CN107107216A

CN107107216A - Pipe cutting equipment and its grasping system

Info

Publication number: CN107107216A
Application number: CN201480083137.6A
Authority: CN
Inventors: 谷晓雨
Original assignee: Shenzhen Tatfook 2r Forming Technologhy Co ltd
Current assignee: Shenzhen Tatfook 2r Forming Technologhy Co ltd
Priority date: 2014-12-31
Filing date: 2014-12-31
Publication date: 2017-08-29
Anticipated expiration: 2034-12-31
Also published as: WO2016106741A1; CN107107216B

Abstract

A kind of grasping system for pipe cutting equipment, including bearing track (100), clamping device (200) and transmission mechanism, the side of wherein bearing track are provided with switch control panel (110)；Clamping device is movably arranged along the bearing track；Transmission mechanism is connected located at bearing track bottom and with clamping device, for driving clamping device to be moved along bearing track, clamping device realizes the holding action for treating incising pipes in motion process by touching switch control panel, and then the tubing to be cut is together moved with transmission mechanism.A kind of pipe cutting equipment using the grasping system.Aforementioned tubes cutting equipment and its grasping system are simple in construction and can realize that tubing cuts the length accuracy requirement of certain accuracy rating, realize the surface trimming of tubing.

Description

Pipe cutting equipment and clamping system thereof

[ technical field ] A method for producing a semiconductor device

The invention relates to the technical field of pipe cutting, in particular to pipe cutting equipment and a clamping system thereof.

[ background of the invention ]

In the prior art, various pipe cutting devices, such as a wire cutting machine, a grinding wheel cutting machine and the like, have high requirements on the precision of a clamping position of a positioning clamp of the cutting device with high precision requirements, such as the wire cutting machine, and naturally, the design requirement of the clamp is strict and the cost is high; however, for a common abrasive wheel cutting machine which requires less precision, an operator generally cuts a pipe by using a hand-held belt, and the operation mode is dangerous and difficult to grasp the cutting length of each cut.

Therefore, a cutting machine clamping system which is simple in structure and can ensure a certain precision range (generally, rough cutting is required to be accurate to a centimeter) of cutting length is forced to be needed.

[ summary of the invention ]

In view of this, an embodiment of the present invention provides a clamping system for a pipe cutting device, where the clamping system includes a bearing rail, a clamping mechanism, and a transmission mechanism, where a switch control board is disposed on a side of the bearing rail; the clamping mechanism is movably arranged along the bearing track; the transmission mechanism is arranged at the bottom of the bearing track and connected with the clamping mechanism and used for driving the clamping mechanism to move along the bearing track, and the clamping mechanism realizes clamping action on a pipe to be cut by touching the switch control panel in the moving process, so that the pipe to be cut moves along with the transmission mechanism.

According to a preferred embodiment of the present invention, the clamping mechanism comprises a main mounting seat, a clamping connecting rod and a fixing seat; the main mounting seat comprises a bottom plate, a first mounting side wall and a second mounting side wall, wherein the first mounting side wall and the second mounting side wall are arranged on the bottom plate at intervals, the clamping connecting rod penetrates through the first mounting side wall and the second mounting side wall, two ends of the clamping connecting rod are respectively arranged on the outer sides of the first mounting side wall and the second mounting side wall in a protruding mode, one end of the clamping connecting rod is provided with a clamping head, and the clamping head is matched with a clamping block on the main mounting seat to form a clamping opening; the other end of the clamping connecting rod touches the switch control plate in the movement process of the clamping mechanism so as to realize the relative opening between the clamping head and the clamping block; the fixing seat is fixedly arranged at the bottom of the main mounting seat and is used for being connected with the transmission mechanism.

According to a preferred embodiment of the present invention, the fixing base includes a fixing block, a sliding shaft penetrating through the fixing block, and sliding guide wheels respectively sleeved at two ends of the sliding shaft, and the sliding guide wheels are supported on the bearing rail.

According to a preferred embodiment of the present invention, each of the two bearing rails includes an integrally formed vertical support portion and a horizontal support portion, the horizontal support portions are respectively disposed at inner sides of top ends of the vertical support portions, the sliding guide wheel is in rolling contact with a bottom surface of the horizontal support portion, and a bottom surface of the main mounting seat is in sliding contact with a top surface of the horizontal support portion.

According to a preferred embodiment of the present invention, the other end of the clamping link is further provided with a touch pulley, and when the clamping mechanism touches the switch control board, the touch pulley is supported on the switch control board in a rolling manner.

According to a preferred embodiment of the present invention, an elastic clamping unit is further disposed between the clamping link and the first mounting sidewall or the second mounting sidewall, for achieving relative opening between the clamping head and the clamping block.

According to a preferred embodiment of the present invention, the elastic clamping unit includes an elastic element sleeved on the outer periphery of the clamping link and a positioning pin penetrating the clamping link, one end of the elastic element abuts against the first mounting sidewall or the second mounting sidewall, and the other end abuts against the positioning pin.

According to a preferred embodiment of the invention, the elastic element is a spring.

According to a preferred embodiment of the present invention, the switch control plate includes a fixing portion and a contact portion, the fixing portion is integrally connected to an outer side surface of the bearing rail, and the contact portion includes a horizontal portion and arc guide portions on both sides of the horizontal portion.

According to a preferred embodiment of the present invention, the top surfaces of the first and second mounting side walls are provided with a connecting cross member spanning the first and second mounting side walls.

According to a preferred embodiment of the present invention, the bottom of the fixing block is further provided with a transmission connecting groove, and the transmission connecting groove is used for realizing transmission connection between the transmission mechanism and the clamping mechanism.

According to a preferred embodiment of the invention, arc surface transition sections are arranged at two ends of the bearing track, the section structure of the arc surface transition sections is the same as that of the middle part of the bearing track, and the arc surface transition sections are used for realizing smooth connection when the clamping mechanism moves on or off the bearing track.

In order to solve the technical problem, the invention further provides a pipe cutting device, which comprises the clamping system in the embodiment.

The pipe cutting equipment and the clamping system thereof provided by the invention have simple structures, can meet the length precision requirement of a certain precision range for pipe cutting, and save people from the work of manually cutting the pipe; has high practical value.

[ description of the drawings ]

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a schematic diagram of a portion of a clamping system for a pipe cutting apparatus according to the present invention;

FIG. 2 is a schematic view of the structure of the clamping mechanism in the embodiment of FIG. 1;

FIG. 3 is a side view of the clamping mechanism engaging the carrier rail of the embodiment of FIG. 1;

FIG. 4 is a schematic structural diagram of a switch control board in the embodiment of FIG. 1;

FIG. 5 is a schematic view of the knife head drive system for a tube cutting apparatus according to the present invention;

FIG. 6 is a schematic view of another perspective of the bit drive system of the embodiment of FIG. 5;

FIG. 7 is a schematic view of the mounting block and guide assembly of the embodiment of FIG. 5; and

fig. 8 is a side view of the structure of the guide assembly of the embodiment of fig. 5.

[ detailed description ] embodiments

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. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, fig. 1 is a schematic structural view of a portion of a clamping system for a pipe cutting apparatus according to the present invention; the clamping system includes a carrier rail 100, a clamping mechanism 200, and a transmission mechanism (not shown). The switch control panel 110 is arranged on the side edge of the bearing track 100, the clamping mechanism 200 is movably arranged along the bearing track 100, the transmission mechanism is arranged at the bottom of the bearing track 100 and connected with the clamping mechanism 200 and used for driving the clamping mechanism 200 to move along the bearing track 100, the clamping mechanism 200 realizes clamping action on the pipe to be cut by touching the switch control panel 110 in the moving process, and the pipe to be cut further moves along with the transmission mechanism.

Specifically, the clamping mechanism 200 includes a main mounting base 210, a clamping link 220, and a fixing base 230; referring to fig. 2, fig. 2 is a schematic structural diagram of the clamping mechanism in the embodiment of fig. 1, and the main mounting base 210 includes a bottom plate 211, and a first mounting sidewall 212 and a second mounting sidewall 213 that are spaced apart from each other and disposed on the bottom plate 211.

The clamping link 220 is disposed through the first mounting sidewall 212 and the second mounting sidewall 213, and two ends of the clamping link 220 are disposed at the outer sides of the first mounting sidewall 212 and the second mounting sidewall 213, respectively, wherein a clamping head 221 is disposed at one end of the clamping link 220, and the clamping head 221 cooperates with the clamping block 214 on the main mounting base 210 to form a clamping opening for clamping the pipe to be cut.

The other end of the clamping link 220 is opened relatively between the clamping head 221 and the clamping block 214 by touching the switch control board 110 during the movement of the clamping mechanism 200. Preferably, the clamping link 220 is provided with a touch pulley 222 at one end of the touch switch control panel 110, the touch pulley 222 is connected with the clamping link 220 through a connecting shaft 223, and when the clamping mechanism 200 touches the switch control panel 110, the touch pulley 222 is supported on the switch control panel 110 in a rolling manner.

The fixing base 230 is fixedly disposed at the bottom of the main mounting base 210 and is used for connecting with a transmission mechanism. The fixing base 230 includes a fixing block 231, a sliding shaft 232 penetrating the fixing block 231, and sliding guide wheels 233 respectively sleeved on two ends of the sliding shaft 232, wherein the sliding guide wheels 233 are supported on the bearing rail 100. The bottom of the fixing block 231 is further provided with a transmission connecting groove 2310, and the transmission connecting groove 2310 is used for realizing transmission connection between a transmission mechanism (not shown) and the clamping mechanism 200.

In addition, the top surfaces of the first and second mounting sidewalls 212 and 213 are provided with a connecting beam 215 spanning the first and second mounting sidewalls 212 and 213, and the connecting beam 215 serves to reinforce the overall structure of the main mounting base 210, and serves as a reinforcement for the main mounting base.

Referring to fig. 3, fig. 3 is a side view of the clamping mechanism of the embodiment of fig. 1 engaged with the carrying rail. In this embodiment, the number of the bearing rails 100 is preferably two, each bearing rail includes an integrally formed vertical support portion 120 and a horizontal support portion 130, the horizontal support portions 130 are respectively disposed at the top inner sides of the vertical support portions 120, the sliding guide wheels 233 are in rolling contact with the bottom surface of the horizontal support portion 130, and the bottom surface of the main mounting seat 210 is in sliding contact with the top surface of the horizontal support portion 130.

Preferably, referring to fig. 1, the two ends of the bearing rail 100 are provided with arc transition sections 190, the cross-sectional structure of the arc transition sections 190 is the same as that of the middle portion of the bearing rail 100, and the arc transition sections 190 serve to realize smooth connection when the clamping mechanism 200 slides on or off the bearing rail 100.

Referring to fig. 2 and 3, the clamping mechanism 200 further includes an elastic clamping unit 240, and the elastic clamping unit 240 is disposed between the clamping link 220 and the second mounting sidewall 213 for achieving relative clamping between the clamping head 221 and the clamping block 214 when the touch pulley 222 does not push against the switch control board 110. The elastic clamping unit 240 further includes an elastic element 241 disposed around the outer periphery of the clamping link 220 and a positioning pin 242 disposed through the clamping link 220, wherein one end of the elastic element 241 abuts against the second mounting sidewall 213 and the other end abuts against the positioning pin 242. Wherein, the elastic element 241 may be a spring. When the clamping head 221 and the clamping block 214 need to be opened, the touch pulley 222 pushes against the switch control board 100, and overcomes the elastic force of the elastic element 241, so that the clamping head 221 and the clamping block 214 are relatively opened.

Of course, in other embodiments, the elastic clamping unit 240 may be disposed between the clamping link 220 and the first mounting sidewall 212, and it is within the understanding of those skilled in the art and will not be described herein.

Referring to fig. 3 and 4 together, fig. 4 is a schematic structural diagram of a switch control board in the embodiment of fig. 1; the switch control plate 110 includes a fixing portion 111 and a contact portion 112 integrally formed, the fixing portion 111 is fixedly connected to an outer side surface of the supporting rail 100, wherein the contact portion 112 includes a horizontal portion 1121 and arc guide portions 1122 on both sides of the horizontal portion 1121, and the arc guide portions 1122 are used for ensuring smooth sliding contact between the touch pulley 222 and the switch control plate 110. Referring to fig. 1, in the present embodiment, two switch control boards 110 are respectively disposed at two ends of one side of the bearing rail 100, but in other embodiments, the spacing distance of the switch control boards 110 is not limited, and the spacing distance of the switch control boards 110 determines the length of the pipe to be cut each time, so the spacing distance of the switch control boards 110 can be set according to specific cutting requirements, which is not limited herein.

The driving mechanism is not shown in the figure, and may be a motor-driven chain, which is connected to the driving connecting groove 2310, and further drives the clamping mechanism 200 to reciprocate on the upper surface and the bottom of the bearing rail 100. Of course, the transmission mechanism may also be a motor driving a belt, etc., and is within the scope understood by those skilled in the art, and is not listed here.

The clamping system for the pipe cutting equipment provided by the embodiment of the invention has a simple structure, can meet the length precision requirement of a certain precision range for cutting the pipe, the cutting length of the clamping system is determined by the distance between the switch control plates, the labor cost of manual operation can be saved, and the clamping system has high practical value.

Referring to fig. 1 to 6, fig. 5 is a schematic structural diagram of a cutter head transmission system for a pipe cutting apparatus according to the present invention; FIG. 6 is a schematic view of another perspective of the bit drive system of the embodiment of FIG. 5; this tool bit transmission system includes: the sliding rail 310 is disposed on one side of a transmission mechanism for transmitting a pipe to be cut, specifically, on the outer side of the bearing rail 100, and is provided with an initial position, where the leftmost position of the sliding rail 310 of the mounting base 320 in fig. 1 is the initial position.

The cutter head assembly 500 is mounted on the mounting base 320, the mounting base 320 is slidably mounted on the sliding rail 310, a locking mechanism 340 is arranged on the mounting base 320, the locking mechanism 340 can be locked with a fixing block arranged on a transmission mechanism when the mounting base 320 is at an initial position, and then slides along the sliding rail 310 under the driving of the transmission mechanism, the guide assembly 330 is used for guiding the mounting base 320 in the process that the mounting base 320 is driven by the transmission mechanism to slide relative to the sliding rail 310, so that the cutter head assembly 500 moves towards a pipe to be cut and completes the cutting action of the pipe to be cut. In this embodiment, the fixing block is a connecting beam 215 disposed across the top surfaces of the first mounting sidewall 212 and the second mounting sidewall 213 on the main mounting seat 210 of the clamping mechanism 200, and in other embodiments, the fixing block may also be another structure fixed on the transmission mechanism and moving along with the transmission mechanism, which is not listed here.

Specifically, please refer to fig. 7, fig. 7 is a schematic structural diagram of the mounting seat and the guiding assembly in the embodiment of fig. 5; the mounting base 320 includes a base plate 321 and a support plate 322 integrally connected to the base plate 321, the cutter head assembly 500 is connected to the support plate 322, the base plate 321 is slidably connected to the slide rail 310 through a slider 323, and the slide rail 310 is fixed to one side of the transmission mechanism, specifically, the outer side of the bearing rail 100, through bearing seats 311 at two ends of the slide rail 310.

The mount 320 can rotate about the axis of the slide rail 310 while sliding relative to the slide rail 310. The mounting base 320 is further provided with a supporting mechanism 350, and in the embodiment, the supporting mechanism 350 includes a supporting rod 351 extending parallel to the bottom plate 321 and a rolling wheel 352 disposed at an end of the supporting rod 351.

The locking mechanism 340 includes a vertical portion 341, a horizontal portion 342, and a locking portion 343, which are integrally connected, wherein the vertical portion 341 is fixedly connected to an upper surface of the bottom plate 321, the horizontal portion 342 is used to connect the vertical portion 341 and the locking portion 343, and the locking portion 343 is used to lock with a fixed block provided on the transmission mechanism.

The guide assembly 330 includes a first sloping plate 331 and a second sloping plate 332 which are obliquely arranged along the extending direction of the slide rail 310, and the support mechanism 350 is supported on the upper surface of the first sloping plate 331 in the process that the mounting base 320 is driven by the transmission mechanism to slide relative to the slide rail 310, and moves along the first sloping plate 331, so that the mounting base 320 rotates around the axis of the slide rail, and the cutter head assembly 500 moves towards the pipe to be cut.

Referring to fig. 8, fig. 8 is a side view of the structure of the guide assembly of the embodiment of fig. 5. The second inclined plate 332 is disposed below the first inclined plate 331 and also disposed along an extending direction of the slide rail 310, wherein the second inclined plate 332 is inclined in a reverse direction with respect to the first inclined plate 331, and the second inclined plate 332 may be mounted on a table. After the cutting head assembly 500 finishes the cutting operation on the pipe to be cut, the supporting mechanism 350 falls down from the first inclined plate 331 and is supported on the upper surface of the second inclined plate 332, so that the locking mechanism 340 is unlocked from the fixing block.

Preferably, the cutter head transmission system further comprises a reset assembly (not shown), and the locking mechanism 340 is unlocked from the fixed block after the cutter head assembly 500 finishes the cutting action on the pipe to be cut, so that the reset assembly drives the mounting base 320 to slide along the sliding rail 310 in the opposite direction and return to the initial position. Specifically, in the process that the mounting base 320 is driven by the reset component to slide in the opposite direction relative to the sliding rail 310, the supporting mechanism 350 is supported on the upper surface of the second inclined plate 332 and slides along the second inclined plate 332, so that the mounting base 320 rotates around the axis of the sliding rail 310 and rotates to a state capable of being locked with a fixed block arranged on the transmission mechanism when returning to the initial position.

The first inclined plate 331 is rotatably disposed relative to the second inclined plate 332, and an end portion of the first inclined plate 331 adjacent to an initial position overlaps the second inclined plate 332, so that the support mechanism 350 can move from below the first inclined plate 331 (i.e., an upper surface of the second inclined plate 332) to an outer side of the end portion of the first inclined plate 331 in a process that the support mechanism 350 moves along the second inclined plate 332 to the initial position, a dotted line H in fig. 8 represents a same horizontal line, the end portion of the support mechanism 350 is located at a left end of the dotted line H in the initial position, and the locking mechanism 340 is in a state of being locked with a fixed block disposed on the transmission mechanism; when the cutting operation is finished, since the supporting mechanism 350 falls from the right end of the first inclined plate 331 to the second inclined plate 332, that is, the supporting mechanism 350 is below the horizontal line (H line), the locking mechanism 340 is unlocked from the fixing block, and the reset component drives the mounting base 320 to slide along the sliding rail 310 in the reverse direction and return to the initial position.

In the next cycle, in the process that the transmission mechanism drives the mounting seat 320 to slide relative to the slide rail 310, the supporting mechanism 350 moves from the end of the first inclined plate 331 to the first inclined plate 331.

Wherein, the reset unit can be a suspension weight and a rope connecting the suspension weight and the mounting seat 320. The mount 320 is reset to the initial position by the gravity of the weight. The reset unit may also be an extension spring, one end of the extension spring is connected to the workbench, and the other end of the extension spring is connected to the mounting base 320, so that the mounting base 320 can be reset to the initial position anyway, which is not specifically limited herein.

In addition, the tool bit transmission system further comprises a travel switch (not shown) arranged on the side edge of the bearing track of the workbench, and the transmission mechanism triggers the tool bit assembly 500 to start by touching the travel switch. In this embodiment, the cutter head assembly 500 may include a motor 511 and a slice 512 carried by the motor 511.

According to the cutter head transmission system provided by the embodiment of the invention, the cutter head component can automatically complete cutting action and cutter head resetting action by arranging the ingenious transmission structure.

In addition, embodiments of the present invention further provide a pipe cutting device, where the pipe cutting device includes the cutter head transmission system and/or the clamping system in the above embodiments, and other technical features of the pipe cutting device are within the understanding range of those skilled in the art, and are not described herein again.

The above description is only a partial embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures made by using the contents of the present specification and the accompanying drawings, which are directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

A clamping system for a pipe cutting apparatus, the clamping system comprising:

the side edge of the bearing track is provided with a switch control panel;

the clamping mechanism is movably arranged along the bearing track;

the transmission mechanism is arranged at the bottom of the bearing track and connected with the clamping mechanism and used for driving the clamping mechanism to move along the bearing track, and the clamping mechanism realizes clamping action on the pipe to be cut by touching the switch control panel in the moving process so as to enable the pipe to be cut to move along with the transmission mechanism.
The clamping system of claim 1, wherein the clamping mechanism comprises a main mount, a clamping link, and a fixed mount; the main mounting seat comprises a bottom plate, a first mounting side wall and a second mounting side wall, wherein the first mounting side wall and the second mounting side wall are arranged on the bottom plate at intervals, the clamping connecting rod penetrates through the first mounting side wall and the second mounting side wall, two ends of the clamping connecting rod are respectively arranged on the outer sides of the first mounting side wall and the second mounting side wall in a protruding mode, one end of the clamping connecting rod is provided with a clamping head, and the clamping head is matched with a clamping block on the main mounting seat to form a clamping opening; the other end of the clamping connecting rod touches the switch control plate in the movement process of the clamping mechanism so as to realize the relative opening between the clamping head and the clamping block; the fixing seat is fixedly arranged at the bottom of the main mounting seat and is used for being connected with the transmission mechanism.
The clamping system of claim 2, wherein the fixing base comprises a fixing block, a sliding shaft passing through the fixing block, and sliding guide wheels respectively sleeved on two ends of the sliding shaft, and the sliding guide wheels are supported on the bearing rail.
The clamping system as claimed in claim 3, wherein the number of the bearing rails is two, each bearing rail comprises an integrally formed vertical support part and a horizontal support part, the horizontal support parts are respectively arranged at the inner sides of the top ends of the vertical support parts, the sliding guide wheel is matched with the bottom surface of the horizontal support part in a rolling contact manner, and the bottom surface of the main mounting seat is in sliding contact with the top surface of the horizontal support part.
The clamping system of claim 2, wherein the other end of the clamping link is further provided with a touch pulley, and when the clamping mechanism touches the switch control plate, the touch pulley is supported on the switch control plate in a rolling manner.
Clamping system according to claim 2, wherein an elastic clamping unit is further provided between the clamping link and the first or second mounting side wall for achieving a relative opening between the clamping head and the clamping block.
The clamping system of claim 6, wherein the elastic clamping unit comprises an elastic element sleeved on the periphery of the clamping link and a positioning pin arranged on the clamping link in a penetrating manner, one end of the elastic element abuts against the first mounting side wall or the second mounting side wall, and the other end of the elastic element abuts against the positioning pin.
Clamping system according to claim 7, wherein the resilient element is a spring.
The clamping system of claim 1, wherein the switch control plate includes a fixed portion and a contact portion integrally formed, the fixed portion being fixedly connected to an outer side surface of the bearing rail, and the contact portion including a horizontal portion and a cambered guide portion on both sides of the horizontal portion.
The clamping system of claim 2 wherein top surfaces of said first and second mounting sidewalls are provided with a connecting cross member spanning said first and second mounting sidewalls.
The clamping system of claim 4, wherein the bottom of the fixing block is further provided with a transmission connecting groove, and the transmission connecting groove is used for realizing transmission connection between the transmission mechanism and the clamping mechanism.
The clamping system of claim 3, wherein the two ends of the bearing rail are provided with cambered surface transition sections, the section structure of the cambered surface transition sections is the same as that of the middle part of the bearing rail, and the cambered surface transition sections are used for realizing smooth connection when the clamping mechanism is used for scratching on or scratching off the bearing rail.
A pipe cutting apparatus, characterized in that it comprises a clamping system according to any one of claims 1-12.