CN114188891A - Wire stripper - Google Patents

Abstract

The invention relates to wire stripping pliers. This wire stripping pliers includes: the forceps comprise a forceps body and a forceps cover, wherein the forceps body comprises a first jaw and a second jaw which are mutually crossed and can rotate around the crossed part; the wire stripping module comprises a first wire stripping blade and a second wire stripping blade which are arranged oppositely; when the first clamp and the second clamp rotate, the first wire stripping blade and the second wire stripping blade clamp the end of the cable and cut the shell of the end; the fixed-length module comprises a connecting shaft, a blocking piece and a positioning piece; the connecting shaft is connected with the pliers body, the blocking piece is sleeved on the connecting shaft, the positioning piece is sleeved on the connecting shaft, and the positioning piece is arranged between the blocking piece and the pliers body. When the wire stripper is used, a cable is arranged between the first wire stripping blade and the second wire stripping blade, so that the end part of the cable is abutted to the blocking piece.

Description

Wire stripper

Technical Field

The invention relates to the technical field of cable connection, in particular to wire strippers.

Background

When the cable is installed, the plastic shell at the end part of the cable needs to be peeled off, the lead at the end part of the cable is exposed, the exposed lead is looped, and a screw penetrates through the loop to enable the end part of the cable to be connected with equipment to be connected, so that the cable is electrically connected with the equipment to be connected.

At present, when workers peel off the plastic shell at the end part of the cable, the workers mainly rely on experience to peel off the approximate size, and the plastic shell cannot be peeled off in a determined size, so that the exposed wires at the end part of the cable are easily too long or too short. When the exposed lead is too long, part of the exposed cable lead still remains after looping, and the risk of electric shock is easily caused by careless touch of workers; when the exposed lead is too short, the length of the cable lead is not enough for looping, and part of the plastic shell needs to be peeled off again, so that the operation is inconvenient.

Disclosure of Invention

Therefore, it is necessary to provide a wire stripper which can realize fixed-length stripping of the plastic shell at the end of the cable, aiming at the problem that the conductor exposed at the end of the cable is too long or too short easily when workers strip the plastic shell at the end of the cable at present.

A wire stripper, comprising:

the forceps comprise a forceps body and a handle, wherein the forceps body comprises a first jaw and a second jaw, the first jaw and the second jaw are mutually crossed, and the first jaw and the second jaw can relatively rotate around the crossed part;

the wire stripping module comprises a first wire stripping blade and a second wire stripping blade which are arranged oppositely, the first wire stripping blade is arranged on the first jaw, and the second wire stripping blade is arranged on the second jaw; when the first clamp and the second clamp rotate relatively, the first wire stripping blade and the second wire stripping blade are used for clamping the end part of the cable and cutting the shell of the end part of the cable; and

the fixed-length module comprises a connecting shaft, at least one blocking piece and a positioning piece; the connecting shaft is connected with the pliers body, the blocking piece is sleeved on the connecting shaft and is positioned on one side of the wire stripping module along the first direction, the positioning piece is sleeved on the connecting shaft, and a positioning piece is arranged between the blocking piece and the pliers body; the first direction is a rotation axis direction when the first jaw and the second jaw rotate relatively.

When the wire stripper is used, the first jaw and the second jaw are mutually crossed, and the first jaw and the second jaw can relatively rotate around the crossed part, so that a worker can manually rotate the first jaw and the second jaw around the crossed part by different angles. The first wire stripping blade is arranged on the first jaw, the second wire stripping blade is arranged on the second jaw, and the first wire stripping blade and the second wire stripping blade are arranged oppositely, so that when the first jaw and the second jaw rotate around the intersection at different angles, the first wire stripping blade and the second wire stripping blade can be opened or closed relatively. When the first wire stripping blade and the second wire stripping blade are opened relatively, the cable is placed between the first wire stripping blade and the second wire stripping blade, and the end part of the cable is abutted to the blocking piece along the first direction. And then the first wire stripping blade and the second wire stripping blade are relatively closed, so that the first wire stripping blade and the second wire stripping blade can clamp the end part of the cable and cut the shell of the end part of the cable, and an operator pulls the cable outside the wire stripper, so that the shell of the end part of the cable inside the wire stripper is stripped. The blocking piece is positioned on one side of the wire stripping module along the first direction, and the positioning piece is arranged between the blocking piece and the pliers body, so that the distance between the blocking piece and the pliers body along the first direction is limited by the positioning piece, the distance between the blocking piece and the first wire stripping blade and the distance between the blocking piece and the second wire stripping blade along the first direction are further limited, namely, the length of a shell of the stripped cable end between the blocking piece and the first wire stripping blade and the second wire stripping blade is limited, and the effect of stripping the shell of the cable end at a fixed length is realized.

In one embodiment, the forceps body further comprises: a first handle and a second handle, the first handle connected with the first jaw and the second handle connected with the second jaw;

the wire stripping pliers still includes the looper module, and the looper module includes:

the transmission assembly is connected with the first handle and the second handle and is positioned between the first handle and the second handle; and

the looping disc is connected with the transmission assembly and is rotationally connected with the second handle, and the looping disc is detachably connected with a lead at the end part of the cable;

when the first handle and the second handle rotate relatively, the transmission component is driven to act, and the transmission component drives the coiling disc to rotate relative to the second handle.

In one embodiment, the transmission assembly comprises:

one end of the connecting rod is rotatably connected with the first handle; and

the fluted disc is rotatably connected with the other end of the connecting rod and is rotatably connected with the second handle; the fluted disc can drive when rotating for the second handle and make the circle of beating dish rotate for the second handle.

In one embodiment, the transmission assembly further comprises: the gear is meshed with the fluted disc, the diameter of the gear is smaller than that of the fluted disc, the gear is rotationally connected with the second handle, and the gear is coaxially connected with the looping disc.

In one embodiment, the wire stripper further comprises a first baffle and a second baffle arranged along a first direction; the first baffle and the second baffle are respectively connected with the second handle and located between the first handle and the second handle, the transmission assembly is installed on the first baffle and the second baffle, and the looper disc is installed on the first baffle and the second baffle.

In one of the embodiments, the first and second electrodes are,

the wire stripper also comprises a clamping piece which is arranged on the coiling disc and used for clamping a lead at the end part of the cable;

the coiling disc further comprises a limiting column, the limiting column is connected to the first baffle and/or the second baffle, and the limiting column is located on the radial outer side of the coiling disc;

the clamping piece is outwards protruded out of the ring making disc along the radial direction of the ring making disc;

when the joint piece rotates to the position near the spacing post along with the looper dish, the spacing post blocks the joint piece and switches between the both sides of spacing post.

In one embodiment, the wire stripper further comprises a clamping piece arranged on the looping disc, and the clamping piece is used for clamping a lead at the end of the cable.

In one embodiment, a first groove is formed in one side of the first wire stripping blade opposite to the second wire stripping blade, a second groove is formed in one side of the second wire stripping blade opposite to the first wire stripping blade, and when the first jaw and the second jaw are closed oppositely, the first groove and the second groove form a wire stripping hole.

In one embodiment, a plurality of blocking members are sequentially arranged along a first direction, and the blocking members can rotate around a connecting shaft to switch between a blocking angle and an avoiding angle, wherein the blocking members are used for blocking the end part of the cable at the blocking angle and avoiding the end part of the cable at the avoiding angle; a positioning piece is arranged between two adjacent blocking pieces.

In one embodiment, the length control module further comprises a support frame, and the support frame is connected with the clamp body;

the supporting frame comprises a limiting plate, one end of the connecting shaft, which is far away from the clamp body, is connected with the limiting plate, and the blocking piece and the positioning piece are positioned between the limiting plate and the clamp body;

the supporting frame comprises a first supporting plate and a second supporting plate which are connected, and the first supporting plate and the second supporting plate are arranged at an angle to form an opening space; the blocking piece is positioned in the opening space, and the first supporting plate supports the blocking piece when the blocking piece blocks the angle so as to prevent the blocking piece from rotating in the direction away from the second supporting plate; the second support plate supports the blocking member when the blocking member is at the avoiding angle, so that the blocking member is prevented from rotating in a direction away from the first support plate.

Drawings

Fig. 1 is a schematic structural view of a wire stripper in an embodiment;

fig. 2 is another view of the wire stripper of fig. 1;

fig. 3 is a further view of the wire stripper of fig. 1;

figure 4 is a further view of the wire stripper of figure 1.

Description of reference numerals:

a wire stripper 100;

a first jaw 111; a second jaw 112; a first handle 113; a second handle 114;

a wire stripping module 120; a first wire stripping blade 121; a second stripping edge 122; a first groove 101; a second groove 102;

a fixed-length module 130; a blocking member 131; a positioning member 132; a support frame 133; a limit plate 1331; a first support plate 1332; a second support plate 1333;

a looping module 140; a link 1411; a toothed disc 1412; a gear 1413; a looping disk 142; a first baffle 143; a second shutter 144; a clip member 145; a placement notch 103; a restraint post 146.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

In the description of the present invention, it is to be understood that the terms "central," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," "axial," "radial," "circumferential," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the invention and to simplify the description, and are not intended to indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and are not to be considered limiting of the invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are 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 the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the present invention, unless otherwise expressly stated or limited, the first feature "on" or "under" the second feature may be directly contacting the first and second features or indirectly contacting the first and second features through an intermediate. Also, a first feature "on," "over," and "above" a second feature may be directly or diagonally above the second feature, or may simply indicate that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the first feature, or may simply mean that the first feature is at a lesser elevation than the second feature.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "upper," "lower," "left," "right," and the like as used herein are for illustrative purposes only and do not denote a unique embodiment.

Referring to fig. 1 and 2, an embodiment of the present application provides a wire stripper 100. The wire stripper 100 includes: a pliers body (not shown), a wire stripping module 120, and a length fixing module 130.

The forceps body comprises a first jaw 111 and a second jaw 112, the first jaw 111 and the second jaw 112 are mutually crossed, and the first jaw 111 and the second jaw 112 can relatively rotate around the crossed position. The wire stripping module 120 includes a first wire stripping edge 121 and a second wire stripping edge 122, which are disposed opposite to each other, where the first wire stripping edge 121 is disposed on the first jaw 111, and the second wire stripping edge 122 is disposed on the second jaw 112. When the first jaw 111 and the second jaw 112 are relatively rotated, the first stripping edge 121 and the second stripping edge 122 are used for clamping the end of the cable and cutting the shell of the end of the cable. The length control module 130 includes a connecting shaft (not shown), at least one blocking member 131, and a positioning member 132. The connecting shaft is connected with the pliers body, the blocking piece 131 is sleeved on the connecting shaft and located on one side of the wire stripping module 120 along the first direction, the positioning piece 132 is sleeved on the connecting shaft, and the positioning piece 132 is arranged between the blocking piece 131 and the pliers body. The first direction is a rotation axis direction when the first jaw 111 and the second jaw 112 relatively rotate.

In use of the wire stripper 100, the first jaw 111 and the second jaw 112 are crossed with each other, and the first jaw 111 and the second jaw 112 can rotate relatively around the crossing, so that a worker can manually rotate the first jaw 111 and the second jaw 112 around the crossing by different angles. Because the first wire stripping edge 121 is arranged on the first jaw 111, the second wire stripping edge 122 is arranged on the second jaw 112, and the first wire stripping edge 121 and the second wire stripping edge 122 are arranged oppositely, when the first jaw 111 and the second jaw 112 rotate around the intersection at different angles, the first wire stripping edge 121 and the second wire stripping edge 122 can be opened or closed relatively. When the first stripping blade 121 and the second stripping blade 122 are opened relatively, the cable is placed between the first stripping blade 121 and the second stripping blade 122, and the end of the cable is abutted to the blocking piece 131 along the first direction. And then the first stripping blade 121 and the second stripping blade 122 are relatively closed, so that the first stripping blade 121 and the second stripping blade 122 can clamp the end of the cable and cut the shell of the end of the cable, and a worker pulls the cable outside the wire stripper 100, so that the shell of the end of the cable inside the wire stripper 100 is stripped. The blocking piece 131 is positioned on one side of the wire stripping module 120 along the first direction, and the positioning piece 132 is arranged between the blocking piece 131 and the pliers body, so that the positioning piece 132 defines the distance between the blocking piece 131 and the pliers body along the first direction, and further defines the distance between the blocking piece 131 and the first wire stripping blade 121 and the second wire stripping blade 122 along the first direction, that is, the length of the shell of the stripped cable end between the blocking piece 131 and the first wire stripping blade 121 and the second wire stripping blade 122 is defined, and the effect of stripping the shell of the cable end at a fixed length is realized.

Referring to fig. 1, in an embodiment, a first groove 101 is formed on a side of the first wire stripping edge 121 opposite to the second wire stripping edge 122, a second groove 102 is formed on a side of the second wire stripping edge 122 opposite to the first wire stripping edge 121, and when the first jaw 111 and the second jaw 112 are closed relatively, the first groove 101 and the second groove 102 can form a wire stripping hole (not shown).

Specifically, when the first wire stripping edge 121 and the second wire stripping edge 122 are relatively opened, the first groove 101 and the second groove 102 are relatively opened, at this time, a cable is placed between the first groove 101 and the second groove 102, the end of the cable is abutted to the blocking piece 131, the first wire stripping edge 121 and the second wire stripping edge 122 are relatively closed, so that the first groove 101 and the second groove 102 form a wire stripping hole, the cable is located in the wire stripping hole at this time, the cable is clamped through the wire stripping hole and the shell at the end of the cable is split, and a worker pulls the cable outside the wire stripper 100, so that the shell at the end of the cable inside the wire stripper 100 is stripped. By adopting the manner that the first groove 101 and the second groove 102 are oppositely arranged, the wire stripper 100 has a space capable of accommodating a cable during wire stripping, thereby being more convenient for wire stripping.

In this embodiment, the first groove 101 and the second groove 102 are arc grooves, respectively, so that the wire stripping hole formed by the first groove 101 and the second groove 102 is substantially a circular hole, the circular hole is more fitted to the shape of the cable, and further, the shell at the end of the cable can be more accurately cut along the circumferential direction of the end of the cable, so that when an operator pulls the cable outside the wire stripper 100, the shell at the end of the cable can be easily stripped.

In other embodiments, the first groove and the second groove may be regular polygons, so long as the outer shell of the cable end can be cut along the circumferential direction of the cable end.

In a further embodiment, the first and second grooves may be absent, and the first and second stripping edges may also be capable of splitting the jacket of the cable end.

Referring to fig. 1, in the present embodiment, there are two first grooves 101 and two second grooves 102, and the two first grooves 101 and the two second grooves 102 are in one-to-one correspondence. Therefore, the two first grooves 101 and the two second grooves 102 can form two wire stripping holes in total. When the hole diameters of the two wire stripping holes are the same, the shells of the end parts of the two cables with the same outer diameter can be stripped simultaneously, and therefore the wire stripping speed is improved. When the two wire stripping holes have different hole diameters, the shells of the end parts of the two cables with different outer diameters can be stripped, so that the wire stripper 100 can be adapted to different cables, and the adaptability of the wire stripper 100 is improved.

In other embodiments, there may be only one wire stripping hole, or three or more wire stripping holes.

Referring to fig. 2, in an embodiment, a plurality of blocking members 131 are sequentially arranged in a first direction, and the blocking members 131 can rotate about a connecting shaft (not shown) to switch between a blocking angle for blocking the cable end and an escape angle for escaping the cable end. A positioning member 132 is disposed between two adjacent blocking members 131.

Specifically, when the blocking member 131 is plural, the positioning member 132 is disposed between every two blocking members 131. Since the blocking member 131 can rotate about the connecting shaft to be switched between a blocking angle for blocking the end of the cable and an escape angle for escaping the end of the cable, the blocking member 131 can abut against different blocking members 131. Since the positioning member 132 is arranged between every two blocking members 132, the distances from different blocking members 132 to the first wire stripping blade 121 and the second wire stripping blade 122 are different, so that when the end of the cable abuts against different blocking members 131, the distances from the end of the cable to the first wire stripping blade 121 and the second wire stripping blade 122 are different.

The distance from the end of the cable to the first wire stripping blade 121 and the second wire stripping blade 122 can be adjusted by abutting the end of the cable against different blocking pieces 131, so that the length of the stripped shell of the end of the cable can be adjusted, and the purpose of stripping the shells of the end of the cable with different lengths in a fixed length manner is achieved. When the length-adjustable stripping device is used, the length of the shell at the end part of the cable to be stripped can be fixed in length only by rotating the blocking piece 131 corresponding to the length of the shell at the end part of the cable to be stripped to the blocking angle and rotating other blocking pieces 131 to the avoiding angle, and the operation is simple and convenient.

In other embodiments, the length control module may only include one blocking member and a plurality of positioning members, and when the housings of the cable ends with different lengths are stripped, the positioning members with different lengths may be replaced to strip the housings of the cable ends with different lengths in a fixed length manner. Alternatively, a plurality of positioning members may be arranged in the first direction to be accumulated to a desired peeling length.

Referring to fig. 1 and 2, in an embodiment, the length-fixing module 130 further includes a support frame 133, and the support frame 133 is connected to the caliper body. The supporting frame 133 includes a limiting plate 1331, one end of the connecting shaft away from the forceps body is connected to the limiting plate 1331, and the blocking member 131 and the positioning member 132 are located between the limiting plate 1331 and the forceps body.

Specifically, one end of the connecting shaft in the first direction is connected to the forceps body, the other end of the connecting shaft in the first direction is connected to the limiting plate 1331, and the blocking member 131 and the positioning member 132 are respectively sleeved on the connecting shaft and located between the limiting plate 1331 and the forceps body, so that the limiting plate 1331 can support the blocking member 131 and the positioning member 132 in the first direction, and the blocking member 131 and the positioning member 132 are prevented from being separated from the connecting shaft.

Referring to fig. 1 and 2, in an embodiment, the length-fixing module 130 further includes a support frame 133, and the support frame 133 is connected to the caliper body. The supporting frame 133 includes a first supporting plate 1332 and a second supporting plate 1333 connected to each other, and the first supporting plate 1332 and the second supporting plate 1333 are disposed at an angle to enclose an open space. The blocking member 131 is located in the open space, and the first support plate 1332 supports the blocking member 131 when the blocking member 131 blocks the angle, so that the blocking member 131 is prevented from rotating in a direction away from the second support plate 1333. The second support plate 1333 supports the blocking member 131 when the blocking member 131 is at the escape angle to prevent the blocking member 131 from rotating in a direction away from the first support plate 1332.

Specifically, one end of the first support plate 1332 in the first direction is connected to the forceps body, the other end of the first support plate 1332 in the first direction is connected to the limit plate 1331, one end of the second support plate 1333 in the first direction is connected to the forceps body, the other end of the second support plate 1333 in the first direction is connected to the limit plate 1331, the first support plate 1332 is connected to the second support plate 1333, and the first support plate 1332 and the second support plate 1333 are disposed at an angle, so that the first support plate 1332, the second support plate 1333 and the limit plate 1331 together enclose an open space, that is, an unsealed space. In this embodiment, when the first support plate 1332 and the second support plate 1333 are disposed at an angle, the angle may be an obtuse angle or a right angle.

The first support plate 1332 and the second support plate 1333 can make the blocking member 131 stably at a blocking angle and an escape angle, prevent the blocking member 131 from deviating toward the second support plate 1333 when the blocking member 131 is used for blocking, and prevent the blocking member 131 from deviating toward the first support plate 1332 when the blocking member 131 is used for escape, thereby preventing the blocking member 131 from affecting the operation of the other blocking member 131.

In an embodiment, when the angle between the first support plate 1332 and the second support plate 1333 is an obtuse angle, and the second support plate 1333 is placed in a horizontal direction, the end of the first support plate 1332 away from the second support plate 1333 is inclined away from the second support plate 1333. At this time, if the stopper 131 is at the stopper angle and the first support plate 1332 supports the stopper 131, the stopper 131 is inclined in a direction away from the second support plate 1333, and thus the stopper 131 can be prevented from rotating in a direction approaching the second support plate 1333 due to gravity.

In other embodiments, the support frame may not include a limiting plate.

Referring to fig. 3, in an embodiment, the forceps body further includes: a first handle 113 and a second handle 114. A first handle 113 is connected to the first jaw 111 and a second handle 114 is connected to the second jaw 112.

The wire stripper 100 also includes a looping module 140. The looping module 140 includes: a drive assembly (not shown) and a looper 142. The transmission assembly is connected to the first handle 113 and to the second handle 114, and the transmission assembly is located between the first handle 113 and the second handle 114. The looper plate 142 is connected to the drive assembly and rotatably connected to the second handle 114, and the looper plate 142 is adapted for detachable connection to the wires at the end of the cable. When the first handle 113 and the second handle 114 rotate relatively, the driving component is driven to operate, and the driving component drives the looping tray 142 to rotate relatively to the second handle 114.

Specifically, the first jaw 111 and the second jaw 112 are controlled to be relatively opened or relatively closed by holding the first handle 113 and the second handle 114. Because the transmission component is connected with the first handle 113 and the second handle 114, the transmission component can be driven to act when the first handle 113 and the second handle 114 rotate relatively. Since the driving assembly is connected to the looper plate 142, the driving assembly drives the looper plate 142 to rotate relative to the second handle 114 when the driving assembly is operated. And because the conducting wire at the end part of the cable is detachably connected with the looping disc 142, when the looping disc 142 rotates relative to the second handle 114, the conducting wire at the end part of the cable can be driven to rotate, and looping of the conducting wire at the end part of the cable is realized. When the wire stripper 100 is used for processing a cable, only one wire stripper 100 is needed to be used for stripping the shell of the end part of the cable and looping the lead wire of the end part of the cable, multiple functions are integrated on one wire stripper 100, and operating tools do not need to be replaced for multiple times, so that the wire stripper is convenient to use and high in working efficiency.

In one embodiment, first handle 113 and second handle 114 are rotated relative to each other a first angle from a relatively open position to a relatively closed position. Through the transmission of the transmission assembly, when the first handle 113 and the second handle 114 are relatively opened to be relatively closed, the looping disc 142 rotates by a second angle, and the second angle is larger than the first angle, so that the looping of the wire at the end part of the cable by a larger angle is realized under the condition that the relative rotation angle of the first handle 113 and the second handle 114 is smaller, and the connection reliability of the cable and the equipment to be connected is facilitated.

Referring to FIG. 3, in one embodiment, the transmission assembly includes a link 1411 and a toothed plate 1412. One end of the link 1411 is rotatably connected to the first handle 113. The toothed plate 1412 is pivotally coupled to the other end of the link 1411, and the toothed plate 1412 is pivotally coupled to the second handle 114. The toothed plate 1412 can rotate relative to the second handle 114 to rotate the looper plate 142 relative to the second handle 114.

Specifically, one end of the connecting rod 1411 is rotatably connected to the first handle 113, so that the connecting rod 1411 can be driven to move when the first handle 113 and the second handle 114 rotate relatively. Since the other end of the connecting rod 1411 is rotatably connected to the toothed disc 1412, the connecting rod 1411 can drive the toothed disc 1412 to rotate when it moves, and further the toothed disc 1412 can drive the looping disc 142 to rotate relative to the second handle 114 when it rotates. Because the wire of cable tip can be dismantled with looper dish 142 and be connected to make looper dish 142 can drive the wire rotation of cable tip, thereby realize looper the wire of cable tip, easy operation is convenient.

In this embodiment, the first handle 113 and the second handle 114 are rotated relative to each other by a first angle from the relatively open state to the relatively closed state. Through the transmission of the connecting rod 1411, when the first handle 113 and the second handle 114 are relatively opened to be relatively closed, the rotation angle of the fluted disc 1412 is larger than the first angle, so that the rotation angle of the looping disc is larger than the first angle, and therefore, under the condition that the relative rotation angle of the first handle 113 and the second handle 114 is smaller, the looping of the conducting wire at the end of the cable at a larger angle is realized, and the reliable connection of the cable and the equipment to be connected is facilitated.

Referring to fig. 3, in one embodiment, the transmission assembly further includes a gear 1413. The gear 1413 is meshed with the toothed plate 1412, the diameter of the gear 1413 is smaller than that of the toothed plate 1412, the gear 1413 is rotatably connected with the second handle 114, and the gear 1413 is coaxially connected with the looper plate 142.

Specifically, since the gear 1413 is meshed with the gear 1412 and the gear 1413 is coaxially connected with the looping disc 142, when the gear 1412 rotates, the gear 1413 is driven to rotate, and the looping disc 142 is driven to rotate relative to the second handle 114. Since the diameter of the gear 1413 is smaller than that of the gear 1412, the gear 1412 can be driven to rotate by a larger angle (defined as the second angle) when the gear 1413 rotates by a smaller angle (defined as the third angle), and the gear 1413 drives the looping disc 142 to rotate by a larger angle (defined as the second angle), so that a larger-angle looping of the wires at the end of the cable is realized, and preferably, a complete looping of the wires at the end of the cable can be realized.

In the present embodiment, two toothed plates 1412 are disposed at intervals along the first direction, and the two toothed plates 1412 are respectively engaged with the gears 1413, so that the engagement between the toothed plates 1412 and the gears 1413 is more stable, and the torque can be transmitted more stably.

Referring to fig. 3 and 4, in one embodiment, the wire stripper 100 further includes a first stop 143 and a second stop 144 arranged along the first direction. The first baffle 143 and the second baffle 144 are respectively connected with the second handle 114 and are positioned between the first handle 113 and the second handle 114, and the transmission assembly and the looper plate 142 are arranged on the first baffle 143 and the second baffle 144.

Specifically, the transmission assembly and the looper plate 142 are mounted on the first baffle 143 and the second baffle 144, so that the transmission assembly and the looper plate 142 are located between the first handle 113 and the second handle 114 and can act along with the action of the first handle 113 and the second handle 114, and the first baffle 143 and the second baffle 144 can stably support the transmission assembly and the looper plate 142. And the transmission assembly and the looper plate 142 are positioned between the first baffle 143 and the second baffle 144 in the first direction, so that the transmission assembly and the looper plate 142 are enclosed between the first baffle 143 and the second baffle 144, the transmission assembly and the looper plate 142 are prevented from being exposed to the outside, and the transmission assembly and the looper plate 142 can be protected from being damaged. In this embodiment, the looper plate 142 extends beyond the first and second stops 143, 144 to facilitate the removable connection of the wires at the end of the cable to the looper plate 142.

Referring to fig. 3 and 4, in an embodiment, the wire stripper 100 further includes a clamping member 145, the clamping member 145 is disposed on the looping plate 142, and the clamping member 145 is used for clamping a wire at an end of a cable.

Specifically, the clamping piece 145 is provided with a placing notch 103, and when the cable end connecting device is used, a wire at the end of the cable is placed in the placing notch 103, so that the wire at the end of the cable is connected with the clamping piece 145. Because joint 145 sets up in the circle of beating dish 142 to when the circle of beating dish 142 rotated, can drive joint 145 rotatory, and then can drive the wire rotation of cable tip, then can loopa the wire of cable tip like this, the process of circling only need with the wire and the joint 145 connection of cable tip, and pinch tight first in command 113 and second in command 114 can, operation process is simple and convenient.

Referring to fig. 3 and 4, in an embodiment, the looping tray 142 further includes a limiting column 146 connected to the first baffle 143 and/or the second baffle 144, and the limiting column 146 is located at a radial outer side of the looping tray 142. The catching piece 145 protrudes outward from the looper plate 142 in the radial direction of the looper plate 142. When the clamping member 145 rotates to a position close to the limiting post 146 along with the looping tray, the limiting post 146 blocks the clamping member 145 from switching between two sides of the limiting post 146.

Specifically, when looping the wire at the end of the cable, the first handle 113 and the second handle 114 are relatively opened first, so that the clamping piece 145 is abutted to the limiting column 146 along one circumferential side of the looping disc 142, and at this time, the limiting column 146 can block the clamping piece 145 from switching between two sides of the limiting column 146, namely, the limiting column 146 limits the initial position of the rotation of the clamping piece 145. The first handle 113 and the second handle 114 are gradually and relatively closed, so that the clamping piece 145 rotates along the circumferential direction of the looping disc 142, when the clamping piece 145 rotates to abut against the other side of the limiting column 146 along the circumferential direction of the looping disc 142, at the moment, the limiting column 146 can block the clamping piece 145 from switching between two sides of the limiting column 146, namely the limiting column 146 limits the end position of the rotation of the clamping piece 145, and the looping of the wire at the end part of the cable is completed. Because joint 145 rotates when the position that closes on spacing post 146 along with the looper dish, spacing post 146 blocks joint 145 and switches between the both sides of spacing post 146, consequently, joint 145 pivoted initial position and final position have been injectd to spacing post 146, thereby can guarantee the looper angle when the wire looper to the cable tip, prevent that the wire looper of cable tip is excessive or the looper is not enough, need not to rely on experience to make a looper, make inexperienced staff also can reach anticipated looper angle when the wire looper to the cable tip.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A wire stripper, the wire stripper comprising:

a forceps body including a first jaw and a second jaw, the first and second jaws intersecting one another and the first and second jaws being relatively rotatable about the intersection;

the wire stripping module comprises a first wire stripping blade and a second wire stripping blade which are arranged oppositely, the first wire stripping blade is arranged on the first jaw, and the second wire stripping blade is arranged on the second jaw; when the first jaw and the second jaw rotate relatively, the first wire stripping blade and the second wire stripping blade are used for clamping the end part of the cable and cutting the shell of the end part of the cable; and

the fixed-length module comprises a connecting shaft, at least one blocking piece and a positioning piece; the connecting shaft is connected with the pliers body, the blocking piece is sleeved on the connecting shaft and is positioned on one side of the wire stripping module along the first direction, the positioning piece is sleeved on the connecting shaft, and the positioning piece is arranged between the blocking piece and the pliers body; wherein the first direction is a rotation axis direction when the first jaw and the second jaw relatively rotate.

2. The wire stripper of claim 1, wherein the body further comprises: a first handle and a second handle, the first handle connected with the first jaw and the second handle connected with the second jaw;

the wire stripping pliers further comprise a looping module, and the looping module comprises:

a transmission assembly connected with the first handle and the second handle, the transmission assembly being located between the first handle and the second handle; and

the looping disc is connected with the transmission assembly and is rotationally connected with the second handle, and the looping disc is detachably connected with a lead at the end part of the cable;

when the first handle and the second handle rotate relatively, the transmission component is driven to act, and the transmission component drives the coiling disc to rotate relative to the second handle.

3. The wire stripper of claim 2, wherein the transmission assembly comprises:

one end of the connecting rod is rotatably connected with the first handle; and

the fluted disc is rotatably connected with the other end of the connecting rod and is rotatably connected with the second handle; the fluted disc can drive the looper dish when rotating relative to the second handle and rotate relative to the second handle.

4. The wire stripper of claim 3, wherein the transmission assembly further comprises: the gear, the gear with the fluted disc meshing, just the diameter of gear is less than the diameter of fluted disc, the gear with the second handle is rotated and is connected, the gear with the coaxial coupling of looper dish.

5. The wire stripper of claim 3, further comprising a first stop and a second stop arranged in a first direction; the first baffle and the second baffle are respectively connected with the second handle and are positioned between the first handle and the second handle, the transmission assembly is installed on the first baffle and the second baffle, and the looper plate is installed on the first baffle and the second baffle.

6. The wire stripper of claim 5,

the wire stripper also comprises a clamping piece which is arranged on the coiling disc and used for clamping a lead at the end part of the cable;

the coiling disc further comprises a limiting column, the limiting column is connected to the first baffle and/or the second baffle, and the limiting column is located on the radial outer side of the coiling disc;

the clamping piece protrudes out of the looping disc along the radial direction of the looping disc;

when the clamping piece rotates to a position close to the limiting column along with the looping disc, the limiting column blocks the clamping piece to be switched between two sides of the limiting column.

7. The wire stripper of claim 3, further comprising a snap-in member disposed on the looping plate, wherein the snap-in member is configured to snap in a wire at an end of the cable.

8. The wire stripper of claim 1, wherein a first groove is formed in a side of the first wire stripping blade opposite to the second wire stripping blade, a second groove is formed in a side of the second wire stripping blade opposite to the first wire stripping blade, and when the first jaw and the second jaw are closed relatively, the first groove and the second groove form a wire stripping hole.

9. The wire stripper as claimed in claim 1, wherein a plurality of the blocking members are arranged in series in the first direction, and the blocking members are rotatable about the connecting shaft to switch between a blocking angle for blocking the end of the cable and an escape angle for escaping the end of the cable; the positioning piece is arranged between every two adjacent blocking pieces.

10. The wire stripper of claim 9, wherein the length control module further comprises a support frame, the support frame being connected to the body;

the supporting frame comprises a limiting plate, one end, far away from the clamp body, of the connecting shaft is connected with the limiting plate, and the blocking piece and the positioning piece are located between the limiting plate and the clamp body;

the supporting frame comprises a first supporting plate and a second supporting plate which are connected, and the first supporting plate and the second supporting plate are arranged at an angle to form an opening space; the blocking piece is positioned in the opening space, and the first support plate supports the blocking piece when the blocking piece is at the blocking angle so as to prevent the blocking piece from rotating in a direction away from the second support plate; when the blocking part is at the avoiding angle, the second supporting plate supports the blocking part to prevent the blocking part from rotating in the direction departing from the first supporting plate.

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