CN112250286A - Processing device for producing spiral quartz tube - Google Patents

Abstract

The application relates to a processing device for producing a spiral quartz tube, which belongs to the field of quartz tube processing equipment and comprises a box body and a winding mechanism; the winding mechanism comprises a vertically arranged rotating shaft, a clamping mechanism is arranged at the top end of the rotating shaft, a driving piece which can drive the rotating shaft to rotate is arranged at the bottom end of the rotating shaft, and a control mechanism which can drive the driving piece and the rotating shaft to move up and down simultaneously is arranged on the box body. This application has the effect of accelerating spiral quartz capsule production efficiency.

Description

Processing device for producing spiral quartz tube

Technical Field

The application relates to the field of quartz tube processing equipment, in particular to a processing device for producing a spiral quartz tube.

Background

The quartz tube is special industrial technical glass made of silicon dioxide, is a very excellent basic material, has a series of excellent physical and chemical properties, and is widely applied to various fields of electric light sources, semiconductors, optical communication, war industry, metallurgy, building materials, chemistry, machinery, electric power, environmental protection and the like.

When processing the quartz capsule into spiral quartz capsule, at first need heat the quartz capsule through oxyhydrogen gas, make the quartz capsule be heated and become soft, then will be heated the quartz capsule raw materials winding that softens and wait for the quartz capsule cooling on cylindrical design mould, thereby form spiral quartz capsule after the quartz capsule raw materials cooling design.

In view of the above-mentioned related art, the inventors consider that the manner of manual processing described above is inefficient.

Disclosure of Invention

In order to accelerate the processing efficiency of the spiral quartz tube, the application provides a processing device for producing the spiral quartz tube.

The application provides a processingequipment for producing spiral quartz capsule adopts following technical scheme:

a processing device for producing a spiral quartz tube comprises a box body and a winding mechanism; the winding mechanism comprises a vertically arranged rotating shaft, a clamping mechanism is arranged at the top end of the rotating shaft, a driving piece which can drive the rotating shaft to rotate is arranged at the bottom end of the rotating shaft, and a control mechanism which can drive the driving piece and the rotating shaft to move up and down simultaneously is arranged on the box body.

Through adopting above-mentioned technical scheme, when carrying out bolt quartz capsule production, the one end of the quartz capsule after will being heated and softened is passed through fixture and is linked to each other with the pivot, and the driving piece drives the pivot and turns round, and control mechanism drives the pivot and rotates downwards, and along with the rotation of pivot and synchronous upwards or move down to drive the quartz capsule and coil into the heliciform, finally form spiral quartz capsule.

Optionally, a heating mechanism is further arranged on the box body, and the heating mechanism is used for heating the quartz tube raw material.

Through adopting above-mentioned technical scheme, can heat the quartz capsule to make the quartz capsule be heated and soften, thereby when carrying out spiral quartz capsule processing, need not additionally be equipped with heating mechanism and heat the quartz capsule.

Optionally, the heating mechanism includes two vertically arranged support frames and flame burning heads respectively installed at the top ends of the support frames, and flame outlets of the flame burning heads located at the top ends of the two support frames are arranged oppositely.

Through adopting above-mentioned technical scheme, the quartz capsule passes the quartz capsule between two flame burner heads when being heated and softened to guarantee that the quartz capsule is heated evenly, thereby guarantee the softening effect of being heated of quartz capsule.

Optionally, the position of the flame burner head can be adjusted in the horizontal direction as well as in the vertical direction.

Through adopting above-mentioned technical scheme, can adjust the position of flame combustion head according to actual conditions.

Optionally, the support frame includes an adjusting seat fixed on the top end of the box body and a vertically arranged upright, the adjusting seat includes a fixed plate fixed on the box body and a sliding plate located on the top end of the fixed plate, the upright is located on the top end face of the sliding plate, an adjusting structure for adjusting the position of the sliding plate is arranged between the sliding plate and the fixed plate, the flame combustion head is slidably connected with the upright through a sliding sleeve sleeved on the upright, and a fixing member for locking the relative position of the sliding sleeve and the upright is arranged on the sliding sleeve.

Through adopting above-mentioned technical scheme, thereby slide through the control sliding plate and can adjust the position of the horizontal direction of flame combustion head, slide on the stand through the control sliding sleeve to can adjust the height of the vertical direction of flame combustion head.

Optionally, a feeding mechanism is further disposed at the top end of the box body, and the feeding mechanism is located on one side of the heating mechanism, which faces away from the winding mechanism.

Through adopting above-mentioned technical scheme, the quartz capsule can be placed the quartz capsule on feeding mechanism when sending to around rolling up the mechanism to save the handheld power of holding of staff's quartz capsule, reduce staff's intensity of labour.

Optionally, the feeding mechanism includes the support column of vertical setting and is located the pay-off layer board on support column top, be provided with a plurality of direction wheelsets from the one end of pay-off layer board towards heating mechanism to the one end of keeping away from heating mechanism on the pay-off layer board, the direction wheelset includes the roller that vertical or horizontal parallel interval set up relatively.

Through adopting above-mentioned technical scheme, restrict the quartz capsule through the direction wheelset to make the quartz capsule remain stable at the in-process that removes, thereby reduce the broken condition of damage to appear when the quartz capsule moves on feeding mechanism.

Optionally, the transverse distance between the clamping mechanism and the rotating shaft is adjustable.

By adopting the technical scheme, the spiral quartz tubes with different specifications and sizes can be produced.

Optionally, the clamping mechanism is connected with the rotating shaft through a transversely arranged adjusting rod, the clamping mechanism is located at one end of the adjusting rod, an adjusting groove is formed in the adjusting rod, the top end of the rotating shaft is connected with the adjusting groove in a sliding mode, a pressing piece is connected to the top end of the rotating shaft in a threaded mode and used for pressing and fixing the adjusting rod on the top end of the rotating shaft.

Through adopting above-mentioned technical scheme, when the interval between fixture and the pivot is adjusted to needs, loosen and compress tightly the piece, be pivot and adjust the pole between can the relative slip, adjust the pole through removing to can adjust fixture and the distance of pivot, when adjusting to required interval size, will adjust to compress tightly fixedly between pole and the pivot through compressing tightly the piece.

Optionally, the driving part and the control mechanism are both located inside the box body, a communication hole is formed in the top end of the box body, the rotating shaft can penetrate through the communication hole, and the bottom end of the rotating shaft extends into the box body through the communication hole.

Through adopting above-mentioned technical scheme, through setting up driving piece and control mechanism in the inside of box to protect driving piece and control mechanism, make driving piece and actuating mechanism be difficult for receiving external influence.

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

1. when the bolt quartz tube is produced, one end of the quartz tube which is softened by heating is connected with the rotating shaft through the clamping mechanism, the driving piece drives the rotating shaft to rotate, the control mechanism drives the rotating shaft to rotate downwards, and the rotating shaft synchronously moves upwards or downwards along with the rotation of the rotating shaft, so that the quartz tube is driven to be wound into a spiral shape, and finally, the spiral quartz tube is formed;

2. by adjusting the distance between the clamping mechanism and the rotating shaft, spiral quartz tubes with different specifications and sizes can be produced;

3. the position of the flame combustion head can be adjusted according to the requirements of actual production conditions.

Drawings

FIG. 1 is a schematic structural diagram of a processing apparatus for producing a spiral quartz tube according to a first embodiment of the present application;

FIG. 2 is a schematic view of a connection structure between a feeding mechanism and a box body according to a first embodiment of the present application;

FIG. 3 is a schematic view of a connection structure between a heating mechanism and a box body according to a first embodiment of the present application;

FIG. 4 is a schematic view of a connection structure between a winding mechanism and a box according to a first embodiment of the present application;

FIG. 5 is a schematic structural view of a top end of a rotating shaft according to a first embodiment of the present application;

fig. 6 is an exploded view of a connection structure between a rotating shaft and an adjusting rod according to a first embodiment of the present disclosure;

fig. 7 is a schematic structural diagram of a processing apparatus for producing a spiral quartz tube according to the second embodiment of the present application.

Description of reference numerals: 1. a box body; 11. a communicating hole; 2. a feeding mechanism; 21. a support pillar; 211. a base; 212. a connecting rod; 2121. a moving groove; 213. a cylinder; 22. feeding a supporting plate; 23. a first guide wheel set; 231. a first roller shaft; 2311. a first bushing; 232. a fixing sheet; 24. a second guide wheel set; 241. a side plate; 242. a second roller shaft; 2421. a second shaft sleeve; 3. a heating mechanism; 31. a support frame; 311. an adjusting seat; 3111. a fixing plate; 3112. a guide bar; 3113. a vertical plate; 3114. a sliding plate; 3115. a guide block; 3116. adjusting the bolt; 3117. a tension spring; 312. a column; 32. a flame burner head; 33. a sliding sleeve; 34. fixing the bolt; 4. a winding mechanism; 41. a rotating shaft; 411. a threaded hole; 412. an insertion section; 413. a pointer; 42. a first motor; 43. a control mechanism; 431. a slide bar; 432. a motor base; 433. a lead screw; 434. a second motor; 435. a bevel gear; 44. a clamping mechanism; 441. a fixed jaw; 442. a movable jaw; 45. adjusting a rod; 451. an adjustment groove; 452. scale lines; 46. a hold-down bolt; 47. a fine adjustment mechanism; 471. a frame body; 4711. a horizontal segment; 4712. a vertical section; 472. fine-tuning the bolt; 48. a linear pushing device.

Detailed Description

The present application is described in further detail below with reference to figures 1-7.

The first embodiment is as follows:

the embodiment of the application discloses a processing device for producing a spiral quartz tube, which refers to fig. 1 and comprises a hollow box body 1, wherein the top end face of the box body 1 is a horizontal plane. The end surface of the top end of the box body 1 is provided with a feeding mechanism 2, a heating mechanism 3 and a winding mechanism 4, wherein the heating mechanism 3 is positioned between the feeding mechanism 2 and the winding mechanism 4.

In the production of the spiral quartz tube, the raw material of the quartz tube is placed on the feeding mechanism 2 and is fed towards the direction of the winding mechanism 4, the raw material of the quartz tube is firstly heated by the heating mechanism 3 before being sent to the winding mechanism 4 for winding, so that the raw material of the quartz tube is heated and softened, and the raw material of the quartz tube which is heated and softened is finally wound into a spiral shape by the winding mechanism 4.

Referring to fig. 1 and 2, the feeding mechanism 2 includes a supporting column 21 vertically disposed and fixed on the end surface of the top end of the box body 1, and a strip-shaped feeding supporting plate 22 fixed at the top end of the supporting column 21, and the top end of the supporting column 21 is fixedly connected with the feeding supporting plate 22. The feeding pallet 22 is placed horizontally. A plurality of first guide wheel sets 23 are arranged on the upper surface of the feeding pallet 22 at intervals along the length direction of the feeding pallet 22, and a second guide wheel set 24 is arranged between the adjacent first guide wheel sets 23. The length direction of the feeding support plate 22 is the feeding direction of the quartz tube raw material.

The first guide pulley group 23 includes two first roller shafts 231 arranged in the width direction of the feed tray 22, and the first roller shafts 231 are vertically disposed. The distance between the two first rollers 231 enables the quartz tube raw material to pass through. The bottom end of the first roller shaft 231 is provided with a fixing sheet 232 attached to the upper surface of the feeding support plate 22, and the fixing sheet 232 is long. The first roller 231 is located at one end of the fixing plate 232 in the length direction and is fixedly connected with the fixing plate 232. The other end of the fixing piece 232 is fixed with the feeding support plate 22 through a bolt. A first bushing 2311 is fitted around the first roller shaft 231, and the first bushing 2311 is rotatable around the first roller shaft 231.

The second guiding wheel set 24 includes two vertically disposed side plates 241 respectively fixed on two sides of the feeding pallet 22, a second roller 242 disposed in parallel and oppositely is disposed between the two side plates 241, and the second roller 242 is disposed transversely. The distance between the two second rollers 242 allows the raw material of the quartz tube to pass through. Both ends of the second roller shaft 242 are fixed to the two side plates 241, respectively. A second bushing 2421 is sleeved on the second roller shaft 242, and the second bushing 2421 can rotate outside the second roller shaft 242.

When placing the quartz capsule raw materials on the pay-off layer board 22, keep away from the quartz capsule and pass between two first roller 231 on the first direction wheelset 23 and between two second roller 242 on the second direction wheelset 24 in proper order, restrict two directions about the quartz capsule raw materials through first direction wheelset 23, restrict two upper and lower directions of quartz capsule raw materials through second direction wheelset 24, thereby ensure that the quartz capsule raw materials can be stable removing at the in-process that removes.

The support column 21 is provided with rectangular form connecting rod 212 including fixing the base 211 on the terminal surface of box 1 top on being located the top terminal surface of base 211, and connecting rod 212 transversely laminates on the top terminal surface of base 211. A moving groove 2121 provided along the longitudinal direction of the connecting rod 212 is opened on the distal end surface of the connecting rod 212. The connection rod 212 is press-fixed to the base 211 by a bolt passing through the moving slot 2121.

When the position of the connecting rod 212 needs to be moved, the position of the connecting rod 212 can be moved by loosening the bolt pressing the connecting rod 212 and releasing the pressing force of the bolt on the connecting rod 212, and after the position of the connecting rod 212 is moved, the connecting rod 212 is pressed and fixed on the base 211 through the bolt.

A column 213 extending vertically upwards is arranged at one end of the connecting rod 212 in the length direction, and the column 213 and the base 211 are welded and fixed. The top end of the column 213 is fixedly connected with the feeding supporting plate 22.

Referring to fig. 1 and 3, the heating mechanism 3 includes two support frames 31 vertically fixed on the end surface of the top end of the box body 1 and flame combustion heads 32 respectively installed at the top ends of the two support frames 31, and a space between the two flame combustion heads 32 is located in the feeding direction of the feeding mechanism 2. The flame ejection directions of the two flame combustion heads 32 are arranged oppositely. The raw material of the quartz tube fed from the feeding mechanism 2 to the winding mechanism 4 passes through between the two flame burners 32.

The supporting frame 31 includes an adjusting seat 311 fixed on the top end surface of the box 1 and a vertical column 312. Adjust seat 311 including fixing the fixed plate 3111 at box 1 top end terminal surface, the top of fixed plate 3111 is provided with the guide bar 3112 that parallels with the top surface of fixed plate 3111, and riser 3113 and fixed plate 3111 are passed through respectively at the both ends of guide bar 3112 and are fixed continuous, welded fastening between guide bar 3112 and riser 3113, welded fastening between riser 3113 and the fixed plate 3111.

A slide plate 3114 is provided above the guide bar 3112, a guide block 3115 slidably connected to the guide bar 3112 is provided at a bottom end of the slide plate 3114, and the guide block 3115 and the slide plate 3114 are welded and fixed. The guide block 3115 is a rectangular block, and a bottom end surface of the guide block 3115 abuts against a top end surface of the fixing plate 3111.

An adjusting bolt 3116 is respectively arranged on the vertical plate 3113, and the adjusting bolt 3116 is parallel to the guide bar 3112. The adjusting bolts 3116 on the two vertical plates 3113 are all opposite to the guide block 3115. The position of the sliding plate 3114 can be adjusted by turning the two adjusting bolts 3116 on the two vertical plates 3113. A tension spring 3117 is disposed between the guide block 3115 and one of the vertical plates 3113, and two ends of the tension spring 3117 are respectively and fixedly connected between the guide block 3115 and the vertical plate 3113.

The column 312 is vertically fixed to the top end surface of the slide plate 3114.

The flame combustion heads 32 are respectively connected on the upright posts 312 in a sliding way through sliding sleeves 33, and the flame combustion heads 32 and the sliding sleeves 33 are fixed together. The sliding sleeve 33 is sleeved on the upright 312 and can slide up and down on the upright 312. A fixing bolt 34 penetrating through the side wall of the sliding sleeve 33 is connected to the sliding sleeve 33 in a threaded manner, and when the position of the sliding sleeve 33 needs to be fixed, the fixing bolt 34 is rotated to enable the fixing bolt 34 to press the support frame 31, so that the position of the sliding sleeve 33 is fixed.

Referring to fig. 1 and 4, the winding mechanism 4 includes a vertically disposed rotating shaft 41, a communicating hole 11 is disposed on the top end surface of the box 1 to communicate the inside and the outside of the box 1, the aperture of the communicating hole 11 is larger than the diameter of the rotating shaft 41, and the bottom end of the rotating shaft 41 penetrates through the communicating hole 11 to extend into the box 1.

The first motor 42 is arranged in the box body 1 and at the bottom end of the rotating shaft 41, and a motor shaft of the first motor 42 is coaxially arranged with the rotating shaft 41 and is fixedly butted together. The winding mechanism 4 further includes a control mechanism 43 located inside the casing 1 for moving the first motor 42 inside the casing 1.

The control mechanism 43 comprises a slide rod 431 vertically fixed inside the box body 1, the top end of the slide rod 431 is fixedly connected with the top end wall plate of the box body 1, and the bottom end of the slide rod 431 is fixedly connected with the bottom end wall plate of the box body 1. A motor base 432 is slidably connected to the sliding rod 431, and the first motor 42 is fixed to the motor base 432.

The inside that is located box 1 is provided with the lead screw 433 of vertical setting, and the top of lead screw 433 links to each other with the top wallboard gyration of box 1, and the bottom of lead screw 433 links to each other with the bottom wallboard gyration of box 1. The lead screw 433 penetrates through the motor base 432 and is in threaded connection with the motor base 432. The second motor 434 for driving the screw 433 to rotate is arranged in the box body 1, and a motor shaft of the second motor 434 is vertically arranged with the screw 433. The motor shaft of the second motor 434 faces the lead screw 433 and is opposite to the lead screw 433. The second motor 434 is fixed inside the cabinet 1. The motor shaft of the second motor 434 is connected with the lead screw 433 through two bevel gears 435 which are meshed with each other. And two bevel gears 435, wherein one bevel gear 435 is fixedly connected with the lead screw 433, and the other bevel gear 435 is fixedly connected with the motor shaft of the second motor 434.

Referring to fig. 4 and 5, a clamping mechanism 44 for clamping and fixing the quartz tube raw material is disposed at the top end of the rotating shaft 41, and the clamping mechanism 44 is fixedly connected to the rotating shaft 41 through a horizontally disposed and elongated adjusting rod 45. The clamping mechanism 44 is fixed to one end of the adjusting rod 45 in the longitudinal direction.

Referring to fig. 5 and 6, the adjustment lever 45 is located at the top end of the rotation shaft 41. An adjustment groove 451 that is vertically provided and penetrates the adjustment lever 45 is provided in the adjustment lever 45, and the length direction of the adjustment groove 451 is provided along the length direction of the adjustment lever 45. A threaded hole 411 is formed in the end surface of the top end of the rotating shaft 41, a pressing bolt 46 is arranged above the adjusting rod 45, and the pressing bolt 46 passes through the adjusting groove 451 of the adjusting rod 45 and is in threaded connection with the threaded hole 411 in the top end of the rotating shaft 41. The minimum width of the nut of the pressing bolt 46 is larger than the width of the adjustment groove 451 so that the pressing bolt 46 can press and fix the adjustment lever 45 to the top end of the rotation shaft 41 when the screw holes 411 are connected.

The distance between the chucking mechanism 44 and the rotating shaft 41 can be adjusted by adjusting the adjustment groove 451 in the lever 45. Therefore, the spiral quartz tube processing device can process spiral quartz tubes with different spiral sizes.

An insertion part 412 extending into the adjustment groove 451 and slidably connected to the adjustment groove 451 is provided at the tip end of the rotation shaft 41, and the insertion part 412 is integrally formed with the rotation shaft 41. Scale marks 452 are engraved on the side wall of the adjustment lever 45, and the scale marks 452 are disposed along the length direction of the adjustment lever 45. A pointer 413 is fixed to the rotating shaft 41, and the pointer 413 faces a scale 452 on the adjustment lever 45. When the adjusting lever 45 is moved, the pointer 413 is engaged with the scale 452, so that the distance between the clamping mechanism 44 and the rotating shaft 41 can be accurately known.

The adjusting rod 45 is provided with a fine adjustment mechanism 47 far away from the end with the clamping mechanism 44, the fine adjustment mechanism 47 comprises a frame body 471 fixed on the rotating shaft 41, the frame body 471 comprises a horizontal section 4711 transversely arranged and a vertical section 4712 located on the horizontal section 4711 far away from one end of the rotating shaft 41 and extending upwards, and the vertical section 4712 and the horizontal section 4711 are welded and fixed. The vertical section 4712 is horizontally disposed opposite the adjustment rod 45. A trim bolt 472 is provided at a location on the vertical section 4712 opposite the adjustment rod 45 and extends transversely through the vertical section 4712 and is threadably coupled to the vertical section 4712. The axial direction of the fine adjustment bolt 472 is the same as the length direction of the adjustment lever 45.

Referring to FIG. 5, clamping mechanism 44 includes stationary jaw 441 and movable jaw 442 in opposing cooperation, wherein movable jaw 442 is bolted to stationary jaw 441. The fixed claw 441 is fixedly connected with the adjusting rod 45. At the time of clamping the raw material for a quartz tube, the raw material for a quartz tube is passed between movable claws 442 and fixed claws 441, and movable claws 442 are coupled to fixed claws 441 by bolts. Movable claws 442 and fixed claws 441 clamp the raw material of the quartz tube between movable claws 442 and fixed claws 441 by the action of bolts.

The implementation principle of the processing device for producing the spiral quartz tube in the embodiment of the application is as follows: when the spiral quartz tube is processed, a straight tube-shaped quartz tube firstly passes through the first guide wheel set 23 and the second guide wheel set 24 on the feeding support plate 22, one end of the quartz tube facing the winding mechanism 4 is heated and softened by the heating mechanism 3, and after the quartz tube is heated and softened, one end of the quartz tube opposite to the winding mechanism 4 is clamped by the clamping mechanism 44 at the top end of the rotating shaft 41. The first motor 42 and the second motor 434 are started to make the rotating shaft 41 rotate and move downwards at the same time, along with the rotation and descending of the rotating shaft 41, the quartz tube raw material continuously moves towards the winding mechanism 4, the heating mechanism 3 heats the part of the quartz tube raw material passing through the space between the two flame combustion heads 32 to soften the quartz tube raw material, and the heated and softened quartz tube raw material is wound into a spiral shape under the action of the rotation and the downward movement of the rotating shaft 41 to finally form a spiral quartz tube.

Example two:

the embodiment of the application discloses a processing device for producing a spiral quartz tube, and referring to fig. 7, the difference between the second embodiment and the first embodiment is as follows: in the second embodiment, the first motor 42 is driven to move up and down and is controlled by a vertically arranged linear pushing device 48, wherein the linear pushing device 48 can adopt a hydraulic cylinder, an air cylinder and an electric push rod. The top end of the linear pushing device 48 is fixed with the first motor 42, and the bottom end of the linear pushing device 48 is fixed with the bottom end wall plate of the box body 1. The first motor 42 is driven to move up and down by the change of the length of the linear pushing device 48.

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. A processingequipment for producing spiral quartz capsule which characterized in that: comprises a box body (1) and a winding mechanism (4); the winding mechanism (4) comprises a vertically arranged rotating shaft (41), the top end of the rotating shaft (41) is provided with a clamping mechanism (44), the bottom end of the rotating shaft (41) is provided with a driving piece for driving the rotating shaft (41) to rotate, and a control mechanism (43) capable of driving the driving piece and the rotating shaft (41) to move up and down simultaneously is arranged on the box body (1).

2. The processing apparatus for producing a spiral quartz tube according to claim 1, wherein: the box body (1) is further provided with a heating mechanism (3), and the heating mechanism (3) is used for heating the quartz tube raw material.

3. A processing apparatus for producing a spiral quartz tube according to claim 2, characterized in that: the heating mechanism (3) comprises two vertically arranged support frames (31) and flame burning heads (32) respectively arranged at the top ends of the support frames (31), and flame outlets of the flame burning heads (32) positioned at the top ends of the two support frames (31) are oppositely arranged.

4. A processing apparatus for producing a spiral quartz tube according to claim 3, characterized in that: the position of the flame combustion head (32) can be adjusted in the horizontal direction and the vertical direction.

5. The processing apparatus for producing a spiral quartz tube according to claim 4, wherein: the flame combustion head is characterized in that the supporting frame (31) comprises an adjusting seat (311) fixed to the top end of the box body (1) and a vertically arranged upright post (312), the adjusting seat (311) comprises a fixed plate (3111) fixed to the box body (1) and a sliding plate (3114) located at the top end of the fixed plate (3111), the upright post (312) is located on the top end face of the sliding plate (3114), an adjusting structure for adjusting the position of the sliding plate (3114) is arranged between the sliding plate (3114) and the fixed plate (3111), the flame combustion head (32) is connected with the upright post (312) in a sliding mode through a sliding sleeve (33) sleeved on the upright post (312), and a fixing piece for locking the relative position of the sliding sleeve (33) and the upright post (312) is arranged on the sliding sleeve (33).

6. A processing apparatus for producing a spiral quartz tube according to claim 2, characterized in that: the top of box (1) still is provided with feeding mechanism (2), feeding mechanism (2) are located heating mechanism (3) dorsad one side around rolling up mechanism (4).

7. The processing apparatus for producing a spiral quartz tube according to claim 6, wherein: feeding mechanism (2) are including support column (21) of vertical setting and be located pay-off layer board (22) on support column (21) top, be provided with a plurality of direction wheelsets from the one end of pay-off layer board (22) orientation heating mechanism (3) to the one end of keeping away from heating mechanism (3) on pay-off layer board (22), the direction wheelset includes the vertical or horizontal parallel roller that the interval set up relatively.

8. The processing apparatus for producing a spiral quartz tube according to claim 1, wherein: the transverse distance between the clamping mechanism (44) and the rotating shaft (41) is adjustable.

9. The processing apparatus for producing a spiral quartz tube according to claim 8, wherein: clamping mechanism (44) through horizontal regulation pole (45) that sets up with pivot (41) link to each other, clamping mechanism (44) are located the one end department of adjusting pole (45), be provided with adjustment tank (451) on adjusting pole (45), the top of pivot (41) with slide between adjustment tank (451) and link to each other, the top threaded connection of pivot (41) has the piece that compresses tightly, it is used for compressing tightly the regulation pole (45) and fixes to compress tightly the top of pivot (41).

10. The processing apparatus for producing a spiral quartz tube according to claim 1, wherein: the driving piece and the control mechanism (43) are located inside the box body (1), a communication hole (11) is formed in the top end of the box body (1), the rotating shaft (41) can penetrate through the communication hole (11), and the bottom end of the rotating shaft (41) extends into the box body (1) from the communication hole (11).

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