CN116175299B - Dust removal grinding device is used in quartz tube processing - Google Patents

Abstract

The invention discloses a dust removal polishing device for quartz tube processing, which relates to the technical field of quartz tube polishing and comprises a processing box, wherein an electric sliding rail is fixedly arranged on the upper wall surface in the processing box, a first hydraulic cylinder is fixedly arranged on the moving end of the electric sliding rail, a bearing plate is fixedly arranged on the telescopic end of the first hydraulic cylinder, a polishing motor is fixedly arranged on the lower wall surface of the bearing plate, a polishing disc is fixedly arranged on the driving end of the polishing motor, a collecting pipe is fixedly arranged on the bearing plate and positioned on one side of the polishing motor, an impurity collecting device is arranged on the outer side wall surface of the processing box, a flexible guide pipe is fixedly connected between the impurity collecting device and the collecting pipe, and the bearing box is fixedly arranged on the lower wall surface in the processing box.

Description

Dust removal grinding device is used in quartz tube processing

Technical Field

The invention relates to the technical field of quartz tube polishing, in particular to a dust removal polishing device for quartz tube processing.

Background

The quartz tube is special industrial technical glass made of silicon dioxide, and is a very good basic material, the quartz glass has a series of good physical and chemical properties, in the production process of the quartz tube, the quartz tube is required to be polished by a machining polishing procedure after being molded, so that the surface of the quartz tube is smoother and convenient for subsequent use, such as a polishing device for quartz tube machining, in a patent with the publication number of CN208262440U, a polishing device which can polish both sides of the quartz tube simultaneously is designed, the size is smaller, the operation can be conveniently carried out, but the existing polishing device clamps the quartz tube in a process, two clamping buckles are used for clamping the quartz tube at two points, further, the quartz tube is not stable enough, the quartz tube is easy to be subjected to serial positions, such as the polishing device with the name of a center positioning quartz tube, the patent with the publication number of CN217255029U, the center positioning quartz tube polishing device is designed, in actual use, the inner wall of the quartz tube can be supported, the outer wall can be clamped, the quartz tube can be polished comprehensively conveniently, the polishing efficiency can not be left, the work efficiency can be improved, the work efficiency can be reduced, the work station can be saved, the work can be timely and the dust can be recovered, and the dust can be polluted by the dust can be produced by the machine, and the dust can be timely produced by the dust can be timely and polluted by the dust can be recycled.

Disclosure of Invention

In order to collect the piece that produces in time when polishing the quartz capsule, this application provides a quartz capsule processing is with dust removal grinding device.

The invention is realized by the following technical scheme: the utility model provides a quartz tube processing is with dust removal grinding device, includes the processing case, processing incasement upper wall fixed mounting has electronic slide rail, fixed mounting has first pneumatic cylinder on the electronic slide rail mobile end, fixed mounting has the loading board on the flexible end of first pneumatic cylinder, loading board lower wall fixed mounting has the motor of polishing, fixed mounting has the mill on the motor drive end of polishing, and be located motor one side fixed mounting of polishing has the collecting pipe, install impurity collection device on the processing case lateral wall, fixedly connected with flexible pipe between impurity collection device and the collecting pipe, processing incasement lower wall fixed mounting has the loading case, the opening has been seted up to loading case upper wall, fixed mounting has first bearing in the opening, first bearing inner circle fixed mounting has the plummer, install clamping device on the plummer, install the drive blast structure in the loading case, the drive end of drive blast structure is connected with the plummer lower wall, the blast structure's end is connected with impurity collection device.

Through adopting the technical scheme, when the dust removal polishing device for quartz tube processing is used, the quartz tube is placed on the bearing table, the clamping device is used for clamping the quartz tube, the driving blasting structure is started, the driving end of the driving blasting structure drives the bearing table to rotate under the action of the first bearing, the blasting end of the driving blasting structure outputs wind power at the same time, the pressure of the port of the collecting pipe is enabled to be higher than the pressure of the blasting end of the driving blasting structure because the air flow rate of the blasting end of the driving blasting structure is higher than the flow rate of the port of the collecting pipe, the collecting pipe is enabled to generate suction force, at the moment, the electric sliding rail is started to adjust the transverse position of the polishing disc, the first hydraulic cylinder is started to adjust the longitudinal position of the polishing disc, the polishing motor is started, the polishing disc is further enabled to rotate, the outer wall surface and the port of the quartz tube are polished, generated chips are absorbed through the collecting pipe, and the chips are led into the impurity collecting device through the collecting pipe for recycling;

according to the scheme, only the blast structure is driven, so that the quartz tube can rotate to conveniently polish the surface of the quartz tube, suction can be generated simultaneously to collect scraps generated when the quartz tube is polished, and the scheme has the functions of rotation and dust collection through a single driving mode, so that the quartz tube is convenient to polish.

Preferably, the impurity collection device comprises a first box body, first box body fixed mounting is on the processing case lateral wall face, first box body cross-section shape is trapezium structure, first box body upper wall face is trapezium structure hypotenuse, first box body lateral wall face fixed mounting has the pipeline, the pipeline is close to and is being rounded structure between processing case one end upper wall and the first box body upper base angle, the pipeline is close to processing case one end lower wall and first box body lateral wall and is rounded structure, fixed mounting has the collecting box on the pipeline keeps away from processing case one end, the mounting mouth has been seted up to collecting box lateral wall face, fixed mounting has the filter in the mounting mouth, collecting box upper wall face fixed mounting has the second pneumatic cylinder, the flexible end of second pneumatic cylinder runs through in collecting box upper wall face, fixed mounting has the clamp plate on the flexible end of second pneumatic cylinder, collecting box other lateral wall face just is located the pipeline below and is equipped with the discharge gate, the inclined hole has been seted up to the processing case lateral wall face, fixed mounting has the collecting box in the inclined hole, first through pipe body and flexible connection with the fan-flow structure of the other end.

By adopting the technical scheme, the air blast end of the driving air blast structure generates wind force, the flow velocity of the wind force generated by the air blast end of the driving air blast structure is larger than the flow velocity near the port of the through pipe, so that the through pipe generates suction force, and further the flexible guide pipe and the collecting pipe generate suction force, impurities are sucked into the first box body, at the moment, the impurities are blown to the upper end of the first box body along with the wind force generated by the air blast end of the driving air blast structure, and the impurities can smoothly enter the pipeline and be led into the collecting box through the pipeline, the generated wind force can be discharged through the filter plate, the impurities are blocked through the filter plate, when the collecting box needs to be cleaned, the second hydraulic cylinder is started, the telescopic end of the second hydraulic cylinder stretches out, and the pressing plate is pushed to move downwards, so that the pressing plate extrudes the impurities in the collecting box into blocks, the discharging door is opened, and the blocked impurities are taken out;

in the scheme, the blowing end of the driving blowing structure generates wind power, and can blow the extracted impurities to the pipeline and enter the collecting box while generating suction force, and the impurities can be extruded and treated through the second hydraulic cylinder and the pressing plate, so that the impurities can be collected and discharged conveniently.

Preferably, the pipeline is obliquely arranged on the side wall surface of the first box body.

Through adopting above-mentioned technical scheme, impurity can slide to the collecting box along the pipeline inclined plane in, and impurity gets into the collecting box fast under the effect of wind-force and inclined pipeline to realize quick guide action to impurity.

Preferably, the drive blast structure includes the second bearing, the mounting groove has been seted up to wall under the processing incasement and be located the loading end incasement, second bearing fixed mounting is in the mounting groove, second bearing inner race fixed mounting has the bull stick, wall fixed connection under bull stick upper end and the loading end, fixed mounting has driven gear on the bull stick, wall under the processing incasement and be located bull stick one side fixed mounting has the bellows, the bellows is located the loading end, fixed mounting has the double-end motor in the bellows, double-end motor upper end runs through bellows and fixed mounting has the driving gear, driving gear and driven gear meshing are connected, double-end motor lower extreme drive end is located bellows and fixed mounting has the blade, first ventilation hole has been seted up to the bellows upper wall, the second ventilation hole has been seted up under the processing case and is located the loading end incasement, the second ventilation hole is located the bull stick opposite side, processing incasement wall just is located the bellows one side fixed mounting has the bellows, fixed mounting has the drive motor in the bellows, drive motor is located the drive motor in the bellows and is located a blow tube one side under the port, the blast tube other end is located one side of blow tube under the port.

By adopting the technical scheme, the upper end driving end of the double-headed motor is started to drive the driving gear to rotate, and the driving gear is meshed with the driven gear to drive the rotating rod to rotate under the action of the second bearing, the rotating rod rotates to drive the bearing table to rotate, the bearing table drives the quartz tube to rotate, meanwhile, the lower end driving end of the double-headed motor rotates to drive the blades to rotate, the blades generate wind power during rotation, the wind power circulates through the blast pipe and is discharged through the other end of the blast pipe, so that the air flow rate at the port of the through pipe is increased, the pressure at the port of the through pipe is reduced, and the wind power flows through the second ventilation hole, the first ventilation hole and the filter hole on the filter plate;

through the effect of double-end motor in this scheme, both can make the plummer rotate through double-end motor, can produce the wind-force of flow again through double-end motor for the air velocity of flow of siphunculus port department increases, reduces the pressure of siphunculus port department, thereby produces the suction, and this scheme not only produces the rotation force but also produces the suction through single driven mode.

Preferably, the collecting box lower wall surface fixed mounting has the gusset plate, gusset plate and processing case lateral wall surface fixed connection, fixed mounting has the strengthening rib between gusset plate and the processing case lateral wall surface, the mounting hole has been seted up on the gusset plate, the blast pipe runs through in the mounting hole.

Through adopting above-mentioned technical scheme, the gusset plate can support the collecting box to impurity when can carrying out the ejection of compact door ejection of compact is accepted, through the triangle-shaped structure that strengthening rib, gusset plate and processing case lateral wall formed, plays the stable reinforcement effect to the collecting box.

Preferably, the number of teeth of the driven gear is greater than the number of teeth of the driving gear.

Through adopting above-mentioned technical scheme, because driving gear is connected with driven gear meshing, the principle that the number of teeth is bigger rotational speed is slower is not needed to the plummer, and then reduces the rotation that the double-end motor upper end drive end produced through driven gear, prevents that plummer rotational speed from being too fast.

Preferably, the outer wall surface of the blast box and the outer wall surface of the blast pipe are respectively fixedly provided with a heating plate, and the inner diameter of the port at the other end of the blast pipe is smaller than the inner diameter of the pipe body of the blast pipe.

Through adopting above-mentioned technical scheme, the hot plate heats blast box inside and blast pipe inside, and then make blast box inside and blast pipe inside temperature rise, air volume expansion increases pressure, and then accelerate the air velocity of flow, the blast pipe other end port internal diameter is less than blast pipe body internal diameter, reduce the internal diameter of blast pipe other end port, and then reduce the circulating cross-sectional area of air, thereby to the further promotion of velocity of flow of air, make the air velocity of flow increase that the siphunculus one end port goes out, and then reduce the pressure of siphunculus one end port, increase suction.

Preferably, the clamping device comprises a moving part and a triggering part, the moving part comprises four sliding grooves with the same structure, a sliding block is arranged in the sliding groove in a sliding mode, the upper wall surface of the sliding block is exposed out of the sliding groove, the triggering part is fixedly arranged on the upper wall surface of the sliding block, a reserved groove is formed in the lower wall surface of the sliding block, rotating motors are fixedly arranged on two side wall surfaces in the reserved groove, a transmission gear is fixedly arranged between driving ends of the rotating motors, and racks are fixedly arranged on the lower wall surface of the sliding groove and are in meshed connection with the transmission gear.

By adopting the technical scheme, the rotating motor is started, the driving end of the rotating motor drives the transmission gear to rotate, and then the sliding block is driven to move along the sliding groove path under the condition that the transmission gear is meshed with the rack, so that the triggering part on the sliding block simultaneously moves inwards, and further the quartz tube is clamped and fixed at four points;

according to the scheme, the quartz tube is clamped and fixed in a multi-point clamping mode, so that the stability of the quartz tube on the bearing table is improved.

Preferably, the cross section of the sliding groove is in a cross-shaped structure, the cross section of the sliding block is in an inverted T-shaped structure, and the rack is fixedly arranged on the lower wall surface of the vertical end of the cross-shaped structure of the sliding groove.

Through adopting above-mentioned technical scheme, the horizontal end phase-match of the horizontal end of the type structure slider of falling T and cross structure spout, the vertical end upper end of type structure slider of falling T exposes in the vertical end upper end of cross structure spout, and then prevents that slider cluster from shifting out the spout for slider and spout sliding fit in, possess limit function simultaneously.

Preferably, the triggering part comprises a clamping box, the clamping box is fixedly arranged on the upper wall surface of the sliding block, four through holes are formed in the side wall surface of the clamping box, supporting rods are inserted into the through holes, one end of each supporting rod is located in the clamping box and fixedly provided with a baffle, a spring is fixedly arranged between the baffle and the inner wall surface of the clamping box, a pressure sensor is fixedly arranged between the inner wall surface of the clamping box and the spring, the other end of each supporting rod is exposed out of the clamping box, a top plate is fixedly arranged between the other ends of the supporting rods, a triggering rod is fixedly arranged at the center of the top plate, a jack is formed in the center of the side wall surface of the clamping box, and one end of each triggering rod penetrates through the jack and corresponds to the pressure sensor.

Through adopting the technical scheme, when the clamping box simultaneously moves inwards, the top plate firstly contacts with the outer wall surface of the quartz tube, meanwhile, the top plate pushes the supporting rod, so that the supporting rod moves into the clamping box, the baffle plate at the lower end of the supporting rod extrudes the spring, the spring is compressed and deformed, the spring pushes the baffle plate due to the mutual principle of the action of force, and then the top plate and the quartz tube are indirectly contacted tightly, meanwhile, the trigger rod simultaneously moves into the clamping box, the pressure sensor is extruded, the pressure sensor receives a pressure signal and transmits the pressure signal to the controller connected with the processing box, and the controller controls the rotating motor to stop working;

according to the scheme, the working of the rotating motor is controlled to stop in a pressure sensing mode, so that the quartz tube is automatically clamped in the middle, and the working efficiency of quartz tube clamping is improved.

Advantageous effects

The invention provides a dust removal polishing device for quartz tube processing, which has the following beneficial effects:

1. according to the invention, the clamping device is used for clamping the quartz tube, the moving part drives the clamping box to move inwards, so that the top plate is indirectly used for clamping the quartz tube at four points, the quartz tube is further clamped and fixed at multiple points in a centering manner, the pressure sensor is used for detecting a pressure signal when the top plate is contacted with the quartz tube through the triggering device, and the rotation motor is indirectly stopped to work, so that the quartz tube is fixed, the quartz tube clamping device is suitable for quartz tubes with any size and diameter, and the stability of the quartz tube during processing is improved.

2. Through the drive blast structure, both can drive the plummer rotation for the quartz capsule rotates when processing, improves polishing efficiency, can adopt the mode of same drive end to produce wind-force again, and according to the principle that one side pressure that the air velocity of flow is big is little, realizes that the collecting pipe collects the impurity that produces when polishing, prevents impurity when polishing and splashes, prevents impurity pollution station environment.

3. Through impurity collection device, collect the impurity, the impurity is with the wind-force that the drive blast structure produced, directly with the impurity blow in the collecting box in collect, when regularly clear up the collecting box, through the combination of second pneumatic cylinder with the clamp plate, compaction with the impurity, quartz capsule clout recycle in the impurity of being convenient for.

Drawings

Fig. 1 is a schematic diagram of a front view structure of a dust removal polishing device for quartz tube processing according to the present invention.

Fig. 2 is a schematic cross-sectional structure diagram of a dust removal polishing device for quartz tube processing according to the present invention.

Fig. 3 is a schematic diagram of a driving air blast structure of the dust removal polishing device for quartz tube processing.

Fig. 4 is a schematic view of the structure of the other end port of the blast pipe of the dust removal polishing device for quartz pipe processing according to the present invention.

Fig. 5 is a schematic view of a moving part of the dust removal polishing device for quartz tube processing.

Fig. 6 is a schematic top view of a trigger part of the dust removal polishing device for quartz tube processing according to the present invention.

Fig. 7 is a schematic diagram of a tesla valve of the dust removal polishing device for quartz tube processing.

In the figure: 1. a processing box; 2. an electric slide rail; 3. a first hydraulic cylinder; 4. a carrying plate; 5. polishing a motor; 6. polishing the grinding disc; 7. a collection pipe; 8. a flexible conduit; 9. a carrying case; 10. a first bearing; 11. a carrying platform; 12. a first case; 13. a pipe; 14. a collection box; 15. a filter plate; 16. a second hydraulic cylinder; 17. a pressing plate; 18. a discharge door; 19. a through pipe; 20. a second bearing; 21. a rotating rod; 22. a driven gear; 23. a blow box; 24. a double-ended motor; 25. a drive gear; 26. a blade; 27. a first vent; 28. a second vent hole; 29. a blast pipe; 30. a heating plate; 31. a chute; 32. a slide block; 33. a rotating motor; 34. a transmission gear; 35. a rack; 36. a clamping box; 37. a support rod; 38. a baffle; 39. a spring; 40. a pressure sensor; 41. a top plate; 42. a trigger lever; 43. a reinforcing plate; 44. reinforcing ribs; 45. a tesla valve; 46. a quartz tube.

Description of the embodiments

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

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

Referring to fig. 1-2, a dust removal polishing device for quartz tube processing comprises a processing box 1, an electric slide rail 2 is fixedly arranged on the upper wall surface in the processing box 1, a first hydraulic cylinder 3 is fixedly arranged on the moving end of the electric slide rail 2, a bearing plate 4 is fixedly arranged on the telescopic end of the first hydraulic cylinder 3, a polishing motor 5 is fixedly arranged on the lower wall surface of the bearing plate 4, a polishing disc 6 is fixedly arranged on the driving end of the polishing motor 5, a collecting pipe 7 is fixedly arranged on one side of the bearing plate 4, an impurity collecting device is arranged on the outer wall surface of the processing box 1, a flexible conduit 8 is fixedly connected between the impurity collecting device and the collecting pipe 7, a bearing box 9 is fixedly arranged on the lower wall surface in the processing box 1, an opening is formed in the upper wall surface of the bearing box 9, a first bearing 10 is fixedly arranged in the opening, a bearing table 11 is fixedly arranged on the inner ring of the first bearing 10, a clamping device is arranged on the bearing table 11, a driving blast structure is arranged in the bearing box 9, the driving end of the driving blast structure is connected with the lower wall surface of the bearing table 11, and the driving structure is connected with the impurity collecting device.

The quartz tube is clamped through the clamping device, the driving blasting structure is started, the driving end driving bearing table 11 of the driving blasting structure is further enabled to rotate under the action of the first bearing 10, wind power is output from the blasting end of the driving blasting structure at the same time, the air flow rate generated by the blasting end of the driving blasting structure is larger than the flow rate of the port of the collecting tube 7, the pressure of the port of the collecting tube 7 is higher than the pressure of the blasting end of the driving blasting structure, the collecting tube 7 is enabled to generate suction force, the electric sliding rail 2 is started to adjust the transverse position of the polishing disc 6, the first hydraulic cylinder 3 is started to adjust the longitudinal position of the polishing disc 6, the polishing motor 5 is started, the polishing disc 6 is enabled to rotate, polishing is carried out on the outer wall surface of the quartz tube, generated chips are absorbed through the collecting tube 7, and the chips are led into the flexible guide tube 8 through the collecting tube 7, and are led into the impurity collecting device through the flexible guide tube 8 for recycling.

Referring to fig. 2, the impurity collecting device includes a first box 12, the first box 12 is fixedly mounted on the outer side wall surface of the processing box 1, the cross section of the first box 12 is in a trapezoid structure, the upper wall surface of the first box 12 is a trapezoid structure bevel edge, a pipeline 13 is fixedly mounted on the side wall surface of the first box 12, the pipeline 13 is close to the upper wall of one end of the processing box 1 and forms a round angle structure with the upper bottom corner of the first box 12, the pipeline 13 is close to the lower wall of one end of the processing box 1 and forms a round angle structure with the side wall of the first box 12, a collecting box 14 is fixedly mounted on one end of the pipeline 13 far away from the processing box 1, a mounting opening is formed in the side wall surface of the collecting box 14, a filter plate 15 is fixedly mounted in the mounting opening, a second hydraulic cylinder 16 is fixedly mounted on the upper wall surface of the collecting box 14, a telescopic end of the second hydraulic cylinder 16 penetrates through the upper wall surface of the collecting box 14, a pressing plate 17 is fixedly mounted on the telescopic end of the second hydraulic cylinder 16, the other side wall surface of the collecting box 14 is positioned below the pipeline 13, a discharging door 18 is formed in the side wall surface of the processing box 1, a tilting hole is formed in the side wall surface of the processing box 1, a through pipe 19 is fixedly mounted in the tilting hole, one end 19 is fixedly connected with the first box 12 and is fixedly connected with a flexible duct 12, and the other end of the first box 12 is fixedly connected with a driving structure 12, and is fixedly connected with the other end of the driving structure, and is connected with the first duct 8.

The blowing end of the driving blowing structure generates wind force, the flow speed of the wind force generated by the blowing end of the driving blowing structure is larger than the flow speed near the port of the through pipe 19, so that the through pipe 19 generates suction force, the flexible guide pipe 8 and the collecting pipe 7 generate suction force, impurities are sucked into the first box body 12, at the moment, the impurities are blown to the upper end of the first box body 12 along with the wind force generated by the blowing end of the driving blowing structure, the connection part of the first box body 12 and the pipeline 13 is in a round-angle structure, the impurities can smoothly enter the pipeline 13 and be led into the collecting box 14 through the pipeline 13, the generated wind force can be discharged through the filter plate 15, the impurities are blocked through the filter plate 15, when the collecting box 14 needs to be cleaned, the second hydraulic cylinder 16 is started, the telescopic end of the second hydraulic cylinder 16 stretches out, the pressing plate 17 is pushed to move downwards, the pressing plate 17 extrudes the impurities in the collecting box 14 into blocks, and the discharging door 18 is opened, and the impurities are taken out.

The pipe 13 is installed obliquely to the side wall surface of the first casing 12.

Impurities can slide into the collecting box 14 along the inclined surface of the pipeline 13, and the impurities rapidly enter the collecting box 14 under the action of wind power and the inclined pipeline 13, so that rapid guiding effect on the impurities is realized.

Referring to fig. 3-4, the driving blast structure includes a second bearing 20, a lower wall surface in the processing box 1 and located in the bearing box 9 is provided with a mounting groove, the second bearing 20 is fixedly mounted in the mounting groove, an inner ring of the second bearing 20 is fixedly mounted with a rotating rod 21, an upper end of the rotating rod 21 is fixedly connected with a lower wall surface of the bearing table 11, a driven gear 22 is fixedly mounted on the rotating rod 21, a blast box 23 is fixedly mounted on one side of the rotating rod 21 in the lower wall surface in the processing box 1, the blast box 23 is located in the bearing box 9, a double-headed motor 24 is fixedly mounted in the blast box 23, an upper end driving end of the double-headed motor 24 penetrates through the blast box 23 and is fixedly mounted with a driving gear 25, the driving gear 25 is meshed with the driven gear 22, a lower end driving end of the double-headed motor 24 is located in the blast box 23 and is fixedly mounted with a blade 26, a first ventilation hole 27 is formed in the upper wall surface of the blast box 23, a second ventilation hole is formed in the bearing box 9, the second ventilation hole is formed in the other side of the bearing box 21, a reserved hole is formed below the processing box 1, the blast box 23 is located below the blast box 23, a reserved pipe 29 is fixedly mounted in the reserved pipe, and one end of the blade 29 is located under the blast pipe 29 is located below the blast box 12 and one side of the blast pipe end is located below the port 19.

Starting the double-headed motor 24, the upper end driving end of the double-headed motor 24 rotates to drive the driving gear 25 to rotate, and further, the driven gear 22 drives the rotating rod 21 to rotate under the action of the second bearing 20 due to the fact that the driving gear 25 is meshed with the driven gear 22, the rotating rod 21 rotates to drive the bearing table 11 to rotate, the bearing table 11 drives the quartz tube to rotate, meanwhile, the lower end driving end of the double-headed motor 24 rotates to further drive the blades 26 to rotate, the blades 26 generate wind force during rotation, the wind force circulates through the blast pipe 29 and is discharged through the other end of the blast pipe 29, the air flow rate at the port of the through pipe 19 is increased, the pressure at the port of the through pipe 19 is reduced, the second ventilation hole, the first ventilation hole and the filter hole in the filter plate 15 enable wind force to flow, and in the scheme, through the effect of the double-headed motor 24, the bearing table 11 can be rotated through the double-headed motor 24, and flowing wind force can be generated through the double-headed motor 24, so that the air flow rate at the port of the through pipe 19 is increased, the pressure at the port of the through pipe 19 is reduced, and suction force is generated.

The lower wall surface of the collecting box 14 is fixedly provided with a reinforcing plate 43, the reinforcing plate 43 is fixedly connected with the side wall surface of the processing box 1, a reinforcing rib 44 is fixedly arranged between the reinforcing plate 43 and the side wall surface of the processing box 1, the reinforcing plate 43 is provided with a mounting hole, and the blast pipe 29 penetrates through the mounting hole.

The reinforcing plate 43 can support the collecting box 14 and can bear blocky impurities during discharging of the discharging door 18, and the reinforcing ribs 44, the reinforcing plate 43 and the triangular structure formed by the side wall of the processing box 1 play a role in stabilizing and reinforcing the collecting box 14.

The number of teeth of the driven gear 22 is larger than that of the driving gear 25.

Because the driving gear 25 is meshed with the driven gear 22, the larger the number of teeth is, the slower the rotating speed is, the faster the rotating speed of the bearing table 11 is not needed, and the rotation generated by the upper end driving end of the double-headed motor 24 is further decelerated through the driven gear 22, so that the rotating speed of the bearing table 11 is prevented from being too fast.

The outer wall surface of the blast box 23 and the outer wall surface of the blast pipe 29 are respectively fixedly provided with a heating plate 30, and the inner diameter of the port at the other end of the blast pipe 29 is smaller than the inner diameter of the pipe body of the blast pipe 29.

The heating plate 30 heats the inside of the blast box 23 and the inside of the blast pipe 29, so that the temperature inside the blast box 23 and the inside of the blast pipe 29 are increased, the air volume expansion increases the pressure, the air flow rate is accelerated, the inner diameter of the port at the other end of the blast pipe 29 is smaller than the inner diameter of the pipe body of the blast pipe 29, the inner diameter of the port at the other end of the blast pipe 29 is reduced, the circulating cross section area of air is reduced, the flow rate of air is further improved, the air flow rate at the port at one end of the through pipe 19 is increased, the pressure at the port at one end of the through pipe 19 is reduced, and the suction force is increased.

Referring to fig. 5-6, the clamping device comprises a moving part and a triggering part, the moving part comprises four sliding grooves 31 with the same structure, a sliding block 32 is slidably installed in the sliding grooves 31, the upper wall surface of the sliding block 32 is exposed out of the sliding grooves 31, the triggering part is fixedly installed on the upper wall surface of the sliding block 32, a reserved groove is formed in the lower wall surface of the sliding block 32, rotating motors 33 are fixedly installed on two side wall surfaces in the reserved groove, a transmission gear 34 is fixedly installed between driving ends of the rotating motors 33, racks 35 are fixedly installed on the lower wall surface of the sliding grooves 31, and the transmission gear 34 is meshed with the racks 35.

The rotating motor 33 is started, the driving end of the rotating motor 33 drives the transmission gear 34 to rotate, and then under the condition that the transmission gear 34 is meshed with the rack 35, the sliding block 32 is driven to move along the path of the sliding groove 31, so that the triggering part on the sliding block 32 simultaneously moves inwards, and then the quartz tube is clamped and fixed at four points.

The cross section of the chute 31 is in a cross-shaped structure, the cross section of the sliding block 32 is in an inverted T-shaped structure, and the rack 35 is fixedly arranged on the lower wall surface of the vertical end of the cross-shaped structure of the chute 31.

The transverse end of the inverted T-shaped structure sliding block 32 is matched with the transverse end of the cross-shaped structure sliding groove 31, the upper end of the vertical end of the inverted T-shaped structure sliding block 32 is exposed out of the upper end of the vertical end of the cross-shaped structure sliding groove 31, and further the sliding block 32 is prevented from being displaced out of the sliding groove 31 in a serial manner, so that the sliding block 32 is in sliding fit with the sliding groove 31, and meanwhile, the sliding block has a limiting function.

The trigger part comprises a clamping box 36, the clamping box 36 is fixedly arranged on the upper wall surface of the sliding block 32, four through holes are formed in the side wall surface of the clamping box 36, a supporting rod 37 is inserted into the four through holes, one end of the supporting rod 37 is positioned in the clamping box 36 and fixedly provided with a baffle 38, a spring 39 is fixedly arranged between the baffle 38 and the inner wall surface of the clamping box 36, a pressure sensor 40 is fixedly arranged between the inner wall surface of the clamping box 36 and the spring 39, the other end of the supporting rod 37 is exposed out of the clamping box 36, a top plate 41 is fixedly arranged between the other ends of the supporting rod 37, a trigger rod 42 is fixedly arranged at the center of the top plate 41, a jack is formed in the center of the side wall surface of the clamping box 36, and one end of the trigger rod 42 penetrates through the jack and corresponds to the pressure sensor 40.

When the clamping box 36 moves inwards simultaneously, the top plate 41 firstly contacts the outer wall surface of the quartz tube, meanwhile, the top plate 41 pushes the supporting rod 37, the supporting rod 37 moves towards the clamping box 36, the baffle 38 at the lower end of the supporting rod 37 presses the spring 39, the spring 39 is compressed and deformed, the spring 39 pushes the baffle 38 due to the mutual principle of the action of force, the top plate 41 is in close contact with the quartz tube indirectly, meanwhile, the trigger rod 42 moves towards the clamping box 36 simultaneously, the pressure sensor 40 is pressed, the pressure sensor 40 receives a pressure signal and transmits the pressure signal to the controller connected with the processing box 1, and the controller controls the rotating motor 33 to stop working.

The detailed connection means are known in the art, and the following mainly describes the working principle and process, and the specific work is as follows.

Example 1: in use, the quartz tube 46 is placed on the carrying platform 11, at this time, the rotating motor 33 is started, the driving end of the rotating motor 33 rotates, and then the transmission gear 34 is driven to rotate, the transmission gear 34 is meshed with the rack 35, and then the gear drives the sliding block 32 to move along the path of the rack 35, and then the sliding block 32 moves along the path of the sliding groove 31 until the clamping box 36 moves inwards until the top plate 41 contacts with the outer wall of the quartz tube 46, at this time, the top plate 41 pushes the supporting rod 37, so that the supporting rod 37 pushes the baffle 38 to compress the spring 39, the spring 39 releases thrust to the baffle 38, indirectly, the top plate 41 is tightly contacted with the outer wall surface of the quartz tube 46 due to the principle of the action of force, meanwhile, the trigger rod 42 moves into the clamping box 36, and then the trigger rod 42 contacts with the pressure sensor 40, the pressure sensor 40 detects a pressure signal, and transmits the pressure signal to the external controller, at this time, the rotating motor 33 stops working, so that the quartz tube 46 is clamped and fixed on the bearing table 11 by four points, the double-head motor 24 is started, the upper end driving end and the lower end driving end of the double-head motor 24 rotate simultaneously, the upper end driving end rotates to drive the driving gear 25 to rotate, the driven gear 22 is meshed and connected with the driven gear 22, the driven gear 22 rotates and drives the rotating rod 21 to rotate under the action of the second bearing 20, the rotating rod 21 drives the bearing table 11 to rotate under the action of the first bearing 10, the quartz tube 46 rotates, the number of teeth of the driving gear 25 is less than the number of teeth of the driven gear 22, the transfer of the driven gear 22 is less than the rotating speed of the driving gear 25, the rotating speed of the bearing table 11 is not particularly fast, the lower end driving end of the double-head motor 24 rotates and drives the blades 26 to rotate, the blades 26 are rotated to generate wind power, which blows into the blower tube 29 from the blower box 23 and is discharged into the first box 12 through the blower tube 29, and in the secondary process, the heating plate 30 is activated, at which time the temperature of the blower box 23 and the blower tube 29 is raised, and the pressure is increased due to the volumetric expansion of the raised gas temperature, thereby increasing the flow rate of the gas in the blower box 23 and the blower tube 29, and the inner diameter of the port at the other end of the blower tube 29 is reduced, thereby reducing the cross-sectional area of the gas flow, thereby again increasing the flow rate of the air flowing out of the blower tube 29, at which time the flow rate of the air is increased near the port of the tube 19, thereby reducing the pressure at the port of the tube 19, and the pressure at the port of the flexible conduit 8 and the collecting tube 7, which are communicated at the other end of the tube 19, is strong, thereby causing the port of the collecting tube 7 to generate suction, at this moment, start electronic slide rail 2, and then adjust the transverse position of polishing dish 6, start first pneumatic cylinder 3, and then adjust the vertical position of polishing dish 6, start polishing motor 5, polishing motor 5 drives polishing dish 6 and rotates, and then make polishing dish 6 polish processing to quartz tube 46, the impurity of polishing production, inhale through collecting pipe 7, and import first box 12 through flexible pipe 8 and siphunculus 19, impurity is along with blast pipe 29 exhaust air current business turn over pipeline 13, and guide into collecting box 14 through pipeline 13, the impurity blocks through filter 15, when needs clear up collecting box 14, start second pneumatic cylinder 16, the flexible end of second pneumatic cylinder 16 promotes clamp plate 17, carry out the compaction with impurity in the collecting box 14, discharge gate 18 discharges impurity through opening.

Example 2: in use, the quartz tube 46 is placed on the carrying platform 11, at this time, the rotating motor 33 is started, the driving end of the rotating motor 33 rotates, and then the transmission gear 34 is driven to rotate, the transmission gear 34 is meshed with the rack 35, and then the gear drives the sliding block 32 to move along the path of the rack 35, and then the sliding block 32 moves along the path of the sliding groove 31 until the clamping box 36 moves inwards until the top plate 41 contacts with the outer wall of the quartz tube 46, at this time, the top plate 41 pushes the supporting rod 37, so that the supporting rod 37 pushes the baffle 38 to compress the spring 39, the spring 39 releases thrust to the baffle 38, indirectly, the top plate 41 is tightly contacted with the outer wall surface of the quartz tube 46 due to the principle of the action of force, meanwhile, the trigger rod 42 moves into the clamping box 36, and then the trigger rod 42 contacts with the pressure sensor 40, the pressure sensor 40 detects a pressure signal, and transmits the pressure signal to the external controller, at this time, the rotating motor 33 stops working, so that the quartz tube 46 is clamped and fixed on the bearing table 11 by four points, the double-head motor 24 is started, the upper end driving end and the lower end driving end of the double-head motor 24 rotate simultaneously, the upper end driving end rotates to drive the driving gear 25 to rotate, the driven gear 22 is meshed and connected with the driven gear 22, the driven gear 22 rotates and drives the rotating rod 21 to rotate under the action of the second bearing 20, the rotating rod 21 drives the bearing table 11 to rotate under the action of the first bearing 10, the quartz tube 46 rotates, the number of teeth of the driving gear 25 is less than the number of teeth of the driven gear 22, the transfer of the driven gear 22 is less than the rotating speed of the driving gear 25, the rotating speed of the bearing table 11 is not particularly fast, the lower end driving end of the double-head motor 24 rotates and drives the blades 26 to rotate, the blades 26 are rotated to generate wind power, the wind power blows into the blast pipe 29 from the blast box 23 and is discharged into the first box 12 through the blast pipe 29, in the secondary process, the heating plate 30 is started, the temperature of the blast box 23 and the blast pipe 29 is increased, the pressure is increased due to the volume expansion of the gas temperature, the flow rate of the gas in the blast box 23 and the blast pipe 29 is increased, the inner diameter of the port at the other end of the blast pipe 29 is reduced, the cross section area of the gas circulation is reduced, the flow rate of the air flowing out of the blast pipe 29 is increased again, the Tesla valve 45 (shown in fig. 7) can be arranged in the inclined hole, the flow rate of the air near the output end port of the Tesla valve 45 is increased, the pressure at the output end port of the Tesla valve 45 is reduced, the air cannot enter the Tesla valve 45, the flexible conduit 8 with the input end port of the Tesla valve 45 and the pressure at the end port of the collecting pipe 7 are strong, so that the end port of the collecting pipe 7 generates suction force, at the moment, the electric slide rail 2 is started, the transverse position of the polishing disc 6 is regulated, the first hydraulic cylinder 3 is started, the vertical position of the polishing disc 6 is regulated, the polishing motor 5 is started, the polishing motor 5 drives the polishing disc 6 to rotate, the polishing disc 6 polishes the quartz tube 46, impurities generated by polishing are sucked through the collecting pipe 7 and are led into the first box 12 through the flexible conduit 8 and the Tesla valve 45, the impurities enter and exit the pipeline 13 along with the air flow discharged by the blast pipe 29 and are led into the collecting box 14 through the pipeline 13, the impurities are blocked through the filter plate 15, when the collecting box 14 needs to be cleaned, the second hydraulic cylinder 16 is started, and the telescopic end of the second hydraulic cylinder 16 pushes the pressing plate 17, the impurities in the collecting box 14 are compacted and discharged by opening the discharging door 18.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions.

Claims (9)

1. The utility model provides a dust removal grinding device for quartz tube processing, includes processing case (1), its characterized in that, upper wall fixed mounting has electronic slide rail (2) in processing case (1), fixed mounting has first pneumatic cylinder (3) on electronic slide rail (2) remove the end, fixed mounting has loading board (4) on the flexible end of first pneumatic cylinder (3), wall fixed mounting has polishing motor (5) under loading board (4), fixed mounting has polishing disc (6) on polishing motor (5) driving end, on loading board (4) and be located polishing motor (5) one side fixed mounting and have collecting pipe (7), install impurity collection device on processing case (1) lateral wall, fixedly connected with flexible pipe (8) between impurity collection device and collecting pipe (7), fixed mounting has loading board (9) in processing case (1), opening has been seted up on loading board (9) upper wall, fixed mounting has first bearing (10) in the opening, first bearing (10) fixed mounting has collecting pipe (7) on one side and is located polishing motor (5) one side fixed mounting has collecting pipe (7), install blast structure under loading board (11) and the driving end, blast structure is connected with in loading board (11), the blowing end of the driving blowing structure is connected with the impurity collecting device;

the impurity collecting device comprises a first box body (12), the first box body (12) is fixedly arranged on the outer side wall surface of a processing box (1), the section of the first box body (12) is of a trapezoid structure, the upper wall surface of the first box body (12) is of a trapezoid structure oblique side, a pipeline (13) is fixedly arranged on the upper wall surface of the first box body (12), the pipeline (13) is close to the upper wall of one end of the processing box (1) and forms a round corner structure with the upper bottom corner of the first box body (12), the pipeline (13) is close to the lower wall of one end of the processing box (1) and forms a round corner structure with the side wall of the first box body (12), the pipeline (13) is far away from the processing box (1), a collecting box (14) is fixedly arranged on one end of the pipeline (13), a mounting port is formed in the side wall surface of the collecting box (14), a second hydraulic cylinder (16) is fixedly arranged on the upper wall surface of the collecting box (14), a telescopic end of the second hydraulic cylinder (16) penetrates through the upper wall surface of the collecting box (1), a telescopic hole (19) is formed in the upper wall surface of the collecting box (14), a telescopic hole (18) is formed in the collecting box (13), one end of the through pipe (19) is communicated with the first box body (12) and the other end of the through pipe is fixedly connected with the flexible conduit (8), and the air blowing end of the driving air blowing structure is connected with the first box body (12).

2. The dust removal polishing device for quartz tube processing according to claim 1, wherein the pipeline (13) is obliquely installed on the side wall surface of the first box body (12).

3. The dust removal polishing device for quartz tube processing according to claim 1, wherein the driving blast structure comprises a second bearing (20), a mounting groove is formed in the lower wall surface in the processing box (1) and is positioned in the bearing box (9), the second bearing (20) is fixedly mounted in the mounting groove, a rotating rod (21) is fixedly mounted in the inner ring of the second bearing (20), the upper end of the rotating rod (21) is fixedly connected with the lower wall surface of the bearing table (11), a driven gear (22) is fixedly mounted on the rotating rod (21), a blast box (23) is fixedly mounted on one side of the rotating rod (21) on the lower wall surface in the processing box (1), the blast box (23) is positioned in the bearing box (9), a double-head motor (24) is fixedly mounted in the blast box (23), the upper end driving end of the double-head motor (24) penetrates through the blast box (23) and is fixedly mounted with a driving gear (25), the driving gear (25) is meshed with the driven gear (22), the lower end of the blast box (24) is positioned in the lower wall surface of the blast box (23) and is positioned in the blade (26) and is provided with a second vent hole (28) on the lower wall surface (9), the second ventilation hole is located the bull stick (21) opposite side, the preformed hole has been seted up to processing case (1) lower wall and be located blow case (23) below, fixed mounting has blast pipe (29) in the preformed hole, blast pipe (29) one end port is located under blade (26), blast pipe (29) other end runs through in first box (12) lower wall and is located siphunculus (19) port one side.

4. A dust removal polishing device for quartz tube processing according to claim 3, wherein a reinforcing plate (43) is fixedly arranged on the lower wall surface of the collecting box (14), the reinforcing plate (43) is fixedly connected with the side wall surface of the processing box (1), a reinforcing rib (44) is fixedly arranged between the reinforcing plate (43) and the side wall surface of the processing box (1), a mounting hole is formed in the reinforcing plate (43), and the blast tube (29) penetrates through the mounting hole.

5. A dust removal and polishing device for quartz tube processing according to claim 3, wherein the number of teeth of the driven gear (22) is greater than the number of teeth of the driving gear (25).

6. The dust removal polishing device for quartz tube processing according to claim 3, wherein a heating plate (30) is fixedly installed on the outer wall surface of the blast box (23) and the outer wall surface of the blast tube (29), and the inner diameter of the port at the other end of the blast tube (29) is smaller than the inner diameter of the tube body of the blast tube (29).

7. The dust removal polishing device for quartz tube machining according to claim 1, wherein the clamping device comprises a moving part and a triggering part, the moving part comprises four sliding grooves (31) with the same structure, a sliding block (32) is arranged in each sliding groove (31) in a sliding mode, the upper wall surface of each sliding block (32) is exposed out of each sliding groove (31), the triggering part is fixedly arranged on the upper wall surface of each sliding block (32), a reserved groove is formed in the lower wall surface of each sliding block (32), rotating motors (33) are fixedly arranged on two side wall surfaces in the reserved grooves, transmission gears (34) are fixedly arranged between driving ends of the rotating motors (33), racks (35) are fixedly arranged on the lower wall surfaces of the sliding grooves (31), and the transmission gears (34) are in meshed connection with the racks (35).

8. The dust removal polishing device for quartz tube machining according to claim 7, wherein the cross-sectional shape of the sliding groove (31) is of a cross-shaped structure, the cross-sectional shape of the sliding block (32) is of an inverted T-shaped structure, and the rack (35) is fixedly arranged on the lower wall surface of the vertical end of the cross-shaped structure of the sliding groove (31).

9. The dust removal polishing device for quartz tube machining according to claim 7, wherein the triggering portion comprises a clamping box (36), the clamping box (36) is fixedly mounted on the upper wall surface of the sliding block (32), four through holes are formed in the side wall surface of the clamping box (36), supporting rods (37) are inserted into the four through holes, one end of each supporting rod (37) is located in the clamping box (36) and fixedly mounted with a baffle plate (38), a spring (39) is fixedly mounted between the baffle plate (38) and the inner wall surface of the clamping box (36), a pressure sensor (40) is fixedly mounted between the inner wall surface of the clamping box (36) and the spring (39), the other end of each supporting rod (37) is exposed out of the clamping box (36), a top plate (41) is fixedly mounted between the other ends of the supporting rods (37), a triggering rod (42) is fixedly mounted in the center of the side wall surface of the clamping box (36), and one end of each triggering rod (42) penetrates through the corresponding to the corresponding pressure sensor (40).

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