CN214417325U - Double-coordinate vibration protection mechanism of wire drawing machine - Google Patents

Abstract

The utility model discloses a double-coordinate vibration protection mechanism of a wire drawing machine, which comprises a shell, a contact end cover, an XY coordinate vibration elastic sheet, an XZ coordinate vibration elastic sheet, a first wiring part and a second wiring part; the contact end cover is arranged at the tail end part of the shell, the first wiring part is arranged at the contact end cover, the second wiring part is arranged at the front end part of the shell, an accommodating cavity is formed in the shell, and a first spring sheet groove and a second spring sheet groove are formed in the inner side of the contact end cover corresponding to the accommodating cavity of the shell; the XY coordinate vibration elastic sheet is horizontally arranged, the front end of the XY coordinate vibration elastic sheet is fixedly arranged at the front end part of the shell, and the XY coordinate vibration elastic sheet axially extends along the accommodating cavity of the shell, so that the tail end of the XY coordinate vibration elastic sheet extends into the first elastic sheet groove at the inner side of the contact end cover; the XZ coordinate vibration elastic sheet is vertically arranged, the front end of the XZ coordinate vibration elastic sheet is fixedly arranged at the front end part of the shell, and the XZ coordinate vibration elastic sheet axially extends along the accommodating cavity of the shell, so that the tail end of the XZ coordinate vibration elastic sheet extends into the second elastic sheet groove on the inner side of the contact end cover.

Description

Double-coordinate vibration protection mechanism of wire drawing machine

Technical Field

The utility model relates to a mechanical equipment vibration protection mechanism, in particular to wire drawing machine two-coordinate vibration protection mechanism.

Background

At present, in the use and production processes of various wire drawing machines, due to insufficient equipment precision, the wire coil is deviated after being used for a long time, or an operator uses partial unbalanced wire winding wire coil, and the like, the wire drawing machine equipment can be damaged due to overlarge vibration. That is, in the actual production process, the wire drawing machine generally has vibration phenomena, and if the vibration amplitude is not large and does not affect the normal operation of the equipment, the vibration is allowed, but the vibration is mainly generated due to the take-up reel and other reasons, and the vibration may not be large at first, but due to the influence of various factors such as unbalance of the reel, along with the continuous operation of the equipment, the vibration degree can be continuously increased and continuously changed, and the vibration in the horizontal and vertical directions exists, and the rule is completely uncontrollable, that is, the violent vibration is generated when the vibration is suddenly generated, so that the equipment damage, the product damage and even the safety accident are generated. At present, no similar protection mechanism is arranged on the wire drawing machine equipment. The wire drawing operators can not timely replace the wire take-up spool when finding out the unbalance, so that the wire drawing machine equipment is damaged and the product quality is influenced.

SUMMERY OF THE UTILITY MODEL

To the above, an object of the utility model is to provide a two coordinate vibration protection mechanisms of wire drawing machine, no matter be horizontal direction vibration or vertical direction vibration at the wire drawing machine operation in-process, as long as reach or exceed and set for the degree, just can trigger protection mechanism to the realization is to the protection of wire drawing machine.

The utility model adopts the technical proposal that: a double-coordinate vibration protection mechanism of a wire drawing machine comprises a shell, a contact end cover, an XY coordinate vibration elastic sheet, an XZ coordinate vibration elastic sheet, a first wiring part and a second wiring part, and is characterized in that the contact end cover is arranged at the tail end of the shell, the first wiring part is arranged at the contact end cover, the second wiring part is arranged at the front end of the shell, an accommodating cavity is formed in the shell, and a first elastic sheet groove and a second elastic sheet groove are formed in the inner side of the contact end cover corresponding to the accommodating cavity of the shell; the XY coordinate vibration elastic sheet is horizontally arranged, the vibration amplitude in the vertical direction is monitored, the front end of the XY coordinate vibration elastic sheet is fixedly arranged at the front end part of the shell, and the XY coordinate vibration elastic sheet axially extends along the accommodating cavity of the shell, so that the tail end of the XY coordinate vibration elastic sheet extends into a first elastic sheet groove on the inner side of the contact end cover; the XZ coordinate vibration elastic sheet is vertically arranged, the vibration amplitude in the horizontal direction is monitored, the front end of the XZ coordinate vibration elastic sheet is fixedly arranged at the front end of the shell, and the XZ coordinate vibration elastic sheet axially extends along the accommodating cavity of the shell, so that the tail end of the XZ coordinate vibration elastic sheet extends into the second elastic sheet groove on the inner side of the contact end cover.

Further, first wiring portion is first pulse terminal, and second wiring portion is second pulse terminal, first pulse terminal is connected with inboard first shell fragment groove, the second shell fragment groove of contact end cover mutually the electricity, second pulse terminal is connected with the XY coordinate vibration shell fragment of casing front end portion, XZ coordinate vibration shell fragment mutually the electricity, when the vibration degree of XY coordinate vibration shell fragment or XZ coordinate vibration shell fragment makes the terminal edge that contacts first shell fragment groove or second shell fragment groove of shell fragment, then first pulse terminal switches on with the second pulse terminal mutually to the output switches on and off signal.

Further, the first pulse wiring terminal is provided with an insulation device, and the second pulse wiring terminal is also provided with an insulation device.

Further, XY coordinate vibration shell fragment is the rectangular form square flat shell fragment of the horizontal setting, first shell fragment groove is the waist type groove that sets up with the terminal corresponding level of XY coordinate vibration shell fragment, the XZ coordinate vibration shell fragment is the rectangular form square flat shell fragment of the perpendicular setting, second shell fragment groove is the waist type groove of the perpendicular setting corresponding with the terminal XZ coordinate vibration shell fragment.

Furthermore, the XY coordinate vibration elastic sheet and the XZ coordinate vibration elastic sheet are arranged in a staggered mode, so that the XY coordinate vibration elastic sheet and the XZ coordinate vibration elastic sheet do not interfere with each other in the accommodating cavity of the shell.

The vibration shell piece comprises a shell, and is characterized by further comprising a first amplitude adjusting device, wherein the first amplitude adjusting device is arranged corresponding to the XY coordinate vibration shell piece and comprises an upper amplitude adjusting screw nut and a lower amplitude adjusting screw nut, the upper amplitude adjusting screw nut is arranged on the upper side of the shell and extends into the containing cavity of the shell, the end part of the upper amplitude adjusting screw nut corresponds to the middle position of the upper side surface of the XY coordinate vibration shell piece, the lower amplitude adjusting screw nut is arranged on the lower side of the shell and extends into the containing cavity of the shell, and the end part of the lower amplitude adjusting screw nut corresponds to the middle position of the lower side surface of the XY coordinate vibration shell piece; and adjusting the distance between the ends of the upper amplitude adjusting screw nut and the lower amplitude adjusting screw nut, thereby finely adjusting the amplitude of the XY coordinate vibration elastic sheet.

The second amplitude adjusting device is arranged corresponding to the XZ coordinate vibration elastic sheet and comprises a left amplitude adjusting screw nut and a right amplitude adjusting screw nut, wherein the left amplitude adjusting screw nut is arranged on the left side of the shell and extends into the accommodating cavity of the shell, the end part of the left amplitude adjusting screw nut corresponds to the middle position of the left side surface of the XZ coordinate vibration elastic sheet, the right amplitude adjusting screw nut is arranged on the right side of the shell and extends into the accommodating cavity of the shell, and the end part of the right amplitude adjusting screw nut corresponds to the middle position of the right side surface of the XZ coordinate vibration elastic sheet; and adjusting the distance between the end parts of the left amplitude adjusting screw nut and the right amplitude adjusting screw nut, thereby finely adjusting the amplitude of the XZ coordinate vibration elastic sheet.

Further, the XY coordinate vibration elastic sheet is locked by a screw and is positioned at the front end part of the shell; the XZ coordinate vibration elastic sheet is locked by a screw and is positioned at the front end part of the shell.

Further, a window is arranged on the side portion of the shell, and a transparent protection plate is arranged on the window.

Further, the bottom of the shell is provided with an installation support, and the installation support is arranged on the machine body of the wire drawing machine.

The utility model has the advantages of it is following: through the cooperation between casing, contact end cover, XY coordinate vibration shell fragment, XZ coordinate vibration shell fragment, first wiring portion and the second wiring portion, form wire drawing machine two-coordinate vibration protection mechanism. After installing this two coordinate vibration protection mechanism on the wire drawing machine board, carry out real-time vibration detection to the wire drawing machine organism through protection mechanism is automatic, when the vibration is too big (reach or exceed and set for the vibration degree), trigger the contact through the resonance of shell fragment and make two end switch-ons of contact and produce and switch on pulse signal, no matter be horizontal direction vibration or vertical direction vibration at wire drawing machine operation in-process promptly, as long as reach or exceed and set for the degree, just can trigger protection mechanism to the realization is to the protection of wire drawing machine.

This wire drawing machine two coordinate vibration protection mechanism can protect the wire drawing machine of excessive vibration, connects the automatically controlled part back through first wiring portion and second wiring portion, utilizes the disconnection or the on-state of first wiring portion and second wiring portion, carries out corresponding control by the automatically controlled part, can provide and shut down or warning light switch signal etc. reach the protection effect.

The double-coordinate vibration protection mechanism of the wire drawing machine is provided with the amplitude adjusting device aiming at the XY coordinate vibration elastic sheet and the XZ coordinate vibration elastic sheet, and can carry out micro adjustment on the amplitude of the vibration elastic sheet, so that the vibration intensity and the output signal of the vibration elastic sheet meet the requirements.

The wire connection part of the double-coordinate vibration protection mechanism of the wire drawing machine is provided with an insulating device, so that the protection mechanism can be applied to a DC12V or DC24V power supply.

The present invention will be further described with reference to the following description and embodiments in conjunction with the accompanying drawings.

Drawings

FIG. 1 is a schematic view of the overall structure of a double-coordinate vibration protection mechanism of a wire drawing machine I;

FIG. 2 is a schematic diagram of the overall structure of a two-coordinate vibration protection mechanism of a wire drawing machine;

FIG. 3 is a first schematic diagram of a split structure of a double-coordinate vibration protection mechanism of a wire drawing machine;

FIG. 4 is a schematic view of the mechanism of FIG. 3 after the hidden housing and the mounting bracket are installed;

fig. 5 is a schematic structural diagram of an XY coordinate vibration spring and an XZ coordinate vibration spring;

FIG. 6 is a schematic structural view of a contact end cap;

FIG. 7 is a schematic structural view of the housing;

in the figure: a housing 1; an accommodating chamber 11; a window 12; a contact end cover 2; a first tab slot 21; a second tab slot 22; end cap locking screws 23; an insulating sleeve 24; an XY coordinate vibration spring 3; the XZ coordinate vibrates the elastic sheet 4; a first pulse terminal 5; a second pulse terminal 6; a first amplitude adjusting device 7; an upper amplitude adjustment screw nut 71; a lower amplitude adjustment screw nut 72; a second amplitude adjusting device 8; a left amplitude adjustment screw nut 81; a right amplitude adjustment screw nut 82; a support 9 is mounted.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings, 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 efforts belong to the protection scope of the present invention.

It should be noted that, if directional indicators (such as … …, upper, lower, left, right, front, back, top, bottom, inner, outer, vertical, horizontal, longitudinal, counterclockwise, clockwise, circumferential, radial, axial) are involved in the embodiments of the present invention, the directional indicators are only used to explain the relative position, motion, etc. of the components in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicators are changed accordingly.

In addition, if there is a description relating to "first" or "second", etc. in the embodiments of the present invention, the description of "first" or "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

Referring to fig. 1 to 7, the two-coordinate vibration protection mechanism of the wire drawing machine provided in this embodiment includes a housing 1, a contact end cover 2, an XY coordinate vibration spring 3, an XZ coordinate vibration spring 4, a first wiring portion (a first pulse wiring terminal 5), and a second wiring portion (a second pulse wiring terminal 6); the contact end cover 2 is arranged at the tail end part of the shell 1, the first wiring part is arranged on the contact end cover 2, the second wiring part is arranged at the front end part of the shell 1, an accommodating cavity 11 is formed in the shell 1, and a first spring sheet groove 21 and a second spring sheet groove 22 are arranged on the inner side of the contact end cover 2 corresponding to the accommodating cavity 11 of the shell 1; the XY coordinate vibration elastic sheet 3 is horizontally arranged, the vibration amplitude in the vertical direction is monitored, the front end of the XY coordinate vibration elastic sheet is fixedly arranged at the front end part of the shell 1, and the XY coordinate vibration elastic sheet 3 axially extends along the accommodating cavity 11 of the shell 1, so that the tail end of the XY coordinate vibration elastic sheet 3 extends into a first elastic sheet groove 21 on the inner side of the contact end cover 2; corresponding with XY coordinate vibration shell fragment 3, XZ coordinate vibration shell fragment 4 is perpendicular setting, monitors the ascending vibration amplitude of horizontal direction, and its front end is fixed to be set up at the front end of casing 1, and XZ coordinate vibration shell fragment 4 extends along the holding chamber 11 axial of casing 1 for the terminal of XZ coordinate vibration shell fragment 4 stretches into the inboard second shell fragment groove 22 of contact end cover 2.

It should be noted that, in practical application, after the two-coordinate vibration protection mechanism of the wire drawing machine is connected to the electric control part through the first wiring part and the second wiring part, the electric control part executes corresponding control by using the on/off state of the first wiring part and the second wiring part, so as to provide a shutdown or warning light switch signal, and the like, thereby achieving a protection effect. The application claims protection of the structure of the double-coordinate vibration protection mechanism of the wire drawing machine, and therefore, the electric control part is not described in detail in this embodiment.

Specifically, in this embodiment, the first wiring portion is the first pulse wiring terminal 5, the second wiring portion is the second pulse wiring terminal 6, and the wiring portion adopts the form of wiring terminal, can be convenient for install the setting, but does not exclude wiring structure that can other forms, for example connector plug form, electromagnetic induction form etc.. The first pulse binding post 5 is electrically connected with a first spring sheet groove 21 and a second spring sheet groove 22 on the inner side of the contact end cover 2, the second pulse binding post 6 is electrically connected with an XY coordinate vibration spring sheet 3 and an XZ coordinate vibration spring sheet 4 on the front end part of the shell 1, and when the vibration degree of the XY coordinate vibration spring sheet 3 or the XZ coordinate vibration spring sheet 4 enables the tail end of the spring sheet to be in contact with the edge of the first spring sheet groove 21 or the second spring sheet groove 22, the first pulse binding post 5 is conducted with the second pulse binding post 6 and a conduction switch signal is output. That is, the tail end of the vibrating shrapnel extends into the shrapnel groove at the inner side of the contact end cover, when the vibrating shrapnel is in a static state or the vibrating state does not reach or exceed a set amplitude, the tail end of the vibrating shrapnel is not contacted with the edge of the shrapnel groove, and then the first pulse wiring terminal and the second pulse wiring terminal which are respectively connected with the two ends of the vibrating shrapnel are in a non-connection state. In addition, the shape and width of the first spring plate groove and the second spring plate groove can be designed and adjusted according to the situation, for example, the design is wider, the amplitude of the vibration spring plate needs to be larger, and the tail end of the vibration spring plate can touch the edge of the spring plate groove, so that the first pulse wiring and the second pulse wiring which are respectively connected with the two ends of the vibration spring plate are connected and generate a conduction pulse signal.

Specifically, the first pulse terminal 5 is provided with an insulating device, and the second pulse terminal 6 is also provided with an insulating device. The insulation means is designed for the connection portion so that this protection mechanism can apply DC12V or DC24V power. It should be noted that the insulating device may be in various structures such as an insulating sleeve, an insulating pad, an insulating block, etc., which are not exhaustive, but the purpose thereof is to provide a relatively insulating and safe environment, so that various power supplies connected to the first wiring portion and the second wiring portion can be applied. In addition, the contact end cap 2 is fixedly disposed at the distal end portion of the housing 1 by an end cap locking screw 23 in cooperation with an insulating sleeve 24.

Specifically, XY coordinate vibration shell fragment 3 is the rectangular strip square flat shell fragment of level setting, first shell fragment groove 21 is the waist type groove that sets up with the corresponding level in XY coordinate vibration shell fragment 3 end, XZ coordinate vibration shell fragment 4 is the rectangular strip square flat shell fragment of perpendicular setting, second shell fragment groove 22 is the waist type groove of perpendicular setting corresponding with the terminal of XZ coordinate vibration shell fragment 4. In practical production and application of the wire drawing machine, equipment vibration caused by unbalanced wire take-up coils is mainly in the horizontal direction and the vertical direction, so that the XY coordinate vibration elastic sheet and the XZ coordinate vibration elastic sheet are long-strip-shaped square flat elastic sheets and are respectively vertically arranged and horizontally arranged, vibration interference in other directions (non-horizontal and vertical) can be eliminated as far as possible, vibration amplitude in the horizontal direction or the vertical direction is accurately monitored and detected and reflected in real time to the greatest extent, the wire drawing machine is more scientific and reasonable, and influence of other non-detection vibration factors is avoided.

Specifically, the XY coordinate vibration spring 3 and the XZ coordinate vibration spring 4 are arranged in a staggered manner, so that the two do not interfere with each other in the accommodating cavity 11 of the housing 1. Therefore, horizontal vibration and vertical vibration do not interfere with each other, the amplitude can be set and monitored independently, the maximum vibration amplitude allowed by the wire stretcher in the vertical and horizontal directions is different, the two vibration amplitudes are monitored independently, the vibration amplitude can be adjusted independently, different vibration amplitude values are set, and the method is more scientific and reasonable. Because subsequently, independent amplitude adjusting devices are respectively arranged for providing a foundation for the XY coordinate vibration elastic sheet and the XZ coordinate vibration elastic sheet, independent fine adjustment can be respectively carried out for the XY coordinate vibration elastic sheet and the XZ coordinate vibration elastic sheet, and the best real-time monitoring and detecting effect can be achieved for the double-coordinate vibration.

The vibration shell piece comprises a shell body 1, an X-Y coordinate vibration shell piece 3, an upper vibration amplitude adjusting screw nut 71, a lower vibration amplitude adjusting screw nut 72 and a first vibration amplitude adjusting device 7, wherein the first vibration amplitude adjusting device is arranged corresponding to the X-Y coordinate vibration shell piece 3 and comprises the upper vibration amplitude adjusting screw nut 71 and the lower vibration amplitude adjusting screw nut 72, the upper vibration amplitude adjusting screw nut 71 is arranged on the upper side of the shell body 1 and extends into an accommodating cavity 11 of the shell body 1, the end part of the upper vibration amplitude adjusting screw nut corresponds to the middle position of the upper side surface of the X-Y coordinate vibration shell piece, the lower vibration amplitude adjusting screw nut is arranged on the lower side of the shell body and extends into the accommodating cavity of the shell body, and the end part of the lower vibration amplitude adjusting screw nut corresponds to the middle position of the lower side surface of the X-Y coordinate vibration shell piece; and adjusting the distance between the ends of the upper amplitude adjusting screw nut and the lower amplitude adjusting screw nut, thereby finely adjusting the amplitude of the XY coordinate vibration elastic sheet.

Specifically, the vibration damping device further comprises a second amplitude adjusting device 8, wherein the second amplitude adjusting device is arranged corresponding to the XZ coordinate vibration elastic sheet 4 and comprises a left amplitude adjusting screw nut 81 and a right amplitude adjusting screw nut 82, the left amplitude adjusting screw nut 81 is arranged on the left side of the shell 1 and extends into the accommodating cavity 11 of the shell, the end of the left amplitude adjusting screw nut 81 corresponds to the middle position of the left side surface of the XZ coordinate vibration elastic sheet 4, the right amplitude adjusting screw nut 82 is arranged on the right side of the shell 1 and extends into the accommodating cavity 11 of the shell 1, and the end of the right amplitude adjusting screw nut 82 corresponds to the middle position of the right side surface of the XZ coordinate vibration elastic sheet 4; the distance between the ends of the left amplitude adjustment screw nut 81 and the right amplitude adjustment screw nut 82 is adjusted, thereby finely adjusting the amplitude of the XZ coordinate vibration reed 4. It should be noted that the amplitude adjustment screw nut includes a screw and a nut that are engaged with each other. As for the middle position corresponding to the vibrating elastic sheet, the specific position can be selected according to the actual situation, and the selection of the position can also adjust the vibration of the elastic sheet to a certain degree.

Specifically, the XY coordinate vibration spring 3 is locked and positioned at the front end of the housing 1 by a screw; the XZ coordinate vibration elastic sheet 4 is locked and positioned at the front end part of the shell 1 through a screw.

Specifically, the side of the housing 1 is provided with a window 12, and the window 12 is provided with a transparent protection plate. The transparent guard plate can be used for detecting the running state of the double-coordinate vibration protection mechanism and detecting whether the structure is intact or not.

Specifically, the bottom of the housing 1 is provided with a mounting support 9, and is mounted and arranged to the machine body of the wire drawing machine through the mounting support 9. The installation support 9 is arranged, so that the installation of the double-coordinate vibration protection mechanism is facilitated.

The utility model discloses be not limited to above-mentioned embodiment, adopt with the same or similar technical characteristics of the above-mentioned embodiment of the utility model, and other wire drawing machine two-coordinate vibration protection mechanism who obtains are all within the protection scope of the utility model.

Claims (10)

1. A double-coordinate vibration protection mechanism of a wire drawing machine comprises a shell, a contact end cover, an XY coordinate vibration elastic sheet, an XZ coordinate vibration elastic sheet, a first wiring part and a second wiring part, and is characterized in that the contact end cover is arranged at the tail end of the shell, the first wiring part is arranged at the contact end cover, the second wiring part is arranged at the front end of the shell, an accommodating cavity is formed in the shell, and a first elastic sheet groove and a second elastic sheet groove are formed in the inner side of the contact end cover corresponding to the accommodating cavity of the shell; the XY coordinate vibration elastic sheet is horizontally arranged, the vibration amplitude in the vertical direction is monitored, the front end of the XY coordinate vibration elastic sheet is fixedly arranged at the front end part of the shell, and the XY coordinate vibration elastic sheet axially extends along the accommodating cavity of the shell, so that the tail end of the XY coordinate vibration elastic sheet extends into a first elastic sheet groove on the inner side of the contact end cover; the XZ coordinate vibration elastic sheet is vertically arranged, the vibration amplitude in the horizontal direction is monitored, the front end of the XZ coordinate vibration elastic sheet is fixedly arranged at the front end of the shell, and the XZ coordinate vibration elastic sheet axially extends along the accommodating cavity of the shell, so that the tail end of the XZ coordinate vibration elastic sheet extends into the second elastic sheet groove on the inner side of the contact end cover.

2. The double-coordinate vibration protection mechanism of the wire drawing machine according to claim 1, wherein the first wiring portion is a first pulse wiring terminal, the second wiring portion is a second pulse wiring terminal, the first pulse wiring terminal is electrically connected with a first spring sheet groove and a second spring sheet groove on the inner side of the contact end cover, the second pulse wiring terminal is electrically connected with an XY coordinate vibration spring sheet and an XZ coordinate vibration spring sheet on the front end portion of the shell, and when the vibration degree of the XY coordinate vibration spring sheet or the XZ coordinate vibration spring sheet enables the tail end of the spring sheet to contact with the edge of the first spring sheet groove or the edge of the second spring sheet groove, the first pulse wiring terminal is conducted with the second pulse wiring terminal and outputs a conduction switch signal.

3. The vibration protection mechanism for a drawing machine according to claim 2, wherein the first pulse terminal is provided with an insulating device, and the second pulse terminal is also provided with an insulating device.

4. The dual-coordinate vibration protection mechanism of a wire drawing machine as claimed in claim 1, wherein the XY-coordinate vibrating reed is a horizontally disposed elongated square flat reed, the first reed groove is a horizontally disposed waist-shaped groove corresponding to the end of the XY-coordinate vibrating reed, the XZ-coordinate vibrating reed is a vertically disposed elongated square flat reed, and the second reed groove is a vertically disposed waist-shaped groove corresponding to the end of the XZ-coordinate vibrating reed.

5. The dual-coordinate vibration protection mechanism of the wire drawing machine as claimed in claim 1, wherein the XY coordinate vibration spring plate and the XZ coordinate vibration spring plate are arranged in a staggered manner so that the XY coordinate vibration spring plate and the XZ coordinate vibration spring plate do not interfere with each other in the accommodating cavity of the housing.

6. The dual-coordinate vibration protection mechanism of the wire drawing machine according to claim 1, further comprising a first amplitude adjustment device, wherein the first amplitude adjustment device is arranged corresponding to the XY-coordinate vibration spring, and comprises an upper amplitude adjustment screw nut and a lower amplitude adjustment screw nut, wherein the upper amplitude adjustment screw nut is arranged on the upper side of the housing and extends into the accommodating cavity of the housing, the end of the upper amplitude adjustment screw nut corresponds to the middle position of the upper side of the XY-coordinate vibration spring, the lower amplitude adjustment screw nut is arranged on the lower side of the housing and extends into the accommodating cavity of the housing, and the end of the lower amplitude adjustment screw nut corresponds to the middle position of the lower side of the XY-coordinate vibration spring; and adjusting the distance between the ends of the upper amplitude adjusting screw nut and the lower amplitude adjusting screw nut, thereby finely adjusting the amplitude of the XY coordinate vibration elastic sheet.

7. The double-coordinate vibration protection mechanism of the wire drawing machine according to claim 1 or 6, further comprising a second amplitude adjustment device, wherein the second amplitude adjustment device is arranged corresponding to the XZ coordinate vibration elastic sheet and comprises a left amplitude adjustment screw nut and a right amplitude adjustment screw nut, wherein the left amplitude adjustment screw nut is arranged on the left side of the shell and extends into the accommodating cavity of the shell, the end of the left amplitude adjustment screw nut corresponds to the middle position of the left side surface of the XZ coordinate vibration elastic sheet, the right amplitude adjustment screw nut is arranged on the right side of the shell and extends into the accommodating cavity of the shell, and the end of the right amplitude adjustment screw nut corresponds to the middle position of the right side surface of the XZ coordinate vibration elastic sheet; and adjusting the distance between the end parts of the left amplitude adjusting screw nut and the right amplitude adjusting screw nut, thereby finely adjusting the amplitude of the XZ coordinate vibration elastic sheet.

8. The dual-coordinate vibration protection mechanism of the wire drawing machine as claimed in claim 1, wherein the XY-coordinate vibration spring is locked and positioned at the front end of the housing by a screw; the XZ coordinate vibration elastic sheet is locked by a screw and is positioned at the front end part of the shell.

9. The vibration protection mechanism for the drawing machine according to claim 1, wherein a window is provided at a side portion of the housing, and the window is provided with a transparent protection plate.

10. The vibration protection mechanism for the double coordinates of the wire drawing machine as claimed in claim 1, wherein the bottom of the housing is provided with a mounting support and is mounted to the machine body of the wire drawing machine through the mounting support.

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