CN218108883U - High-stability six-connection wire drawing machine - Google Patents

Abstract

The utility model relates to a six of high stability are wire drawing machine even belongs to the wire drawing machine field, and it includes the frame, around establishing a section of thick bamboo and driving motor, and driving motor fixed connection is in the frame, rotates with the frame around establishing a section of thick bamboo and is connected, around establishing coaxial fixedly connected with transmission shaft on a section of thick bamboo, around being equipped with the drive belt on the transmission shaft, and transmission shaft and driving motor's drive shaft pass through the drive belt and realize the moment of torsion transmission. This application is at the during operation, and driving motor's drive shaft passes through the drive belt and makes the transmission shaft rotate, and the transmission shaft passes through the drive belt and drives around establishing a section of thick bamboo and rotate, and the drive belt is changed more conveniently and is taken transmission stability higher, has improved the stability when the machine function.

Description

High-stability six-connection wire drawing machine

Technical Field

The application relates to the field of wire drawing machines, in particular to a high-stability six-connection wire drawing machine.

Background

The wire drawing machine is a mechanical device widely used in industrial application, and is widely applied to industries such as mechanical manufacturing, hardware processing, petrochemical industry, plastics, bamboo and wood products, wires and cables and the like. It can be divided into a metal wire drawing machine, a plastic wire drawing machine, a bamboo wire drawing machine and the like according to the application.

In the correlation technique, the wire drawing machine comprises a frame, a winding drum, a driving motor and a gear box, wherein the winding drum is rotatably connected with the frame, the driving motor is fixedly connected with the frame, torque transmission is realized between the driving motor and the frame through the gear box, and the gear box has the main function that the wire drawing machine provides a transmission effect for the wire drawing machine during working, so that the normal wire drawing operation of the wire drawing machine is ensured.

In view of the above-mentioned related technologies, the inventor believes that there is a defect that, when the gear box actually works, due to the mutual cooperation between the gears, large vibration is generated, so that the overall stability of the winding tube is low when the wire drawing machine works, and the quality of the drawn rivet steel wire is reduced.

SUMMERY OF THE UTILITY MODEL

In order to improve the problems, the application provides a six-connection wire drawing machine with high stability.

The application provides a six continuous wire drawing machine of high stability adopts following technical scheme:

the utility model provides a high stability's six continuous wire drawing machines, includes the frame, around establishing a section of thick bamboo and driving motor, driving motor fixed connection is in the frame, around establishing a section of thick bamboo and rotate with the frame and be connected, around establishing coaxial fixedly connected with transmission shaft on the section of thick bamboo, around being equipped with the drive belt on the transmission shaft, the transmission of moment of torsion is realized through the drive belt to transmission shaft and driving motor's drive shaft.

By adopting the technical scheme, the belt transmission is more stable, the generated vibration is smaller, the vibration generated during the working process of the winding barrel is reduced, the integral working stability of the six-link wire drawing machine is improved, and the quality of the steel wire of the blind rivet is further improved.

Preferably, be equipped with the auxiliary shaft in the frame, coaxial fixedly connected with first auxiliary plate and second auxiliary plate on the auxiliary shaft, the drive belt includes first power strip and second power strip, first power strip is walked around first auxiliary plate and driving motor's drive shaft simultaneously, second auxiliary plate and transmission shaft are walked around simultaneously in the second power strip.

Through adopting above-mentioned technical scheme, first auxiliary disc is different with the second auxiliary disc size, plays the effect of reduction gear, has controlled around the rotational speed of establishing a section of thick bamboo.

Preferably, the sliding connection has an auxiliary sleeve in the frame, auxiliary sleeve's slip direction is self radial, the auxiliary shaft is coaxial to be located in the auxiliary sleeve, still be equipped with control assembly in the frame, control assembly is used for controlling auxiliary sleeve's slip.

Through adopting above-mentioned technical scheme, the auxiliary shaft can be driven to the auxiliary sleeve and slided, and the slidable of auxiliary shaft is favorable to changing the radial position of first auxiliary disk and second auxiliary disk, makes the first power band and the second power band of tensioning originally lax, convenient to detach change.

Preferably, a first sliding groove and a second sliding groove are formed in the rack, the auxiliary sleeves are provided with two parts which are respectively located at two opposite ends of the auxiliary shaft, the auxiliary sleeves are connected with the rack in a sliding mode through the first sliding groove or the second sliding groove, and the length of the second sliding groove is larger than that of the first sliding groove.

Through adopting above-mentioned technical scheme, the auxiliary shaft is along radial removal, and one of them auxiliary sleeve slips out first sliding tray and another auxiliary sleeve does not roll out the second sliding tray, provides space facility for the dismantlement or the change of drive belt.

Preferably, the control assembly includes the sliding block, the sliding block is located first sliding tray and slides, sliding block and auxiliary sleeve fixed connection, threaded connection has the auxiliary bolt on the sliding block, the auxiliary bolt passes the cell wall threaded connection of sliding block and first sliding tray.

Through adopting above-mentioned technical scheme, the auxiliary bolt can make the sliding block be fixed in on the cell wall of sliding tray, makes auxiliary sleeve drive auxiliary shaft and frame realize the rigidity, has improved the steadiness of auxiliary shaft when the wire drawing machine is worked to improve the stability of wire drawing machine whole operating condition.

Preferably, a rail bar is fixedly connected to a groove wall of the first sliding groove, the length direction of the rail bar is consistent with the length direction of the first sliding groove, a fixing groove is formed in the auxiliary sleeve, and the rail bar is located in the fixing groove.

Through adopting above-mentioned technical scheme, the rail can make auxiliary sleeve drive the slip of auxiliary shaft in lieing in the fixed slot, improves the gliding stability of sleeve.

Preferably, a rack is fixedly connected to the rail bar, the length direction of the rack is consistent with that of the rail bar, the control assembly comprises a fixed cone, the fixed cone slides relative to the auxiliary sleeve, the sliding direction of the fixed cone is perpendicular to that of the rail bar, and the cone tip of the fixed cone is located between two adjacent saw teeth on the rack bar.

Through adopting above-mentioned technical scheme, fixed awl inserts on the rack after between two adjacent sawtooth, and the auxiliary sleeve can't remove along the length direction of rack, provides the condition for follow-up auxiliary shaft is fixed in the position of sliding direction.

Preferably, the auxiliary sleeve is connected with a fixing bolt in a threaded manner, the fixing bolt penetrates through the auxiliary sleeve and is fixedly connected with the fixing cone in a coaxial manner, and the axial direction of the fixing bolt is perpendicular to the sliding direction of the auxiliary sleeve.

Through adopting above-mentioned technical scheme, fixing bolt rotates the axial displacement who drives fixed awl, has realized the relative telescopic connection and the mobility control of fixed awl.

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

1. through the arrangement of the transmission belt, the belt transmission is more stable, the generated vibration is smaller, the vibration generated when the winding cylinder works is reduced, the integral working stability of the wire drawing machine is improved, and the quality of the rivet steel wire is further improved;

2. through the control assembly setting, the slip of the steerable auxiliary sleeve of control assembly, auxiliary sleeve can drive the auxiliary shaft and slide, and the slidable of auxiliary shaft is favorable to changing the radial position of first auxiliary disk and second auxiliary disk, makes the first power band and the second power band of tensioning originally lax, and convenient to detach changes.

Drawings

Fig. 1 is a schematic overall structure diagram for embodying a six-wire drawing machine in the embodiment of the present application.

Fig. 2 is a schematic structural diagram for embodying a control component in a first embodiment of the present application.

Fig. 3 is a schematic structural diagram for embodying a control component in the second embodiment of the present application.

Fig. 4 is a schematic partial cross-sectional view for embodying a control assembly in the second embodiment of the present application.

Description of the reference numerals: 1. a frame; 2. winding a cylinder; 21. a drive shaft; 3. a drive motor; 4. a transmission belt; 41. a first power belt; 42. a second power belt; 5. an auxiliary shaft; 51. a first auxiliary disc; 52. a second auxiliary disc; 6. an auxiliary sleeve; 61. fixing grooves; 62. fixing the bolt; 7. a control component; 71. a slider; 711. an auxiliary bolt; 72. a fixed cone; 8. a first sliding groove; 81. a rail bar; 811. a rack; 9. a second sliding groove.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The first embodiment is as follows:

the embodiment of the application discloses a high-stability six-connection wire drawing machine, which comprises a rack 1, a winding barrel 2 and a driving motor 3, wherein the driving motor 3 is fixedly connected with the rack 1, and the winding barrel 2 is rotatably connected with the rack 1; the winding drum 2 is coaxially and fixedly connected with a transmission shaft 21, the axial direction of the transmission shaft 21 is consistent with the axial direction of a driving shaft of the driving motor 3, and the transmission shaft and the driving shaft realize torque transmission through a transmission belt 4. Around establishing a section of thick bamboo 2 and driving motor 3 and all being provided with a plurality of and one-to-one, around establishing a section of thick bamboo 2 and supplying the steel wire to walk around in proper order in order to realize the processing and the output of steel wire.

As shown in fig. 1 and 2, an auxiliary shaft 5 is disposed on the frame 1, an axial direction of the auxiliary shaft 5 is a vertical direction and is consistent with an axial direction of the transmission shaft 21, a first auxiliary disc 51 and a second auxiliary disc 52 are coaxially and fixedly connected to the auxiliary shaft 5, a diameter of the first auxiliary disc 51 is greater than a diameter of the second auxiliary disc 52, the first auxiliary disc 51 is located above the second auxiliary disc 52, the transmission belt 4 includes a first power belt 41 and a second power belt 42, the first power belt 41 simultaneously bypasses the first auxiliary disc 51 and a driving shaft of the driving motor 3, and the second power belt 42 simultaneously bypasses the second auxiliary disc 52 and the transmission shaft 21. When the six-link wire drawing machine starts working, the driving shaft of the driving motor 3 drives the first auxiliary disc 51 to rotate through the first power belt 41, the first auxiliary disc 51 drives the second auxiliary disc 52 to rotate through the auxiliary shaft 5, the second auxiliary disc 52 drives the transmission shaft 21 to rotate through the second power belt 42, the transmission shaft 21 rotates to drive to rotate around the tube 2, the wire drawing work is completed by rotating around the tube 2, the sizes of the first auxiliary disc 51 and the second auxiliary disc 52 are different, the effect of the speed reducer is achieved, and the rotating speed of the tube 2 can be controlled to rotate around the tube.

As shown in fig. 1 and 2, a first sliding groove 8 and a second sliding groove 9 have been opened on the frame 1, the length direction of the first sliding groove 8 is the same as the length direction of the second sliding groove 9, and the length directions of the two are both perpendicular to the axial direction of the transmission shaft 21, a control assembly 7 is arranged on the frame 1, the control assembly 7 is used for controlling the sliding of the auxiliary sleeve 6, the control assembly 7 includes a sliding block 71, the sliding block 71 is located in the first sliding groove 8 and slides in the auxiliary sleeve 6, the auxiliary shaft 5 is coaxially sleeved in the auxiliary sleeve 6, an auxiliary bolt 711 is screwed on the sliding block 71, and the axial direction of the auxiliary bolt 711 is perpendicular to the axial direction of the auxiliary shaft 5. In this embodiment, two auxiliary sleeves 6, two sliding blocks 71 and two auxiliary bolts 711 are provided, one of the two sliding blocks 71 is located in the first sliding groove 8, and the other is located in the second sliding groove 9, and the connection structure of the auxiliary sleeve 6, the sliding block 71 and the auxiliary bolt 711 in the first sliding groove 8 is the same as the connection structure of the auxiliary sleeve 6, the sliding block 71 and the auxiliary bolt 711 in the second sliding groove 9. Taking the first sliding groove 8 as an example, when the sixplex drawing machine works, the auxiliary bolt 711 passes through the sliding block 71 to be in threaded connection with the groove wall of the first sliding groove 8, so that the auxiliary shaft 5 is positioned on the frame 1, and the first power belt 41 and the second power belt 42 are kept tensioned.

As shown in fig. 1 and 2, the length of the second slide groove 9 is greater than the length of the first slide groove 8 and the second slide groove 9 is located below the first slide groove 8. When the belt 4 needs to be replaced, the auxiliary bolt 711 is unscrewed to slide the slide block 71 out of the first slide groove 8, and the slide block in the second slide groove 9 does not slide out, so that the belt 4 is loosened, and the belt 4 is removed and replaced.

The implementation principle of the high-stability six-connection wire drawing machine in the embodiment of the application is as follows:

the auxiliary bolt 711 is screwed, the transmission belt 4 is kept in a tensioning state, and the driving shaft of the driving motor 3 enables the transmission shaft 21 to rotate through the transmission belt 4, so that the transmission shaft 21 drives the winding barrel 2 to rotate, the vibration generated by belt transmission is small, the vibration generated by the winding barrel 2 during working is small, the machine stability of the six-link wire drawing machine during working is improved, and the quality of the rivet steel wire produced by the six-link wire drawing machine is improved; when the belt 4 needs to be replaced, the auxiliary bolt 711 is unscrewed to slide the slide block 71 out of the first slide groove 8, and the slide block 71 in the second slide groove 9 remains in the second slide groove 9, so that the belt 4 is loosened, and the belt 4 is replaced.

Example two:

as shown in fig. 3 and 4, the difference from the first embodiment is that a rail 81 is fixedly connected to both the groove wall of the first sliding groove 8 and the groove wall of the second sliding groove 9, a rack 811 is fixedly connected to the rail 81, the length direction of the rail 81 is the same as the length direction of the first sliding groove 8, a fixing groove 61 is formed in the auxiliary sleeve 6, the rail 81 is located in the fixing groove 61, a fixing bolt 62 is threadedly connected to the auxiliary sleeve 6, the axial direction of the fixing bolt 62 is perpendicular to the sliding direction of the auxiliary sleeve 6, the control assembly 7 further includes a fixing cone 72, the fixing bolt 62 passes through the auxiliary sleeve 6 and is coaxially and fixedly connected with the fixing cone 72, and the fixing cone 72 can slide along its own axial direction by screwing in the fixing bolt 62. When the fixing bolt 62 is screwed in, the tip of the fixing cone 72 is abutted between two adjacent sawteeth on the rack 811, and the auxiliary sleeve 6 cannot move along the first sliding groove 8, so that the sliding block 71 is relatively fixed in the first sliding groove 8, the connection stability between the auxiliary shaft 5 and the rack 1 is improved, and the vibration generated when the auxiliary shaft 5 works is reduced; when the driving belt 4 needs to be replaced, the fixing bolt 62 is unscrewed to make the tip of the fixing cone 72 away from the rack 811, and the sliding blocks 71 to 71 are separated from the first sliding groove 8, so that the driving belt 4 can be replaced.

The second implementation principle of the high-stability six-link wire drawing machine in the embodiment of the application is as follows:

the fixing bolt 62 is screwed, the tip of the fixing cone 72 is abutted between two adjacent sawteeth on the rack 811, and the auxiliary sleeve 6 cannot slide along the first sliding groove 8; when the belt 4 needs to be replaced, the fixing bolt 62 is unscrewed, and the auxiliary sleeve 6 is slid out of the first sliding groove 8, so that the belt 4 is loosened, thereby replacing the belt 4.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: equivalent changes in structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a six of high stability are wire drawing machine even, includes frame (1), around establishing a section of thick bamboo (2) and driving motor (3), driving motor (3) fixed connection is in frame (1), rotate with frame (1) around establishing a section of thick bamboo (2) and be connected its characterized in that: the winding is provided with a transmission shaft (21) which is fixedly connected with the upper portion of the drum (2) in a coaxial mode, the transmission shaft (21) is provided with a transmission belt (4) in a winding mode, and the transmission shaft (21) and a driving shaft of the driving motor (3) achieve torque transmission through the transmission belt (4).

2. The high-stability six-wire drawing machine according to claim 1, wherein: be equipped with auxiliary shaft (5) on frame (1), coaxial fixedly connected with first auxiliary disc (51) and second auxiliary disc (52) on auxiliary shaft (5), drive belt (4) include first power strip (41) and second power strip (42), first power strip (41) are walked around first auxiliary disc (51) and driving motor's (3) drive shaft simultaneously, second auxiliary disc (52) and transmission shaft (21) are walked around simultaneously in second power strip (42).

3. The high-stability six-wire drawing machine according to claim 2, wherein: the improved sliding device is characterized in that an auxiliary sleeve (6) is connected to the frame (1) in a sliding mode, the sliding direction of the auxiliary sleeve (6) is radial, the auxiliary shaft (5) is coaxially sleeved in the auxiliary sleeve (6), a control assembly (7) is further arranged on the frame (1), and the control assembly (7) is used for controlling the sliding of the auxiliary sleeve (6).

4. The high-stability six-wire drawing machine according to claim 3, wherein: the improved auxiliary shaft is characterized in that a first sliding groove (8) and a second sliding groove (9) are formed in the rack (1), the two auxiliary sleeves (6) are arranged at two opposite ends of the auxiliary shaft (5) respectively, the auxiliary sleeves (6) are connected with the rack (1) in a sliding mode through the first sliding groove (8) or the second sliding groove (9), and the length of the second sliding groove (9) is larger than that of the first sliding groove (8).

5. The high-stability six-wire drawing machine according to claim 4, wherein: control assembly (7) include sliding block (71), sliding block (71) are located first sliding tray (8) and slide, sliding block (71) and auxiliary sleeve (6) fixed connection, threaded connection has auxiliary bolt (711) on sliding block (71), auxiliary bolt (711) pass the cell wall threaded connection of sliding block (71) and first sliding tray (8).

6. The high-stability six-link wire drawing machine according to claim 4, wherein: fixedly connected with rail bar (81) on the cell wall of first sliding tray (8), the length direction of rail bar (81) is unanimous with the length direction of first sliding tray (8), fixed slot (61) have been seted up on auxiliary sleeve (6), rail bar (81) are located fixed slot (61).

7. The high-stability six-link wire drawing machine according to claim 6, wherein: fixedly connected with rack (811) on rail bar (81), the length direction of rack (811) is unanimous with the length direction of rail bar (81), control assembly (7) are including fixed awl (72), fixed awl (72) and auxiliary sleeve (6) relative slip just the slip direction of fixed awl (72) is perpendicular with the length direction of rail bar (81), the awl point of fixed awl (72) is located between two adjacent sawtooth on rack (811).

8. The high-stability six-wire drawing machine according to claim 7, wherein: the auxiliary sleeve (6) is connected with a fixing bolt (62) in a threaded mode, the fixing bolt (62) penetrates through the auxiliary sleeve (6) to be fixedly connected with the fixing cone (72) in a coaxial mode, and the axis direction of the fixing bolt (62) is perpendicular to the sliding direction of the auxiliary sleeve (6).

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