CN220547469U - A kind of single-strand barium wire drawing machine - Google Patents

Abstract

The utility model discloses a single-strand barium wire drawing machine, which includes a winding disk and a support pole driven by a reciprocating screw rod. A support pole with an elastic member is inserted into the support pole. The support tube is fixedly installed. The single-strand barium wire drawing machine provided by the utility model inserts the silicon-barium cored wire into the supporting tube, so that the reciprocating screw rod drives the supporting tube to reciprocate, so that the silicon-barium cored wire is evenly wound on the winding reel. Avoid fatigue caused by manual support.

Description

Single-strand barium wire bracing machine

Technical Field

The utility model relates to the technical field of silicon-barium cored wire production, in particular to a single-strand barium wire bracing machine.

Background

The silicon-barium cored wire is prepared by grinding silicon-barium alloy into fine powder cores through professional equipment, taking a cold-rolled steel belt as a wire skin, and pressing by using wire pressing equipment, is commonly used in the aspects of steelmaking and casting, and is a high-quality smelting material.

According to publication (bulletin) No.: CN106521090a, publication (date): 2017-03-22 discloses a solid metal calcium and rare earth, barium and molybdenum containing titanium nitride silicon alloy composite cored wire, which comprises a core layer and a steel skin layer wrapped outside the core layer, wherein a net-shaped supporting layer made of steel or iron is arranged between the core layer and the steel skin layer, the core layer comprises a titanium nitride silicon alloy powder layer, an intermediate protection layer and a solid metal calcium wire, the solid metal calcium wire is wrapped by the intermediate protection layer, the titanium nitride silicon alloy powder layer wraps the intermediate protection layer, the mass ratio of the solid metal calcium wire to the titanium nitride silicon alloy powder layer is 1:2-5, and the titanium nitride silicon alloy powder layer is rare earth, barium and molybdenum containing titanium nitride silicon alloy powder with the particle size below 3 mm. The method for adding the alloy and the calcium into the microalloyed steel by adopting the cored wire can solve the problem of low recovery rate, and has the advantages of higher yield, longer storage time and more stable yield compared with the conventional solid metal calcium wire, and has remarkable economic benefit.

According to publication (bulletin) No.: CN206240966U, publication (date): 2017-06-13 discloses a single-strand barium wire bracing machine which comprises a base, a bracket, a motor, a traction roller, a compression roller and a transmission belt. The base is connected into a rectangular frame by a left longitudinal rod, a right longitudinal rod, a front transverse rod and a rear transverse rod; the bracket consists of a pair of vertical rods connected to the right ends of the front cross rod and the rear cross rod of the base, an upper longitudinal rod connected to the upper ends of the pair of vertical rods and a pair of upper cross rods connected to the two ends of the upper longitudinal rod; the motor is arranged on the base and is close to the bracket; the traction roller and the compression roller are arranged on the upper cross rod of the bracket one by one and tangentially through a pair of support plates; the transmission belt surrounds the output shaft of the motor and one end roller shaft of the traction roller. The single-strand barium wire bracing machine can save production cost and labor cost, reduce energy consumption and is convenient and quick to use.

In the prior art including above-mentioned patent, need twine on the wire reel after the silicon barium core-spun yarn suppression is accomplished and concentrate the storage, and processing can be carried out in some little factory building in the silicon barium core-spun yarn preparation process, and under the normal circumstances, little factory building is twining the in-process of wire reel with the silicon barium core-spun yarn after pressing, need the manual work to hold the silicon barium core-spun yarn and cooperate the driving motor that sets up on the wire reel to make silicon barium core-spun yarn twine in proper order, because the wire reel volume of storing silicon barium core-spun yarn is great, the manual work needs to keep standing the gesture, consequently long-time standing and support silicon barium core-spun yarn twine in-process must make the workman tired, reduce silicon barium core-spun yarn winding steadiness, thereby make silicon barium core-spun yarn appear pine on the wire reel and take off easily and influence finished product production transportation.

Disclosure of Invention

The utility model aims to provide a single-strand barium wire bracing machine, which solves the problem that the manually-supported silicon-barium cored wire is easy to fatigue in the winding process, so that the silicon-barium cored wire is loose in the winding process.

In order to achieve the above object, the present utility model provides the following technical solutions: the single-strand barium wire bracing machine comprises a wire spool and a strut driven by a reciprocating screw rod, wherein a strut with an elastic piece is inserted and arranged on the strut;

and a supporting pipe is fixedly arranged on the supporting rod.

Preferably, the supporting pipe is provided with pressing plates in a sliding manner, and the ends of two sides of each pressing plate are fixedly provided with arc edges.

Preferably, the supporting pipe is fixedly provided with a first bench-type frame and a second bench-type frame, and the sectional area of the first bench-type frame is larger than that of the second bench-type frame;

and a notch is formed in the second bench frame.

Preferably, a plurality of inserted bars are fixedly arranged on the supporting rods, and the inserted bars slide in the jacks formed in the supporting rods.

Preferably, a supporting frame is fixedly arranged on the supporting pipe, and a supporting block is fixedly arranged on the supporting frame;

the pressing plate is fixedly provided with a sliding strip, and the sliding strip slides in a slideway arranged on the supporting block.

Preferably, the device further comprises a bracket, wherein a driving motor is fixedly arranged on the bracket, and the reciprocating screw rod is fixedly arranged at the output end of the driving motor;

the support is fixedly provided with a guide rod, and the support slides on the guide rod.

In the technical scheme, the single-strand barium wire bracing machine provided by the utility model has the following beneficial effects: the silicon-barium cored wire is inserted into the supporting tube, so that the reciprocating screw rod drives the supporting tube to reciprocate, the silicon-barium cored wire is uniformly wound on the wire spool, and fatigue caused by manual supporting is avoided; meanwhile, the supporting pipes are obliquely arranged to enable the silicon-barium cored wire to have a straightening force so as to be firmly wound on the wire spool, and elastic pieces are arranged to prevent the straightening force from being overlarge so as to slow down the silicon-barium cored wire, so that the silicon-barium cored wire can be kept firmly wound on the wire spool as much as possible.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present utility model, and other drawings may be obtained according to these drawings for a person having ordinary skill in the art.

Fig. 1 is a schematic structural diagram of a wire spool, a bracket and a supporting frame according to an embodiment of the present utility model;

FIG. 2 is a schematic diagram of a cross-sectional side view of a spool, a post and a cross-sectional side view of a support tube according to an embodiment of the present utility model;

FIG. 3 is an enlarged schematic view of the structure of FIG. 1 at A;

fig. 4 is an enlarged schematic view of the structure at B in fig. 2.

Reference numerals illustrate:

1. a wire spool; 21. a bracket; 211. a driving motor; 212. a reciprocating screw rod; 213. a guide rod; 22. a support post; 23. a support rod; 231. an elastic member; 232. a rod; 241. supporting the pipe; 242. a first bench-type frame; 243. a second bench frame; 244. a notch; 25. a supporting frame; 251. a support block; 26. a pressing plate; 261. a slide bar; 262. and (5) arc edges.

Detailed Description

In order to make the technical scheme of the present utility model better understood by those skilled in the art, the present utility model will be further described in detail with reference to the accompanying drawings.

As shown in fig. 1-4, a single-strand barium wire bracing machine comprises a wire spool 1 and further comprises a support post 22 driven by a reciprocating screw rod 212, wherein the support post 22 is inserted with a support post 23 with an elastic piece 231;

the supporting pipe 241 is fixedly installed on the supporting rod 23.

Specifically, as shown in fig. 1, 2 and 4, a circular groove is formed on the pillar 22, the elastic member 231 is fixedly installed between the supporting rod 23 and the circular groove, and the elastic member 231 is specifically a tension spring, and an included angle between the supporting tube 241 and the horizontal plane is specifically 30 °. The silicon-barium cored wire is inserted into the supporting tube 241, so that the reciprocating screw rod 212 drives the supporting tube 241 to reciprocate, the silicon-barium cored wire is uniformly wound on the wire spool 1, and fatigue caused by manual supporting is avoided; meanwhile, the supporting pipe 241 is obliquely arranged to ensure that the silicon-barium cored wire has a straightening force and is firmly wound on the wire spool 1, and the elastic piece 231 is arranged to slow down in order to avoid overlarge straightening force, so that the silicon-barium cored wire can be kept firmly wound on the wire spool 1 as much as possible.

As a further embodiment of the present utility model, the supporting tube 241 is slidably provided with a pressing plate 26, and two side ends of the pressing plate 26 are fixedly provided with arc edges 262.

Specifically, as shown in fig. 1, 2 and 3, the pressing plate 26 is always located at the back of the silicon-barium cored wire and the winding position of the wire spool 1, i.e., above. The clamping plate 26 with the arc edge 262 extrudes and slides the surface of the wire spool 1 of the wound silicon-barium cored wire in the process of reciprocating the clamping tube 241 along with the synchronous movement of the clamping plate 26, so that the silicon-barium cored wire is additionally clamped and fixed, and the situation that the silicon-barium cored wire on the wire spool 1 is loosened is reduced; meanwhile, after the pressing plate 26 moves to the extreme end of the wire spool 1, the supporting pipe 241 in the return stroke enables the pressing plate 26 assembled in a sliding way to have a short stop period, so that the pressing plate 26 supports the silicon-barium cored wire and then moves in the return stroke.

As still another embodiment of the present utility model, the supporting pipe 241 is fixedly provided with a first bench-type frame 242 and a second bench-type frame 243, wherein the sectional area of the first bench-type frame 242 is larger than that of the second bench-type frame 243;

the second bench frame 243 is provided with a notch 244.

Specifically, as shown in fig. 2 and 4, the first and second bench frames 242 and 243 are each composed of a plurality of elastic sheets, and wiping cotton cloth is fixedly installed inside the elastic sheets. The silicon-barium cored wire sequentially passes through the first bench type frame 242, the supporting tube 241 and the second bench type frame 243, so that the first bench type frame 242 intercepts larger dust and sundries firstly, falls from the port of the first bench type frame 242 which is obliquely arranged, simultaneously enters the supporting tube 241, intercepts smaller dust and sundries under the action of the second bench type frame 243, falls from the notch 244, and is matched with wiping cotton cloth to adsorb dust, and the dust is reduced from being adsorbed on the silicon-barium cored wire to affect finished product packaging.

As another embodiment of the present utility model, a plurality of inserting rods 232 are fixedly installed on the supporting rod 23, and the inserting rods 232 slide in the inserting holes formed on the supporting rod 22.

Specifically, as shown in fig. 2 and 4, the insert pin 232 is not separated from the inside of the insertion hole by the elastic member 231, and a rubber damping washer is provided in the insertion hole. The support rod 23 is guided movably through the plurality of inserting rods 232, and the damping washers are matched to ensure that the support rod 23 cannot be subjected to larger repeated shaking caused by the elastic piece 231 when moving.

As still another embodiment of the present utility model, the supporting frame 25 is fixedly installed on the supporting tube 241, and the supporting block 251 is fixedly installed on the supporting frame 25;

the pressing plate 26 is fixedly provided with a sliding strip 261, and the sliding strip 261 slides in a slideway arranged on the supporting block 251.

Specifically, as shown in fig. 2, 3 and 4, symmetrically arranged sliding blocks are fixedly mounted on the sliding strip 261, so that the sliding strip 261 cannot be separated from the supporting block 251, and the supporting frame 25 is specifically an elastic stainless steel metal rod. In the process of gradually increasing the silicon-barium cored wire on the wire spool 1, the supporting frame 25 is adapted to deform; while the support block 251 provides a condition for the platen 26 to slide.

As still another embodiment of the present utility model, the device further includes a bracket 21, a driving motor 211 is fixedly installed on the bracket 21, and a reciprocating screw 212 is fixedly installed at an output end of the driving motor 211;

the support 21 is fixedly provided with a guide bar 213, and the stay 22 slides on the guide bar 213.

Specifically, as shown in fig. 1 and 2, the driving motor 211 is a prior art, and the guide rod 213 penetrates the support 22. The reciprocating screw rod 212 is driven to rotate by the driving motor 211 to enable the support column 22 to reciprocate on the support 21, and the guide limit of the reciprocating movement of the support column 22 is provided under the action of the guide rod 213.

Working principle: the silicon-barium cored wire sequentially passes through the first bench type frame 242, the supporting tube 241 and the second bench type frame 243, so that the first bench type frame 242 firstly intercepts larger dust and sundries and falls from the port of the obliquely arranged first bench type frame 242, meanwhile, smaller dust and sundries entering the supporting tube 241 are intercepted under the action of the second bench type frame 243 and fall from the notch 244, dust is adsorbed by matching with wiping cotton cloth, and the reciprocating screw 212 drives the supporting tube 241 to reciprocate under the action of driving motor 211 so as to enable the silicon-barium cored wire to be uniformly wound on the wire spool 1, and fatigue caused by manual supporting is avoided; simultaneously, the supporting tube 241 is obliquely arranged to enable the silicon-barium cored wire to have a straightening force and firmly wind on the wire spool 1, and the elastic piece 231 is arranged to slow down in order to avoid overlarge straightening force, so that the silicon-barium cored wire can keep winding on the wire spool 1 as firmly as possible, and the pressing plate 26 synchronously moves along with the reciprocating movement of the supporting tube 241, so that the pressing plate 26 with the arc edge 262 extrudes and slides the surface of the wire spool 1 of the wound silicon-barium cored wire, the additional supporting and fixing of the silicon-barium cored wire is realized, and the loosening condition of the silicon-barium cored wire on the wire spool 1 is reduced.

While certain exemplary embodiments of the present utility model have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that modifications may be made to the described embodiments in various different ways without departing from the spirit and scope of the utility model. Accordingly, the drawings and description are to be regarded as illustrative in nature and not as restrictive of the scope of the utility model, which is defined by the appended claims.

Claims (6)

1. The single-strand barium wire bracing machine comprises a wire spool (1) and is characterized by further comprising a strut (22) driven by a reciprocating screw rod (212), wherein a strut (23) with an elastic piece (231) is inserted and arranged on the strut (22);

and a supporting pipe (241) is fixedly arranged on the supporting rod (23).

2. The single-strand barium wire bracing machine according to claim 1, wherein the supporting tube (241) is slidably provided with a pressing plate (26), and both side ends of the pressing plate (26) are fixedly provided with arc edges (262).

3. The single-strand barium wire bracing machine according to claim 1, wherein a first bench-type frame (242) and a second bench-type frame (243) are fixedly installed on the supporting pipe (241), and the sectional area of the first bench-type frame (242) is larger than the sectional area of the second bench-type frame (243);

and a notch (244) is formed in the second bench-type frame (243).

4. A single-strand barium wire bracing machine according to claim 1, wherein a plurality of inserting rods (232) are fixedly mounted on the supporting rods (23), and the inserting rods (232) slide in inserting holes formed in the supporting rods (22).

5. The single-strand barium wire bracing machine according to claim 2, wherein a supporting frame (25) is fixedly installed on the supporting tube (241), and a supporting block (251) is fixedly installed on the supporting frame (25);

the slide bar (261) is fixedly arranged on the pressing plate (26), and the slide bar (261) slides in a slide way arranged on the support block (251).

6. The single-strand barium wire bracing machine according to claim 1, further comprising a bracket (21), wherein a driving motor (211) is fixedly installed on the bracket (21), and the reciprocating screw rod (212) is fixedly installed at the output end of the driving motor (211);

the support (21) is fixedly provided with a guide rod (213), and the support (22) slides on the guide rod (213).