pipe with a regular wave-like shape, can be divided into a rubber corrugated pipe, a plastic corrugated pipe, a metal corrugated pipe and the like according to different materials, has high flexibility and good temperature resistance and pressure resistance, is suitable for conveying various industrial gases such as air and vapor and various fluid media such as water, oil, medicines and the like, and plays an important role in reciprocating motion of a pipe system, absorption of a thermal expansion system, absorption of vibration and central adjustment of a pipe; after the corrugated pipe is initially drawn and formed, operations such as punching, slotting, cutting and the like are required according to the requirement of the installation environment; although the grooving of the corrugated pipe can be carried out by means of special cutting equipment, the existing cutting equipment needs operators to carry out the feeding of the corrugated pipe or the running of the blades manually, so that the machining efficiency is low, and the labor intensity of the operators is high; in addition, if multiple slotting needs to be performed on the corrugated pipe, the slotting needs to be performed one by one, which further leads to low processing efficiency, and the accuracy of the distance between two adjacent slotting grooves is difficult to ensure, so that the processing qualification rate is low and needs to be further improved.

Disclosure of Invention

The utility model aims at solving the current state of the art, and aims to provide a corrugated pipe slotting device which effectively improves the processing efficiency, reduces the labor intensity of operators and improves the processing qualification rate.

The technical scheme adopted for solving the technical problems is as follows: the corrugated pipe slotting device is characterized by comprising a rack, two feeding mechanisms which are arranged at the top of the rack and distributed symmetrically left and right, and a cutting mechanism which is arranged at the top of the rack and matched with the two feeding mechanisms; the feeding mechanism comprises a supporting plate transversely and movably connected to the top of the rack to have a left-right movement function, a feeding motor fixed to the bottom of the supporting plate, a first driving wheel sleeved on a rotating shaft of the feeding motor and positioned above the supporting plate, a first driven wheel rotatably connected to the top of the supporting plate and positioned in front of the first driving wheel, and a driving belt sleeved on the first driving wheel and the first driven wheel, wherein the rotating shaft of the feeding motor vertically passes through the supporting plate upwards and extends out of the supporting plate; the driving belts in the two feeding mechanisms are arranged in parallel, and the moving directions of the supporting plates in the two feeding mechanisms are opposite to each other; the cutting mechanism comprises a frame plate fixed on the top of the rack and positioned behind the two feeding mechanisms, a seat block inserted and fixed in the frame plate, a cutting shaft transversely and rotatably inserted and connected to the left side or the right side of the seat block, a second driven wheel sleeved and fixed on the cutting shaft, a cutting motor fixed on the frame plate, a second driving wheel sleeved and fixed on a rotating shaft of the cutting motor and matched with the second driven wheel, and a belt sleeved and arranged on the second driving wheel and the second driven wheel; a through hole is formed between the outer walls of the front side and the rear side of the seat block, a plurality of cutter accommodating grooves are formed in the inner wall of the through hole, a circular cutter is further arranged in each cutter accommodating groove, each circular cutter is concentrically fixed on the cutting shaft, and the edge of each circular cutter extends out of the through hole; a transversely distributed supporting strip is further arranged between the two feeding mechanisms, the rear end of the supporting strip is fixed on the frame plate, and a pipe sleeve is further fixed at the top of the front end of the supporting strip.

Preferably, a shifting mechanism is further arranged between the two feeding mechanisms and the rack, the shifting mechanism comprises a bottom plate transversely fixed at the top of the rack, two side blocks fixed at the top of the bottom plate and symmetrically arranged left and right, two moving blocks arranged between the two side blocks, a screw rod transversely and rotatably penetrating and screwing the two moving blocks, two guide rods transversely penetrating and connecting the two moving blocks and symmetrically arranged at the front side and the rear side of the screw rod respectively, and a hand wheel fixed at one end of the screw rod and positioned at the outer side of the corresponding side block, two ends of the screw rod are rotatably penetrating and connecting the two side blocks respectively, two ends of each guide rod are fixed on the two side blocks respectively, the supporting plates in the two feeding mechanisms are fixed on the two moving blocks respectively, two external thread parts with mutually opposite spiral directions are formed on the screw rod, and the two external thread parts are penetrated and screwed in the two moving blocks respectively.

Preferably, the feeding mechanism further comprises a pressing plate and supporting wheels, the pressing plate is transversely arranged above the supporting plate, the first driving wheel and the top of the first driven wheel are rotatably connected to the pressing plate, the supporting wheels comprise a plurality of supporting wheels, the supporting wheels are rotatably connected between the supporting plate and the pressing plate, and the outer sides of the supporting wheels are attached to the inner side wall of the transmission belt.

Preferably, an axle is further arranged between the supporting plate and the pressing plate, the first driven wheel is rotatably sleeved and connected on the axle, a slotted hole is formed in the pressing plate, correspondingly, an open slot is formed in the front side of the supporting plate, the upper end of the axle is movably inserted into the slotted hole, a rectangular block is formed at the lower end of the axle, the rectangular block is movably embedded into the open slot, an end plate is further fixed on the front side of the supporting plate, a first adjusting screw which is transversely arranged and rotatable is further inserted into the end plate, the threaded end of the first adjusting screw extends into the open slot and is threaded into the rectangular block, a second adjusting screw which is transversely arranged and rotatable is further inserted into the front end of the pressing plate, and the threaded end of the second adjusting screw extends into the slotted hole and is threaded into the axle.

Preferably, the front side and the rear side of the rack are also provided with a guide mechanism, the guide mechanism comprises a support, a swing rod, a guide wheel and a knob screw, the support is fixed on the rack, the guide wheel is rotatably connected to the swing rod, one end of the swing rod is arranged on one side of the support, and the threaded end of the knob screw is inserted and screwed between one end of the swing rod and the support.

Compared with the prior art, the utility model has the advantages that: according to the automatic feeding device, automatic feeding of the corrugated pipe can be realized by means of the two feeding mechanisms, slotting is automatically completed under the cooperation of the cutting mechanism, and manual operation of an operator is not needed, so that the processing efficiency is effectively improved, and the labor intensity of the operator is reduced; in addition, even when more than one notch groove is machined in the corrugated pipe, the machining can be finished at one time, and the machining efficiency is further improved, the spacing precision between two adjacent notch grooves is fully ensured, and finally the machining qualification rate is improved.

Drawings

FIG. 1 is a left front side block diagram of the present utility model;

FIG. 2 is a right rear side block diagram of the present utility model;

FIG. 3 is a partial enlarged block diagram of the present utility model at A;

fig. 4 is a left front side exploded view of the feed mechanism of the present utility model.

Detailed Description

Unless defined otherwise, technical or scientific terms used herein should be given the ordinary meaning as understood by one of ordinary skill in the art to which this utility model belongs. The terms "first," "second," and the like, as used herein, do not denote any order, quantity, or importance, but rather are used to distinguish one element from another. The word "comprising" or "comprises", and the like, means that elements or items preceding the word are included in the element or item listed after the word and equivalents thereof, but does not exclude other elements or items. The terms "connected" or "connected," and the like, are not limited to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", etc. are used merely to indicate relative positional relationships, which may also be changed when the absolute position of the object to be described is changed.

In order to keep the following description of the embodiments of the present utility model clear and concise, the detailed description of known functions and known components thereof have been omitted.

As shown in fig. 1 to 4, a corrugated pipe slotting device comprises a rack 1, two feeding mechanisms 2 which are arranged at the top of the rack 1 and distributed symmetrically left and right, and a cutting mechanism 3 which is arranged at the top of the rack 1 and matched with the two feeding mechanisms 2; the feeding mechanism 2 comprises a supporting plate 21 transversely and movably connected to the top of the rack 1 so as to have a left-right movement function, a feeding motor 22 fixed at the bottom of the supporting plate 21, a first driving wheel 23 sleeved on the rotating shaft of the feeding motor 22 and positioned above the supporting plate 21, a first driven wheel 24 rotatably connected to the top of the supporting plate 21 and positioned in front of the first driving wheel 23, and a driving belt 25 sleeved on the first driving wheel 23 and the first driven wheel 24, wherein the rotating shaft of the feeding motor 22 vertically passes through the supporting plate 21 upwards and extends out above the supporting plate 21; the driving belts 25 in the two feeding mechanisms 2 are arranged in parallel, and the moving directions of the supporting plates 21 in the two feeding mechanisms 2 are opposite to each other; the cutting mechanism 3 comprises a frame plate 31 fixed on the top of the rack 1 and positioned behind the two feeding mechanisms 2, a seat block 32 inserted and fixed in the frame plate 31, a cutting shaft 33 transversely and rotatably inserted and connected to the left side or the right side of the seat block 32, a second driven wheel 34 sleeved on the cutting shaft 33, a cutting motor 35 fixed on the frame plate 31, a second driving wheel 36 sleeved on the rotating shaft of the cutting motor 35 and matched with the second driven wheel 34, and a belt 37 sleeved on the second driving wheel 36 and the second driven wheel 34; a through hole 321 is formed between the outer walls of the front side and the rear side of the seat block 32, a plurality of cutter accommodating grooves 322 are formed in the inner wall of the through hole 321, a circular cutter blade 38 is further arranged in each cutter accommodating groove 322, each circular cutter blade 38 is concentrically fixed on the cutting shaft 33, and the edge of each circular cutter blade 38 extends out of the through hole 321; a supporting strip 4 which is transversely distributed is further arranged between the two feeding mechanisms 2, the rear end of the supporting strip 4 is fixed on the frame plate 31, and a pipe sleeve 5 is further fixed at the top of the front end of the supporting strip 4.

The two feeding mechanisms 2 and the rack 1 are also provided with a shifting mechanism 6, the shifting mechanism 6 comprises a bottom plate 61 transversely fixed at the top of the rack 1, two side blocks 66 fixed at the top of the bottom plate 61 and symmetrically arranged left and right, two moving blocks 64 arranged between the two side blocks 66, a screw rod 62 transversely and rotatably penetrating and screwing in the two moving blocks 64, two guide rods 65 transversely penetrating and connecting in the two moving blocks 64 and symmetrically arranged at the front side and the rear side of the screw rod 62 respectively, and a hand wheel 63 fixed at one end of the screw rod 62 and positioned at the outer side of the corresponding side block 66, two ends of the screw rod 62 are rotatably penetrating and connecting in the two side blocks 66 respectively, the supporting plate 21 in the two feeding mechanisms 2 is fixed on the two moving blocks 64 respectively, two external screw thread parts 621 with opposite screw directions are formed on the screw rod 62, and the two external screw thread parts 621 are penetrated and screwed in the two moving blocks 64 respectively.

The feeding mechanism 2 further comprises a pressing plate 27 and supporting wheels 26, the pressing plate 27 is transversely arranged above the supporting plate 21, the tops of the first driving wheel 23 and the first driven wheel 24 are rotatably connected to the pressing plate 27, the supporting wheels 26 comprise a plurality of supporting wheels 26, the plurality of supporting wheels 26 are rotatably connected between the supporting plate 21 and the pressing plate 27, and the outer side of each supporting wheel 26 is attached to the inner side wall of the driving belt 25.

The front end of the pressing plate 27 is also inserted and connected with a second adjusting screw 211 which is transversely arranged and rotatable, the threaded end of the second adjusting screw 211 is inserted and connected into the slotted hole 271 and is threaded and connected into the wheel shaft 28.

The front side and the rear side of the rack 1 are also provided with a guide mechanism 7, the guide mechanism 7 comprises a support 71, a swing rod 72, a guide wheel 73 and a knob screw 74, the support 71 is fixed on the rack 1, the guide wheel 73 is rotatably connected to the swing rod 72, one end of the swing rod 72 is arranged on one side of the support 71, and the threaded end of the knob screw 74 is inserted and screwed between one end of the swing rod 72 and the support 71.

Working principle:

one end of the bellows is passed through the tube sleeve 5 from front to back and back along the upper side surface of the stay 4 between the two feeding mechanisms 2, and then is inserted back into the through hole 321; the hand wheel 63 is held by hand and rotated, and the screw rod 62 is driven to rotate between the two side blocks 66, so that the two moving blocks 64 are driven to be mutually close by virtue of the two external thread parts 621 according to the principle of spiral connection, and the two feeding mechanisms 2 are driven to be mutually close by the two bottom plates 61 until the inner outer walls of the transmission belts 25 in the two feeding mechanisms 2 are pressed on the outer walls of the corrugated pipes; the cutting motor 35 is started to rotate the rotating shaft, and the second driving wheel 36, the second driven wheel 34 and the belt 37 drive the cutting shaft 33 to rotate, so that each circular blade 38 is driven to rotate in a corresponding cutter accommodating groove 322; then, the feeding motor 22 is restarted to rotate the rotating shaft, and the driving belt 25 is driven by the first driving wheel 23 and the first driven wheel 24 to move, so as to drive the corrugated pipe to move backwards, and when the outer wall of the corrugated pipe contacts the edge of each circular blade 38, a groove is cut on the inner wall until the whole corrugated pipe leaves the through hole 321.

After one end of the corrugated pipe after cutting comes out of the through hole 321, the corrugated pipe can be erected on the guide wheel 73 in the rear guide mechanism 7, and one end of the corrugated pipe which is not cut can be erected on the guide wheel 73 in the front guide mechanism 7, so that the feeding of the corrugated pipe is smoother; the angle of the swing link 72 can be adjusted by unscrewing the knob screw 74, so that the height of the guide wheel 73 is at the most appropriate position, and after the adjustment is completed, the knob screw 74 is again screwed.

Screwing the first adjusting screw 210 and the second adjusting screw 211 can drive the lower end and the upper end of the axle 28 to move forward respectively according to the principle of screw connection, so as to increase the distance between the first driven wheel 24 and the first driving wheel 23, thereby tightening the driving belt 25 to ensure continuous and effective feeding of the bellows.

According to the utility model, the automatic feeding of the corrugated pipe can be realized by means of the two feeding mechanisms 2, and slotting can be automatically completed under the cooperation of the cutting mechanism 3, so that manual operation of operators is not needed, further, the processing efficiency is effectively improved, and the labor intensity of the operators is reduced; in addition, even when more than one notch groove is machined in the corrugated pipe, the machining can be finished at one time, and the machining efficiency is further improved, the spacing precision between two adjacent notch grooves is fully ensured, and finally the machining qualification rate is improved.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present utility model, and are not limiting; while the utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art will appreciate that modifications may be made to the techniques described in the foregoing embodiments, or that certain features may be substituted for those illustrated therein; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present utility model.

Claims

1. The corrugated pipe slotting device is characterized by comprising a rack, two feeding mechanisms which are arranged at the top of the rack and distributed symmetrically left and right, and a cutting mechanism which is arranged at the top of the rack and matched with the two feeding mechanisms; the feeding mechanism comprises a supporting plate transversely and movably connected to the top of the rack to have a left-right movement function, a feeding motor fixed to the bottom of the supporting plate, a first driving wheel sleeved on a rotating shaft of the feeding motor and positioned above the supporting plate, a first driven wheel rotatably connected to the top of the supporting plate and positioned in front of the first driving wheel, and a driving belt sleeved on the first driving wheel and the first driven wheel, wherein the rotating shaft of the feeding motor vertically passes through the supporting plate upwards and extends out of the supporting plate; the driving belts in the two feeding mechanisms are arranged in parallel, and the moving directions of the supporting plates in the two feeding mechanisms are opposite to each other; the cutting mechanism comprises a frame plate fixed on the top of the rack and positioned behind the two feeding mechanisms, a seat block inserted and fixed in the frame plate, a cutting shaft transversely and rotatably inserted and connected to the left side or the right side of the seat block, a second driven wheel sleeved and fixed on the cutting shaft, a cutting motor fixed on the frame plate, a second driving wheel sleeved and fixed on a rotating shaft of the cutting motor and matched with the second driven wheel, and a belt sleeved and arranged on the second driving wheel and the second driven wheel; a through hole is formed between the outer walls of the front side and the rear side of the seat block, a plurality of cutter accommodating grooves are formed in the inner wall of the through hole, a circular cutter is further arranged in each cutter accommodating groove, each circular cutter is concentrically fixed on the cutting shaft, and the edge of each circular cutter extends out of the through hole; a transversely distributed supporting strip is further arranged between the two feeding mechanisms, the rear end of the supporting strip is fixed on the frame plate, and a pipe sleeve is further fixed at the top of the front end of the supporting strip.

2. The corrugated pipe slotting device according to claim 1, wherein a shifting mechanism is further arranged between the two feeding mechanisms and the rack, the shifting mechanism comprises a bottom plate transversely fixed at the top of the rack, two side blocks fixed at the top of the bottom plate and symmetrically arranged left and right, two moving blocks arranged between the two side blocks, a screw rod transversely and rotatably inserted and screwed into the two moving blocks, two guide rods transversely inserted and connected into the two moving blocks and symmetrically arranged at the front side and the rear side of the screw rod respectively, and a hand wheel fixed at one end of the screw rod and positioned at the outer side of the corresponding side block, two ends of the screw rod are rotatably inserted and connected into the two side blocks respectively, two ends of each guide rod are fixed onto the two side blocks respectively, two supporting plates in the two feeding mechanisms are fixed onto the two moving blocks respectively, two external screw thread parts with mutually opposite screw directions are formed on the screw rod, and the two external screw thread parts are respectively inserted and screwed into the two moving blocks respectively.

3. The corrugated pipe slotting device according to claim 2, wherein the feeding mechanism further comprises a pressing plate and supporting wheels, the pressing plate is transversely arranged above the supporting plate, the tops of the first driving wheel and the first driven wheel are rotatably connected to the pressing plate, the supporting wheels comprise a plurality of supporting wheels, the supporting wheels are rotatably connected between the supporting plate and the pressing plate, and the outer side of each supporting wheel is attached to the inner side wall of the transmission belt.

4. The corrugated pipe slotting device according to claim 3, wherein an axle is further arranged between the supporting plate and the pressing plate, the first driven wheel is rotatably sleeved and connected on the axle, a slotted hole is formed in the pressing plate, correspondingly, an open slot is formed in the front side of the supporting plate, the upper end of the axle is movably inserted into the slotted hole, a rectangular block is formed at the lower end of the axle, the rectangular block is movably embedded into the open slot, an end plate is further fixed on the front side of the supporting plate, a first adjusting screw which is transversely arranged and rotatable is further inserted into the end plate, the threaded end of the first adjusting screw extends into the open slot to be inserted into the rectangular block in a threaded mode, a second adjusting screw which is transversely arranged and rotatable is also inserted and connected into the front end of the pressing plate, and the threaded end of the second adjusting screw extends into the slotted hole to be inserted into the axle in a threaded mode.

5. The corrugated pipe slotting device of claim 4, wherein the front side and the rear side of the rack are provided with a guide mechanism, the guide mechanism comprises a support, a swing rod, a guide wheel and a knob screw, the support is fixed on the rack, the guide wheel is rotatably connected to the swing rod, one end of the swing rod is arranged on one side of the support, and the threaded end of the knob screw is inserted and screwed between one end of the swing rod and the support.