CN214934932U - High efficiency molybdenum filament centre gripping coiling mechanism - Google Patents

Abstract

The utility model relates to the technical field of molybdenum wire rolling, and discloses a high-efficiency molybdenum wire clamping and rolling device, which comprises a base device, wherein the base device comprises a base, the upper surface part structure of the base is fixedly connected with a first L-shaped supporting block, the upper surface of the first L-shaped supporting block is fixedly connected with a supporting pad, the upper surface of the base device is provided with a rotating and collecting device, a certain friction exists between the first rotating shaft and a second L-shaped supporting block, the first rotating shaft drives the second L-shaped supporting block to rotate when rotating, the second L-shaped supporting block is connected with a second rotating shaft, when the second rotating shaft is clamped into a clamping groove, the rotating force of the first rotating shaft is counteracted, the second L-shaped supporting block can be fixed at the position without being influenced by gravity, the first rotating shaft rotates to avoid influencing the operation of other parts, the whole working efficiency of the machine is improved, and the linkage between the parts is strong, the rolling effect of the machine is doubled.

Description

High efficiency molybdenum filament centre gripping coiling mechanism

Technical Field

The utility model relates to a molybdenum filament rolling technical field specifically is a high efficiency molybdenum filament centre gripping coiling mechanism.

Background

The molybdenum wire is mainly a consumable material made of noble metals such as molybdenum and the like and provided with a high-voltage electric field to continuously move in the process of wire cutting machining, namely, a continuously moving thin metal wire is called an electrode wire (also called an electrode) when a wire cutting machine machines a workpiece, and the wire can carry out pulse spark discharge erosion removal and metal cutting forming on the workpiece. Molybdenum wire has many other uses.

Most current molybdenum filament coiling mechanism all is that the line of cut is itself from taking, and easy emergence takes off the line during use, the phenomenon of scattering, and molybdenum filament itself is that the metal has certain plasticity, if do not clip molybdenum filament itself when the rolling, just easily takes place to scatter and take off the phenomenon of line when the rolling, consequently needs a high efficiency molybdenum filament centre gripping coiling mechanism now urgently.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

Not enough to prior art, the utility model provides a high efficiency molybdenum filament centre gripping coiling mechanism possesses advantages such as conveniently batch the molybdenum filament more, has solved the molybdenum filament and has easily taken place the problem that takes off or scatter when the rolling.

(II) technical scheme

In order to achieve the above object, the utility model provides a following technical scheme: a high-efficiency molybdenum wire clamping and winding device comprises a base device, wherein the base device comprises a base, the upper surface part of the base is fixedly connected with an L-shaped supporting block I in a structure, and the upper surface of the L-shaped supporting block I is fixedly connected with a supporting pad;

the upper surface of the base device is provided with a rotating collecting device;

the upper surface of the base device is provided with a fixing device.

Preferably, the collecting device rotates and includes backup pad one, the lower fixed surface of backup pad one is connected at the upper surface of base, the right flank fixedly connected with motor of backup pad one, the right flank of motor rotates and is connected with main pivot, the circumference side swing joint of main pivot has the accepting groove, the right flank swing joint of accepting groove has backup pad two, the lower fixed surface of backup pad two is connected at the upper surface of base, swing joint is run through on the circumference side of main pivot to the side about backup pad two, the right flank swing joint of main pivot has conical gear one.

Preferably, the fixing device comprises a second conical gear, the second conical gear is meshed with the first conical gear, the first conical gear is movably connected to the front of the second conical gear, a rectangular block and a second L-shaped supporting block are movably connected to the circumferential side face of the first conical gear in a penetrating mode, the left side face of the rectangular block is fixedly connected to the right side face of the first L-shaped supporting block, a clamping groove is formed in the partial structure of the right side face of the rectangular block, the second rotating shaft is movably clamped to the inner side face of the clamping groove in a penetrating mode, the circumferential side face of the second rotating shaft is movably connected to the second L-shaped supporting block in a penetrating mode, a screw hole is formed in the partial structure of the upper surface of the second L-shaped supporting block, a screw is connected to the screw threads, the screw is connected with the second L-shaped supporting block in a penetrating mode, and a clamping block is fixedly connected to the lower surface of the screw.

(III) advantageous effects

Compared with the prior art, the utility model provides a high efficiency molybdenum filament centre gripping coiling mechanism possesses following beneficial effect:

1. the high-efficiency molybdenum wire clamping and winding device is characterized in that a molybdenum wire is placed on a supporting pad, the end of the molybdenum wire is fixed on an accommodating groove, a motor is started, a first supporting plate is connected with a base and the motor to support the work of the motor, the motor is started to drive a main rotating shaft to rotate, the main rotating shaft drives the accommodating groove to rotate, the accommodating groove starts to wind the molybdenum wire, the main rotating shaft simultaneously drives a first bevel gear to rotate, the first bevel gear rotates to drive a second bevel gear to rotate, the second bevel gear rotates to drive a first rotating shaft to rotate, an L-shaped supporting block is connected with the first rotating shaft and an L-shaped supporting block is used for supporting the rotation of the first rotating shaft, the first rotating shaft rotates to slowly lift the second L-shaped supporting block and clamp the second rotating shaft into a clamping groove, the second L-shaped supporting block is fixed to enable a clamping block to be positioned right above the supporting pad, and the clamping block and the supporting pad can clamp the molybdenum wire by adjusting the position of the screw, make the accepting groove more convenient when batching, through pressing from both sides the molybdenum filament and batch, avoided the molybdenum filament to take place to take off the line or the phenomenon of scattering when the coiling, improve the efficiency of rolling molybdenum filament simultaneously.

2. This high efficiency molybdenum filament centre gripping coiling mechanism drives conical gear two through conical gear one, conical gear two drives pivot one again and rotates, there is certain friction itself between pivot one and the L type supporting shoe two, drive L type supporting shoe two when pivot one rotates and rotate, L type supporting shoe two is connected with pivot two, when pivot two joint into the draw-in groove, the pivoted power of pivot one is offset and makes L type supporting shoe two can fix at that position not influenced by gravity simultaneously, pivot one forms the rotation, do not influence other part operation, improve the whole work efficiency of machine, it is strong to make the linkage nature between the part, make the rolling effect of machine double.

Drawings

FIG. 1 is a schematic structural view of the foundation device of the present invention;

FIG. 2 is a schematic view of the structure of the rotary collecting device of the present invention;

FIG. 3 is a schematic view of the fixing device of the present invention;

fig. 4 is a schematic side view of the basic device structure of the present invention.

In the figure: 1. a base device; 101. a base; 102. an L-shaped supporting block I; 103. a material supporting pad; 2. rotating the collecting device; 201. a first support plate; 202. a motor; 203. a main rotating shaft; 204. an accommodating groove; 205. a second support plate; 206. a first conical gear; 3. a fixing device; 301. a second bevel gear; 302. a first rotating shaft; 303. a rectangular block; 304. an L-shaped supporting block II; 305. a card slot; 306. a second rotating shaft; 307. a screw; 308. and (5) clamping blocks.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1 to 4, the present invention provides the following technical solutions: a high-efficiency molybdenum wire clamping and winding device comprises a base device 1, wherein the base device 1 comprises a base 101, the upper surface part of the base 101 is fixedly connected with an L-shaped supporting block I102 in a partial structure, and the upper surface of the L-shaped supporting block I102 is fixedly connected with an object supporting pad 103;

the upper surface of the base device 1 is provided with a rotary collecting device 2;

the upper surface of the base unit 1 is provided with a fixing unit 3.

The rotary collecting device 2 comprises a first supporting plate 201, the lower surface of the first supporting plate 201 is fixedly connected to the upper surface of a base 101, the right side surface of the first supporting plate 201 is fixedly connected with a motor 202, the right side surface of the motor 202 is rotatably connected with a main rotating shaft 203, the circumferential side surface of the main rotating shaft 203 is movably connected with a containing groove 204, the right side surface of the containing groove 204 is movably connected with a second supporting plate 205, the lower surface of the second supporting plate 205 is fixedly connected to the upper surface of the base 101, the left side surface and the right side surface of the second supporting plate 205 are movably connected to the circumferential side surface of the main rotating shaft 203 in a penetrating manner, a first conical gear 206 is movably connected to the right side surface of the main rotating shaft 203, the fixing device 3 comprises a second conical gear 301, the second conical gear 301 is meshed with the first conical gear 206, a first rotating shaft 302 is movably connected to the front surface of the second conical gear 301, and the circumferential side surface of the first rotating shaft 302 is movably connected with a rectangular block 303 and a second L-shaped supporting block 304 in a penetrating manner, the left side surface of the rectangular block 303 is fixedly connected to the right side surface of the first L-shaped support block 102, a clamping groove 305 is arranged on the right side surface of the rectangular block 303, a second rotating shaft 306 is movably clamped on the inner side surface of the clamping groove 305, the circumferential side surface of the second rotating shaft 306 is movably connected to the second L-shaped support block 304 in a penetrating mode, a screw hole is formed in the upper surface of the second L-shaped support block 304 in a penetrating mode, a screw 307 is connected with the screw thread, the screw 307 is connected with the second L-shaped support block 304 in a threaded mode, a clamping block 308 is fixedly connected to the lower surface of the screw 307, a molybdenum wire is placed on the support pad 103, the end of the molybdenum wire is fixed to the accommodating groove 204, the first support plate 201 is connected with the base 101 and the motor 202 to provide support for work of the motor 202 by starting the motor 202, the main rotating shaft 203 is started to drive the main rotating shaft 203 to rotate to drive the accommodating groove 204 to rotate, the accommodating groove 204 starts to roll up the molybdenum wire, the first conical gear 206 is driven to rotate while the main rotating shaft 203 rotates, the first conical gear 206 rotates to drive the second conical gear 301 to rotate, the second conical gear 301 rotates to drive the first rotating shaft 302 to rotate, the first rectangular block 303 is connected with the first rotating shaft 302 and the first L-shaped supporting block 102 to support the rotation of the first rotating shaft 302, the first rotating shaft 302 rotates to enable the second L-shaped supporting block 304 to rise slowly and enable the second rotating shaft 306 to be clamped into the clamping groove 305, the second L-shaped supporting block 304 is fixed to enable the clamping block 308 to be located right above the object supporting pad 103, the clamping block 308 and the object supporting pad 103 can clamp molybdenum wires by adjusting the position of the screw 307, and the accommodating groove 204 is more convenient to reel.

When in use, the utility model is used,

the first step is as follows: placing a molybdenum wire on the supporting pad 103, fixing the end of the molybdenum wire on the containing groove 204, starting the motor 202, connecting the first supporting plate 201 with the base 101 and the motor 202 to support the operation of the motor 202 by starting the motor 202, driving the main rotating shaft 203 to rotate by starting the motor 202, driving the containing groove 204 to rotate by rotating the main rotating shaft 203, starting to reel the molybdenum wire by rotating the containing groove 204, driving the first conical gear 206 to rotate while rotating the main rotating shaft 203, driving the second conical gear 301 to rotate by rotating the first conical gear 206, driving the first rotating shaft 302 to rotate by rotating the second conical gear 301, connecting the first rotating shaft 302 with the first rectangular block 303 and providing support for the rotation of the first rotating shaft 302 by rotating the first rotating shaft 302, slowly raising the second L-shaped supporting block 304 and clamping the second rotating shaft 306 into the clamping groove 305 to fix the second L-shaped supporting block 304, fixing the second L-shaped supporting block 304 to position the clamping block 308 right above the supporting pad 103, the position of the screw 307 is adjusted to enable the clamping block 308 and the object supporting pad 103 to clamp the molybdenum wire, so that the accommodating groove 204 is more convenient to wind.

The second step is that: the first conical gear 206 drives the second conical gear 301, the second conical gear 301 drives the first rotating shaft 302 to rotate, a certain friction exists between the first rotating shaft 302 and the second L-shaped supporting block 304, the first rotating shaft 302 drives the second L-shaped supporting block 304 to rotate when rotating, the second L-shaped supporting block 304 is connected with the second rotating shaft 306, when the second rotating shaft 306 is clamped into the clamping groove 305, the rotating force of the first rotating shaft 302 is offset, meanwhile, the second L-shaped supporting block 304 can be fixed at the position and is not influenced by gravity, and the first rotating shaft 302 rotates to avoid influencing the operation of other parts.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a high efficiency molybdenum wire centre gripping coiling mechanism, includes base device (1), its characterized in that: the foundation device (1) comprises a base (101), the upper surface part of the base (101) is fixedly connected with a first L-shaped supporting block (102) in a structure, and the upper surface of the first L-shaped supporting block (102) is fixedly connected with an object supporting pad (103);

the upper surface of the base device (1) is provided with a rotary collecting device (2);

the upper surface of basic device (1) is provided with fixing device (3), fixing device (3) include conical gear two (301), the preceding swing joint of conical gear two (301) has pivot one (302), the circumference side of pivot one (302) runs through swing joint rectangular block (303) and L type supporting shoe two (304), the left surface fixed connection of rectangular block (303) is on the right flank of L type supporting shoe one (102), the right flank partial structure of rectangular block (303) is equipped with draw-in groove (305).

2. The high-efficiency molybdenum wire clamping and winding device of claim 1, wherein: rotate collection device (2) including backup pad (201), the lower fixed surface of backup pad (201) is connected at the upper surface of base (101), right flank fixedly connected with motor (202) of backup pad (201), the right flank of motor (202) rotates and is connected with main pivot (203), the circumference side swing joint of main pivot (203) has accepting groove (204).

3. The high-efficiency molybdenum wire clamping and winding device of claim 2, wherein: the right side face of the containing groove (204) is movably connected with a second supporting plate (205), the lower surface of the second supporting plate (205) is fixedly connected to the upper surface of the base (101), and the left side face and the right side face of the second supporting plate (205) penetrate through the circumferential side face of the main rotating shaft (203) in a movable mode.

4. The high-efficiency molybdenum wire clamping and winding device of claim 2, wherein: the right side surface of the main rotating shaft (203) is movably connected with a first conical gear (206).

5. The high-efficiency molybdenum wire clamping and winding device of claim 1, wherein: the second conical gear (301) is meshed with the first conical gear (206), a second rotating shaft (306) is movably clamped on the inner side surface of the clamping groove (305), and the circumferential side surface of the second rotating shaft (306) is movably connected to the second L-shaped supporting block (304) in a penetrating mode.

6. The high-efficiency molybdenum wire clamping and winding device of claim 5, wherein: screw holes are formed in the upper surface of the second L-shaped supporting block (304) in a partial structure, screws (307) are connected to the screw holes in a threaded mode, the screws (307) are connected with the second L-shaped supporting block (304) in a threaded mode, and clamping blocks (308) are fixedly connected to the lower surface of the screws (307).

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