CN113385743A - Tapping machine for slotting bicycle pipe fittings - Google Patents

Abstract

The application relates to the field of bicycle frame processing, in particular to a tapping machine for slotting bicycle pipe fittings. The application comprises a tapping machine body, wherein an organism, a main cylinder, an installation block, a clamping assembly and a cutting assembly are arranged on the tapping machine body, a main cylinder for driving the mounting block to move horizontally is fixedly connected on the machine body, a clamping component is connected on the mounting block, the cutting component for cutting the end part of the pipe fitting is connected on the machine body, the feeding mechanism and the control mechanism are arranged on the tapping machine body, a feeding mechanism for conveying the pipe fittings to the control mechanism is connected on the machine body, the control mechanism comprises a fixed plate, a material pushing assembly, a stop lever and a control panel, the fixed plate is fixedly connected on the mounting block, a pushing component used for moving the pipe fitting away from the cutting component is connected on the fixed plate, the stop lever is fixedly connected on the fixed plate, a effect that is used for sliding with the fixed plate to be connected the control panel of pipe fitting location, accomplishes pipe fitting material loading, fluting and unloading automatically, has the processing degree of automation of improvement pipe fitting.

Description

Tapping machine for slotting bicycle pipe fittings

Technical Field

The application relates to the field of bicycle frame processing, in particular to a tapping machine for slotting bicycle pipe fittings.

Background

The frame is used as the framework of the whole bicycle and is formed by welding a plurality of pipe fittings, and partial pipe fittings need to be grooved according to production needs.

Referring to fig. 1, a conventional pipe slotting tapping machine body 1 includes a machine body 11, a main cylinder 12, a mounting block 13, a positioning assembly 16, a clamping assembly 14 and a cutting assembly 15, the machine body 11 is vertically disposed, the main cylinder 12 is fixedly connected to the machine body 11, the mounting block 13 is fixedly connected to an expansion rod of the main cylinder 12, the positioning assembly 16 includes a positioning plate 161 and an abutting member 162, the positioning plate 161 is fixedly connected to one side of the mounting block 13 close to the main cylinder 12, the positioning plate 161 is horizontally disposed, the abutting member 162 for positioning an end of a pipe 5 is detachably connected to the positioning plate 161, the clamping assembly 14 for clamping the pipe 5 is connected to the top of the mounting block 13, the cutting assembly 15 for cutting one end of the pipe 5 far from the abutting member 162 is connected to the machine body 11, when in use, an operator places the pipe 5, one end of the pipe 5 abuts against the abutting member 162, and the other end of the pipe 5 is clamped to the clamping assembly 14, the main cylinder 12 pushes the mounting block 13, the mounting block 13 and the pipe 5 move towards the direction close to the cutting assembly 15, and the cutting assembly 15 cuts one end of the pipe 5 far away from the abutting part 162, so that the grooving of the pipe 5 is completed.

To the above-mentioned correlation technique, the inventor thinks that when the pipe fitting fluting, operating personnel need once place the pipe fitting between butt piece and clamping component, and after the pipe fitting fluting, operating personnel takes off the pipe fitting, and it is consuming time and power, has the defect that pipe fitting processing degree of automation is low.

Disclosure of Invention

In order to improve the degree of automation of pipe fitting processing, this application provides a tapping machine for being directed at bicycle pipe fitting fluting.

The application provides a be used for adopting following technical scheme to slotted tapping machine of bicycle pipe fitting:

a tapping machine for slotting bicycle pipe fittings comprises a tapping machine body, a main cylinder, an installation block, a clamping assembly and a cutting assembly are arranged on the tapping machine body, the main cylinder is fixedly connected to the tapping machine body, the main cylinder is horizontally arranged, the installation block is fixedly connected with an expansion link of the main cylinder, the clamping assembly used for clamping one end, away from the main cylinder, of a pipe fitting is connected to the installation block, the cutting assembly used for cutting one end, away from the main cylinder, of the pipe fitting is connected to the tapping machine body, a feeding mechanism and a control mechanism are arranged on one side, away from the cutting assembly, of the installation block, the feeding mechanism used for conveying the pipe fitting to the control mechanism is connected to the tapping machine body, the control mechanism comprises a fixing plate, a material pushing assembly, a stop lever and a control plate, the fixing plate is fixedly connected to one side, away from the cutting assembly, the material pushing assembly used for moving the pipe fitting towards the side, away from the cutting assembly is connected to the fixing plate, and the stop lever is fixedly connected to the fixing plate, feed mechanism one side butt is kept away from to pin and pipe fitting, and the control panel slides and connects on the fixed plate, and cutting component one end butt is kept away from to control panel and pipe fitting, is provided with between fixed plate and the control panel to be used for the drive control panel towards keeping away from the drive assembly that the pipe fitting direction removed.

By adopting the technical scheme, when the pipe fittings are grooved, a plurality of pipe fittings are placed on the feeding mechanism, one pipe fitting is moved to the pushing assembly, the stop lever is abutted against one side of the pipe fitting, which is far away from the feeding mechanism, and the stop lever reduces the probability of separation of the pipe fitting and the pushing assembly; push away the material subassembly and remove the pipe fitting towards being close to the control panel direction, pipe fitting tip and control panel butt, clamping assembly presss from both sides the pipe fitting tightly afterwards, start the master cylinder, the master cylinder promotes the installation piece and removes towards being close to cutting assembly department, cutting assembly cutting pipe fitting keeps away from control panel one end, the master cylinder drives the installation piece afterwards and removes towards keeping away from cutting assembly direction, drive assembly is towards keeping away from pipe fitting direction removal control panel simultaneously, the control panel breaks away from with the pipe fitting, push away from the material subassembly and remove the pipe fitting towards keeping away from cutting assembly direction, thereby with the pipe fitting unloading, accomplish the pipe fitting material loading automatically, fluting and unloading, the manpower is saved, the degree of automation of pipe fitting processing has been improved.

Preferably, the material pushing assembly comprises a support, a driving roller, a power part, a driven roller and a conveying belt, the support is fixedly connected to the fixing plate, the driving roller and the driven roller are both located above the fixing plate, the driving roller and the driven roller are both rotatably connected to the support and used for driving the power part rotating by the driving roller to be fixedly connected to the support, and the conveying belt is sleeved between the driving roller and the driven roller.

Through adopting above-mentioned technical scheme, when pushing away the material subassembly and using, start power spare, power spare drive roll rotates, driven voller and conveyer belt rotate along with the drive roll, the pipe fitting that is located on the conveyer belt moves towards the direction of keeping away from cutting assembly along with the conveyer belt rotates, thereby make the pipe fitting keep away from cutting assembly one end and control panel butt, thereby make the control panel to the pipe fitting location, the accuracy of pipe fitting cutting length has been improved, needn't rely on the manpower to make pipe fitting and control panel butt, the degree of automation of pipe fitting processing has been improved.

Preferably, drive assembly includes the fixed block, expanding spring and actuating lever, the fixed block rigid coupling is on the control panel, a expanding spring connection between fixed block and fixed plate towards being close to pipe fitting direction mobile control board, the control panel slides with the fixed plate is vertical to be connected, the control panel is kept away from pipe fitting one side and is seted up the spout, the spout upwards is seted up and is extended towards the direction that is close to clamping component, the actuating lever rigid coupling is on the organism, the actuating lever is kept away from organism one end and is located the spout and slide with the control panel and be connected.

Through adopting above-mentioned technical scheme, when drive assembly used, expanding spring upwards promoted fixed block and control panel, when the master cylinder removed the installation piece towards keeping away from the cutting assembly direction, the control panel removed towards keeping away from the cutting assembly direction along with the installation piece, the actuating lever is located the spout and takes place vertical slip with the control panel, because the spout upwards removes towards being close to the cutting assembly direction slope, the control panel removes the in-process downstream towards keeping away from the cutting assembly direction, the control panel breaks away from with the pipe fitting, thereby make the automatic unloading of pipe fitting, the degree of automation of pipe fitting processing has been improved.

Preferably, one end of the driving rod, which is close to the control plate, is rotatably connected with a roller, and the roller is positioned in the sliding groove and is in rolling contact with the control plate.

Through adopting above-mentioned technical scheme, when relative slip took place for actuating lever and control panel, the gyro wheel rotated, and gyro wheel and control panel rolling contact have reduced the frictional force between actuating lever and the control panel, have reduced the frictional resistance that the control panel removed the in-process and received the actuating lever, and the control panel of being convenient for removes, has improved the convenience that the control panel removed.

Preferably, feed mechanism includes feeding funnel, pterygoid lamina and gag lever post for the feeding funnel rigid coupling that holds the pipe fitting is on the organism, and the feeding funnel is located and pushes away material subassembly top, and the feeding funnel is kept away from material subassembly one end and is upwards inclined, and the pterygoid lamina is provided with two, and two pterygoid laminas are located pipe fitting direction of delivery's both sides, and the pterygoid lamina that is close to the control panel flushes the setting with the control panel, and the gag lever post rigid coupling is on the pterygoid lamina, and one side butt of feeding funnel is kept away from with the pipe fitting to the gag lever post.

By adopting the technical scheme, when the pipe fittings are fed, the plurality of pipe fittings are placed in the feeding hopper, the pipe fittings are parallel to the conveying direction of the material pushing assembly, the two ends of the pipe fittings are respectively abutted to the wing plates, one side of the feeding hopper is far away from the pipe fittings and abutted to the limiting rods, the plurality of pipe fittings are sequentially arranged in the feeding hopper, the feeding hopper is obliquely arranged, the pipe fittings sequentially roll to the material pushing assembly along the oblique feeding hopper, the automatic feeding and conveying of the pipe fittings to the material pushing assembly are completed, the pipe fittings are not required to be sequentially fed, and the automation degree of pipe fitting processing is improved.

Preferably, the two wings are inclined away from each other away from the pusher assembly.

By adopting the technical scheme, when the plurality of pipe fittings are arranged on the feeding hopper, the pipe fittings are far away from the material pushing assembly from the two wing plates and are placed on the feeding hopper, the two wing plates incline towards the direction far away from each other, the distance between the two wing plates is increased, the probability of collision between the pipe fittings and the wing plates when the pipe fittings are placed on the feeding hopper is reduced, and the convenience of placing the pipe fittings is improved.

Preferably, a blanking hopper is fixedly connected to the machine body close to the control panel, and one end, far away from the control panel, of the blanking hopper inclines downwards.

By adopting the technical scheme, after the pipe fitting is grooved, the clamping assembly is separated from the pipe fitting, the pushing assembly pushes the pipe fitting towards the direction far away from the clamping assembly, the pipe fitting moves towards the direction close to the blanking hopper, then the pipe fitting is arranged on the blanking hopper, the pipe fitting moves blanking along the inclined blanking hopper, the pipe fitting does not need to be manually taken down, the convenience of blanking of the pipe fitting is improved, and the automation degree of pipe fitting processing is improved.

Preferably, the hopper internal rotation is connected with the dwang down, and the dwang is provided with a plurality ofly, and hopper length direction interval distribution is followed down to a plurality of dwangs, and the dwang rotation direction is the same with pipe fitting moving direction, dwang and pipe fitting rolling contact.

Through adopting above-mentioned technical scheme, when the pipe fitting was unloaded along the lower hopper of slope, pipe fitting and dwang contact, the dwang rotated, dwang and pipe fitting rolling contact, and the dwang has reduced the frictional force between pipe fitting and the lower hopper, has reduced the frictional resistance that the pipe fitting unloading removed the in-process and received, and the pipe fitting unloading of being convenient for is carried.

Preferably, the stop lever is rotatably connected with a sleeve, and the rotating direction of the sleeve is the same as the moving direction of the pipe fitting.

Through adopting above-mentioned technical scheme, when the pipe fitting was carried to pushing away the material subassembly from feed mechanism, feed mechanism one side butt was kept away from to pin and pipe fitting, and the pin reduces the probability that the pipe fitting breaks away from with pushing away the material subassembly, pushes away the material subassembly afterwards and removes the pipe fitting towards keeping away from the cutting assembly direction, and the sleeve rotates, and sleeve and pipe fitting rolling contact, and the sleeve has reduced the frictional resistance that the pipe fitting removed in-process received, has improved the convenience that the pipe fitting removed.

Preferably, the outer side of the conveying belt is provided with anti-skid grooves which are distributed at intervals along the length direction of the conveying belt.

Through adopting above-mentioned technical scheme, the roughness that anti-skidding recess had increased the conveyer belt has increased the frictional force between conveyer belt and the pipe fitting, has weakened the degree that takes place relative slip between conveyer belt and the pipe fitting, and the conveyer belt of being convenient for is carried the pipe fitting.

In summary, the present application includes at least one of the following beneficial technical effects:

1. by arranging the feeding mechanism and the control mechanism, the feeding mechanism sequentially feeds the pipe fittings, and the control mechanism automatically feeds the pipe fittings, so that the effect of improving the automation degree of pipe fitting processing is achieved;

2. by arranging the pushing assembly, the conveying belt rotates and moves the pipe fitting, so that the end part of the pipe fitting is abutted against the control panel, the pipe fitting is not abutted against the control panel by manpower, and the effect of improving the automation degree of pipe fitting processing is achieved;

3. through setting up drive assembly, drive assembly makes control panel and pipe fitting butt or break away from to make the automatic unloading of pipe fitting, produced the effect that improves pipe fitting processing degree of automation.

Drawings

FIG. 1 is a background art drawing of the present application;

FIG. 2 is a schematic structural diagram of an embodiment of the present application;

FIG. 3 is an enlarged view of a portion of FIG. 2 at A;

fig. 4 is a partially enlarged view at B in fig. 2.

Description of reference numerals: 1. a tapping machine body; 11. a body; 12. a master cylinder; 13. mounting blocks; 14. a clamping assembly; 141. a shaping block; 142. a first cylinder; 143. a first clamping block; 144. a second cylinder; 145. a second clamp block; 15. a cutting assembly; 151. an output motor; 152. a cutting knife; 16. a positioning assembly; 161. positioning a plate; 162. an abutting member; 2. a feeding mechanism; 21. feeding a hopper; 211. a limiting plate; 22. a wing plate; 221. a baffle plate; 23. fixing the rod; 24. a limiting rod; 3. a control mechanism; 31. a fixing plate; 32. a material pushing assembly; 321. a support; 322. a drive roll; 323. a power member; 324. a driven roller; 325. a conveyor belt; 3251. an anti-slip groove; 33. a stop lever; 331. a sleeve; 34. a control panel; 341. a chute; 35. a drive assembly; 351. a fixed block; 352. a tension spring; 353. a drive rod; 354. a roller; 4. a blanking mechanism; 41. feeding a hopper; 42. rotating the rod; 5. a pipe fitting.

Detailed Description

The present application is described in further detail below with reference to figures 2-4.

The embodiment of the application discloses a tapping machine for being directed at bicycle pipe fitting fluting. Referring to fig. 2, a tapping machine for slotting bicycle pipe fittings includes tapping machine body 1, feed mechanism 2, control mechanism 3 and unloading mechanism 4, control mechanism 3 for fixing a position when slotting pipe fittings 5 connects on tapping machine body 1, feed mechanism 2 for carrying pipe fittings 5 to control mechanism 3 connects on tapping machine body 1, unloading mechanism 4 for carrying pipe fittings 5 off connects in tapping machine body 1 and is close to the 3 unloading end of control mechanism, during the use, pipe fittings 5 place on feed mechanism 2, pipe fittings 5 carry to control mechanism 3 and fix a position afterwards, tapping machine body 1 is slotted pipe fittings 5, pipe fittings 5 breaks away from control mechanism 3 and moves to the 4 unloading of unloading mechanism afterwards, accomplish the fluting of pipe fittings 5 automatically, the degree of automation of pipe fittings 5 processing has been improved.

Referring to fig. 2, feed mechanism 2 includes feeding hopper 21, pterygoid lamina 22, dead lever 23 and gag lever post 24, feeding hopper 21 rigid coupling for holding pipe fitting 5 is on tapping machine body 1, feeding hopper 21 is located control mechanism 3 top, feeding hopper 21 keeps away from 3 one end tilt up of control mechanism, pterygoid lamina 22 is provided with two, two pterygoid lamina 22 are located 5 direction of delivery's both sides, and 5 both ends of pipe fitting and two pterygoid lamina 22 all butt, 3 one end of control mechanism is kept away from to two pterygoid lamina 22 towards the direction slope of keeping away from each other, during initial state, pterygoid lamina 22 and control panel 34 that are close to control panel 34 flush the setting, dead lever 23 rigid coupling is between two pterygoid lamina 22, gag lever post 24 is parallel with lower hopper 41, gag lever post 24 rigid coupling is on dead lever 23, gag lever post 24 keeps away from 21 one side butt with pipe fitting 5.

During the material loading of pipe fitting 5, place pipe fitting 5 in hopper 41 down, two pterygoid lamina 22 tip are towards the direction slope of keeping away from each other, the distance between two pterygoid lamina 22 has been increased, reduce the probability that pipe fitting 5 and pterygoid lamina 22 bump, the pipe fitting 5 of being convenient for is placed, gag lever post 24 is kept away from 21 one side butt of feeding funnel with pipe fitting 5, gag lever post 24 is spacing to pipe fitting 5, make pipe fitting 5 arrange in feeding funnel 21 in proper order, because the slope of feeding funnel 21 sets up, pipe fitting 5 rolls to control mechanism 3 along the feeding funnel 21 of slope in proper order on, accomplish 5 automatic feeding of pipe fitting, needn't feed pipe fitting 5 in proper order, the degree of automation of 5 processing of pipe fitting has been improved.

Referring to fig. 2, the tapping machine body 1 comprises a machine body 11, a main cylinder 12, an installation block 13, a clamping assembly 14 and a cutting assembly 15, wherein the machine body 11 is vertically arranged, the main cylinder 12 is fixedly connected to the machine body 11 close to the blanking end of a feeding hopper 21, the main cylinder 12 is parallel to a pipe fitting 5, the installation block 13 is fixedly connected with an expansion link of the main cylinder 12, the installation block 13 is located at the top of the machine body 11 and is horizontally connected with the machine body 11 in a sliding manner, and a control mechanism 3 is connected to the installation block 13 close to the feeding hopper 21; the clamping assembly 14 comprises a shaping block 141, a first air cylinder 142, a first clamping block 143, a second air cylinder 144 and a second clamping block 145, the shaping block 141 is fixedly connected to the top of the mounting block 13, the first air cylinder 142 is fixedly connected to the top of the mounting block 13, the telescopic direction of the first air cylinder 142 is perpendicular to the telescopic direction of the main air cylinder 12, the first clamping block 143 is fixedly connected with the telescopic rod of the first air cylinder 142, the shaping block 141 and the first clamping block 143 for clamping the pipe 5 are located on two sides of the pipe 5, the second air cylinder 144 is parallel to the first air cylinder 142, the second clamping block 145 is fixedly connected with the telescopic rod of the second air cylinder 144, and the second clamping block 145 is located on one side of the pipe 5 far away from the shaping block 141; the cutting assembly 15 comprises an output motor 151 and a cutting knife 152, the output motor 151 for driving the cutting knife 152 to rotate is located on one side, away from the feeding hopper 21, of the mounting block 13, the output motor 151 is fixedly connected to the machine body 11, and the cutting knife 152 for grooving the end part, close to the second clamping block 145, of the pipe fitting 5 is fixedly connected with an output shaft of the output motor 151.

Referring to fig. 2 and 3, the control mechanism 3 includes a fixing plate 31, a pushing assembly 32, a stop lever 33, a control plate 34 and a driving assembly 35, the fixing plate 31 is fixedly connected to one side of the mounting block 13 away from the cutting assembly 15, and the pushing assembly 32 for moving the pipe 5 in a direction away from the cutting assembly 15 is connected to the fixing plate 31; the stop levers 33 are vertically arranged, a plurality of stop levers 33 are arranged, the stop levers 33 are positioned on one side of the pushing assembly 32 away from the feeding hopper 21, the stop levers 33 are all fixedly connected to the top of the fixing plate 31, sleeves 331 are sleeved on the circumferential surfaces of the stop levers 33, and the sleeves 331 are rotatably connected with the stop levers 33; the sleeve 331 is abutted against one side of the pipe 5 far away from the feeding hopper 21, the bottom of the feeding hopper 21 is fixedly connected with a limiting plate 211, and the limiting plate 211 is abutted against one side of the pipe 5 far away from the sleeve 331; the control panel 34 passes through the fixed plate 31 and is connected with the fixed plate 31 vertical sliding, the control panel 34 is kept away from cutting assembly 15 one end butt with pipe fitting 5, the drive assembly 35 that is used for driving the lift of control panel 34 is connected between fixed plate 31 and control panel 34.

When the pipe fitting pushing device is used, the pipe fitting 5 rolls onto the material pushing assembly 32 along the inclined feeding hopper 21, the sleeve 331 is abutted to one side, away from the feeding hopper 21, of the pipe fitting 5, the stop lever 33 limits the pipe fitting 5, the pipe fitting 5 is located on the material pushing assembly 32, meanwhile, the limiting plate 211 limits the pipe fitting 5, and the probability that the pipe fitting 5 slips from the material pushing assembly 32 is reduced; the pushing assembly 32 moves the pipe 5 towards the direction far away from the cutting assembly 15, so that one end, far away from the cutting assembly 15, of the pipe 5 is abutted against the control plate 34, and meanwhile, the top of the control plate 34 is abutted against the pipe 5 on the feeding hopper 21, and the pipe 5 is prevented from falling; the sleeve 331 rotates to reduce the frictional resistance on the pipe 5, and one end of the pipe 5, which is far away from the cutting assembly 15, is abutted against the control plate 34; the second air cylinder 144 pushes the second clamping block 145 towards the direction close to the shaping block 141, the second clamping block 145 and the shaping block 141 press the pipe 5 into a required shape, then the second air cylinder 144 moves the second clamping block 145 towards the direction far away from the shaping block 141, the first air cylinder 142 moves the first clamping block 143 towards the direction close to the shaping block 141, and the first clamping block 143 and the shaping block 141 clamp the pipe 5; then the main cylinder 12 pushes the mounting block 13 to move towards the direction close to the cutting assembly 15, and the control plate 34 pushes the pipe 5 to move towards the direction close to the cutting assembly 15; the conveying motor drives the cutting knife 152 to rotate, and the cutting knife 152 opens a groove at the end part, close to the second air cylinder 144, of the pipe fitting 5; accomplish 5 automatic feeding of pipe fitting and location, needn't artificial operation one by one, use manpower sparingly, improved the degree of automation of 5 processing of pipe fitting.

Referring to fig. 3, the pushing assembly 32 includes a support 321, a driving roller 322, a power element 323, a driven roller 324 and a conveying belt 325, where the power element 323 is a power motor in this embodiment, the support 321 is fixedly connected to the top of the fixing plate 31, the driving roller 322 and the driven roller 324 are both located above the fixing plate 31 and horizontally disposed, the driving roller 322 and the driven roller 324 are both rotatably connected to the top of the support 321, the power element 323 for driving the driving roller 322 to rotate is fixedly connected to the support 321, an output shaft of the power element 323 is fixedly connected to a central axis of the driving roller 322, the conveying belt 325 is sleeved between the driving roller 322 and the driven roller 324, an anti-slip groove 3251 is disposed on an outer side of the conveying belt 325, the anti-slip groove 3251 is disposed in parallel to the driving roller 322, the anti-slip groove 3251 is disposed in plural, and the anti-slip grooves 3251 are uniformly spaced along a length direction of the conveying belt 325.

Pipe fitting 5 is located the conveyer belt 325 top, power part 323 drives drive roller 322 and rotates, driven voller 324 and conveyer belt 325 rotate along with drive roller 322 rotates, conveyer belt 325 is towards keeping away from cutting assembly 15 direction and is carried pipe fitting 5, anti-skidding recess 3251 has increased the roughness on conveyer belt 325 surface, the degree that takes place relative slip between pipe fitting 5 and the conveyer belt 325 has been weakened, be convenient for conveyer belt 325 to remove pipe fitting 5, make pipe fitting 5 keep away from cutting assembly 15 one end and control panel 34 butt, needn't artificially adjust the position of pipe fitting 5, the degree of automation of pipe fitting 5 processing has been improved.

Referring to fig. 2 and 3, the driving assembly 35 includes two fixing blocks 351, two extension springs 352, a driving rod 353 and rollers 354, the two fixing blocks 351 are located at two sides of the blanking direction of the pipe 5, the fixing blocks 351 are fixedly connected to the control plate 34, the extension springs 352 are vertically arranged, the tops of the extension springs 352 are fixedly connected to the bottoms of the fixing blocks 351, the bottoms of the extension springs 352 are abutted to the fixing plate 31, and the extension springs 352 are in a compressed state; the control plate 34 penetrates through the fixed plate 31 and is connected with the fixed plate 31 in a vertical sliding mode, a sliding groove 341 is formed in one side, away from the conveying belt 325, of the control plate 34, the sliding groove 341 is vertically formed, the sliding groove 341 extends upwards and extends towards the direction close to the conveying belt 325, the driving rod 353 is fixedly connected to the machine body 11, one end, away from the machine body 11, of the driving rod 353 extends towards the direction close to the sliding groove 341, the roller 354 is rotatably connected to one end, close to the control plate 34, of the driving rod 353, and the roller 354 is located in the sliding groove 341 and is connected with the control plate 34 in a sliding mode; one end of the wing plate 22 close to the control plate 34 is fixedly connected with a baffle 221, and the baffle 221 is positioned above the control plate 34.

After the cutting knife 152 rotates and slots the pipe fitting 5, the main cylinder 12 drives the mounting block 13 to move towards the direction far away from the cutting assembly 15, meanwhile, the control panel 34 moves towards the direction near the driving rod 353, the roller 354 rotates along the inclined chute 341, the roller 354 presses the control panel 34 downwards, the control panel 34 moves downwards, the roller 354 rotates to reduce the friction resistance between the control panel 34 and the driving rod 353, the control panel 34 is convenient to move vertically, the control panel 34 is separated from the pipe fitting 5, the conveying belt 325 moves towards the direction far away from the cutting assembly 15, the pipe fitting 5 is discharged and conveyed, meanwhile, the baffle 221 blocks the next pipe fitting 5 to discharge along with the pipe fitting 5, the automatic discharging of the pipe fitting 5 is completed, and the automation degree.

Referring to fig. 2 and 4, unloading mechanism 4 includes hopper 41 and dwang 42 down, and hopper 41 rigid coupling is close to control panel 34 department in organism 11 down, and hopper 41 keeps away from control panel 34 one end downward sloping down, and hopper 41 is the U type down, and dwang 42 is provided with a plurality ofly, and a plurality of dwangs 42 are along the even interval distribution of length direction of hopper 41 down, and dwang 42 rotates and connects in hopper 41 bottom down. After pipe fitting 5 breaks away from conveyer belt 325, pipe fitting 5 drops to hopper 41 down in, and pipe fitting 5 slides the unloading along the lower hopper 41 of slope, and dwang 42 rotates simultaneously, and dwang 42 and 5 rolling contact of pipe fitting, dwang 42 have reduced the frictional resistance between pipe fitting 5 and the lower hopper 41, and the 5 unloading of pipe fitting of being convenient for to realize the automatic unloading of pipe fitting 5 and carry, further improved the degree of automation of 5 processing of pipe fitting.

The implementation principle of the tapping machine for slotting the bicycle pipe fitting in the embodiment of the application is as follows: when the pipe fitting 5 is grooved, a plurality of pipe fittings 5 are placed on the feeding hopper 21, one pipe fitting 5 is moved to the pushing assembly 32, the stop rod 33 and the limiting plate 211 are respectively positioned at two sides of the pipe fitting 5, the pushing assembly 32 moves the pipe fitting 5 towards the direction close to the control plate 34, the end part of the pipe fitting 5 is abutted against the control plate 34, then the clamping assembly 14 clamps the pipe fitting 5, the main cylinder 12 is started, the main cylinder 12 pushes the mounting block 13 to move towards the position close to the cutting assembly 15, the cutting assembly 15 cuts one end of the pipe fitting 5 far away from the control plate 34, then the main cylinder 12 drives the mounting block 13 to move towards the direction far away from the cutting assembly 15, meanwhile, the driving assembly 35 moves the control plate 34 downwards, the control plate 34 is separated from the pipe fitting 5, the pushing assembly 32 moves the pipe fitting 5 towards the direction far away from the cutting assembly 15, the pipe fitting 5 moves into the lower hopper 41 to carry out blanking, and loading, grooving and blanking of the pipe fitting 5 are automatically completed, the manpower is saved, and the automation degree of the pipe fitting 5 processing is improved.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides a be used for to grooved tapping machine of bicycle pipe fitting, including tapping machine body (1), be provided with organism (11) on tapping machine body (1), master cylinder (12), installation piece (13), clamping component (14) and cutting assembly (15), master cylinder (12) rigid coupling is on organism (11), master cylinder (12) level sets up, installation piece (13) are fixed continuous with the telescopic link of master cylinder (12), be used for keeping away from clamping component (14) that master cylinder (12) one end was pressed from both sides tightly with pipe fitting (5) and connect on installation piece (13), cutting assembly (15) that are used for cutting pipe fitting (5) to keep away from master cylinder (12) one end are connected on organism (11), its characterized in that: the device is characterized in that a feeding mechanism (2) and a control mechanism (3) are arranged on one side, far away from a cutting assembly (15), of the mounting block (13), the feeding mechanism (2) used for conveying a pipe fitting (5) to the control mechanism (3) is connected to the machine body (11), the control mechanism (3) comprises a fixing plate (31), a material pushing assembly (32), a stop rod (33) and a control plate (34), the fixing plate (31) is fixedly connected to one side, far away from the cutting assembly (15), of the mounting block (13), the material pushing assembly (32) used for moving the pipe fitting (5) towards the side, far away from the cutting assembly (15), is connected to the fixing plate (31), the stop rod (33) is fixedly connected to the fixing plate (31), the stop rod (33) is abutted to one side, far away from the feeding mechanism (2) with the pipe fitting (5), the control plate (34) is connected to the fixing plate (31) in a sliding manner, one end of the control plate (34) and the pipe fitting (5) is abutted to one end of the cutting assembly (15), a driving assembly (35) for driving the control plate (34) to move towards the direction away from the pipe fitting (5) is arranged between the fixing plate (31) and the control plate (34).

2. The tapping machine for grooving bicycle pipe as claimed in claim 1, wherein: the material pushing assembly (32) comprises a support (321), a driving roller (322), a power part (323), a driven roller (324) and a conveying belt (325), the support (321) is fixedly connected to a fixing plate (31), the driving roller (322) and the driven roller (324) are located above the fixing plate (31), the driving roller (322) and the driven roller (324) are rotatably connected to the support (321), the power part (323) for driving the driving roller (322) to rotate is fixedly connected to the support (321), and the conveying belt (325) is sleeved between the driving roller (322) and the driven roller (324).

3. The tapping machine for grooving bicycle pipe as claimed in claim 1, wherein: drive assembly (35) are including fixed block (351), expanding spring (352) and actuating lever (353), fixed block (351) rigid coupling is on control panel (34), be used for connecting between fixed block (351) and fixed plate (31) towards expanding spring (352) that is close to pipe fitting (5) direction mobile control board (34), control panel (34) and fixed plate (31) vertical sliding connection, pipe fitting (5) one side is kept away from in control panel (34) has seted up spout (341), spout (341) upwards are seted up and are extended towards the direction that is close to clamping component (14), actuating lever (353) rigid coupling is on organism (11), organism (11) one end is located spout (341) and slides with control panel (34) and is connected in actuating lever (353).

4. The tapping machine for grooving bicycle pipe as claimed in claim 3, wherein: one end of the driving rod (353) close to the control plate (34) is rotatably connected with a roller (354), and the roller (354) is positioned in the sliding groove (341) and is in rolling contact with the control plate (34).

5. The tapping machine for grooving bicycle pipe as claimed in claim 1, wherein: feeding mechanism (2) are including feeding funnel (21), pterygoid lamina (22) and gag lever post (24), feeding funnel (21) rigid coupling for holding pipe fitting (5) is on organism (11), feeding funnel (21) are located and push away material subassembly (32) top, feeding funnel (21) are kept away from material subassembly one end and are leaned on, pterygoid lamina (22) are provided with two, two pterygoid lamina (22) are located pipe fitting (5) direction of delivery's both sides, pterygoid lamina (22) and control panel (34) that are close to control panel (34) flush the setting, gag lever post (24) rigid coupling is on pterygoid lamina (22), last hopper (21) one side butt is kept away from in gag lever post (24) and pipe fitting (5).

6. The tapping machine for grooving bicycle pipe as claimed in claim 5, wherein: one ends of the two wing plates (22) far away from the pushing assembly (32) incline towards the directions far away from each other.

7. The tapping machine for grooving bicycle pipe as claimed in claim 1, wherein: a blanking hopper (41) is fixedly connected to the position, close to the control plate (34), of the machine body (11), and one end, far away from the control plate (34), of the blanking hopper (41) inclines downwards.

8. The tapping machine for grooving bicycle pipe as claimed in claim 7, wherein: hopper (41) internal rotation is connected with dwang (42) down, and dwang (42) are provided with a plurality ofly, and hopper (41) length direction interval distribution down is followed to a plurality of dwang (42), and dwang (42) rotation direction is the same with pipe fitting (5) moving direction, dwang (42) and pipe fitting (5) rolling contact.

9. The tapping machine for grooving bicycle pipe as claimed in claim 1, wherein: the stop lever (33) is rotatably connected with a sleeve (331), and the rotating direction of the sleeve (331) is the same as the moving direction of the pipe fitting (5).

10. The tapping machine for grooving bicycle pipe as claimed in claim 2, wherein: the outer side of the conveying belt (325) is provided with anti-skid grooves (3251), and the anti-skid grooves (3251) are distributed at intervals along the length direction of the conveying belt (325).

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