A hair dryer joint threading equipment

Abstract

This utility model discloses a hair dryer connector thread processing device, including a table, an equipment box fixedly installed on one side of the table, a chuck rotatably installed on one side of the equipment box, a waste chip hopper provided on one side below the chuck, a falling square cylinder fixedly installed below the waste chip hopper, a fixed square cylinder provided below the falling square cylinder, the fixed square cylinder being fixedly connected to the table and extending below the table, a collection box fixedly installed below the fixed square cylinder, a waste chip trough provided inside the collection box, the front end of the waste chip trough extending to the front face of the collection box. This device achieves centralized collection of waste chips, increasing practicality and solving the problem that during the hair dryer thread processing, waste chips would fly everywhere and scatter around the equipment, increasing the workload and cost of subsequent cleaning and maintenance, resulting in poor practicality.

Description

Technical Field

[0001] This utility model relates to the field of processing equipment technology, specifically to a tool for processing the thread of a blower connector. Background Technology

[0002] The hair dryer connector is an important component of a hair dryer. It connects the hair dryer body to various nozzles, hoses, and other accessories. Its structure typically includes an external threaded connection section, requiring thread machining equipment to create the threads.

[0003] For example, the authorized patent with announcement number CN207402226U (a thread processing device for hydraulic pipe joints) includes an operating table, a motor, a drive shaft, an infusion pump, a rotating ring, a thread cutter, a cylinder, and a support frame. The operating table is mounted on a support frame, a bearing seat is provided on the housing, the motor is mounted inside the housing, one end of the drive shaft is mounted inside the housing, the infusion pump is mounted on the housing, the rotating ring is mounted on the drive shaft via a mounting block, and the thread cutter is mounted in a limiting groove via a positioning bolt.

[0004] While the aforementioned existing technology facilitates thread cutting on the surface of pipe fittings, it lacks a waste collection structure. Consequently, during the thread cutting process of the blower fitting, waste chips are generated and scattered around the equipment, increasing the workload and cost of subsequent cleaning and maintenance, thus making it impractical. Therefore, there is an urgent market need to develop a blower fitting thread cutting equipment to help people solve the existing problems. Utility Model Content

[0005] The purpose of this utility model is to provide a hair dryer connector thread processing equipment to solve the problem mentioned in the background art that during the hair dryer structure thread processing process, the generated waste chips will fly around and scatter around the equipment, increasing the workload and cost of subsequent cleaning and maintenance, and resulting in poor practicality.

[0006] To achieve the above objectives, this utility model provides the following technical solution: a blower connector thread processing device, comprising a table, an equipment box fixedly installed on one side above the table, a chuck rotatably installed on one side of the equipment box, a waste chip hopper provided on one side below the chuck, a falling square cylinder fixedly installed below the waste chip hopper, a fixed square cylinder provided below the falling square cylinder, the fixed square cylinder being fixedly connected to the table and extending below the table, a collection box fixedly installed below the fixed square cylinder, a waste chip trough provided at the bottom inside the collection box, and the front end of the waste chip trough extending to the front end face of the collection box.

[0007] Preferably, a fan box is fixedly installed on one side of the collection box, a connecting hole is provided on one end face of the collection box, the connecting hole is connected to the fan box, a dust filter plate is fixedly installed inside the connecting hole of the collection box, a fan is fixedly installed inside the fan box, and a mesh plate is fixedly installed inside the fan box along one side of the fan.

[0008] Preferably, the lower end of the falling square tube slides into the interior of the fixed square tube, a protruding plate is fixedly installed above the front end of the falling square tube, an electric cylinder is installed below the protruding plate, the lower end of the electric cylinder is fixedly connected to the platform, the push rod end of the electric cylinder is fixedly installed to the protruding plate, side plates are symmetrically fixedly installed above both sides of the falling square tube, a guide post is fixedly installed below the side plate, a guide tube is slidably arranged below the outer side of the guide post, and the lower end of the guide tube is fixedly connected to the platform.

[0009] Preferably, a translation mechanism is provided at the rear end above the platform, a lifting mechanism is provided above the translation mechanism, an adjustment mechanism is provided above the lifting mechanism, and a thread cutter is provided at the front end of the adjustment mechanism.

[0010] Preferably, the translation mechanism includes a fixed plate, a threaded rod, a sliding block, and a guide rod. Two fixed plates are provided and fixedly connected to the platform. The threaded rod is rotatably installed between the two fixed plates. Two guide rods are provided, and the two guide rods are fixedly installed at the front and rear ends between the two fixed plates. The sliding block is slidably installed on the outside of the threaded rod through a ball nut, and the guide rod slides through the sliding block.

[0011] Preferably, the lifting mechanism includes a base box and a lifting plate, the base box being fixedly installed above the sliding block, and the lifting plate being disposed above the base box.

[0012] Preferably, the adjustment mechanism includes a mounting platform, a fixed base, a vertical plate, a second electric cylinder, and a second guide rod. The mounting platform is fixedly installed above the lifting plate, the vertical plate is fixedly installed above the mounting platform, the second electric cylinder is fixedly installed at the rear end of the vertical plate, the fixed base is located at the front end of the vertical plate, the thread cutter is fixedly installed above the fixed base, the push rod end of the second electric cylinder slides through the vertical plate and is fixedly connected to the fixed base, and two second guide rods are provided and located on both sides of the second electric cylinder, with one end of the second guide rod sliding through the vertical plate and fixedly connected to the fixed base.

[0013] Compared with the prior art, the beneficial effects of this utility model are:

[0014] (1) This utility model effectively solves the problem of waste chip splashing in traditional thread processing equipment by coordinating the waste chip hopper, the falling square tube, the fixed square tube and the collection box. The waste chips generated during the processing are received by the waste chip hopper and directly introduced into the bottom collection box through the vertically arranged falling square tube and fixed square tube, avoiding the situation of waste chips scattering and polluting the working environment. In addition, the design of the pull-out waste chip trough makes cleaning and maintenance more convenient and increases its practicality.

[0015] (2) By setting up a fan, the utility model can suck the flying dust generated during the thread processing into the collection box through negative pressure. The dust filter plate effectively filters the dust in the air, improves the air quality in the processing area, and protects the health of the operators.

[0016] (3) This utility model sets up a translation mechanism, and realizes the horizontal movement of the thread cutter through the cooperation of the thread rod and the guide rod one. The electric cylinder three of the lifting mechanism drives the lifting plate to move vertically, realizing the lifting and lowering movement of the thread cutter. The electric cylinder two of the adjustment mechanism drives the feed of the thread cutter. This multi-degree-of-freedom design makes the processing process more flexible and precise, and can meet different thread processing needs, increasing its practicality. Attached Figure Description

[0017] Figure 1 This is a schematic diagram of a hair dryer connector thread processing device according to the present invention;

[0018] Figure 2 This is a cross-sectional view of the collection box of this utility model;

[0019] Figure 3 This is an enlarged schematic diagram of part A of this utility model;

[0020] Figure 4 This is a schematic diagram of the translation mechanism, lifting mechanism and adjustment mechanism of this utility model.

[0021] In the diagram: 1. Platform; 2. Equipment box; 3. Chuck; 4. Translation mechanism; 401. Fixed plate; 402. Threaded rod; 403. Sliding block; 404. Guide rod one; 5. Lifting mechanism; 501. Base box; 502. Lifting plate; 6. Adjustment mechanism; 601. Mounting platform; 602. Fixed seat; 603. Vertical plate; 604. Electric cylinder two; 605. Guide rod two; 7. Thread cutter; 8. Waste hopper; 9. Falling square tube; 10. Fixed square tube; 11. Collection box; 12. Waste trough; 13. Fan box; 14. Fan; 15. Mesh plate; 16. Dust filter plate; 17. Convex plate; 18. Electric cylinder one; 19. Side plate; 20. Guide column; 21. Guide cylinder. Detailed Implementation

[0022] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present utility model. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments.

[0023] Please see Figure 1-4 An embodiment of this utility model provides a hair dryer connector thread processing device, including a table 1, an equipment box 2 fixedly installed on one side above the table 1, a chuck 3 rotatably installed on one side of the equipment box 2, a drive motor for the chuck 3 is provided inside the equipment box 2, the chuck 3 is used to fix the hair dryer connector, a waste hopper 8 is provided on one side below the chuck 3, a falling square cylinder 9 is fixedly installed below the waste hopper 8, a fixing square cylinder 10 is provided below the falling square cylinder 9, the fixing square cylinder 10 is fixedly connected to the table 1 and extends to the bottom of the table 1, a collection box 11 is fixedly installed below the fixing square cylinder 10, a waste trough 12 is provided inside the collection box 11, and the front end of the waste trough 12 extends to the front end surface of the collection box 11.

[0024] During the threading process of the blower connector, the generated waste chips no longer fly around and scatter around the equipment. Instead, they are effectively collected by the waste chip hopper 8 and then guided through the falling square tube 9 and the fixed square tube 10 to the waste chip trough 12 in the collection box 11. This design reduces the pollution of the production environment by waste chips, reduces the workload and cost of subsequent cleaning and maintenance, and avoids problems such as poor equipment operation, decreased precision, and machine downtime caused by waste chip accumulation. It effectively ensures production efficiency and product quality and increases practicality.

[0025] Please see Figure 2 A fan box 13 is fixedly installed on one side of the collection box 11. A connecting hole is provided on one end face of the collection box 11, which is connected to the fan box 13. A dust filter plate 16 is fixedly installed inside the connecting hole of the collection box 11. A fan 14 is fixedly installed inside the fan box 13. A mesh plate 15 is fixedly installed inside the fan box 13 along one side of the fan 14.

[0026] The fan 14 can create negative pressure, which further promotes the collection of airborne dust and debris. The dust filter plate 16 can effectively filter the debris, preventing it from entering the fan box 13 and damaging the fan 14, thus extending the service life of the equipment and increasing its practicality and reliability.

[0027] Please see Figure 3The lower end of the falling square tube 9 slides into the interior of the fixed square tube 10. A protruding plate 17 is fixedly installed on the upper front end of the falling square tube 9. An electric cylinder 18 is installed below the protruding plate 17. The lower end of the electric cylinder 18 is fixedly connected to the platform 1. The push rod end of the electric cylinder 18 is fixedly installed to the protruding plate 17. Side plates 19 are symmetrically fixedly installed on the upper sides of both sides of the falling square tube 9. A guide post 20 is fixedly installed below the side plate 19. A guide tube 21 is slidably arranged below the outer side of the guide post 20. The lower end of the guide tube 21 is fixedly connected to the platform 1.

[0028] The drop cylinder 9 achieves height adjustability through the design of electric cylinder 18, convex plate 17, side plate 19, guide post 20, and guide cylinder 21. The push rod end of electric cylinder 18 is fixedly connected to convex plate 17. Through the extension and retraction of electric cylinder 18, the drop cylinder 9 can be driven to slide up and down within the fixed cylinder 10, thereby adjusting the distance between the drop cylinder 9 and chuck 3, increasing the positional flexibility of waste hopper 8. The sliding cooperation between guide post 20 and guide cylinder 21 ensures the stability and accuracy of drop cylinder 9 during the adjustment process.

[0029] Please see Figure 1 A translation mechanism 4 is provided at the rear end above the platform 1. A lifting mechanism 5 is provided above the translation mechanism 4. An adjustment mechanism 6 is provided above the lifting mechanism 5. A thread cutter 7 is provided at the front end of the adjustment mechanism 6. The translation mechanism 4 includes a fixed plate 401, a threaded rod 402, a sliding block 403, and a guide rod 404. Two fixed plates 401 are provided and fixedly connected to the platform 1. The threaded rod 402 is rotatably installed between the two fixed plates 401. A drive motor for the threaded rod 402 is provided on one side of one fixed plate 401. Two guide rods 404 are provided and fixedly installed at the front and rear ends between the two fixed plates 401. The sliding block 403 is slidably installed on the outside of the threaded rod 402 through a ball nut. The guide rod 404 slides through the sliding block 403.

[0030] The translation mechanism 4, through the design of the fixed plate 401, threaded rod 402, sliding block 403 and guide rod 404, realizes the left and right movement of the thread cutter 7 in the horizontal direction. The rotation of the threaded rod 402 drives the sliding block 403 to slide along the guide rod 404, thereby driving the thread cutter 7 to move horizontally to adjust the relative position between the thread cutter 7 and the blower connector, ensuring the accuracy of thread processing.

[0031] Please see Figure 4The lifting mechanism 5 includes a base box 501 and a lifting plate 502. The base box 501 is fixedly installed above the sliding block 403, and the lifting plate 502 is located above the base box 501. An electric cylinder is installed inside the base box 501, and the bottom of the lifting plate 502 slides into the interior of the base box 501 and is fixedly connected to the push rod end of the electric cylinder, so as to facilitate the lifting plate 502 to move up and down.

[0032] The lifting mechanism 5, through the design of the base box 501, the lifting plate 502 and the electric cylinder three, realizes the flexible lifting of the thread cutter 7 in the vertical direction. Through the telescopic movement of the electric cylinder three, the lifting plate 502 can be driven to move up and down above the base box 501, thereby adjusting the height of the thread cutter 7 to meet the processing requirements of blower connectors of different diameters.

[0033] Please see Figure 4 The adjustment mechanism 6 includes a mounting platform 601, a fixed base 602, a vertical plate 603, a second electric cylinder 604, and a second guide rod 605. The mounting platform 601 is fixedly installed above the lifting plate 502, the vertical plate 603 is fixedly installed above the mounting platform 601, the second electric cylinder 604 is fixedly installed at the rear end of the vertical plate 603, the fixed base 602 is located at the front end of the vertical plate 603, the thread cutter 7 is fixedly installed above the fixed base 602, the push rod end of the second electric cylinder 604 slides through the vertical plate 603 and is fixedly connected to the fixed base 602, and there are two second guide rods 605 located on both sides of the second electric cylinder 604. One end of the second guide rod 605 slides through the vertical plate 603 and is fixedly connected to the fixed base 602.

[0034] The adjustment mechanism 6, through the design of mounting platform 601, fixed base 602, upright plate 603, electric cylinder 604, and guide rod 605, realizes the forward and backward movement of thread cutter 7 in the horizontal direction. Through the extension and retraction of electric cylinder 604, the fixed base 602 and thread cutter 7 can be moved and adjusted in the horizontal direction to adjust the cutting amount between thread cutter 7 and blower connector. The guide rod 605 ensures the stability and accuracy of the movement of fixed base 602, avoiding processing quality problems caused by fine adjustment deviation.

[0035] Working principle: During use, the blower connector to be processed is clamped and fixed by the chuck 3. The translation mechanism 4 drives the sliding block 403 to move horizontally along the guide rod 404 through the threaded rod 402, which drives the thread cutter 7 to move and position it to the processing position. The lifting mechanism 5 drives the lifting plate 502 to move vertically through the electric cylinder 3 to adjust the height of the cutter. The adjustment mechanism 6 uses the electric cylinder 604 to push the fixed seat 602 to move back and forth along the guide rod 605 to adjust the cutting feed. The waste chips generated during the processing are received by the waste chip hopper 8 and slide down into the waste chip trough of the collection box 11 through the vertical channel formed by the falling square tube 9 and the fixed square tube 10 for centralized collection. At the same time, the blower 14 operates to generate negative pressure, which sucks the flying dust into the collection box 11 and filters it through the dust filter plate 16, thereby realizing stable thread processing of the blower connector.

[0036] It will be apparent to those skilled in the art that this invention is not limited to the details of the exemplary embodiments described above, and that it can be implemented in other specific forms without departing from the spirit or essential characteristics of this invention. Therefore, the embodiments should be considered illustrative and non-limiting in all respects, and the scope of this invention is defined by the appended claims rather than the foregoing description. Thus, it is intended that all variations falling within the meaning and scope of equivalents of the claims be included within this invention. No reference numerals in the claims should be construed as limiting the scope of the claims.

Claims

1. A blow-moulder joint threading apparatus comprising a table (1), characterised in that: An equipment box (2) is fixedly installed on one side above the platform (1). A chuck (3) is rotatably installed on one side of the equipment box (2). A waste hopper (8) is provided on one side below the chuck (3). A falling square tube (9) is fixedly installed below the waste hopper (8). A fixed square tube (10) is provided below the falling square tube (9). The fixed square tube (10) is fixedly connected to the platform (1) and extends to the bottom of the platform (1). A collection box (11) is fixedly installed below the fixed square tube (10). A waste trough (12) is provided inside the collection box (11). The front end of the waste trough (12) extends to the front end surface of the collection box (11).

2. A hair dryer attachment threading apparatus according to claim 1, wherein: A fan box (13) is fixedly installed on one side of the collection box (11). A connecting hole is provided on one end face of the collection box (11), and the connecting hole is connected to the fan box (13). A dust filter plate (16) is fixedly installed inside the connecting hole of the collection box (11). A fan (14) is fixedly installed inside the fan box (13). A grid plate (15) is fixedly installed inside the fan box (13) along one side of the fan (14).

3. A hair dryer attachment threading apparatus as defined in claim 1, wherein: The lower end of the falling square tube (9) slides into the interior of the fixed square tube (10). A protruding plate (17) is fixedly installed above the front end of the falling square tube (9). An electric cylinder (18) is installed below the protruding plate (17). The lower end of the electric cylinder (18) is fixedly connected to the platform (1). The push rod end of the electric cylinder (18) is fixedly installed to the protruding plate (17). Side plates (19) are symmetrically fixedly installed above both sides of the falling square tube (9). A guide post (20) is fixedly installed below the side plate (19). A guide tube (21) is slidably arranged below the outer side of the guide post (20). The lower end of the guide tube (21) is fixedly connected to the platform (1).

4. A hair dryer attachment threading apparatus as defined in claim 1, wherein: A translation mechanism (4) is provided at the rear end above the platform (1), a lifting mechanism (5) is provided above the translation mechanism (4), an adjustment mechanism (6) is provided above the lifting mechanism (5), and a thread cutter (7) is provided at the front end of the adjustment mechanism (6).

5. A hair dryer attachment threading apparatus as defined in claim 4, wherein: The translation mechanism (4) includes a fixed plate (401), a threaded rod (402), a sliding block (403), and a guide rod (404). There are two fixed plates (401) and they are fixedly connected to the platform (1). The threaded rod (402) is rotatably installed between the two fixed plates (401). There are two guide rods (404). The two guide rods (404) are fixedly installed at the front end and rear end between the two fixed plates (401). The sliding block (403) is slidably installed on the outside of the threaded rod (402) by ball nuts. The guide rod (404) slides through the sliding block (403).

6. A hair dryer attachment threading apparatus according to claim 5, wherein: The lifting mechanism (5) includes a base box (501) and a lifting plate (502). The base box (501) is fixedly installed above the sliding block (403), and the lifting plate (502) is located above the base box (501).

7. A hair dryer attachment threading apparatus according to claim 6, wherein: The adjustment mechanism (6) includes a mounting platform (601), a fixed seat (602), a vertical plate (603), an electric cylinder (604), and a guide rod (605). The mounting platform (601) is fixedly installed above the lifting plate (502). The vertical plate (603) is fixedly installed above the mounting platform (601). The electric cylinder (604) is fixedly installed at the rear end of the vertical plate (603). The fixed seat (602) is located at the front end of the vertical plate (603). The thread cutter (7) is fixedly installed above the fixed seat (602). The push rod end of the electric cylinder (604) slides through the vertical plate (603) and is fixedly connected to the fixed seat (602). There are two guide rods (605) located on both sides of the electric cylinder (604). One end of the guide rod (605) slides through the vertical plate (603) and is fixedly connected to the fixed seat (602).

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