CN220463342U - Polisher for arc bend processing - Google Patents
Polisher for arc bend processing Download PDFInfo
- Publication number
- CN220463342U CN220463342U CN202322121023.5U CN202322121023U CN220463342U CN 220463342 U CN220463342 U CN 220463342U CN 202322121023 U CN202322121023 U CN 202322121023U CN 220463342 U CN220463342 U CN 220463342U
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- outer frame
- rod
- servo motor
- chuck
- frame body
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- 230000000149 penetrating effect Effects 0.000 claims description 19
- 238000005498 polishing Methods 0.000 claims description 15
- 230000002457 bidirectional effect Effects 0.000 claims description 13
- 238000007789 sealing Methods 0.000 claims description 9
- 238000005452 bending Methods 0.000 claims 5
- 238000004140 cleaning Methods 0.000 abstract description 4
- 230000001427 coherent effect Effects 0.000 description 2
- 238000010586 diagram Methods 0.000 description 2
- 230000004075 alteration Effects 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 230000008602 contraction Effects 0.000 description 1
- 230000007547 defect Effects 0.000 description 1
- 239000000428 dust Substances 0.000 description 1
- 238000003754 machining Methods 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 238000006467 substitution reaction Methods 0.000 description 1
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- Grinding Of Cylindrical And Plane Surfaces (AREA)
Abstract
The utility model discloses a grinding machine for arc-shaped conduit processing, which is characterized in that a main body structure of the grinding machine consists of an outer frame, a second servo motor and a grinding block, wherein the first servo motor is arranged at the right upper corner position inside the outer frame, a threaded guide sleeve is connected with one end of a connecting rod, and the other end of the connecting rod is connected with a circular chuck; the second servo motor is arranged at the middle position of the bottom of the outer frame body, the output end of the second servo motor and the lower part of the circular chuck are connected with the pipeline chuck, and the pipeline chuck is composed of a spring body, a guide rod, a T-shaped sliding block, a fixing pin and a sliding groove. This polisher is used in arc pipeline processing adopts novel structural design for this device can be adjusted and pipeline to not unidimensional, not co-altitude is polished, and cleaning device can more guarantee the inside clean and tidy of polisher, reduces workman's work load.
Description
Technical Field
The utility model relates to the technical field of grinding machines, in particular to a grinding machine for arc-shaped bent pipe machining.
Background
Various catheters are used in our daily life, and the catheters are popularized to thousands of households, but the polishing of arc-shaped catheters becomes a difficult problem, and although the current polishing machine for arc-shaped catheter processing has undergone multiple improvements, there are some defects, such as:
1. the existing part of arc-shaped catheter polishing machine is not provided with a cleaning device, so that garbage left by a polishing catheter in the device cannot be cleaned, and the garbage needs to be treated regularly by workers, so that the workload of the workers is increased;
2. the existing part of arc-shaped catheter polisher cannot adjust the height and the size of the clamping of the catheter, limits the height and the size of the arc-shaped bent pipe, and needs to be stopped for adjustment when the arc-shaped bent pipe with different heights or sizes is polished, so that the cost is greatly increased.
It is therefore desirable to design a polisher for arc bend processing that addresses the above-described issues.
Disclosure of Invention
The utility model aims to provide a polishing machine for arc bend pipe processing, which solves the problems that the existing part of arc-shaped conduit polishing machine provided in the background art is not provided with a cleaning device, garbage left by polishing conduits in the polishing machine cannot be cleaned, regular treatment is required by workers, the workload of the workers is increased, the height and the size of the conduit clamped by the existing part of arc-shaped conduit polishing machine cannot be adjusted, the height and the size of arc-shaped conduit are limited, shutdown adjustment is required when polishing arc-shaped conduit with different heights or sizes is required, and the cost is greatly increased.
In order to achieve the above purpose, the present utility model provides the following technical solutions: the main body structure of the grinding machine consists of an outer frame, a second servo motor and a grinding block;
characterized by comprising the following steps:
the output end of the first servo motor is fixedly connected with the bidirectional screw rod, the bidirectional screw rod is connected in a threaded guide sleeve in a penetrating manner, the threaded guide sleeve is connected with one end of a connecting rod, and the other end of the connecting rod is connected with a circular chuck;
the second servo motor is arranged at the middle position of the bottom of the outer frame body, the pipeline chuck is arranged at the output end of the second servo motor and below the circular chuck, the pipeline chuck is composed of a spring body, a guide rod, a T-shaped sliding block, fixing pins and sliding grooves, the sliding grooves are formed in the pipeline chuck, the T-shaped sliding block is connected to the sliding grooves in a clamping mode, the spring body is arranged in the two sliding grooves in the horizontal and vertical directions, the guide rod is connected to the inner portion of the spring body in a penetrating mode, the spring body is connected with the T-shaped sliding block in a penetrating mode, the guide rod is connected to the inner portion of the T-shaped sliding block in a penetrating mode, and the fixing pins are arranged in the two crossed and vertical sliding grooves;
the belt rotating wheels are sleeved at the output end of the second servo motor, a group of belt rotating wheels are arranged on the left side and the right side of the second servo motor, three groups of belt rotating wheels form a triangular stable structure, the outer parts of the three groups of belt rotating wheels are connected through a belt body, the belt rotating wheels are fixedly connected with a threaded rod above, a telescopic rod is sleeved at the outer part of the threaded rod, and the telescopic rod is fixedly connected with a polishing block;
the fan is arranged on the outer side of the back of the outer frame body, the fan is connected with the sliding rail, the rear side of the fan is connected with the guide pipe, the guide pipe is connected with the solution box below the fan, the fan is fixedly connected with the hydraulic machine on the right side, and the hydraulic machine is arranged on the outer side of the back of the outer frame body;
the sealing plate is arranged on the inner side of the back of the outer frame body and fixedly connected with the movable rod, the movable rod is connected inside the fixed spring in a penetrating mode, the fixed spring is connected with the round hole fixing block in a mutually connecting mode, and the sliding rod is connected inside the round hole fixing block in a penetrating mode.
Preferably, the bidirectional screw rod is in rotary connection with one end of the connecting rod, and the other end of the connecting rod is in rotary connection with the circular chuck, so that the structure is more coherent.
Preferably, the T-shaped sliding block and the fixing pin form a sliding structure with the pipeline chuck, four groups of the T-shaped sliding block and the fixing pin are symmetrically distributed, and the T-shaped sliding block and the fixing pin are distributed in a crossed manner, so that the whole structure is attractive.
Preferably, the circular chuck and the pipeline chuck form a rotating structure, and the pipeline chucks are vertically symmetrically provided with two groups, so that the whole structure is more compact.
Preferably, the threaded rod and the telescopic rod form a threaded assembly structure, and the telescopic rod and the outer frame body form an up-down sliding structure, so that the structure is more coherent.
Preferably, the fan and the slide rail on the outer side of the back of the outer frame body form a sliding structure, and the movable rod and the round hole fixed block on the inner side of the back of the outer frame body form a sliding structure, so that the inner part of the outer frame body is cleaner and more efficient.
Compared with the prior art, the utility model has the beneficial effects that: a grinding machine for arc bend processing comprises the following specific contents:
1. the cleaning device is added on the back of the outer frame, when the fan is started, garbage inside the outer frame can be sucked into the solution box below the fan through the pipeline, the inside of the outer frame is cleaned, workers do not need to clean the inside of the outer frame regularly, the workload of the workers is reduced, the right side of the fan is connected with the hydraulic press, the fan can move left and right along the sliding rail through the work of the hydraulic press, the outer frame can be cleaned uniformly, the grinding machine is tidier, the left and right sides of the pipeline inside the outer frame are attached to the sealing plate, when the pipeline inside the outer frame moves left and right, the sealing plate is always attached to the pipeline inside the outer frame under the action of the sliding rod and the fixing spring, the outer frame is sealed, and damage to the environment and human body caused by the garbage inside the outer frame is reduced;
2. the two-way screw is driven by the first servo motor, the interval between two sets of threaded guide sleeves sleeved outside the two-way screw is changed, the interval between the circular chuck and the two-way screw is changed through the connecting rod, the circular chuck moves up and down, the pipeline chucks are all installed below the output end of the second servo motor and the circular chuck, the two sets of pipeline chucks finish the adjustment of arc pipelines with different heights due to the up-and-down movement of the circular chuck, the T-shaped sliding blocks of the pipeline chucks are tightly attached to the inner wall of the arc pipelines, the fixing pins are externally attached to the outer wall of the arc pipelines, the pipeline chucks are fixed in the horizontal direction, and the sliding grooves are formed in the pipeline chucks, so that the T-shaped sliding blocks and the fixing pins can slide, and the pipeline chucks can fix the pipelines with different sizes in the horizontal direction.
Drawings
FIG. 1 is a schematic diagram of a front cross-sectional structure of a grinding machine for arc-shaped duct processing according to the present utility model;
FIG. 2 is a schematic top view of the pipe chuck of the present utility model;
FIG. 3 is a schematic left-hand view of the grinding machine for processing an arc-shaped conduit according to the present utility model;
FIG. 4 is a schematic diagram of a rear view of a blower according to the present utility model;
fig. 5 is a schematic front view of the guide rod of the present utility model.
In the figure: 1. an outer frame; 2. a first servo motor; 3. a bidirectional screw; 4. a threaded guide sleeve; 5. a connecting rod; 6. a circular chuck; 7. a pipe chuck; 71. a spring body; 72. a guide rod; 73. a T-shaped slider; 74. a fixing pin; 75. a chute; 8. a second servo motor; 9. a belt wheel; 10. a belt body; 11. a threaded rod; 12. a telescopic rod; 13. polishing the block; 14. a blower; 15. a slide rail; 16. a conduit; 17. a solution box; 18. a hydraulic press; 19. a closing plate; 20. a movable rod; 21. a round hole fixing block; 22. and fixing the spring.
Detailed Description
The following description of the embodiments of the present utility model 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 utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.
Referring to fig. 1-5, the present utility model provides a technical solution: the main body structure of the grinding machine consists of an outer frame body 1, a second servo motor 8 and a grinding block 13;
the first servo motor 2 is arranged at the right upper corner position inside the outer frame body 1, the output end of the first servo motor 2 is fixedly connected with the bidirectional screw rod 3, the bidirectional screw rod 3 is connected inside the threaded guide sleeve 4 in a penetrating way, the threaded guide sleeve 4 is connected with one end of the connecting rod 5, and the other end of the connecting rod 5 is connected with the circular chuck 6;
the second servo motor 8 is arranged at the middle position of the bottom of the outer frame body 1, the pipeline chuck 7 is arranged at the output end of the second servo motor 8 and below the circular chuck 6, the pipeline chuck 7 is composed of a spring body 71, a guide rod 72, a T-shaped sliding block 73, a fixing pin 74 and a sliding groove 75, the sliding groove 75 is arranged in the pipeline chuck 7, the T-shaped sliding block 73 is connected in a clamping manner in the sliding groove 75, the spring body 71 is arranged in the two sliding grooves 75 in the transverse direction and the vertical direction, the guide rod 72 is connected in the spring body 71 in a penetrating manner, the spring body 71 is connected with the T-shaped sliding block 73 in a penetrating manner, the guide rod 72 is connected in the T-shaped sliding block 73 in a penetrating manner, and the fixing pin 74 is arranged in the two crossed and vertical sliding grooves 75;
the belt rotating wheels 9 are sleeved and arranged at the output end of the second servo motor 8, a group of belt rotating wheels 9 are arranged on the left side and the right side of the second servo motor 8, three groups of belt rotating wheels 9 form a triangular stable structure, the outer parts of the three groups of belt rotating wheels 9 are connected through a belt body 10, the belt rotating wheels 9 are fixedly connected with a threaded rod 11 above, a telescopic rod 12 is sleeved and arranged outside the threaded rod 11, and the telescopic rod 12 is fixedly connected with a polishing block 13;
the blower 14 is arranged on the outer side of the back of the outer frame body 1, the blower 14 is connected with the sliding rail 15, the rear side of the blower 14 is connected with the guide pipe 16, the guide pipe 16 is connected with the solution box 17 below the blower 14, the blower 14 is fixedly connected with the hydraulic machine 18 on the right side, and the hydraulic machine 18 is arranged on the outer side of the back of the outer frame body 1;
the closing plate 19 is arranged on the inner side of the back of the outer frame body 1, the closing plate 19 is fixedly connected with the movable rod 20, the movable rod 20 is connected in a penetrating manner in the fixed spring 22, the fixed spring 22 is connected with the round hole fixed block 21, and the movable rod 20 is connected in the round hole fixed block 21 in a penetrating manner.
The bidirectional screw 3 is in rotary connection with one end of a connecting rod 5, and the other end of the connecting rod 5 is in rotary connection with a circular chuck 6;
the T-shaped sliding block 73 and the fixed pin 74 form a sliding structure with the pipeline chuck 7, four groups of the T-shaped sliding block 73 and the fixed pin 74 are symmetrically distributed, and the T-shaped sliding block 73 and the fixed pin 74 are distributed in a crossed manner;
the circular chuck 6 and the pipeline chuck 7 form a rotating structure, and the pipeline chuck 7 is provided with two groups symmetrically up and down;
the threaded rod 11 and the telescopic rod 12 form a threaded assembly structure, and the telescopic rod 12 and the outer frame 1 form an up-down sliding structure;
the fan 14 and the slide rail 15 on the outer side of the back of the outer frame body 1 form a sliding structure, and the movable rod 20 and the round hole fixed block 21 on the inner side of the back of the outer frame body 1 form a sliding structure.
Working principle: when the device is used, according to the structure shown in fig. 1-5, a first servo motor 2 is started, a bidirectional screw rod 3 connected with the output end of the first servo motor 2 starts to rotate, a threaded guide sleeve 4 sleeved outside the bidirectional screw rod 3 starts to move left and right, one end of a connecting rod 5 starts to rotate around the threaded guide sleeve 4, the other end of the connecting rod 5 rotates around a circular chuck 6, the distance between the circular chuck 6 and the bidirectional screw rod 3 is changed, so that the circular chuck 6 moves up and down, a pipeline chuck 7 is arranged at the output end of a second servo motor 8 and below the circular chuck 6, and the pipeline chuck 7 above moves along with the up-down movement of the circular chuck 6, so that the arc-shaped bent pipes with different heights are fixed;
the arc-shaped bent pipe is sleeved outside the T-shaped sliding blocks 73 on the pipeline chuck 7, the four symmetrically arranged T-shaped sliding blocks 73 are connected with the sliding grooves 75 in a clamping mode, the fixing pins 74 are moved until the fixing pins 74 are attached to the outer wall of the arc-shaped pipeline, the fixing pins 74 are fixed, the pipeline chuck 7 is horizontally fixed on the arc-shaped pipeline, and as the pipeline chuck 7 below is connected to the output end of the second servo motor 8, the second servo motor 8 drives the arc-shaped pipeline and the pipeline chuck 7 above to rotate through the pipeline chuck 7 below when the second servo motor 8 is started;
the second servo motor 8 is connected with the belt rotating wheels 9 in a penetrating manner, and as the three groups of belt rotating wheels 9 in the outer frame body 1 form a triangular stable structure, the belt body 10 drives the other two groups of belt rotating wheels 9 to stably rotate, the belt rotating wheels 9 are fixedly connected with the threaded rod 11 above, the threaded rod 11 stably rotates, the telescopic rod 12 is sleeved outside the threaded rod 11, the threaded rod 11 stably rotates to drive the telescopic rod 12 to stably slide up and down, and the polishing blocks 13 fixedly connected with the telescopic rod 12 can uniformly polish the outer part of the arc-shaped pipeline;
the blower 14 and the hydraulic press 18 at the back of the outer frame body 1 are started, the blower 14 sucks the garbage inside the outer frame body 1 into the solution box 17 below the blower 14 through the guide pipe 16, the solution inside the solution box 17 filters the garbage completely, the hydraulic press 18 is fixedly connected to the right side of the blower 14, the blower 14 is enabled to move left and right along the sliding rail 15 through the extension and contraction of the hydraulic press 18, the blower 14 uniformly discharges the garbage on the left side and the right side inside the outer frame body 1, the guide pipe 16 inside the outer frame body 1 is driven to move left and right due to the left and right movement of the blower 14, the guide pipe 16 inside the outer frame body 1 can form acting force on the sealing plate 19, the sealing plate 19 on one side is extruded to the fixed spring 22 through the movable rod 20, the sealing plate 19 on the other side pushes the movable rod 20 through the fixed spring 22, the sealing plates 19 on the two sides are always attached to the guide pipe 16, and flying dust inside the outer frame body 1 is avoided.
Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.
Claims (6)
1. The main body structure of the grinding machine consists of an outer frame body (1), a second servo motor (8) and a grinding block (13);
characterized by comprising the following steps:
the first servo motor (2) is arranged at the right upper corner position inside the outer frame body (1), the output end of the first servo motor (2) is fixedly connected with the bidirectional screw rod (3), the bidirectional screw rod (3) is connected inside the threaded guide sleeve (4) in a penetrating way, the threaded guide sleeve (4) is connected with one end of the connecting rod (5) mutually, and the other end of the connecting rod (5) is connected with the circular chuck (6) mutually;
the second servo motor (8) is arranged at the middle position of the bottom of the outer frame body (1), the output end of the second servo motor (8) and the lower part of the circular chuck (6) are provided with the pipeline chuck (7), the pipeline chuck (7) is composed of a spring body (71), a guide rod (72), a T-shaped sliding block (73), a fixed pin (74) and sliding grooves (75), the sliding grooves (75) are formed in the pipeline chuck (7), the T-shaped sliding block (73) are connected in a clamping mode in the sliding grooves (75), the spring body (71) is arranged in the transverse sliding grooves (75), the guide rod (72) is connected in a penetrating mode in the spring body (71), the spring body (71) is connected with the T-shaped sliding block (73) in a penetrating mode, and the guide rod (72) is connected in the T-shaped sliding block (73) in a penetrating mode, and the fixed pin (74) is arranged in the two crossed and perpendicular sliding grooves (75);
the belt rotating wheels (9) are sleeved and arranged at the output end of the second servo motor (8), the belt rotating wheels (9) are respectively arranged on the left side and the right side of the second servo motor (8), three groups of belt rotating wheels (9) form a triangular stable structure, the outer parts of the three groups of belt rotating wheels (9) are connected through a belt body (10), the belt rotating wheels (9) are fixedly connected with a threaded rod (11) above, a telescopic rod (12) is sleeved and arranged outside the threaded rod (11), and the telescopic rod (12) is fixedly connected with a polishing block (13);
the fan (14) is arranged on the outer side of the back of the outer frame body (1), the fan (14) is connected with the sliding rail (15) mutually, the rear side of the fan (14) is connected with the guide pipe (16), the guide pipe (16) is connected with the solution box (17) below the fan (14) mutually, the fan (14) is fixedly connected with the hydraulic machine (18) on the right side, and the hydraulic machine (18) is arranged on the outer side of the back of the outer frame body (1);
the sealing plate (19) is arranged on the inner side of the back of the outer frame body (1), the sealing plate (19) is fixedly connected with the movable rod (20), the movable rod (20) is connected inside the fixed spring (22) in a penetrating mode, the fixed spring (22) is connected with the round hole fixing block (21) mutually, and the movable rod (20) is connected inside the round hole fixing block (21) in a penetrating mode.
2. A grinder for arc tube bending as defined in claim 1, wherein: the bidirectional screw rod (3) is in rotary connection with one end of the connecting rod (5), and the other end of the connecting rod (5) is in rotary connection with the circular chuck (6).
3. A grinder for arc tube bending as defined in claim 1, wherein: the T-shaped sliding block (73) and the fixing pin (74) and the pipeline chuck (7) form a sliding structure, four groups of the T-shaped sliding block (73) and the fixing pin (74) are symmetrically distributed, and the T-shaped sliding block (73) and the fixing pin (74) are distributed in a crossing mode.
4. A grinder for arc tube bending as defined in claim 1, wherein: the circular chuck (6) and the pipeline chuck (7) form a rotating structure, and the pipeline chuck (7) is provided with two groups in an up-down symmetry way.
5. A grinder for arc tube bending as defined in claim 1, wherein: the threaded rod (11) and the telescopic rod (12) form a threaded assembly structure, and the telescopic rod (12) and the outer frame body (1) form an up-down sliding structure.
6. A grinder for arc tube bending as defined in claim 1, wherein: the fan (14) and the sliding rail (15) on the outer side of the back of the outer frame body (1) form a sliding structure, and the movable rod (20) and the round hole fixed block (21) on the inner side of the back of the outer frame body (1) form a sliding structure.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202322121023.5U CN220463342U (en) | 2023-08-08 | 2023-08-08 | Polisher for arc bend processing |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202322121023.5U CN220463342U (en) | 2023-08-08 | 2023-08-08 | Polisher for arc bend processing |
Publications (1)
Publication Number | Publication Date |
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CN220463342U true CN220463342U (en) | 2024-02-09 |
Family
ID=89804033
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN202322121023.5U Active CN220463342U (en) | 2023-08-08 | 2023-08-08 | Polisher for arc bend processing |
Country Status (1)
Country | Link |
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CN (1) | CN220463342U (en) |
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2023
- 2023-08-08 CN CN202322121023.5U patent/CN220463342U/en active Active
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