CN108971768A - Feeding mechanism for pipes and device for cutting pipe - Google Patents

Abstract

The invention discloses a kind of feeding mechanism for pipes and device for cutting pipe, wherein feeding mechanism for pipes includes: frame main body；First support is set in frame main body；First clamping component, rotational support is in first support, and for clamping to feeding tubing；First transmission mechanism, is set in first support, and for being driven the first clamping component when feeding tubing in the clamping of the first clamping component and being rotated to feeding tubing around the axial direction to feeding tubing.By the above-mentioned means, the present invention can reduce cutting cost, save labour turnover, improves cutting accuracy.

Description

Feeding mechanism for pipes and device for cutting pipe

Technical field

The present invention relates to laser cutting fields, more particularly to a kind of feeding mechanism for pipes and device for cutting pipe.

Background technique

The advantages of laser is due to its high brightness, high directivity, high monochromaticity and high coherence, has been widely used for section It grinds, national defence, the importance of the national products such as industry.Laser cutting be laser processing in it is relatively common, using also than wide A kind of mode.With laser cutting being widely used in every field, the cutting of a variety of materials has used laser cutting side Formula.With the development of industry, the accurate cutting of rapidoprint is increasingly cut in the especially miniaturization of electronic product as laser The main direction of development cut.

The early stage standard laser cutting machine general utility functions of routine are single, can not meet simultaneously to plate accessory and pipe type element cutting Demand.In recent years, also there is the laser cutting machine of some plate pipe one, but have the deficiency in some structures, utilize screw rod Transmission feeding, inefficiency；Fixed feeding style, cutting effect and cutting accuracy need to be improved.

Certainly, with the development of science and technology, having gradually appeared the laser Pipe Cutting equipment that can solve the above problem on the market, but It is power driven system, servo-system, accurate slide unit of the complexity as applied in these laser Pipe Cutting equipment etc., so that these The price of laser Pipe Cutting equipment is more expensive, and generally between 600,000-400 ten thousand, therefore these laser Pipe Cutting equipment are mostly applications In high-end market.And for most of medium-sized and small enterprises, it is to be deeply aware of one's own helplessness when faced with a great task.Therefore, how cutting cost is reduced At the same time it can also improve the precision of cutting, become one of Goldbach's Conjecture in the industry.

Summary of the invention

The invention mainly solves the technical problem of providing a kind of feeding mechanism for pipes and device for cutting pipe, can reduce Cutting cost saves labour turnover, and improves cutting accuracy.

In order to solve the above technical problems, one technical scheme adopted by the invention is that: a kind of feeding mechanism for pipes is provided, is wrapped It includes: frame main body；First support is set in frame main body；First clamping component, rotational support are used in combination in first support In clamping to feeding tubing；First transmission mechanism, is set in first support, and for clamping in the first clamping component to feeding It is driven the first clamping component when tubing and is rotated to feeding tubing around the axial direction to feeding tubing.

In order to solve the above technical problems, another technical solution used in the present invention is: a kind of device for cutting pipe is provided, Wherein device for cutting pipe includes above-mentioned feeding mechanism for pipes and cutting head, and wherein cutting head is used for feeding tubing Rotation is treated feeding tubing and is cut.

The beneficial effects of the present invention are: being in contrast to the prior art, feeding mechanism for pipes disclosed by the invention, wrap It includes: frame main body；First support is set in frame main body；First clamping component, rotational support are used in combination in first support In clamping to feeding tubing；First transmission mechanism, is set in first support, and for clamping in the first clamping component to feeding It is driven the first clamping component when tubing and is rotated to feeding tubing around the axial direction to feeding tubing, realizes to feeding tubing Automatic fixed and rotation, for realize to feeding tubing automatically determine length and circumgyration incision prepares, then reduce Cutting cost saves cost of labor, improves cutting accuracy.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of one embodiment of tubing of the present invention feed mechanism；

Fig. 2 is the decomposition diagram of first support, the first clamping component and the first transmission mechanism in Fig. 1 of the present invention；

Fig. 3 is the structural schematic diagram of frame main body in Fig. 1 of the present invention；

Fig. 4 is the structural schematic diagram of another embodiment of tubing of the present invention feed mechanism；

Fig. 5 is the decomposition diagram of second support and the second clamping component in Fig. 4 of the present invention；

Fig. 6 is the structural schematic diagram of one embodiment of tubing of the present invention cutter device；

Fig. 7 is the structural schematic diagram of another embodiment of tubing of the present invention cutter device.

Specific embodiment

Referring to Fig. 1, Fig. 1 is the structural schematic diagram of one embodiment of tubing of the present invention feed mechanism.As shown in Figure 1, this The feeding mechanism for pipes of embodiment includes: first support 110, the first clamping component 120, the first transmission mechanism 130 and machine Frame body 200.Wherein, first support 110 is set in frame main body 200, and 120 rotational support of the first clamping component is in first On frame 110, and for clamping to feeding tubing, the first transmission mechanism 130 is set in first support 200, and for first The clamping of clamping component 120 is driven the first clamping component 120 and to feeding tubing around the axial direction to feeding tubing when feeding tubing It is rotated.In addition, first support 110, the first clamping component 120 and the first transmission mechanism 130 form rotating mechanism.

Specifically, referring to Fig. 2, Fig. 2 is first support in Fig. 1 of the present invention, the first clamping component and the first transmission mechanism Decomposition diagram.Wherein, first support 110 specifically includes fixed frame 111, fixed ring 112, fixed platform 113, supporting block 114, fixed frame 115, fixed ring 116 and universal bearing component 117, the first clamping component 120 specifically include fixture 121, One adapter 122, the first transmission mechanism 130 specifically include transmission component 131, ring 132 are auxiliarily fixed, ring 133, axis is auxiliarily fixed It holds 134, ring 135 is auxiliarily fixed.

Specifically, universal bearing component 117 include universal bearing 1171, universal bearing 1172, universal bearing 1173 and Universal bearing 1174.Fixture 121 includes the first fixture 1211, the second fixture 1212, the first cylinder 1213 and the first cylinder 1214.Transmission component 131 includes first motor 1311, shaft 1312, driving member 1313 and the second adapter 1314.

Wherein, fixed frame 111 is fixed in fixed platform 113, by the space for being separated out transmission component 131 between supporting block 114 Position is auxiliarily fixed ring 132 and the two sides that ring 133 is set in the second adapter 1314 is auxiliarily fixed, to fixed conveyor part 1313, the other side that ring 132 is auxiliarily fixed is arranged in bearing 134, is also set on the second adapter 1314, and fixed ring 112 is solid It is scheduled on the outer diameter annulus of bearing 134, and is fixed on fixed frame 111, first adapter 122 and the second adapter 1314 carry out It is fixed so that first adapter 122 can be rotated synchronously with the second adapter 1314, first adapter 122 and the first fixture 1211 and second fixture 1212 be clamped in a manner of dovetail groove, dovetail groove is arranged so that the first fixture 1211 and the second fixture 1212 Relative motion can be carried out along to the radial of feeding tubing, and around synchronous with first adapter 122 turn of the axial direction to feeding tubing It is dynamic.

Wherein, ring 133 is auxiliarily fixed to be set in after the other side of the second adapter 1314, fixed frame 115 is fixed on On fixed platform 113, and it is fixed on the other side of supporting block 114, ring 135 is auxiliarily fixed and is fixed on the another of the second adapter 1314 Side, and make that ring 135 and the second adapter 1314 synchronous rotation is auxiliarily fixed, fixed ring 116 is fixed on fixed frame 115, and ten thousand Two right angles of the separate fixed platform 113 of fixed frame 115, universal bearing are fixed on to bearing 1171 and universal bearing 1174 1172 and universal bearing 1173 be fixed on fixed frame 115 close fixed platform 113 side middle position.

Specifically, first adapter 122 and the second adapter 1314 are relatively fixed, first folder of the connection of first adapter 122 Tool 1211 and the second fixture 1212, driving member 1313 connect first motor 1311 and the second adapter 1314, and in first motor First adapter 122 and the second adapter 1314 and the first fixture 1211 and the second fixture 1212 are driven in 1311 rotation process Synchronize rotation.

Specifically, the first fixture 1211 and the second fixture 1212 be oppositely arranged and be respectively arranged with to the outer of feeding object The corresponding clamping face of circumferential surface, the first cylinder 1213 and the first cylinder 1214 are driven the first fixture 1211 and the second fixture 1212 carries out Relative motion, and then feeding tubing is waited for along the radial clamping to feeding tubing by the clamping face of two fixtures.Specifically, first Cylinder 1213 is set to side of first fixture 1211 far from the second fixture 1212, and the first cylinder 1214 is set to the second fixture 1212 sides far from the first fixture 1211.In a wherein specific embodiment, when the first fixture 1211 and the second folder Tool 1212, which does not receive, to be stepped up when the instruction of feeding tubing, and the first cylinder 1213 and 1214 stretch rod of the first cylinder are in and stretch out shape State, and the first fixture 1211 and the second fixture 1212 are strutted along dovetail groove toward two sides；When the first fixture 1211 and the second folder Tool 1212, which receives, to be stepped up when the instruction of feeding tubing, and the first cylinder 1213 and the first cylinder 1214 can be gradually inflated, So that the first cylinder 1213 and the first cylinder 1214 be in compressive state so that the first fixture 1211 and the second fixture 1212 tense along the axis direction to feeding tubing, to realize that treating feeding tubing steps up to fix.

Wherein, in the present embodiment, as shown in Fig. 2, driving member 1313 is the shaft for being sheathed on first motor 1311 1312 and second adapter 1314 outside chain.Optionally, driving member 1313 can also be turns in first motor 1311 The belt in the outside of axis 1312 and the second adapter 1314.

Wherein, universal bearing component 117 directly supports tubing, so that the first clamping component 120 is almost on sagittal plane Without applying active force, the intensity requirement of the first clamping component 120 is reduced.Specifically, universal bearing 1171, universal bearing 1172, universal bearing 1173 and universal bearing 1174 include bearing block and are set on bearing block and can be relative to bearing The ball that seat is freely rotated, bottom bracket are used to contact the surface to feeding tubing for being connected and fixed frame 115, ball.

Optionally, locating part can also be set in the dovetail groove of first adapter 122, for limiting 1211 He of the first fixture The initial position of second fixture 1212.

Optionally, first motor 1311 is alternating-current variable frequency motor, stepper motor or servo motor.

Feeding mechanism for pipes in present embodiment, comprising: frame main body；First support is set in frame main body；The One clamping component, rotational support is in first support, and for clamping to feeding tubing；First transmission mechanism, is set to first On bracket, and for the first clamping component clamp be driven when feeding tubing the first clamping component and to feeding tubing around to The axial direction of expects pipe material is rotated, and the automatic fixed and rotation to feeding tubing is realized, to realize to the automatic of feeding tubing Measured length and circumgyration incision prepare, and then reduce cutting cost, save cost of labor, improve cutting accuracy.

Further, the feeding mechanism for pipes in the present invention can also include the second transmission mechanism, as shown in figure 3, Fig. 3 is The structural schematic diagram of frame main body in Fig. 1 of the present invention.Wherein, the second transmission mechanism is set in frame main body 200, and is used for edge To the axial reciprocal transmission first support 110 between preset initial position and target position of feeding tubing, and then first Clamping component 120 is clamped to be driven from initial position to target position to feeding tubing when feeding tubing.

Specifically, the frame main body in present embodiment includes: frame main body 200, the first platform 201, the second platform 202, screw rod 203, the second motor 204, the first locating part 205, the second locating part 206 and scale 207, guide rail 208, guide rail 209 and support base 210.Wherein, the second platform 202, screw rod 203, the second motor 204, the limit of the first locating part 205, second Part 206 and scale 207, guide rail 208 and guide rail 209 form the second transmission mechanism.

Wherein, the first platform 201 is fixed in frame main body 200.First support 110, the first clamping component 120 and first The rotating mechanism that transmission mechanism 130 forms is fixed on the second platform 202, and the second platform 202 is movably set in guide rail 208 and leads On rail 209, screw rod 203 passes through the bottom of the second platform 202, is fixed in frame main body 200, flat with guide rail 208 and guide rail 209 Row, and in the middle position of guide rail 208 and guide rail 209, one end of screw rod 203 is fixed on close to the side of the first platform 201, separately One end is fixed with the second motor 204.It, can when needing to change the position of rotating mechanism in wherein in particular embodiments To drive rotating mechanism to slide on guide rail 208 and guide rail 209 by screw rod 203 using the second motor 204.

Wherein, the first locating part 205, the second locating part 206 and scale 207 are set in frame main body 200, scale 207 are arranged in parallel with guide rail 208 and guide rail 209, and the first locating part 205 and the second locating part 206 are set on scale 207.The One locating part 205 is used to limit the initial position of rotating mechanism (first support 110), and the second locating part 206 is for limiting rotation The target position of mechanism (first support 110), adjustable, the scale of the distance between the first locating part 205 and the second locating part 206 207 are used to indicate the distance between the first locating part 205 and the second locating part 206.In a wherein specific embodiment, When rotating mechanism is in initial position, the second platform 202 is fixed by a connection piece with the first locating part 205, works as needs When changing the position of rotating mechanism；The second locating part 206 is first moved to target location, and the second platform 202 of release and the The connector of one locating part 205 moves at 202 to the second locating part 206 of the second platform, then passes through connector and the second limit again Position part 206 is fixed.

Optionally, the second motor 204 is alternating-current variable frequency motor, stepper motor or servo motor.

Optionally, scale 207 can be the steel ruler that range is 1 meter.

Wherein, support base 210 waits for feeding tubing for Auxiliary support, can determine of support base 210 according to actual needs Number.In addition, further including several universal bearings on support base 210, universal bearing includes bearing block and is set on bearing block And it can be used for connecting support seat relative to the ball that bearing block is freely rotated, bottom bracket, ball is for contacting tubing Surface.

Feeding mechanism for pipes in present embodiment, comprising: frame main body；First support is set in frame main body；The One clamping component, rotational support is in first support, and for clamping to feeding tubing；First transmission mechanism, is set to first On bracket, and for the first clamping component clamp be driven when feeding tubing the first clamping component and to feeding tubing around to The axial direction of expects pipe material is rotated, and is realized and is automatically determined length and rotation to feeding tubing, is revolved to realize to feeding tubing Turn cutting to prepare, reduces cutting cost, save cost of labor, improve cutting accuracy

Further, the feeding mechanism for pipes in the present invention can also include second support and the second clamping component, such as Fig. 4 Shown, Fig. 4 is the structural schematic diagram of another embodiment of tubing of the present invention feed mechanism.Tubing feeder in present embodiment Structure include: first support 110, the first clamping component 120, the first transmission mechanism 130, frame main body 200, second support 310 with And second clamping component 320.Wherein, second support 310 is set in frame main body 200, and the second clamping component 320 is set to On two brackets 310, the second clamping component 320 is clamped after first support 110 is transferred to target position to feeding tubing, Jin Eryun Perhaps the release of the first clamping component 120 is to feeding tubing, and the correcting action under the transmission of the second transmission mechanism.

Specifically, as shown in figure 5, Fig. 5 is the decomposition diagram of second support and the second clamping component in Fig. 4 of the present invention. Wherein, second support 310 includes rack body 311, groove 312, universal bearing 313, and the second clamping component 320 is pressed from both sides including third Have the 321, the 4th fixture 322, the second cylinder 323, the second cylinder 324, fixed link 325 and fixed block 326.Wherein, fixed link 325 are clamped with the dovetail groove of third fixture 321 and the 4th fixture 322, and are placed in corresponding groove 312, then by solid The both ends of the fixed fixed link 325 of block 326 are determined, to realize the fixation to third fixture 321 and the 4th fixture 322.

Wherein, third fixture 321 and the 4th fixture 322 are oppositely arranged and are respectively arranged with and the outer peripheral surface to feeding object Corresponding clamping face, the second cylinder 323 and the second cylinder 324 transmission third fixture 321 and the 4th fixture 322 carry out opposite transport It is dynamic, and then feeding tubing is waited for along the radial clamping to feeding tubing by the clamping face of two fixtures.Specifically, the second cylinder 323 are set to side of the third fixture 321 far from the 4th fixture 322, and the second cylinder 324 is set to the 4th fixture 322 far from The side of three fixtures 321.

Wherein, the function of the second clamping component 320 is that the first clamping component 120 of auxiliary carries out radial ranging.Specifically, By the drive tubing rotation of first support rotating mechanism, realization round tube gradually after open plane cutting, press from both sides rapidly by the second clamping component 320 Tightening position, the first clamping component 120 move radially to required Cutting Length position and clamp tubing, at this time the second clamping component 320 unclamp, rotating mechanism drive tubing advance feeding to cleavage, then are rotated by the first clamping component 120, and cut.

Feeding mechanism for pipes in present embodiment, comprising: frame main body；First support is set in frame main body；The One clamping component, rotational support is in first support, and for clamping to feeding tubing；First transmission mechanism, is set to first On bracket, and for the first clamping component clamp be driven when feeding tubing the first clamping component and to feeding tubing around to The axial direction of expects pipe material is rotated, and is realized and is automatically determined length and circumgyration incision to feeding tubing, and reduces and be cut into This, saves cost of labor, improves cutting accuracy.

Referring to Fig. 6, Fig. 6 is the structural schematic diagram of one embodiment of tubing of the present invention cutter device.As shown in fig. 6, this Device for cutting pipe in embodiment includes: first support 610, the first clamping component 620, the first transmission mechanism 630, rack Main body 640, second support 650, the second clamping component 660 and cutting head 670.Wherein, cutting head 670 is arranged in second support On 650, first support 610, the first clamping component 620, the first transmission mechanism 630, frame main body 640, second support 650 and As described in the embodiment, this will not be repeated here for second clamping component 660.

Wherein, cutting head 670 is cut for treating feeding tubing in the rotation to feeding tubing.Specifically, it cuts First 670 specifically include bracket, platform assembly, follower and cutting head；Wherein platform assembly is for movable supporting in bracket And for connecting cutting head, follower and platform assembly link, and are used to support on the surface of object to be cut, and to It cuts object and adjusts the phase of platform assembly and bracket in the relative movement of bracket according to the surface shape of object to be cut To position, so that the distance between cutting head and the surface of object to be cut are consistent.

Specifically, cutting head 670 is fixed on sliding block, and sliding block is driven by cylinder, can adjust at any time tubing in Position in the relative movement of bracket, so that the distance between surface of cutting head and tubing saves unanimously.

Optionally, the device for cutting pipe in present embodiment can also include that a human-computer interaction circuit (such as touches Screen), the digitlization for realizing object cutting process to be cut is shown.

In device for cutting pipe in present embodiment, including feeding mechanism for pipes and cutting head, wherein tubing feeder Structure includes: frame main body；First support is set in frame main body；First clamping component, rotational support in first support, And for clamping to feeding tubing；First transmission mechanism, is set in first support, and for the first clamping component clamp to It is driven the first clamping component when feeding tubing and is rotated to feeding tubing around the axial direction to feeding tubing, realizes to feeding The measured length and circumgyration incision of tubing, reduce cutting cost, save cost of labor, improve cutting accuracy.

Referring to Fig. 7, Fig. 7 is the structural schematic diagram of another embodiment of tubing of the present invention cutter device.Present embodiment In device for cutting pipe include: first support 701, the first clamping component 702, the first transmission mechanism 703, frame main body 704, Second support 705, cutting head 707, support base 708, continues rack 709 and to feeding tubing 710 at second clamping component 706.Its In, continuous rack 709 is set to the one end of frame main body 704 far from cutting head 707, and the number for continuing rack 709 is unlimited, support base 708 can be set in any position of frame main body 704 and continuous rack 709, and number is unlimited.First support 701, first clamps Component 702, the first transmission mechanism 703, frame main body 704, second support 705, the second clamping component 706 and cutting head 707 As described in the embodiment, this will not be repeated here.

Optionally, the device for cutting pipe in present embodiment can also include PLC (programmable logic controller (PLC), Programmable Logic Controller, PLC) touch screen, it is aobvious for realizing the digitlization of object cutting process to be cut Show.

Specifically, in wherein one specifically embodiment, fixed control tubing is first write by PLC first and is cut Then the program of device is determined the length to be cut to feeding tubing 710 by the second locating part, often cutting one only needs To feeding tubing 710, remaining can be controlled by PLC program and be completed for installation manually.Cut process are as follows: first to feeding tube Material 710 is placed in frame main body 704 and continuous rack 709, and adjusts frame main body 704, continuous rack 709 and support base 708. Then the second clamping component 706 is unclamped, and makes circular tube end face to feeding tubing 710 in the underface of 707 gas nozzle of cutting head, First support 701 (at the A in such as figure), clamps the first clamping component 702 at the first locating part, and cutting length as needed Degree, adjust the second locating part position (for example, the position of the second locating part can as figure B at).After starting PLC program, by the Two motors drive first support 701 by screw rod and move together to feeding tubing 710 to B, and cutting head 707 goes out to swash at this time Light turns around to 710 dextrorotation of feeding tubing rotation, and cutting is completed.Then, the second clamping component 706 is clamped, it is automatic to unclamp the first folder Tight component 702, it is motionless to feeding tubing 710, first support 701 toward the back reverse rotation of first support 701 while being back at A, The first clamping component of Automatic-clamping 702 unclamps the second clamping component 706, has thus been returned to original state.Wherein, first Bracket 701 toward first support 701 while being back at A back reverse rotation the reason of be the first clamping component 702 be by cylinder system Dynamic, tracheae is had, therefore, first support 701 turns around, it is necessary to go back to a circle toward opposite direction.

Optionally, if change the diameter in the clamping face of the first clamping component 702 and the second clamping component 706, it can be achieved that The cutting to feeding tubing 710 of different tube diameters.

Optionally, if changing the shape in the clamping face of the first clamping component 702 and the second clamping component 706, for example, handle The clamping face of first clamping component 702 and the second clamping component 706 becomes rectangular, then can be achieved square end surface to feeding tubing 710 cutting.

Optionally, the first clamping component 702 and the second clamping component 706 with cylinder other than it can be clamped, also It can be clamped using other modes.

Optionally, the PLC system in present embodiment, which can also change, makees cutting control system in the prior art.

In device for cutting pipe in present embodiment, including feeding mechanism for pipes and cutting head, wherein tubing feeder Structure includes: frame main body；First support is set in frame main body；First clamping component, rotational support in first support, And for clamping to feeding tubing；First transmission mechanism, is set in first support, and for the first clamping component clamp to It is driven the first clamping component when feeding tubing and is rotated to feeding tubing around the axial direction to feeding tubing, realizes to feeding Tubing automatically determines length and circumgyration incision, and reduces cutting cost, saves cost of labor, improves cutting accuracy.

Mode the above is only the implementation of the present invention is not intended to limit the scope of the invention, all to utilize this Equivalent structure or equivalent flow shift made by description of the invention and accompanying drawing content, it is relevant to be applied directly or indirectly in other Technical field is included within the scope of the present invention.

Claims (10)

1. a kind of feeding mechanism for pipes, which is characterized in that the feeding mechanism for pipes includes:

Frame main body；

First support is set in the frame main body；

First clamping component, rotational support is in the first support, and for clamping to feeding tubing；

First transmission mechanism is set in the first support, and described to feeding for clamping in first clamping component It is driven first clamping component when tubing and described is rotated to feeding tubing around the axial direction to feeding tubing.

2. feeding mechanism for pipes according to claim 1, which is characterized in that first clamping component includes the first folder Tool, the second fixture and at least one first cylinder, first fixture and second fixture are oppositely arranged and are respectively set There are clamping face corresponding with the outer surface to feeding tubing, the first fixture and described second described in first cylinder-driven Fixture carry out relative motion, and then by the clamping face along described in the radial clamping to feeding tubing to feeding tubing.

3. feeding mechanism for pipes according to claim 2, which is characterized in that the quantity of first cylinder is two, and One in described two first cylinders is set to side of first fixture far from second fixture, and described two first Another in cylinder is set to side of second fixture far from first fixture.

4. feeding mechanism for pipes according to claim 2, which is characterized in that first transmission mechanism includes the first electricity Machine, driving member and adapter, wherein the adapter connects first clamping component, the driving member connection described first Motor and the adapter, and the adapter and first clamping component are driven in the rotation process of the first motor Synchronize rotation.

5. feeding mechanism for pipes according to claim 4, which is characterized in that the adapter and first fixture and institute It states the second fixture to be clamped in a manner of dovetail groove, the dovetail groove is arranged so that first fixture and second fixture can Around described after the radial progress relative motion to feeding tubing, first fixture and the second clamp tubing It is rotated synchronously to the axial direction of feeding tubing and the adapter.

6. feeding mechanism for pipes according to claim 4, which is characterized in that the driving member is to be sheathed on first electricity The chain or belt in the outside of the shaft of machine and the adapter.

7. feeding mechanism for pipes according to claim 1, which is characterized in that the feeding mechanism for pipes further comprises Two transmission mechanisms, second transmission mechanism are set in the frame main body, and for along the axial direction to feeding tubing The first support described in reciprocal transmission between preset initial position and target position, and then clamped in first clamping component It is described described to feeding tubing from the initial position to the target position transmission when feeding tubing.

8. feeding mechanism for pipes according to claim 7, which is characterized in that the feeding mechanism for pipes further comprises One locating part, the second locating part and scale, first locating part, second locating part and the scale are set to described In frame main body, first locating part is used to limit the initial position of the first support, and second locating part is for limiting The target position of the fixed first support, the distance between first locating part and the second locating part are adjustable, and the scale is used In instruction the distance between first locating part and second locating part.

9. feeding mechanism for pipes according to claim 8, which is characterized in that the feeding mechanism for pipes further comprises Two brackets and the second clamping component, the second support are set in the frame main body, and second clamping component is set to In the second support, second clamping component clamps described to upper after the first support is transferred to the target position Expects pipe material allows for the first clamping component release described to feeding tubing, and in the transmission of second transmission mechanism It is lower to return to the initial position.

10. a kind of device for cutting pipe, which is characterized in that the device for cutting pipe includes described in claim any one of 1-9 Feeding mechanism for pipes and cutting head, wherein the cutting head be used in the rotation to feeding tubing to described to feeding Tubing is cut.