CN220635840U - Water tank wire drawing machine - Google Patents

Abstract

The water tank wire drawing machine belongs to the technical field of metal wire processing devices and comprises a wire drawing main body, wherein the wire drawing main body is provided with at least 1 group of paired guide wheels, die frames and cone pulleys; the die carrier is positioned between the guide wheel and the cone pulley; the die carrier is provided with the mould, and the die carrier is lower than the axis of adjacent cone pulley. According to the scheme, as the die carrier is lower than the axis of the adjacent cone pulley, the die carrier can be always lower than the water level of the wire drawing main body, so that the water of the wire drawing main body can dissipate heat produced by the die body in the wire drawing process, and the temperature of the die body can be reduced to a reasonable range when the drawing speed of the metal wire is improved, and the service life of the die body is prolonged.

Description

Water tank wire drawing machine

Technical Field

The utility model belongs to the technical field of metal wire processing devices, and particularly relates to a water tank wire drawing machine.

Background

The water tank wire drawing machine is one wire processing and winding device capable of forcing metal wire to pass through one series of dies with different cross sections to reduce the cross section area of the metal wire and to obtain the required cross section shape and size.

A conventional water tank wire drawing machine, such as a metal wire drawing machine disclosed in patent publication No. 201420248820.8 of the applicant, is described in paragraph [0026 ]: at first, a metal wire enters the wire drawing main body from the wire inlet frame, passes through a first die hole on the low-speed die carrier, is wound on a first-stage tower wheel groove of the low-speed cone pulley, is wound on a first guide wheel sheet on the low-speed guide wheel, passes through a second die hole on the low-speed die carrier, is wound on a second-stage tower wheel groove of the low-speed cone pulley, and the like. It can be seen that, for the traditional water tank wire drawing machine, the metal wire sequentially passes through the die carrier (internally provided with a die), the cone pulley (equivalent to a driving wheel) and the guide wheel (equivalent to a driven wheel) to form a cycle, the cone pulley provides power for the metal wire to pass through the die carrier, and the die carrier is positioned above the axis of the cone pulley.

However, when the metal wire passes through the die, there is deformation and friction, a large amount of heat is generated, and as the drawing speed of the metal wire increases, the temperature increases sharply. When drawing at a high speed, the die carrier is arranged above the axis of the cone pulley, and if the water level of the wire drawing main body is low, the die carrier may be partially exposed out of the water surface, so that the heat dissipation requirement of the die carrier cannot be met.

Disclosure of Invention

In view of the above-mentioned shortcomings of the prior art, an object of the present utility model is to provide a water tank wire drawing machine.

In order to achieve the above object, the present utility model adopts the following technical scheme.

The water tank wire drawing machine comprises a wire drawing main body, wherein the wire drawing main body is provided with at least 1 group of paired guide wheels, die frames and cone pulleys; the die carrier is positioned between the guide wheel and the cone pulley; the die carrier is provided with the mould, and the die carrier is lower than the axis of adjacent cone pulley.

For each group of paired guide wheels, die frames and cone pulleys, the arrangement positions along the direction of the production line are the cone pulleys, the die frames and the guide wheels in sequence.

The wire drawing main body is provided with a first cone pulley, a first guide pulley, a first die carrier, a second cone pulley, a second guide pulley and a second die carrier which are matched with each other; the first die carrier is positioned between the first cone pulley and the first guide pulley; the first die carrier is lower than the axis of the first cone pulley; the second die carrier is positioned between the second cone pulley and the second guide pulley; the second die carrier is lower than the axis of the second cone pulley.

As 1 st preferred, the water tank wire drawing machine further comprises a first motor, a first tower wheel shaft, a first guide wheel shaft, a second tower wheel shaft and a second guide wheel shaft; the first cone pulley is arranged at the end part of the first cone pulley shaft; the first guide wheel is arranged at the end part of the first guide wheel shaft; the second cone pulley is arranged at the end part of the second cone pulley shaft; the second guide wheel is arranged at the end part of the second guide wheel shaft; an output shaft of the first motor is connected with a second tower wheel shaft through a transmission belt; the second tower wheel shaft is connected with a first tower wheel shaft and a second guide wheel shaft through a transmission belt; the first cone pulley shaft is connected with a first guide pulley shaft through a transmission belt.

As the 2 nd preferable, the water tank wire drawing machine further comprises a traction main body; the traction main body is provided with a traction wheel shaft; the second guide wheel shaft is connected with a traction wheel shaft through a transmission belt.

As 3 rd preference, the water tank wire drawing machine further comprises a traction main body; the traction body comprises a second motor and a traction wheel shaft; the second motor output shaft is connected with a traction wheel shaft through a transmission belt.

As the 4 th preferable, the water tank wire drawing machine further comprises a wire storage type drawing drum; along the production line direction, the wire storage type drawing winding drum is positioned behind the wire drawing main body.

The scheme has the following advantages:

1, this scheme is because the die carrier is less than the axis of adjacent cone pulley, has guaranteed that the die carrier can be less than the water level of wire drawing main part all the time for the hydroenergy of wire drawing main part dispels the heat of wire drawing in-process mould body production, when promoting the drawing speed of metal wire, also can make the temperature of mould body reduce to reasonable scope, improves the life of mould body.

2, preferably, a wire storage type drawing drum is disposed behind the wire drawing machine. When the wire winding speed of the metal wire in the wire winding stage is smaller than the wire feeding speed of the metal wire in the drawing process, the metal wire can be stored in the wire storage type drawing reel, so that the stop of the prior drawing process is avoided. And moreover, the wire storage type drawing winding drum is arranged at the tail part of the wire drawing machine, plays a traction role and is used for replacing the original traction main body of the wire drawing machine, so that the original traction wheel is saved.

Drawings

FIG. 1 is a schematic top view of embodiment 1;

FIG. 2 is a schematic top view of embodiment 2;

FIG. 3 is a schematic top view of embodiment 3;

FIG. 4 is a schematic top view of embodiment 4;

in the figure: the wire drawing main body 1, the first tower wheel shaft 2, the first guide wheel shaft 3, the second tower wheel shaft 4, the second guide wheel shaft 5, the first tower wheel 6, the first guide wheel 7, the second tower wheel 8, the second guide wheel 9, the first die carrier 10, the second die carrier 11, the first motor 12, the traction main body 13, the traction wheel shaft 14, the second motor 15 and the wire storage type drawing drum 16.

Detailed Description

The present utility model will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1, the water tank wire drawing machine comprises a wire drawing main body 1, wherein the wire drawing main body 1 is provided with at least 1 group of paired guide wheels, die frames and cone pulleys; the die carrier is positioned between the guide wheel and the cone pulley; the die carrier is provided with the mould, and the die carrier is lower than the axis of adjacent cone pulley.

For each group of paired guide wheels, die frames and cone pulleys, the metal wires pass through the guide wheels (corresponding to driven wheels) and then come under the guide wheels, then pass through the dies and come to the adjacent cone pulleys (corresponding to driving wheels), and the dies reduce and deform the metal wires under the traction of the cone pulleys. At this time, the cone pulley, the die carrier and the guide wheels are sequentially arranged along the direction of the production line, and the die carrier is lower than the axis of the adjacent cone pulley.

According to the scheme, the die carrier is lower than the axis of the adjacent cone pulley, so that the die is completely immersed into the water of the wire drawing main body 1, at the moment, the heat dissipation mode of the die is water cooling, and when the drawing speed of the metal wire is improved, the temperature of the die body can be reduced to a reasonable range, and the service life of the die body is prolonged.

Example 1 is a water tank wire drawing machine provided with a wire drawing main body 1.

As shown in fig. 1, a water tank wire drawing machine is provided with a wire drawing main body 1; the wire drawing main body 1 is provided with a first cone pulley 6, a first guide pulley 7 and a first die carrier 10 which are matched with each other, and a second cone pulley 8, a second guide pulley 9 and a second die carrier 11 which are matched with each other; the first die carrier 10 is positioned between the first cone pulley 6 and the first guide pulley 7; the first die carrier 10 is lower than the axis of the first cone pulley 6; the second die carrier 11 is positioned between the second cone pulley 8 and the second guide pulley 9; the second mould frame 11 is lower than the axis of the second cone pulley 8.

In this embodiment, 2 sets of paired guide wheels, die carriers and cone pulleys are provided, and of course, the specific pairing group number can be set according to actual requirements. The present embodiment is used to illustrate the working principle, and not to limit the specific pairing group number.

Further, the water tank wire drawing machine further comprises a first motor 12, a first tower wheel shaft 2, a first guide wheel shaft 3, a second tower wheel shaft 4 and a second guide wheel shaft 5; the first cone pulley 6 is arranged at the end part of the first cone pulley shaft 2; the first guide wheel 7 is arranged at the end part of the first guide wheel shaft 3; the second cone pulley 8 is arranged at the end part of the second cone pulley shaft 4; the second guide wheel 9 is arranged at the end part of the second guide wheel shaft 5; the output shaft of the first motor 12 is connected with the second cone pulley shaft 4 through a transmission belt; the second tower wheel shaft 4 is connected with a first tower wheel shaft 2 and a second guide wheel shaft 5 through a transmission belt; the first pulley shaft 2 is connected with a first guide pulley shaft 3 through a transmission belt.

In this embodiment, the drawing body 1 is driven to perform the drawing operation by a single motor (first motor 12),

example 2 is a single motor driven water tank wire drawing machine.

As shown in fig. 2, the water tank wire drawing machine has a wire drawing main body 1 and a drawing main body 13; the traction body 13 is provided with a traction wheel shaft 14; the second guide wheel shaft 5 is connected with a traction wheel shaft 14 through a transmission belt.

The drawing body 1 in this embodiment is the same in structure as the drawing body 1 in embodiment 1.

In example 2, a drawing main body 13 was added to example 1, and the drawing main body 1 was driven by a single motor (first motor 12) to perform drawing work, and the drawing main body 13 was driven to perform drawing work.

Example 3 is a dual motor driven water tank wire drawing machine.

As shown in fig. 3, the water tank wire drawing machine has a wire drawing main body 1 and a drawing main body 13; the traction body 13 comprises a second motor 15 and a traction axle 14; the output shaft of the second motor 15 is connected with a traction wheel shaft 14 through a transmission belt.

The drawing body 1 in this embodiment is the same in structure as the drawing body 1 in embodiment 1.

In example 3, a drawing main body 13 was added to example 1, the drawing main body 1 was driven by the first motor 12 to perform drawing work, and the drawing main body 13 was driven by the second motor 15 to perform drawing work.

Example 4 is a combination water tank wire drawing machine.

As shown in fig. 4, the water tank wire drawing machine further includes a wire storage type drawing drum 16; along the line direction, the wire-storage drawing drum 16 is located behind the drawing body 1.

The wire storage type drawing drum 16 adapts the paying-off speed of the metal wire to the subsequent wire collecting speed through wire storage, so that the non-stop operation during wire collecting is realized, the scheme of a wire storage type non-stop drawing drum of patent number 201922416467.5 of the applicant can be adopted, and other existing drawing mechanisms capable of realizing wire storage can be adopted.

In this embodiment, the wire drawing main body 1 is driven to perform wire drawing operation by a single motor (first motor), and the conventional traction main body is replaced by the wire storage type drawing drum 16, so that the original traction wheel is saved while the operation of no stop is realized.

It should be noted that the transmission connection between the shafts is realized by a transmission belt (including a synchronous belt and a belt), which is a common means in the field, for example, the scheme of a speed ratio adjustable wire drawing machine of patent number 201420248820.8 of the applicant, and the specification [0020] of the scheme is described in the following paragraph: the main motor drives the first driving belt pulley to act, and the first driving belt pulley drives the first driven belt pulley to act through the first belt. The scheme adopts the same transmission connection structure. Of course, existing conventional means similar to drive belts, such as drive chains or gear drives, are equivalent alternatives to drive belts and are intended to fall within the scope of the appended claims.

It will be understood that equivalents and modifications will occur to those skilled in the art in light of the present utility model and their spirit, and all such modifications and substitutions are intended to be included within the scope of the present utility model as defined in the following claims.

Claims (7)

1. The water tank wire drawing machine comprises a wire drawing main body (1), and is characterized in that the wire drawing main body (1) is provided with at least 1 group of paired guide wheels, die frames and cone pulleys; the die carrier is positioned between the guide wheel and the cone pulley; the die carrier is provided with the mould, and the die carrier is lower than the axis of adjacent cone pulley.

2. The water tank wire drawing machine as claimed in claim 1, wherein for each set of paired guide wheels, die carriers and cone pulleys, the arrangement positions along the direction of the production line are the cone pulleys, the die carriers and the guide wheels in sequence.

3. The water tank wire drawing machine according to claim 1 or 2, characterized in that the wire drawing main body (1) is provided with a first cone pulley (6), a first guide pulley (7) and a first die carrier (10) paired and a second cone pulley (8), a second guide pulley (9) and a second die carrier (11) paired; the first die carrier (10) is positioned between the first cone pulley (6) and the first guide pulley (7); the first die carrier (10) is lower than the axis of the first cone pulley (6); the second die carrier (11) is positioned between the second cone pulley (8) and the second guide pulley (9); the second die carrier (11) is lower than the axis of the second cone pulley (8).

4. A water-tank wire drawing machine according to claim 3, characterized in that it further comprises a first motor (12), a first turret shaft (2), a first guide shaft (3), a second turret shaft (4) and a second guide shaft (5); the first cone pulley (6) is arranged at the end part of the first cone pulley shaft (2); the first guide wheel (7) is arranged at the end part of the first guide wheel shaft (3); the second cone pulley (8) is arranged at the end part of the second cone pulley shaft (4); the second guide wheel (9) is arranged at the end part of the second guide wheel shaft (5); an output shaft of the first motor (12) is connected with a second tower wheel shaft (4) through a transmission belt; the second tower wheel shaft (4) is connected with a first tower wheel shaft (2) and a second guide wheel shaft (5) through a transmission belt; the first tower wheel shaft (2) is connected with a first guide wheel shaft (3) through a transmission belt.

5. The water bench, according to claim 4, characterized in that it further comprises a traction body (13); the traction main body (13) is provided with a traction wheel shaft (14); the second guide wheel shaft (5) is connected with a traction wheel shaft (14) through a transmission belt.

6. The water bench, according to claim 4, characterized in that it further comprises a traction body (13); the traction body (13) comprises a second motor (15) and a traction axle (14); the output shaft of the second motor (15) is connected with a traction wheel shaft (14) through a transmission belt.

7. The waterbox wire drawing machine according to claim 4, further comprising a wire-storage drawing drum (16); along the production line direction, the wire storage type drawing reel (16) is positioned behind the wire drawing main body (1).