CN210669303U - A guide ruler mechanism and skinning pliers for skinning pliers - Google Patents

Abstract

The utility model discloses a guide rule mechanism for peeling pliers and the peeling pliers, which improves the convenience of using the guide rule. The utility model provides a guide rule mechanism for peeling pliers. The guide rule mechanism comprises a base, a guide rule and a control piece. The guide rule and the control piece are located on the base, and the guide rule and the control piece are matched.

Description

A guide ruler mechanism and skinning pliers for skinning pliers

Technical Field

The utility model belongs to the wire stripper instrument field particularly, relates to a guide chi mechanism and wire stripper for wire stripper.

Background

The debarking pliers are provided with a guide ruler structure. The guide ruler structure is mainly used for accurately controlling the length and consistency of the outer insulating layer of the wire in a certain range. The adjustment of the guide rule structure of the existing debarking pliers generally adopts the tightness of a screw to adjust the length of the guide rule. The screw influences the precision of the guide ruler in the state of different tightness. This often requires repeated operation and requires two hands.

Disclosure of Invention

The utility model discloses the technical problem that will solve is: provided are a guide mechanism for a stripper and the stripper, which improve the convenience of the use of the guide.

In order to solve the technical problem, the utility model discloses a following technical scheme:

in a first aspect, the present invention provides a guide ruler mechanism for a debarking pliers, the guide ruler mechanism includes a base, a guide ruler and a control part, the guide ruler and the control part are located the base, the guide ruler and the control part adaptation.

Preferably, the control member is used for adjusting the movement of the guide ruler.

As a preferred example, the base is provided with a through hole and a concave hole which are communicated with each other, one end of the guide ruler penetrates through the through hole of the base, and one end of the control part is positioned in the concave hole of the base.

Preferably, the recess hole penetrates the base.

As a preferred example, the control element comprises a control body and a first elastic body, and the concave hole of the base is provided with a limiting step or a limiting piece; the first end part of the control body is positioned in the concave hole; one end of the first elastic body is abutted against the limiting step or the limiting piece, and the other end of the first elastic body is matched with the second end part of the control body; the control body is provided with an adjusting part, and the adjusting part is matched with the guide ruler.

As a preferred example, the control piece further comprises a base body, and the base body is located outside the concave hole; the second end part of the control body is fixedly connected with the base body; the other end of the first elastic body and the second end of the control body are adapted to: the other end of the first elastic body is abutted against the base body.

As a preferred example, the limiting member is an annular boss.

Preferably, the adjusting part is a through hole, the guide ruler penetrates through the through hole of the control body, the lower part of the through hole is matched with the lower part of the guide ruler, and the middle size of the through hole is larger than that of the guide ruler.

As a preferable example, the central axis of the control body intersects with the central axis of the guide ruler.

As a preferred example, the adjusting portion is concave, the lower portion of the adjusting portion is matched with the lower portion of the guide ruler, and the central axis of the control body is not intersected with the central axis of the guide ruler.

As a preferred example, assuming that the maximum movable distance from the base to the base is a, the diameter of the guide is d, and the height of the through hole or the height of the curved surface is h, the debarking pliers satisfy the formula (1):

a + d < h is represented by formula (1).

As a preferred example, the guide ruler comprises a body and a guide rod connected with the body, and the guide rod penetrates through the base.

As a preferred example, the guide rule mechanism further includes a second elastic body, the second elastic body is sleeved on the guide rod, one end of the second elastic body abuts against the base, and the other end of the second elastic body abuts against the body.

As a preferable example, a groove is formed in one side of the body facing the base, one end of the guide rod is connected to the wall of the groove, the guide rod and the groove form an annular gap, and one side of the second elastic body is located in the annular gap; the second elastomer may be located wholly or partially in the annular void when the second elastomer is compressed.

Preferably, one end of the guide rod penetrating through the base is provided with a fixing piece.

Preferably, the body is provided with a stopper, and a peeling space is formed between the stopper and the clamp body.

The second aspect of the utility model also provides a debarking pliers that contains foretell tooth mechanism that leads, including base and guide ruler mechanism, base and base fixed connection in the guide ruler mechanism.

Compared with the prior art, the utility model discloses the convenience that the guide ruler used can be improved greatly to the guide ruler mechanism and the stripper of the embodiment. The utility model discloses guide ruler mechanism and skinning pliers through setting up the control, realize the regulation to the guide ruler position. Compared with the prior art, the embodiment improves the convenience of adjusting the guide ruler.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

fig. 2 is an exploded view of the guide mechanism of an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a control body in an embodiment of the present invention;

fig. 4 is another schematic structural diagram of the control body in the embodiment of the present invention.

The figure shows that: the clamp comprises a clamp body 1, a guide rule mechanism 2, a base 201, a guide rule 202, a control part 203, a base 2031, a control body 2032, an adjusting part 20321, a first elastic body 2033, a body 2021, a stopper 20211, a guide rod 2022, a second elastic body 3 and a cable 4.

Detailed Description

The technical solution of the embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

As shown in fig. 1, a guide mechanism for a debarking pliers according to an embodiment of the present invention includes a base 201, a guide 202, and a control member 203. Guide 202 and control 203 are located on base 201. The guide 202 and the control 203 are fitted.

In the above embodiment, the position of the guide 202 is adjusted by providing the control member 203. Compared with the prior art, the present embodiment improves the convenience of adjusting the use of the guide 202. Controls 203 are used to regulate the movement of guide 202. Preferably, adjustment of the position of guide 202 is accomplished by pressing control member 203. Of course, other ways of adjusting the control member 203 are also possible.

Preferably, a through hole and a concave hole which are communicated with each other are formed in the base 201, one end of the guide ruler 202 penetrates through the through hole of the base 201, and one end of the control member 203 is located in the concave hole of the base 201. Be equipped with the through-hole and the shrinkage pool of intercommunication each other on base 201, the lead ruler 202 passes the through-hole, and control 203 one end is located the shrinkage pool of base 201, and control 203 and lead ruler 202 can contact, and then realize control 203 to the position control of lead ruler 202. The recess hole may not penetrate the base 201, or may penetrate the base 201. When the recess hole runs through the base 201, the installation is facilitated.

Preferably, the control member 203 includes a control body 2032 and a first elastic body 2033, and the concave hole of the base 201 is provided with a limiting member. A first end of control body 2032 is located in the recess. One end of the first elastic body 2033 abuts against the stopper, and the other end of the first elastic body 2033 is fitted to the second end of the control body 2032. The control body 2032 is provided with an adjustment portion 20321. The adjusting portion 20321 is adapted to the guide 202, so that the position of the guide 202 can be adjusted. Preferably, the lower portion of the adjustment portion 20321 is fitted to the guide 202. More preferably, the control member 203 further comprises a substrate 2031, the substrate 2031 being located outside the recess. The second end of the control body 2032 is fixedly attached to the base 2031. The other end of the first elastic body 2033 and the second end of the control body 2032 are adapted to: the other end of the first elastic body 2033 abuts against the base 2031.

In the above embodiments, the structure of the limiting element may be various, for example, a boss is disposed in the concave hole of the base 201 as the limiting element. Preferably, the boss is an annular boss. For another example, a stopper step is provided as a stopper in a concave hole of the base 201. That is, the concave hole of the base 201 includes an upper hole and a lower hole, the aperture of the upper hole is larger than that of the lower hole, and a limit step is formed between the upper hole and the lower hole. The lower hole is clearance-fitted and fitted with the control body 2032. In this preferred embodiment, the lower hole can also serve as the limit control body 2032 to prevent the lower hole from swaying in the horizontal direction during operation. The lower hole is clearance-fitted and fitted with the control body 2032. The control body 2032 moves along the lower hole.

In the preferred embodiment, when the substrate 2031 is pressed during operation, the substrate 2031 is moved downward until it comes into contact with the base 201 and stops moving. When the substrate 2031 is moved downward, the first elastic body 2033 is compressed. Since control body 2032 and base 2031 are fixedly connected, when base 2031 is moved downward, control body 2032 is also moved downward. When the control body 2032 is moved downward, the guide 202 is not moved in the longitudinal direction, but the lower portion of the adjustment portion 20321 of the control body 2032 is gradually separated from the guide 202, and the force of the adjustment portion 20321 of the control body 2032 on the guide 202 is reduced, so that the guide 202 can be moved in the horizontal direction.

When the base 2031 is not pressed, the lower portion of the adjustment portion 20321 is fitted to the guide 202. The control body 2032 has a tendency to move upward due to the action of the first elastic body 2033. Thus, the lower portion of the adjusting portion 20321 of the control body 2032 is in contact with and fitted to the guide 202, and a longitudinal force is applied to the guide 202, so that it cannot be easily moved in the horizontal direction.

In this preferred embodiment, the adjustment of the position of the guide 202 is easily accomplished by pressing the base 2031. The action process is simple and easy to control. In addition, even if the base 2031 is not pressed, the position of the guide 202 can be adjusted by directly shifting the guide 202. At this time, the force for pushing the guide 202 is larger than the frictional force generated by the control body 2032 on the guide 202.

The control body 2032 is provided with an adjustment portion 20321. The adjustment of the position of the guide 202 is performed by the adjustment portion 20321. The structure of the adjustment portion 20321 may be various, and the following two structures are selected in the present preferred embodiment.

The first structure is as follows: as shown in fig. 3, the regulating portion 20321 is a through hole. The guide 202 passes through a through hole of the control body 2032, the lower part of the through hole is matched with the lower part of the guide 202, and the middle size of the through hole is larger than that of the guide 202. The longitudinal cross-section of the through-hole may be elliptical. The guide 202 extends through the through hole. The middle dimension of the through hole is larger than the dimension of the guide 202, and the width of the middle of the through hole can be larger than the diameter of the guide 202. Like this, when the control body 2032 moves down, the through-hole middle part moves to the guide 202 department, and the effort of the control body 2032 to the guide 202 reduces greatly, is 0 even for the guide 202 receives external force and easily stirs, change the position.

In this preferred embodiment, the central axis of the control body 2032 intersects the central axis of the guide 202.

The second structure is as follows: as shown in fig. 4, the adjusting portion 20321 is concave, the lower portion of the adjusting portion 20321 fits the lower portion of the guide 202, and the central axis of the control body 2032 does not intersect the central axis of the guide 202. The central axis of the control body 2032 does not intersect with the central axis of the guide ruler 202, so that the positions of the control body 2032 and the guide ruler 202 are easy to set, and the installation is convenient.

In this preferred embodiment, the adjustment portion 20321 is recessed. When the control body 2032 moves downwards, the middle part of the adjusting part 20321 moves to the guide 202, the acting force of the control body 2032 on the guide 202 is greatly reduced, even 0, so that the guide 202 is easy to be shifted and the position is changed by external force.

Preferably, assuming that the maximum movable distance from the base 2031 to the base 201 is a, the diameter of the guide 202 is d, and the height of the through hole or the height of the curved surface is h, the debarking pliers satisfy the formula (1):

a + d < h is represented by formula (1).

Equation (1) is such that the guide 202 does not contact the top surface of the adjustment portion 20321 during movement of the base 2031. Thus, even when the base 2031 is moved downward to the limit position, the urging force of the control body 2032 on the guide 202 is smaller than the urging force of the control body 2032 on the guide 202 when the base 2031 is not pressed. This makes the guide 202 easy to dial.

Preferably, the guide ruler 202 includes a body 2021 and a guide rod 2022 connected to the body 2021, and the guide rod 2022 penetrates the base 201. The guide rod 2022 moves in the through hole of the base 201 to change the position of the body 2021.

Preferably, the guide mechanism 2 further includes a second elastic body 3, the second elastic body 3 is sleeved on the guide rod 2022, one end of the second elastic body 3 abuts against the base 201, and the other end abuts against the body 2021. When the base 2031 is pressed, the force of the control 2032 on the guide 202 gradually decreases. When the acting force of the control body 2032 on the guide 202 is smaller than the elastic force generated by the second elastic body 3, the guide 202 automatically moves by the second elastic body 3. This eliminates the need to manually toggle the body 2021 manually. Of course, the position of the guide 202 can still be adjusted by manually shifting the body 2021.

Preferably, a groove is formed on one side of the body 2021 facing the base 201, one end of the guide rod 2022 is connected to a groove wall of the groove, the guide rod 2022 and the groove form an annular gap, and one side of the second elastic body 3 is located in the annular gap. When the second elastic body 3 is compressed, the second elastic body 3 may be entirely or partially located in the annular space. An annular gap is provided, on one hand, when the second elastic body 3 is compressed, the annular gap becomes a containing space of the second elastic body 3, and the wall surface of the body 2021 can be directly contacted with the base 201; on the other hand, the structure is more compact, and the space is saved.

In order to prevent the guide rod 2022 from completely passing through the through hole of the base 201 and causing the guide rod 2022 to be separated from the through hole, a fixing member is disposed at one end of the guide rod 2022 passing through the base 201. The size of the fixing piece is larger than that of the through hole. The fixing piece can not enter the through hole in the moving process.

Preferably, the body 2021 is provided with a stopper 20211, and a peeling space is formed between the stopper 20211 and the forceps body 1. When the guide 202 is manually shifted, the fingers are positioned in the peeling space, and the position of the body 2021 is easily changed by applying force to the stopper 20211.

As shown in fig. 1, when stripping, a cable 4, e.g., a wire or a conductor, is placed into the stripper from left to right. When one end of the cable 4 reaches the guide 202 positioning end face of the guide mechanism 2, the cable 4 is blocked from continuing to extend rightward. At this time, the stripping length is the distance between the edge of the stripper for removing the insulation layer of the cable 4 and the positioning end face of the guide ruler 202, so that the stripping length can be adjusted by adjusting the distance between the edge and the positioning end face.

The guide rule mechanism 2 of the embodiment can realize accurate control and can be controlled by a single hand. As shown in fig. 1, the guide rod 2022 has a tendency to move rightward under the action of the second elastic body 3 in a normal state. The control body 2032 tends to move upward by the first elastic body 2033.

Preferably, the elastic force of the first elastic body 2033 is greater than the elastic force of the second elastic body 3, so that the arc surface of the lower part of the adjusting part 20321 of the control body 2032 is elastically (tightly) contacted with the guide rod 2022 by the first elastic body 2033. Because the elastic force of the first elastic body 2033 is greater than the elastic force of the second elastic body 3, the guide rod 2022 cannot be ejected outwards continuously under the action of the second elastic body 3, and the guide rod 2022 is locked in a positioning manner.

When the position of the guide rod 2022 needs to be adjusted, the base 2031 of the pressure control member 203 is pressed by a finger, so that the arc surface at the lower part of the adjusting part 20321 of the control body 2032 is separated from contact with the guide rod 2022, the guide rod 2022 is ejected rightwards under the action of the second elastic body 3, and the maximum ejection position is until the fixing part of the guide rod 2022 contacts the base 201. Stopping pressing the control member 203 locks (positions) the guide 2022.

Of course, in this embodiment, the guide bar 2022 may be pushed or pulled to move left and right without pressing the control member 203, so as to adjust the position of the guide bar 2022.

When the length to be debarked exceeds the maximum extension of the guide, the guide 202 interferes with the debarking process. At this time, the body 2021 of the guide ruler 202 can be rotated along the axis of the guide rod 2022, so that the body 2021 is separated from the wire stripping area, and the cable 4 can extend to the right without affecting the wire stripping.

The utility model also provides a skinning pliers, including base 1 and the guide ruler mechanism 2 of above-mentioned embodiment. The base 201 of the guide mechanism 2 is fixedly connected with the base 1.

The utility model discloses debarking pliers, the through hole of base 201 is passed to the one end of guide 202, and the one end of control 203 is arranged in the shrinkage pool of base 201. Control member 203 is in contact with guide 202. In operation, the position of the guide 202 is adjusted by means of the control member 203. The guide 202 moves in the through-hole of the base 201, thereby changing the position of the guide 202.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration only, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the claims and their equivalents.

Claims (17)

1. A guide rule mechanism for peeling pliers, characterized in that the guide rule mechanism (2) comprises a base (201), a guide rule (202) and a control member (203), the guide rule (202) and the The control part (203) is located on the base (201), and the guide rule (202) is adapted to the control part (203). 2 . The guide rule mechanism for peeling pliers according to claim 1 , wherein the control member ( 203 ) is used to adjust the movement of the guide rule ( 202 ). 3 . 3. The guide rule mechanism for peeling pliers according to claim 1, wherein the base (201) is provided with a through hole and a concave hole that communicate with each other, and one end of the guide rule (202) passes through In the through hole of the base (201), one end of the control member (203) is located in the concave hole of the base (201). 4. The guide rule mechanism for peeling forceps according to claim 3, wherein the recessed hole penetrates through the base (201). 5. The guide rule mechanism for peeling forceps according to claim 3, wherein the control member (203) comprises a control body (2032) and a first elastic body (2033), and the base (201) ) is provided with a stopper in the concave hole; The first end of the control body (2032) is located in the concave hole; one end of the first elastic body (2033) is in contact with the limiting member, and the other end of the first elastic body (2033) is in contact with the second end of the control body (2032) part adaptation; The control body (2032) is provided with an adjustment part (20321), and the adjustment part (20321) is adapted to the guide rule (202). 6. The guide rule mechanism for peeling forceps according to claim 5, characterized in that, the control member (203) further comprises a base body (2031), and the base body (2031) is located outside the concave hole; the control body (2032) The second end of the s is fixedly connected to the base body (2031); The other end of the first elastic body (2033) and the second end of the control body (2032) are adapted such that: the other end of the first elastic body (2033) is abutted against the base body (2031). 7 . The guide rule mechanism for peeling pliers according to claim 5 , wherein the limiting member is a boss or a limiting step. 8 . 8. The guide rule mechanism for peeling pliers according to claim 5, characterized in that the adjusting portion (20321) is a through hole, and the guide rule (202) passes through the through hole of the control body (2032) , the lower part of the through hole is adapted to the lower part of the guide ruler (202), and the size of the middle part of the through hole is larger than the size of the guide ruler (202). 9 . The guide rule mechanism for peeling forceps according to claim 8 , wherein the central axis of the control body ( 2032 ) intersects with the central axis of the guide rule ( 202 ). 10 . 10. The guide rule mechanism for peeling pliers according to claim 5, wherein the adjusting portion (20321) is in a concave shape, and the lower portion of the adjusting portion (20321) is adapted to the lower portion of the guide rule (202) , the central axis of the control body (2032) and the central axis of the guide rule (202) do not intersect. 11. The guide rule mechanism for peeling pliers according to claim 8 or 10, wherein the control member (203) further comprises a base body (2031), and the base body (2031) is located outside the concave hole; the control body (203) The second end of 2032) is fixedly connected to the base body (2031); Suppose the maximum movable distance from the base body (2031) to the base (201) is a, the diameter of the guide rule (202) is d, the height of the through hole or the height of the curved surface is h, and the peeling pliers satisfy the formula (1) ): a+d<h Formula (1). 12. The guide rule mechanism for peeling pliers according to claim 1, wherein the guide rule (202) comprises a main body (2021) and a guide rod (2022) connected with the main body (2021), the The guide rod (2022) penetrates the base (201). 13. The guide rule mechanism for peeling pliers according to claim 12, characterized in that, the guide rule mechanism (2) further comprises a second elastic body (3), and the second elastic body (3) is sleeved On the guide rod (2022), one end of the second elastic body (3) is in contact with the base (201), and the other end is in contact with the body (2021). 14. The guide rule mechanism for peeling pliers according to claim 13, wherein a groove is provided on the side of the body (2021) facing the base (201), and one end of the guide rod (2022) is connected to On the groove wall of the groove, and the guide rod (2022) and the groove form an annular gap, one side of the second elastic body (3) is located in the annular gap; when the second elastic body (3) is compressed, The second elastomer (3) can be located wholly or partly in the annular space. 15. The guide rule mechanism for peeling pliers according to claim 12, characterized in that, one end of the guide rod (2022) passing through the base (201) is provided with a fixing member. 16. The guide rule mechanism for peeling pliers according to claim 12, wherein a stopper (20211) is provided on the main body (2021), and the stopper (20211) and the base (1) are provided with a stopper (20211). A peeling space is formed between. 17. A peeling pliers comprising the guide tooth mechanism according to any one of claims 1 to 16, characterized in that it comprises a base (1) and a guide rule mechanism (2), and the base in the guide rule mechanism (2) The seat (201) and the base (1) are fixedly connected.

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