CN219664767U - Wire arranging control device of diamond wire bus water tank wire drawing machine - Google Patents

Abstract

The utility model provides a wire arranging control device of a diamond wire bus water tank wire drawing machine, which comprises a wire arranging base, wherein a shaft rod piece is connected to the wire arranging base, and a wire arranging component is connected to the shaft rod piece.

Description

Wire arranging control device of diamond wire bus water tank wire drawing machine

Technical Field

The utility model relates to the technical field of water tank wire drawing machines, in particular to a wire arranging control device of a diamond wire bus water tank wire drawing machine.

Background

In the wire drawing process of the diamond wire bus, the diamond wire bus is subjected to drawing treatment by a water tank wire drawing machine, so that the diameter, roundness, surface finish and straightening degree of the diamond wire bus all meet the treatment requirements required by the production of metal products such as standard parts, and the diamond wire after wire drawing treatment is wound on an I-shaped wire winding roller. For example, application number CN201710023342.9 discloses an automatic wire-arranging position adjusting device and method for a wire drawing machine, and the device automatically adjusts the travelling speed of a wire-arranging device, so that the wire-arranging device can automatically control to stay at a certain fixed position relative to a wire-collecting spool after a machine tool stops at full-scale, thereby avoiding wire disorder. However, in the device, in the sliding process of the guide wheel sliding block along the winding displacement guide rod, the distance of the wire led into the steel wire winding displacement guide wheel can be changed, so that the tightness of the wire is changed, and the wire is affected to be wound on the spool in order.

Disclosure of Invention

In order to solve the problems, the utility model provides a wire arranging control device of a diamond wire bus water tank wire drawing machine, so as to solve the problems more exactly.

The utility model is realized by the following technical scheme:

the utility model provides a wire arranging control device of a diamond wire bus water tank wire drawing machine, which comprises a wire arranging base, wherein a shaft rod is connected to the wire arranging base, a wire arranging component is connected to the shaft rod, the wire arranging component comprises a transverse moving seat connected to the shaft rod, a fixed wire wheel is arranged at the top of the transverse moving seat and connected to the transverse moving seat through a wire wheel support, a tension wheel is arranged on one side of the transverse moving seat, the tension wheel is connected to an adapter seat arranged on one side of the transverse moving seat through a tension wheel support rod, central axes of the fixed wire wheel and the tension wheel are arranged in parallel, wires are wound on an I-shaped wire winding roller, the central axes of the I-shaped wire winding roller are arranged in parallel with the central axes of the fixed wire wheel and the tension wheel, one side of the transverse moving seat far from the tension wheel is provided with a transverse plate support, the central axes of the horizontal wire wheel are arranged vertically, the wire passing height of the pair of horizontal wire wheels is consistent with the transverse wire passing height of the fixed wire wheel, the transverse plate support is provided with a wire wheel support, the middle part of the wire wheel support is connected to the wire winding roller through a rotating plate support, the middle part of the wire winding roller is connected to the two ends of the wire winding roller through a connecting rod, the two wire winding roller are connected to the two wire winding roller cylinders, and the two wire winding roller cylinders are connected to the end parts of the wire winding roller are connected to the wire winding roller through the end part of the wire winding roller through the connecting rod.

Further, the wire passing horizontal height of the tensioning wheel and the wire passing horizontal height of the fixed wire wheel are different in height, the tensioning wheel support rod is connected with the switching seat through a rotating shaft, one end of the rotating shaft is fixed with the bottom end of the tensioning wheel support rod, and a torsion spring is assembled between the rotating shaft connected with the tensioning wheel support rod and the switching seat.

Further, the axostylus axostyle spare is including parallel arrangement's slide shaft and lead screw, and the central axis of slide shaft, lead screw is parallel arrangement with the central axis of I type wire winding roller, and slide shaft and sideslip seat cooperation sliding connection, lead screw and sideslip seat cooperation spiro union, one side of winding displacement base is equipped with sideslip motor, and the output shaft of sideslip motor is connected with the one end transmission of lead screw.

Further, one side of the adapter seat is provided with a torque detection part, and a torque measuring end of the torque detection part is connected with one end of a rotating shaft connected with the tensioning wheel supporting rod.

Further, a rotating speed sensing part is arranged at the top of the tension pulley supporting rod, and a rotating speed detecting end of the rotating speed sensing part is connected with a rotating shaft end connected with the tension pulley.

The utility model has the beneficial effects that:

1. according to the utility model, the tension pulley rotates along with the material conveying of the wire, the rotating speed of the tension pulley is detected by the rotating speed sensing piece, so that the feeding speed of the wire is detected, the working speed of the traversing motor is regulated and controlled by combining the feeding speed of the wire, the traversing speed of the wire arranging component on the shaft rod piece is regulated, and the wire is ensured to be wound on the I-shaped wire winding roller at equal intervals;

2. when the torque detecting part detects that the tension of the wire is reduced, the connecting rod is pulled by the telescopic rod of the electromagnetic hydraulic cylinder, so that the connecting rod drives the wire winding wheel frame to deflect, the wire winding wheel is used for winding a lengthy wire part of the wire due to the reduction of the tension, the purpose of winding is achieved, and when the torque detecting part detects that the tension of the wire is overlarge, the connecting rod is pulled by the telescopic rod of the electromagnetic hydraulic cylinder, so that the connecting rod drives the wire winding wheel frame to deflect, the wire winding wheel is used for releasing the wire part of the wire, the purpose of paying off is achieved, the tension of the wire is flexibly regulated in the feeding process of the wire, and the winding is orderly.

Drawings

FIG. 1 is a first perspective view of the present utility model;

FIG. 2 is a schematic view of a second perspective structure of the present utility model;

FIG. 3 is a third perspective view of the present utility model;

FIG. 4 is a first top view of the structure of the present utility model;

fig. 5 is a second top view of the structure of the present utility model.

In the figure: 1. a flat cable base; 101. a slide shaft; 102. a screw rod; 103. a traversing motor; 2. a wire arrangement assembly; 201. a traversing seat; 2011. an adapter; 2012. a cross plate bracket; 202. fixing the reel; 2021. a wire wheel bracket; 203. a tensioning wheel; 2031. a tensioning wheel strut; 2032. a torsion spring; 2033. a torque detecting member; 2034. a rotation speed sensing member; 204. a horizontal wire guide wheel; 205. a wire-winding wheel frame; 2051. a wire winding wheel; 206. a connecting rod; 207. an electromagnetic hydraulic cylinder; 3. an I-shaped wire winding roller; 301. a wire rod.

Detailed Description

In order to more clearly and completely describe the technical scheme of the utility model, the utility model is further described below with reference to the accompanying drawings.

Referring to fig. 1-5, the utility model provides a wire arranging control device of a diamond wire bus water tank wire drawing machine, which comprises a wire arranging base 1, wherein a shaft rod piece is connected to the wire arranging base 1, a wire arranging component 2 is connected to the shaft rod piece, the wire arranging component 2 comprises a traversing seat 201 connected to the shaft rod piece, a fixed wire wheel 202 is arranged at the top of the traversing seat 201, the fixed wire wheel 202 is connected to the traversing seat 201 through a wire wheel bracket 2021, a tensioning wheel 203 is arranged at one side of the traversing seat 201, the tensioning wheel 203 is connected to an adapter seat 2011 arranged at one side of the traversing seat 201 through a tensioning wheel supporting rod 2031, the central axes of the fixed wire wheel 202 and the tensioning wheel 203 are arranged in parallel, a wire 301 is wound on a spool 3, the central axes of the spool 3 and the fixed wire wheel 202 are arranged in parallel to the central axes of the spool 203, the central axes of the spool 101 and the lead screw 102 are arranged in parallel to each other in combination with the fig. 1 and 2, the central axes of the spool 101 and the lead screw 102 are arranged in parallel to each other, the spool 101 is matched with the sliding seat 103, the motor 103 is matched with the motor 103, the motor is matched with the central axis of the spool 103, and the lead screw 102 is matched with the motor 102, and the wire is matched with the wire is connected to the central axis of the spindle 102, and the leading wire is arranged on one side of the lead wire to the spindle and the lead wire is in a straight line and the straight line and a wire is wound on the wire and a wire rod is in a wire.

The side that sideslip seat 201 kept away from take-up pulley 203 is equipped with diaphragm support 2012, has the switching on the diaphragm support 2012 has a pair of horizontal wire wheel 204, and the central axis of horizontal wire wheel 204 is perpendicular setting, and the line height that crosses of a pair of horizontal wire wheel 204 is high unanimous with the line height that crosses of fixed line wheel 202, and a pair of horizontal wire wheel 204 is used for leading-in wire 301 to fixed line wheel 202 accurately and does not produce the line skew, and because winding displacement subassembly 2 needs to go on the sideslip again on the shaft member, and the leading-in point of wire 301 is fixed, and then is led the wire 301 by a pair of horizontal wire wheel 204 and send, eliminates the guide wearing and tearing that the line skew produced.

As shown in fig. 1 and 2, the tensioning wheel strut 2031 is connected with the adaptor 2011 through a rotating shaft, one end of the rotating shaft is fixed with the bottom end of the tensioning wheel strut 2031, a torsion spring 2032 is assembled between the rotating shaft connected with the tensioning wheel strut 2031 and the adaptor 2011, under the action of the torsion spring 2032, a height difference capable of tensioning the wire 301 exists between the wire passing horizontal height of the tensioning wheel 203 and the wire passing horizontal height of the fixed wire wheel 202, so that the tensioning wheel 203 plays a role of tensioning the wire 301, a wire part of the wire 301 before the winding of the wire 301 around the i-shaped wire winding roller 3 is straightened, the wire 301 is guaranteed to be wound on the i-shaped wire winding roller 3 in order, one side of the adaptor 2011 is provided with a torque detecting piece 2033, and a torque measuring end of the torque detecting piece 2033 is connected with one end of the rotating shaft connected with the tensioning wheel strut 2031, and the tensioning force of the wire 301 is detected by the torque detecting piece 2033.

The top of take-up pulley branch 2031 is equipped with rotational speed sensing piece 2034, and rotational speed sensing piece 2034's rotational speed detection end links with the pivot end that take-up pulley 203 is connected, and take-up pulley 203 rotates along with the fortune material of wire rod 301, detects the rotational speed of take-up pulley 203 by rotational speed sensing piece 2034 to reach the feed rate that detects wire rod 301, combines the feed rate of wire rod 301 to regulate and control the work rate of sideslip motor 103, adjusts the sideslip speed of winding displacement subassembly 2 on the pole piece, guarantees wire rod 301 equidistant winding on I-shaped wire winding roller 3.

The transverse plate bracket 2012 is provided with a take-up pulley frame 205, the middle part of the bottom surface of the take-up pulley frame 205 is connected to the transverse plate bracket 2012 through a switching rod, two ends of the take-up pulley frame 205 are respectively connected with a take-up pulley 2051, the wires 301 on the two take-up pulleys 2051 are distributed in an S shape, the central axes of the two take-up pulleys 2051 are vertically arranged, the wire passing heights of the two take-up pulleys 2051 are consistent with the wire passing heights of the horizontal wire pulleys 204, the bottom end of the switching rod connected with the bottom of the take-up pulley frame 205 is fixed with a connecting rod 206, the end part of the connecting rod 206 is hinged with the end part of a telescopic rod of an electromagnetic hydraulic cylinder 207, the cylinder bottom of the electromagnetic cylinder 207 is hinged with the bottom of the transverse plate bracket 2012 through a pin rod, the tension of the wire 301 is combined with the tension of the wire 301 detected by a torque detecting part 2033, when the tension detecting part 2033 detects that the tension of the wire 301 is reduced, the connecting rod 206 is pulled by controlling the telescopic rod 206 of the electromagnetic cylinder 207, the wire winding pulley frame 205 is deflected, as shown in fig. 4, the wire winding part 205 is driven by the winding up pulley 205, the tension of the wire is wound by a pair of the wire 301 is greatly, the tension of the wire is greatly controlled by the tension detecting part of the tension roller 205, and the tension of the tension roller 205 is greatly reduced, and the tension of the tension roller 301 is achieved when the tension of the tension roller 301 is detected by the tension of the tension roller 205 is detected by the tension roller is well, and the tension of the tension roller 301 when the tension roller is detected.

Working principle: according to the utility model, the traversing motor 103 is controlled to drive the screw rod 102, so that the traversing seat 201 traverses reciprocally along the guide of the sliding shaft 101, and thus the wire 301 can be wound on the I-shaped wire winding roller 3 in order.

According to the utility model, when the tension of the wire 301 is detected by the tension wheel 203 detected by the torque detecting piece 2033, the tension of the wire 301 is reduced by controlling the telescopic rod of the electromagnetic hydraulic cylinder 207 to draw the connecting rod 206, so that the connecting rod 206 drives the wire take-up pulley frame 205 to deflect, as shown in fig. 4, the wire take-up pulley 205 is provided with a pair of wire take-up pulleys 2051 for winding a lengthy wire part of the wire 301 due to the reduced tension, the purpose of taking-up is achieved, and when the tension of the wire 301 is detected by the torque detecting piece 2033 to be excessively large, the connecting rod 206 is controlled by controlling the telescopic rod of the electromagnetic hydraulic cylinder 207 to draw the connecting rod 206, so that the connecting rod 206 drives the wire take-up pulley frame 205 to deflect, as shown in fig. 5, the wire take-up pulley 205 is released by the pair of wire take-up pulleys 2051, and the tension of the wire 301 is flexibly regulated in the feeding process, so that the winding is tidy.

Of course, the present utility model can be implemented in various other embodiments, and based on this embodiment, those skilled in the art can obtain other embodiments without any inventive effort, which fall within the scope of the present utility model.

Claims (5)

1. The wire arranging control device of the diamond wire bus water tank wire drawing machine comprises a wire arranging base (1), and is characterized in that a shaft rod is connected to the wire arranging base (1), a wire arranging component (2) is connected to the shaft rod, the wire arranging component (2) comprises a transverse moving seat (201) connected to the shaft rod, a fixed wire wheel (202) is arranged at the top of the transverse moving seat (201), the fixed wire wheel (202) is connected to the transverse moving seat (201) through a wire wheel bracket (2021), a tensioning wheel (203) is arranged on one side of the transverse moving seat (201), the tensioning wheel (203) is connected to an adapter seat (2011) arranged on one side of the transverse moving seat (201) through a tensioning wheel supporting rod (2031), the central axes of the fixed wire wheel (202) and the tensioning wheel (203) are arranged in parallel, a wire (301) is wound on an I-shaped wire winding roller (3), the central axes of the I-shaped wire roller (3) and the fixed wire wheel (202) and the central axes of the fixed wire wheel (203) are arranged in parallel, a wire wheel 2012 is arranged on one side of the transverse moving seat (201) far away from the tensioning wheel (203), a wire bracket (2012) is arranged on one side of the wire bracket (203), a wire is arranged on the horizontal wire is in a high level, and a high level and a wire is connected to the wire (204) is arranged on the horizontal level and is connected to the wire (2012) and is arranged on the wire bracket (2012, be equipped with take-up pulley frame (205) on diaphragm support (2012), take-up pulley frame (205) bottom surface middle part is through the switching pole switching on diaphragm support (2012), and the both ends of take-up pulley frame (205) have respectively been switched and have been taken-up pulley (2051), and the line that crosses on two take-up pulleys (2051) of wire (301) is "S" and arrange, the central axis of take-up pulley (2051) is perpendicular setting, and the line height that crosses of two take-up pulleys (2051) is high unanimous with crossing of horizontal wire wheel (204), the switching pole bottom that take-up pulley frame (205) bottom is connected is fixed with connecting rod (206), and the tip of connecting rod (206) articulates with the telescopic link tip of electromagnetic hydraulic cylinder (207), and the cylinder bottom of electromagnetic hydraulic cylinder (207) articulates with the bottom of diaphragm support (2012) through the round pin member.

2. The wire arranging control device of the diamond wire bus water tank wire drawing machine according to claim 1, characterized in that a height difference capable of tensioning a wire (301) exists between the wire passing horizontal height of the tensioning wheel (203) and the wire passing horizontal height of the fixed wire wheel (202), the tensioning wheel supporting rod (2031) is connected with the switching seat (2011) through a rotating shaft, one end of the rotating shaft is fixed with the bottom end of the tensioning wheel supporting rod (2031), and a torsion spring (2032) is assembled between the rotating shaft connected with the tensioning wheel supporting rod (2031) and the switching seat (2011).

3. The wire arranging control device of the diamond wire bus water tank wire drawing machine according to claim 1, wherein the shaft rod part comprises a sliding shaft (101) and a screw rod (102) which are arranged in parallel, the central axes of the sliding shaft (101) and the screw rod (102) are arranged in parallel with the central axis of the spool (3), the sliding shaft (101) is matched with and in sliding connection with a transverse moving seat (201), the screw rod (102) is matched with and in threaded connection with the transverse moving seat (201), a transverse moving motor (103) is arranged on one side of the wire arranging base (1), and an output shaft of the transverse moving motor (103) is in transmission connection with one end of the screw rod (102).

4. The wire arranging control device of the diamond wire bus water tank wire drawing machine according to claim 1, wherein a torque detecting piece (2033) is arranged on one side of the adapter base (2011), and a torque measuring end of the torque detecting piece (2033) is connected with one end of a rotating shaft connected with the tensioning wheel supporting rod (2031).

5. The wire arranging control device of the diamond wire bus water tank wire drawing machine according to claim 1, wherein a rotating speed sensing piece (2034) is arranged at the top of the tension pulley support rod (2031), and a rotating speed detecting end of the rotating speed sensing piece (2034) is connected with a rotating shaft end connected with the tension pulley (203).