JP2021080155A - Tube opening processing device used for manufacturing glass tube - Google Patents

Abstract

To provide a tube opening processing device used for manufacturing a glass tube.SOLUTION: A rotating device including a processing table and installed into the processing table and a support block installed at the right end of the upper end surface of the processing table includes a power space installed in the upper end surface of the support block. A first motor is fixedly installed on the right wall of the power space; since the radius of a glass tube can control the holding range of a holding device, simultaneously a pressure sensor stops holding work and it is unnecessary to control the holding device by human power, a yield substantially increased without damaging the glass tube when controlling the holding device by human power can reduce a loss due to spoiled work in a processing process and improve economic profits of a company.SELECTED DRAWING: Figure 1

Description

The present invention takes up the technical field of glass manufacturing equipment, and specifically is a tube mouth processing apparatus used for manufacturing glass tubes.

Glass is a building material with a long history. With the rapid progress of modern science and technology and the rapid development of applied technology, various glass manufacturing equipment with unique functions have appeared in order to meet the market demand for glass of various types, functions and shapes, and of course glass. The tube is one of them. Most of the existing tube mouth processing devices use a manual jaw chuck to hold and fix the glass tube to the glass tube. The glass tube may be damaged due to an operation error and become a defective product. The present invention is an apparatus capable of solving the above problems.

Chinese Patent Application Publication No. 107008808

Most of the existing tube mouth processing devices use a manual jaw chuck to hold and fix the glass tube to the glass tube. The glass tube may be damaged due to an operation error and become a defective product.

The invention of the present application is realized through the following technical plan.

In order to solve the above problems, the present invention designs a tube mouth processing device used for manufacturing a glass tube, and the tube mouth processing device used for manufacturing a glass tube of the present invention includes a processing table and the above-mentioned processing. A support block is installed at the right end of the upper end surface of the table, a turning device is installed in the processing table and the support block, and the turning device provides a power space installed in the upper end surface of the support block. Including, the first motor is fixedly installed on the right wall of the power space, and the first rotation shaft whose left end extends to the outside is movably connected to the left end of the first motor in the power space. The first oblique tooth gear is fixedly installed on the outer peripheral circular surface of the first rotating shaft, and the second rotating shaft is rotatably installed in the lower wall of the power space of the second rotating shaft. A second oblique tooth gear that meshes with the first oblique tooth gear is fixedly installed at the upper end, a sandwiching device is installed at the left end of the first rotating shaft, and the sandwiching device is mounted on the first rotating shaft. Including a chuck fixedly installed at the left end extending to the outside, the chuck and the first rotating shaft have the same axis, and a gear space is installed in the inner center of the chuck, and the gear space is provided. The rotating disk space is installed on the left wall of the wheel so as to communicate with the gear space, and a gear whose left end extends to the rotating disk space is rotatably installed in the center of the right wall of the gear space. The pinch control space is installed on the front wall of the space so as to communicate with the gear space, and the second motor is fixedly installed in the upper wall of the pinch control space at the lower end of the second motor. Is connected so that the fourth rotating shaft can be transmitted, and a second screw whose left end extends to the gear space is fixedly installed on the outer peripheral surface of the fourth rotating shaft, and the second screw is the gear. The pinching device can adjust the pinching range according to demand by rotating the second screw, and the pipe mouth deforming device is installed on the left side of the upper end surface of the processing table to deform the pipe mouth. The device includes a first slider slidably installed above the left end of the processing table, and a fixed block is fixedly installed below the right end surface of the first slider and is mounted on the upper end surface of the fixed block. The recovery container is installed so as to be removable, and the recovery container can recover the residue that can fall when the pipe opening processing work is performed on the glass tube.

Preferably, the turning device includes an oblique gear space installed in the processing table, the oblique gear space is located below the second rotating shaft, and the lower end of the second rotating shaft is located. A third oblique gear extends in the oblique gear space and is fixedly installed at the lower end of the second rotating shaft, and a third rotating shaft is fixedly installed in the left wall of the oblique gear space. Is rotatably installed, and a fourth oblique gear that meshes with the third oblique gear is fixedly installed at the right end of the third rotating shaft, and upward on the left side of the upper end surface of the processing table. An open first slide groove is formed, a first screw is rotatably installed between the left and right walls of the first slide groove on the left side of the third rotation shaft, and the left end of the third rotation shaft is the first. It extends into one slide groove and is fixedly connected to the right end of the first screw, the lower end of the first slider extends into the first slide groove, and is screwed to the first screw. It is connected by a mountain.

Preferably, the holding device includes a turntable, the turntable is fixedly installed in the center of the left end face of the gear in the turntable space, and opens to the left on the left end face of the turntable. The two second position limiting grooves are arranged in an annular shape, the second position limiting block is slidably installed in the second position limiting groove, and the second position limiting block is slidably installed in the center of the left wall of the turntable space to the left. The through hole to be opened is installed so as to communicate with the turntable space, and three hook block runways are arranged in a ring shape on the circumferential inner wall of the through hole, and the hook block runway is on the left side. A hook block is installed in the hook block runway so that the opening can be slid along the radial direction of the chuck, and the front and rear walls of the hook block runway are separated from the axial direction of the chuck. Are symmetrically communicated with each other by the first position limiting groove, the first position limiting groove is opened in a direction away from the axis, and the first position limiting groove is fixedly connected to the catching block in the first position limiting groove. The first position limiting block is slidably installed, the right wall of the hooking block runway and the left wall of the turntable space are communicated by a communication port, and a connecting rod is provided on the left end surface of the second position limiting block. The connecting rod is fixedly installed, and the left end of the connecting rod extends through the communication port to the hooking block runway and is rotatably connected to the lower end of the hooking block.

Preferably, outside the hooking block runway, a pinching block is fixedly installed at one end of the left end surface of the hooking block close to the axial center, and the end face and the shaft of the pinching block on the side close to the axial center. A contact block space symmetrical to the end face on the side away from the center is installed, the contact block space has an opposite opening direction, and the contact block space is in the radial direction of the contact block space. A contact block that can slide along the above is installed, and a pressure sensor that is electrically connected to the second motor is fixedly installed on the inner wall on the side close to the center of symmetry in the contact block space. The pressure sensor on the same side as one end close to the center of symmetry in the tangent block is fixedly connected by a spring.

Preferably, the tube mouth deforming device includes a second slide groove that opens to the right, the second slide groove is formed at the upper end of the right end surface of the first slider, and is inside the upper wall of the second slide groove. A third motor was fixedly installed in the third motor, a third screw was movably connected to the lower end of the third motor, and a screw thread was connected to the third screw in the second slide groove. The second slider is installed so as to be slidable up and down, the right end of the second slider extends above the collection container, and the contact rod is fixedly installed at the right end of the second slider. A support rod is fixedly installed at the right end of the upper end surface of the second slider outside the slide groove, and a fixing plate is fixedly installed at the upper end of the support rod, and the fixing plate is fixed above the contact rod. A fire starter blower is fixedly installed at the right end of the lower end surface of the plate.

The beneficial effect of the present invention is: In the present invention, the pinching range of the pinching device can be adjusted by the radius of the glass tube, and at the same time, the pinching work is stopped by the pressure sensor and the pinching device does not need to be manually adjusted. The glass tube will not be damaged during adjustment, the yield will be greatly increased, the scrap cost in the processing process will be reduced, and the economic profit of the company will be improved.

In order to explain the present invention in detail with reference to FIGS. 1 to 5 below and to explain the present invention in a convenient manner, the following directions are defined as follows: FIG. 1 is a front view of the apparatus of the present invention, and is described above and below. The left-right front-back direction and the up-down, left-right front-back direction of the self-projection relationship in FIG. 1 are the same.

FIG. 1 is a schematic diagram of the overall configuration of the present invention. FIG. 2 is a cross-sectional view taken from the direction AA in FIG. FIG. 3 is a cross-sectional view taken along the line BB in FIG. FIG. 4 is a cross-sectional view of FIG. 1 from the CC direction. FIG. 5 is an enlarged schematic view of D in FIG.

The present invention relates to a tube mouth processing apparatus used for manufacturing a glass tube, and is mainly applied to a tube mouth processing work, and the present invention will be further described below with reference to drawings.

The tube mouth processing apparatus used for manufacturing the glass tube of the present invention includes a processing table 11, and a support block 12 is installed at the right end of the upper end surface of the processing table 11, and the processing table 11 and the support block 12 are provided with a support block 12. A turning device 101 is installed therein, and the turning device 101 includes a power space 13 installed in the upper end surface of the support block 12, and a first motor 14 is fixed to the right wall of the power space 13. A first rotating shaft 15 having a left end extending to the outside is movably connected to the left end of the first motor 14, and is connected to the outer peripheral circular surface of the first rotating shaft 15 in the power space 13. The one oblique tooth gear 16 is fixedly installed, the second rotating shaft 17 is rotatably installed in the lower wall of the power space 13, and the first oblique tooth is rotatably installed at the upper end of the second rotating shaft 17. A second oblique tooth gear 18 that meshes with the gear 16 is fixedly installed, a sandwiching device 102 is installed at the left end of the first rotating shaft 15, and the sandwiching device 102 is externally mounted on the first rotating shaft 15. A chuck 26 including a chuck 26 fixedly installed at the extending left end, the chuck 26 and the first rotating shaft 15 have the same axis, and a gear space 27 is installed in the inner center of the chuck 26. A rotating disk space 28 is installed on the left wall of the gear space 27 so as to communicate with the gear space 27, and a gear 29 whose left end extends to the rotating disk space 28 at the center of the right wall of the gear space 27. Is rotatably installed, the pinch control space 55 is installed on the front wall of the gear space 27 so as to communicate with the gear space 27, and the second motor 56 is installed in the upper wall of the pinch control space 55. Is fixedly installed, a fourth rotating shaft 57 is movably connected to the lower end of the second motor 56, and the left end extends to the gear space 27 on the outer peripheral surface of the fourth rotating shaft 57. The second screw 58 is fixedly installed, the second screw 58 meshes with the gear 29, and the pinching device 102 can adjust the pinching range according to the demand by rotating the second screw 58. A pipe mouth deforming device 103 is installed on the left side of the upper end surface of the processing table 11, and the pipe mouth deforming device 103 includes a first slider 25 slidably installed above the left end of the processing table 11. A fixed block 45 is fixedly installed on the lower side of the right end surface of the first slider 25, a collection container 46 is detachably installed on the upper end surface of the fixed block 45, and the collection container 46 is attached to a glass tube. On the other hand, it is possible to recover the residue that can be removed when the pipe opening processing work is performed.

Advantageously, the turning device 101 includes an oblique gear space 19 installed in the processing table 11, and the oblique gear space 19 is located below the second rotating shaft 17. The lower end of the second rotating shaft 17 extends into the oblique gear space 19, and the third oblique gear 20 is fixedly installed at the lower end of the second rotating shaft 17, and the oblique gear space is provided. A third rotating shaft 21 is rotatably installed in the left wall of 19, and a fourth oblique gear 22 meshing with the third oblique gear 20 is fixed to the right end of the third rotating shaft 21. A first slide groove 23 opened upward is formed on the left side of the upper end surface of the processing table 11, and is located between the left and right walls of the first slide groove 23 on the left side of the third rotation shaft 21. The first screw 24 is rotatably installed, the left end of the third rotating shaft 21 extends into the first slide groove 23, and is fixedly connected to the right end of the first screw 24. The lower end of the slider 25 extends into the first slide groove 23 and is connected to the first screw 24 by a thread.

Advantageously, the holding device 102 includes a turntable 30, which is fixedly installed in the center of the left end face of the gear 29 in the turntable space 28, and the left end face of the turntable 30. Three second position limiting grooves 37 opening to the left are arranged in an annular shape, and a second position limiting block 38 is slidably installed in the second position limiting groove 37 to rotate. A through hole 31 that opens to the left is installed in the center of the left wall of the board space 28 so as to communicate with the turntable space 28, and three hooking block runways 32 are provided on the circumferential inner wall of the through hole 31. Arranged in an annular shape, the hook block runway 32 opens to the left, and the opening is separated from the axial direction of the chuck 26, and the radius of the chuck 26 is contained in the hook block runway 32. A hook block 33 that can slide along the direction is installed, and the front and rear walls of the hook block runway 32 are symmetrically communicated with each other by the first position limiting groove 34, and the first position limiting groove 34 is in a direction away from the axis. In the first position limiting groove 34, the first position limiting block 35 which is fixedly connected to the hooking block 33 is slidably installed, and the right wall of the hooking block runway 32 and the above. The left wall of the turntable space 28 is communicated with the communication port 36, a connecting rod 39 is fixedly installed on the left end surface of the second position limiting block 38, and the left end of the connecting rod 39 has the communication port 36. It extends through the hooking block runway 32 and is rotatably connected to the lower end of the hooking block 33.

Advantageously, outside the hooking block runway 32, a pinching block 40 is fixedly installed at one end close to the axial center on the left end surface of the hooking block 33, and the pinching block 40 is close to the axial center. A symmetrical contact block space 41 is installed between the end face on the side of the contact block and the end face on the side away from the axis, and the contact block space 41 has opposite opening directions, and is contained in the contact block space 41. Is installed with a contact block 42 that can slide along the radial direction of the contact block space 41, and is connected to the inner wall of the contact block space 41 on the side close to the center of symmetry so that the second motor 56 can be energized. The pressure sensor 43 is fixedly installed, and is fixedly connected to the pressure sensor 43 on the same side as one end close to the center of symmetry in the contact block 42 by a spring 44.

Advantageously, the pipe opening deforming device 103 includes a second slide groove 47 that opens to the right, and the second slide groove 47 is formed at the upper end of the right end surface of the first slider 25, and the second slide. A third motor 48 is fixedly installed in the upper wall of the groove 47, a third screw 49 is movably connected to the lower end of the third motor 48, and the third slide groove 47 is inside the second slide groove 47. A second slider 50 connected to the third screw 49 by a screw thread is installed so as to be slidable up and down, the right end of the second slider 50 extends above the collection container 46, and the second slider 50 A contact rod 51 is fixedly installed at the right end, and a support rod 52 is fixedly installed at the right end of the upper end surface of the second slider 50 outside the second slide groove 47. A fixing plate 53 is fixedly installed at the upper end, and a fire starter blower 54 is fixedly installed at the right end of the lower end surface of the fixing plate 53 above the contact rod 51.

The procedure for using the present invention will be described in detail below with reference to FIGS. 1 to 5.

First, the first slider 25 is in the left limit position, the hook block 33 is in the position farthest from the axis of the chuck 26, and one end of the contact block 42 away from the center of symmetry extends to the outside. ..

During work, the right end of the glass tube is manually placed in the through hole 31, the second motor 56 operates to rotate the second screw 58, and the gear 29 and the turntable 30 are synchronously rotated by meshing, and then caught. The block 33 slides, the pinching block 40 slides together with the hooking block 33, that is, the position of the pinching block 40 can be adjusted according to demand, and one end of the contact block 42 away from the center of symmetry is the inner wall or outer wall of the glass tube. At the time of contact, the contact block 42 is housed in the contact block space 41, the pressure sensor 43 is pressed by the spring 44, the holding block 40 firmly sandwiches the glass tube, and the pressure received by the pressure sensor 43 is set. When the upper limit of is reached, the second motor 56 is stopped, the first motor 14 is activated to rotate the first rotating shaft 15, the first rotating shaft 15 rotates the chuck 26 at high speed, and the first The position limiting groove 34 is rotated at high speed, the first oblique tooth gear 16 is rotated when the first rotating shaft 15 is rotated, the second rotating shaft 17 is rotated by meshing, and the third oblique tooth gear 20 is the second rotating shaft. Driven by 17, it rotates with the second rotating shaft 17, and the meshing causes the third rotating shaft 21 to rotate, rotating the first screw 24, and further sliding the first slider 25 to the right by connecting with a screw thread. At this time, the third motor 48 is started, the third motor 48 rotates the third screw 49, and the second slider 50 is moved up and down by the connection by the screw thread, that is, the diameter of the mouth of the glass tube determines the second slider 50. By adjusting the position, the upper wall of the glass tube is positioned between the abutting rod 51 and the fire blower 54, and if the outer wall of the tube opening of the glass tube is to be processed, the second slider 50 is adjusted. By doing so, the contact rod 51 is positioned above the glass tube, the fire-starting blower 54 blows fire, and when the fire-raising blower 54 moves above the tube mouth of the glass tube along with the first slider 25, the glass tube tube. The mouth can be heated quickly and the pipe mouth can be heated until the pipe mouth can be deformed, and the first slider 25 moves to the right limit position. At this time, the first motor 14 rotates in the reverse direction and slides the first slider 25 to the left. When the one slider 25 slides to the left and the contact rod 51 moves to the place where the pipe opening needs to be machined, the third motor 48 operates to raise and lower the second slider 50, and the second slider 50 moves up and down. Allows the abutting rod 51 to come into contact with the circumferential surface of the glass tube opening, and the shape of the tube opening is changed, causing the fire blower 54 to separate from above the tube opening. When the fire starter 54 stops blowing fire and the glass tube cools, the second motor 56 rotates in the reverse direction and slides the holding block 40 away from the axis, and the glass tube is taken out here. be able to.

According to the above method, an engineer in this field can make various modifications within the scope of the present invention according to the operating condition.

Claims (5)

A support block is installed at the right end of the upper end surface of the processing table including the processing table, a turning device is installed in the processing table and the support block, and the turning device is inside the upper end surface of the support block. The first motor is fixedly installed on the right wall of the power space, and the first rotation shaft whose left end extends to the outside can be transmitted to the left end of the first motor. Connected, the first oblique gear is fixedly installed on the outer peripheral circular surface of the first rotating shaft in the power space, and the second rotating shaft is rotatably installed in the lower wall of the power space. A second oblique gear that meshes with the first oblique gear is fixedly installed at the upper end of the second rotating shaft.
A holding device is installed at the left end of the first rotating shaft, and the holding device includes a chuck fixedly installed at the left end extending to the outside of the first rotating shaft, and the chuck and the first rotating shaft. A gear space is installed in the center of the inside of the chuck, and a rotating disk space is installed on the left wall of the gear space so as to communicate with the gear space. A gear whose left end extends rotatably in the turntable space is rotatably installed in the center of the right wall, and a pinch control space is installed on the front wall of the gear space so as to communicate with the gear space. A second motor is fixedly installed in the upper wall of the space, a fourth rotation shaft is movably connected to the lower end of the second motor, and a left end is connected to the outer peripheral surface of the fourth rotation shaft. A second screw extending in the gear space is fixedly installed, the second screw meshes with the gear, and the pinching device rotates the second screw to increase the pinching range according to demand. Can be adjusted
A tube mouth deforming device is installed on the left side of the upper end surface of the processing table, and the tube port deforming device includes a first slider slidably installed above the left end of the processing table, and the right end of the first slider. A fixed block is fixedly installed on the lower side of the surface, a collection container is detachably installed on the upper end surface of the fixed block, and the collection container can fall when performing a tube opening processing work on a glass tube. A tube mouth processing device used for manufacturing a glass tube, which is characterized in that a residue can be recovered. The turning device includes an oblique gear space installed in the processing table, the oblique gear space is located below the second rotating shaft, and the lower end of the second rotating shaft is the oblique tooth. A third oblique gear extends in the gear space and is fixedly installed at the lower end of the second rotating shaft, and the third rotating shaft can rotate in the left wall of the oblique gear space. A fourth oblique gear that meshes with the third oblique gear is fixedly installed at the right end of the third rotating shaft.
A first slide groove opened upward is formed on the left side of the upper end surface of the processing table, and a first screw is rotatably installed between the left and right walls of the first slide groove on the left side of the third rotation shaft. The left end of the third rotating shaft extends into the first slide groove and is fixedly connected to the right end of the first screw, and the lower end of the first slider is inside the first slide groove. The tube mouth processing apparatus used for manufacturing a glass tube according to claim 1, wherein the tube opening extends to the first screw and is connected to the first screw with a screw thread. The holding device includes a turntable, the turntable is fixedly installed in the center of the left end face of the gear in the turntable space, and the left end face of the turntable opens to the left. The position limiting grooves are arranged in an annular shape, and the second position limiting block is slidably installed in the second position limiting groove.
A through hole that opens to the left is installed in the center of the left wall of the turntable space so as to communicate with the turntable space, and three hooking block runways form an annular shape on the inner wall of the circumference of the through hole. The hook block runway opens to the left, the opening is separated from the axial direction of the chuck, and the hook can slide in the hook block runway along the radial direction of the chuck. Blocks are installed,
The front and rear walls of the catching block runway are symmetrical and communicated with each other by the first position limiting groove, the first position limiting groove is opened in a direction away from the axis, and the hook is inserted in the first position limiting groove. The first position limiting block, which is fixedly connected to the block, is installed so that it can slide.
The right wall of the hooking block runway and the left wall of the turntable space are communicated with each other by a communication port, and a connecting rod is fixedly installed on the left end surface of the second position limiting block, and the left end of the connecting rod is fixed. The pipe opening used for manufacturing the glass tube according to claim 1, wherein the hooking block extends through the communication port to the hooking block runway and is rotatably connected to the lower end of the hooking block. Processing equipment. Outside the hooking block runway, a pinching block is fixedly installed at one end close to the axial center on the left end surface of the hooking block, and is separated from the end face and the axial center on the side close to the axial center in the pinching block. A contact block space symmetrical with the end face on the side is installed, the contact block space has an opposite opening direction, and the contact block space is inside the contact block space along the radial direction of the contact block space. A sliding contact block is installed,
A pressure sensor that is electrically connected to the second motor is fixedly installed on the inner wall on the side close to the center of symmetry in the contact block space, and is on the same side as one end close to the center of symmetry in the contact block. The tube mouth processing apparatus used for manufacturing a glass tube according to claim 3, wherein the pressure sensor is fixedly connected to the pressure sensor according to claim 3. The tube mouth deforming device includes a second slide groove that opens to the right, the second slide groove is formed at the upper end of the right end surface of the first slider, and a second slide groove is formed in the upper wall of the second slide groove. Three motors are fixedly installed, a third screw is movably connected to the lower end of the third motor, and a second slider connected to the third screw with a screw thread in the second slide groove. Is installed so as to be slidable up and down, the right end of the second slider extends above the collection container, and a contact rod is fixedly installed at the right end of the second slider. Externally, a support rod is fixedly installed at the right end of the upper end surface of the second slider, a fixing plate is fixedly installed at the upper end of the support rod, and above the contact rod and below the fixing plate. The pipe opening processing device used for manufacturing a glass tube according to claim 1, wherein a fire-making blower is fixedly installed at the right end of the end face.

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