CN109926497B - A induction system and stamping die for stamping die - Google Patents

Abstract

The invention belongs to the technical field of machining, and particularly provides an induction device for a stamping die and the stamping die. The inductor can remove for fixed component, avoids being crushed, and the inductor can automatic re-setting under elastic component's effect, and guide structure can prevent that the inductor from taking place the skew, and second stop component can support and lean on guide structure in order to prevent to lead to the inductor to be crushed because the distance undersize between inductor and the material.

Description

A induction system and stamping die for stamping die

Technical Field

The invention belongs to the technical field of machining, and particularly provides an induction device for a stamping die and the stamping die.

Background

The press is a forming method in which a press and a die are used to apply an external force to a workpiece to be processed such as a plate or a strip to cause plastic deformation or separation, thereby obtaining a workpiece (a pressed part) having a desired shape and size. With the development of times, the punching industry has realized punching process automation, and not only safe and reliable, but also stable quality, efficient. However, some disadvantages also exist in the automatic production, such as the material taking and placing problems, and errors exist only by observing whether the materials are placed in place or not.

In order to solve the problems, an inductor is added on the stamping die, and the positioning of the material is determined through the inductor. However, because the induction stroke of the inductor is short, the setting position of the inductor is very close to the material, and the inductor is easily crushed by the material in the automatic stamping production process and cannot work normally, and if the inductor is set at a position far away from the material, the induction is poor easily, so that the whole line production stop is caused, and the line stop loss is caused.

Therefore, there is a need in the art for an induction device for a stamping die and a corresponding stamping die to solve the above problems.

Disclosure of Invention

In order to solve the problems in the prior art, namely to solve the problem that the inductor of the existing stamping die is easily damaged by pressing or has poor induction to cause full-line production stop due to improper arrangement position, the invention provides an induction device for the stamping die, the sensing device comprises a sensor, a first limit member, a second limit member, an elastic member and a fixed member, wherein the first limit member and the second limit member are both arranged on the sensor, and the first limit component and the second limit component are respectively arranged close to two ends of the inductor, the fixed component is provided with a guide structure which is sleeved on the inductor and is positioned between the first limiting component and the second limiting component, the fixed member is connected with the body of the stamping die, and the elastic member is arranged between the first limiting member and the guide structure.

In a preferred embodiment of the above sensing device, the sensing device further includes a connecting member through which the fixing member is connected to the body of the press die, and a locking member provided on the connecting member, the locking member being configured to fix the connecting member to the fixing member in a locked state and to allow the fixing member to rotate relative to the connecting member in an unlocked state.

In a preferred embodiment of the above sensing device, the fixing member is provided with a fixed shaft, a part of the connecting member forms a fixed sleeve, the fixed shaft is disposed in the fixed sleeve, the locking member is disposed close to the fixed sleeve, the locking member is configured to enable the fixed sleeve to contract so as to enable the fixed sleeve to tightly abut against the fixed shaft and thus enable the connecting member to be fixed to the fixing member, and the locking member is further configured to enable the fixed sleeve to expand so as to allow the fixing member to rotate relative to the connecting member.

In a preferred embodiment of the above sensing device, the first position-limiting member and/or the fixing member is provided with a positioning structure, and the positioning structure is configured to prevent the elastic member from deviating.

In a preferred embodiment of the above sensing device, the positioning structure includes a first positioning structure disposed on the first position-limiting member, and the first end of the elastic member is connected to the first positioning structure to prevent the elastic member from deviating.

In a preferred technical solution of the above sensing device, the first positioning structure is a first positioning groove disposed on the first limiting member, and the first end of the elastic member is disposed in the first positioning groove.

In a preferred embodiment of the above sensing device, the positioning structure further includes a second positioning structure disposed on the fixing member, and the second end of the elastic member is connected to the second positioning structure to prevent the elastic member from shifting.

In a preferred embodiment of the above sensing device, the second positioning structure is a second positioning groove disposed on the fixing member, and the second end of the elastic member is disposed in the second positioning groove.

In a preferred technical solution of the above sensing device, the first position-limiting member is a first nut screwed with the sensor.

In a preferred technical solution of the above sensing device, the second position-limiting member is a second nut screwed with the sensor.

In a preferred technical solution of the above sensing device, the sensing device further includes a third limiting member disposed on the sensor, the third limiting member is disposed on a side of the first limiting member away from the second limiting member, and the third limiting member abuts against the first limiting member.

In a preferred technical solution of the above sensing device, the third position-limiting member is a third nut screwed with the sensor.

In a preferred technical solution of the above sensing device, the elastic member is a spring sleeved on the sensor.

In another aspect, the invention further provides a stamping die, which comprises the induction device.

As can be understood by those skilled in the art, in the preferred technical scheme of the invention, the condition that the full-line production is stopped due to poor induction of the inductor can be avoided through the induction device, and the condition that the inductor is crushed by materials can also be avoided. Particularly, induction system includes the inductor, first stop component, the second stop component, elastic component and fixed component, first stop component and second stop component all set up on the inductor, and first stop component and second stop component set up near the both ends of inductor respectively, be provided with guide structure on the fixed component, guide structure cover is established on the inductor and is located between first stop component and the second stop component, fixed component and stamping die's this body coupling, elastic component sets up between first stop component and guide structure. In concrete application, in order to avoid appearing because the inductor responds badly and causes the condition of full line shut down, can set up induction system in the position nearer apart from the material, in punching press automated production in-process, the material atress takes place to shift the back and contacts with the inductor, the inductor can remove for fixed component after receiving the pressure of material, thereby can prevent that the inductor from being crushed by the material, the inductor takes place to drive after removing and sets up the first stop component in the inductor upper end and removes, make the elastic component who sets up between first stop component and guide structure compressed simultaneously, after the material is removed, the inductor resets under elastic component's effect, make the inductor reply initial set position. In addition, the second limiting component arranged at the lower end of the inductor can abut against the guide structure to limit the distance between the inductor and the material, so that the situation that the inductor is crushed by the material due to the fact that the distance between the inductor and the material is too small can be avoided, and the reliability of the induction device is improved. In addition, the guide structure arranged on the fixing component is sleeved on the inductor, so that the inductor can be prevented from shifting in the moving process, and the reliability of the induction device can be further improved.

Further, the sensing device further comprises a connecting member through which the fixing member is connected with the body of the press die, and a locking member provided on the connecting member, the locking member being configured to fix the connecting member to the fixing member in a locked state and to allow the fixing member to rotate relative to the connecting member in an unlocked state. The fixing member is connected with the body of the stamping die through the connecting member, the connecting member is further provided with a locking member, when the locking member is in a locking state, the fixing member and the connecting member are relatively fixed, and when the locking member is in an unlocking state, the fixing member can rotate relative to the connecting member.

Furthermore, the first limiting member and the fixing member are provided with positioning structures, and the positioning structures are arranged to prevent the elastic member from deviating. The arrangement is that the positioning structures are arranged on the first limiting member and the fixing member to prevent the elastic member from deviating, so that the stability of the sensing device can be improved.

Still further, first stop component is the first nut with inductor spiro union. Through the arrangement, in concrete application, a user can flexibly adjust the position of the first nut according to actual conditions, so that the flexibility of the induction device is improved.

Still further, the second stop member is a second nut threadedly connected with the inductor. Through the arrangement, in concrete application, a user can flexibly adjust the position of the second nut according to actual conditions, so that the flexibility of the induction device is improved.

Still further, the induction device also comprises a third limiting member arranged on the inductor, the third limiting member is arranged on one side of the first limiting member, which is far away from the second limiting member, and the third limiting member abuts against the first limiting member. Through the arrangement that the third limiting member is arranged above the first limiting member and abuts against the first limiting member to limit the upward movement of the first limiting member, the stability of the induction device can be further improved.

In addition, the stamping die further provided on the basis of the technical scheme has the technical effects of the sensing device due to the adoption of the sensing device, and compared with the stamping die before improvement, the stamping die disclosed by the invention can avoid the condition of full-line production halt caused by poor sensing of the inductor and the condition that the inductor is crushed by materials in the stamping automatic production process, so that the production efficiency of the stamping die is improved.

Scheme 1: the utility model provides an induction system for stamping die, its characterized in that, induction system includes inductor, first stop component, second stop component, elastic component and fixed component, first stop component with second stop component all sets up on the inductor, just first stop component with second stop component is close to respectively the both ends of inductor set up, be provided with guide structure on the fixed component, the guide structure cover is established just be located on the inductor first stop component with between the second stop component, the fixed component with stamping die's this body coupling, elastic component sets up first stop component with between the guide structure.

Scheme 2: the sensing device of claim 1, further comprising a connecting member through which the fixing member is connected with the body of the press die, and a locking member provided on the connecting member, the locking member being configured to fix the connecting member to the fixing member in a locked state and to allow the fixing member to rotate relative to the connecting member in an unlocked state.

Scheme 3: the induction device according to claim 2, characterized in that a fixed shaft is provided on the fixed member, a part of the connecting member forms a fixed sleeve, the fixed shaft is provided in the fixed sleeve, the locking member is provided adjacent to the fixed sleeve, the locking member is arranged to enable the fixed sleeve to contract so as to enable the fixed sleeve to abut tightly against the fixed shaft and thus to enable the connecting member to be fixed to the fixed member, and the locking member is further arranged to enable the fixed sleeve to expand so as to allow the fixed member to rotate relative to the connecting member.

Scheme 4: the sensing device of claim 1, wherein the first stop member and/or the fixing member are provided with a positioning structure, and the positioning structure is configured to prevent the elastic member from deviating.

Scheme 5: the sensing device of claim 4, wherein the positioning structure comprises a first positioning structure disposed on the first stop member, and the first end of the elastic member is connected to the first positioning structure to prevent the elastic member from shifting.

Scheme 6: the sensing device of claim 5, wherein the first positioning structure is a first positioning groove disposed on the first stop member, and the first end of the elastic member is disposed in the first positioning groove.

Scheme 7: the sensing device of claim 5, wherein the positioning structure further comprises a second positioning structure disposed on the fixed member, and the second end of the elastic member is connected to the second positioning structure to prevent the elastic member from shifting.

Scheme 8: the sensing device of claim 7, wherein the second positioning structure is a second positioning slot disposed on the fixed member, and the second end of the elastic member is disposed in the second positioning slot.

Scheme 9: the induction device of claim 1, wherein the first stop member is a first nut threadably engaged with the inductor.

Scheme 10: the induction device of claim 1, wherein the second stop member is a second nut threadably engaged with the inductor.

Scheme 11: the induction device according to claim 1, further comprising a third limiting member disposed on the inductor, wherein the third limiting member is disposed on a side of the first limiting member away from the second limiting member, and the third limiting member abuts against the first limiting member.

Scheme 12: the induction device of claim 11, wherein the third stop member is a third nut threadably engaged with the inductor.

Scheme 13: the induction device according to any one of claims 1 to 12, wherein the elastic member is a spring fitted over the inductor.

Scheme 14: a stamping die, characterized in that it comprises an induction device according to any of claims 1 to 13.

Drawings

Preferred embodiments of the present invention are described in detail below with reference to the attached drawing figures, wherein:

FIG. 1 is a first schematic structural diagram of an induction device according to the present invention;

FIG. 2 is a second schematic structural diagram of the sensing device of the present invention;

fig. 3 is a cross-sectional view of the sensing device of the present invention.

List of reference numerals:

1. an inductor;

2. a first stop member (first nut); 21. a first positioning structure (first positioning groove);

3. a second stop member (second nut);

4. an elastic member (spring);

5. a fixing member; 51. a guide structure; 52. a fixed shaft; 53. a second positioning structure (second positioning groove);

6. a connecting member; 61. fixing a sleeve;

7. a locking member;

8. a third stop member (third nut).

Detailed Description

First, it should be understood by those skilled in the art that these embodiments are merely for explaining the technical principles of the present invention, and are not intended to limit the scope of the present invention.

It is to be noted that in the description of the present invention, the terms of direction or positional relationship indicated by the terms "upper end", "lower end", "above", "inside", and the like are based on the directions or positional relationships shown in the drawings, which are merely for convenience of description, and do not indicate or imply that the device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Furthermore, it should be noted that, in the description of the present invention, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

Based on the problem that the inductor of the existing stamping die is easily damaged by pressing or is easily damaged by poor induction to cause the whole-line production stop due to improper arrangement position pointed out by the background art, the invention provides the induction device for the stamping die and the stamping die, and aims to avoid the situation that the whole-line production stop is caused by poor induction of the inductor and the situation that the inductor is damaged by materials.

Specifically, as shown in fig. 1, the sensing device includes an inductor 1, a first limiting member 2, a second limiting member 3, an elastic member 4 and a fixing member 5, the first limiting member 2 and the second limiting member 3 are both disposed on the inductor 1, the first limiting member 2 and the second limiting member 3 are respectively disposed near two ends of the inductor 1, a guide structure 51 is disposed on the fixing member 5, the guide structure 51 is sleeved on the inductor 1 and is located between the first limiting member 2 and the second limiting member 3, the fixing member 5 is connected to the body of the stamping die, and the elastic member 4 is disposed between the first limiting member 2 and the guide structure 51. The induction device is connected with the body of the stamping die through the fixing component 5, in order to avoid the condition that the induction of the inductor 1 is poor to cause the whole line stop production, the induction device can be arranged at a position close to a material, in the stamping automatic production process, the material is contacted with the inductor 1 after being stressed and displaced, the inductor 1 can move relative to the fixing component 5 after being stressed by the material to prevent the inductor from being crushed by the material, the inductor 1 drives the first limiting component 2 arranged at the upper end of the inductor 1 to move after moving, meanwhile, the elastic component 4 arranged between the first limiting component 2 and the guide structure 51 is compressed, after the material is removed, the inductor 1 resets under the action of the elastic component 4, the inductor 1 returns to the initial setting position, in order to avoid the condition that the inductor 1 is crushed by the material due to the over-small distance between the inductor 1 and the material, a second stop member 3 is provided at the lower end of the inductor 1, the second stop member 3 being capable of abutting against the guide structure 51 to limit the distance between the inductor 1 and the material. Namely, the induction device can avoid the condition that the whole line stops production due to poor induction of the inductor 1 and can also avoid the condition that the inductor 1 is crushed by materials. In addition, the guide structure 51 provided on the fixing member 5 is fitted over the inductor 1, so that the inductor 1 can be prevented from being displaced during movement, and the reliability of the induction device can be improved.

Preferably, as shown in fig. 1 and 2, the sensing device further comprises a connecting member 6 and a locking member 7, the fixing member 5 is connected with the body of the press die through the connecting member 6, the locking member 7 is provided on the connecting member 6, and the locking member 7 is provided to fix the connecting member 6 to the fixing member 5 in a locked state and to allow the fixing member 5 to rotate relative to the connecting member 6 in an unlocked state. That is, the fixing member 5 is connected to the body of the press die through the connecting member 6, and the connecting member 6 is further provided with the locking member 7, and when the locking member 7 is in the locked state, the fixing member 5 and the connecting member 6 are relatively fixed, and when the locking member 7 is in the unlocked state, the fixing member 5 can be rotated relative to the connecting member 6, and by such an arrangement, the angle between the inductor 1 and the material can be adjusted, so that the reliability of the induction device can be further improved.

Preferably, as shown in fig. 1, 2 and 3, the fixed member 5 is provided with a fixed shaft 52, a portion of the connecting member 6 forms a fixed sleeve 61, the fixed shaft 52 is disposed in the fixed sleeve 61, the locking member 7 is disposed adjacent to the fixed sleeve 61, the locking member 7 is disposed to enable the fixed sleeve 61 to contract to enable the fixed sleeve 61 to be tightly abutted against the fixed shaft 52 and thus to enable the connecting member 6 to be fixed to the fixed member 5, and the locking member 7 is further disposed to enable the fixed sleeve 61 to expand to allow the fixed member 5 to rotate relative to the connecting member 6. That is, when the locking member 7 is in the locked state, the fixing sleeve 61 can clamp the fixing shaft 52 and thus fix the fixing member 5 and the connecting member 6 relative to each other, and when the locking member 7 is in the unlocked state, the fixing shaft 52 can rotate within the fixing sleeve 61 and thus the fixing member 5 can rotate relative to the connecting member 6, so that the angle between the inductor 1 and the material can be adjusted.

Preferably, as shown in fig. 3, the first position-limiting member 2 and/or the fixing member 5 are/is provided with a positioning structure, and the positioning structure is configured to prevent the elastic member 4 from deviating. In a preferred embodiment, the first stopper member 2 is provided with a first positioning structure 21, the fixed member 5 is provided with a second positioning structure 53, the first end of the elastic member 4 is connected with the first positioning structure 21, and the second end of the elastic member 4 is connected with the second positioning structure 53, i.e. the positioning structures are provided on both the first stopper member 2 and the fixed member 5. With this arrangement, the elastic member 4 can be prevented from being displaced, and the stability of the sensing device can be improved. Of course, the positioning structure can be provided only on the first position-limiting member 2 or only on the fixing member 5, and such adjustment and change of the specific arrangement position of the positioning structure do not depart from the principle and scope of the present invention, and should be limited within the protection scope of the present invention. Wherein, the first positioning structure 21 is a first positioning groove 21 disposed on the first position-limiting member 2, the second positioning structure 53 is a second positioning groove 53 disposed on the fixing member 5, the first end of the elastic member 4 is disposed in the first positioning groove 21, and the second end of the elastic member 4 is disposed in the second positioning groove 53. Of course, the first positioning structure 21 and the second positioning structure 53 may also be configured as a baffle, a rib, or the like, and those skilled in the art may flexibly configure the specific structures of the first positioning structure 21 and the second positioning structure 53 in practical applications as long as the elastic member 4 can be prevented from shifting by the first positioning structure 21 and the second positioning structure 53.

Preferably, as shown in fig. 1, the first limiting member 2 is a first nut 2 threadedly coupled with the inductor 1, and the second limiting member 3 is a second nut 3 threadedly coupled with the inductor 1. First nut 2 and second nut 3 all with inductor 1 threaded connection, through such setting, in specifically should, the user can adjust the position of first nut 2 and second nut 3 according to actual conditions in a flexible way to induction system's flexibility has been improved. Of course, the first limiting member 2 and the second limiting member 3 may also be configured as a limiting plate, a limiting ring, etc., and in addition, the first limiting member 2 and the second limiting member 3 may also be fixed to the inductor 1 by welding or clamping, etc., and such adjustment of the specific structures of the first limiting member 2 and the second limiting member 3 and the adjustment of the specific fixing manner of the first limiting member and the inductor 1 do not depart from the technical principle and scope of the present invention, and should be limited within the protection scope of the present invention.

Preferably, as shown in fig. 1, the sensing device further includes a third limiting member 8 disposed on the sensor 1, the third limiting member 8 is disposed on a side of the first limiting member 2 away from the second limiting member 3, and the third limiting member 8 abuts against the first limiting member 2. That is, the third stopper member 8 is disposed above the first stopper member 2, and the third stopper member 8 abuts against the first stopper member 2 to restrict the upward movement of the first stopper member 2, and by such an arrangement, the stability of the sensing device can be improved. Wherein, third stop component 8 is the third nut 8 with inductor 1 spiro union, can prevent through setting up third nut 8 that first nut 2 is not hard up. Of course, the third position-limiting member 8 may also be configured as a position-limiting plate, a position-limiting ring, etc., and in addition, the third position-limiting member 8 may also be fixed to the inductor 1 by welding or clamping, etc., and such adjustment of the specific structure of the third position-limiting member 8 and the specific fixing manner of the third position-limiting member to the inductor 1 do not depart from the technical principle and scope of the present invention, and should be limited within the protection scope of the present invention.

Preferably, as shown in fig. 1 and 2, the elastic member 4 is a spring 4 fitted over the inductor 1. In a specific application, the length of the spring 4 can be flexibly adjusted according to actual conditions such as a stamping stroke and the like. Of course, the elastic member 4 may be configured as a rubber structure, and such modifications and changes to the specific structure of the elastic member 4 without departing from the principle and scope of the present invention should be limited within the protection scope of the present invention.

So far, the technical solutions of the present invention have been described in connection with the preferred embodiments shown in the drawings, but it is easily understood by those skilled in the art that the scope of the present invention is obviously not limited to these specific embodiments. Equivalent changes or substitutions of related technical features can be made by those skilled in the art without departing from the principle of the invention, and the technical scheme after the changes or substitutions can fall into the protection scope of the invention.

Claims (12)

1. The induction device for the stamping die is characterized by comprising an inductor, a first limiting member, a second limiting member, an elastic member and a fixing member, wherein the first limiting member and the second limiting member are arranged on the inductor and are respectively arranged close to two ends of the inductor;

the sensing device further comprises a connecting member through which the fixing member is connected with the body of the press die, and a locking member provided on the connecting member, the locking member being configured to fix the connecting member to the fixing member in a locked state and to allow the fixing member to rotate relative to the connecting member in an unlocked state;

a fixed shaft is disposed on the fixed member, a portion of the connecting member forms a fixed sleeve, the fixed shaft is disposed within the fixed sleeve, the locking member is disposed adjacent to the fixed sleeve, the locking member is configured to enable the fixed sleeve to contract to enable the fixed sleeve to tightly abut against the fixed shaft and thus enable the connecting member to be fixed to the fixed member, and the locking member is further configured to enable the fixed sleeve to expand to allow the fixed member to rotate relative to the connecting member.

2. The sensing device of claim 1, wherein the first stop member and/or the securing member has a positioning structure disposed thereon, the positioning structure configured to prevent the resilient member from deflecting.

3. The inductive device of claim 2, wherein the positioning structure comprises a first positioning structure disposed on the first stop member, the first end of the resilient member being coupled to the first positioning structure to prevent the resilient member from deflecting.

4. The inductive device of claim 3, wherein the first locating feature is a first locating groove disposed on the first stop member, the first end of the resilient member being disposed within the first locating groove.

5. The inductive device of claim 3, wherein said positioning structure further comprises a second positioning structure disposed on said stationary member, said second end of said resilient member being coupled to said second positioning structure to prevent said resilient member from shifting.

6. The inductive device of claim 5, wherein the second detent structure is a second detent provided on the stationary member, and the second end of the resilient member is disposed within the second detent.

7. The inductive device of claim 1, wherein the first stop member is a first nut threadably engaged with the inductor.

8. The inductive device of claim 1, wherein the second stop member is a second nut threadably engaged with the inductor.

9. The inductive device of claim 1, further comprising a third stop member disposed on the inductor, the third stop member being disposed on a side of the first stop member distal from the second stop member, the third stop member abutting the first stop member.

10. The inductive device of claim 9, wherein the third stop member is a third nut threadably engaged with the inductor.

11. The inductive device of any one of claims 1 to 10, wherein the resilient member is a spring fitted over the inductor.

12. A stamping die, characterized in that it comprises an induction device according to any one of claims 1 to 11.

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