CN214053502U - Core separation mechanism and electronic detonator leg wire processing equipment - Google Patents

Abstract

The utility model provides a line core separating mechanism and electron detonator leg wire processing equipment. The core separating mechanism comprises a supporting component, a positioning component and a separating component, wherein the positioning component and the separating component are both installed on the supporting component, the positioning component comprises a first positioning piece, a second positioning piece and a positioning driving piece, the positioning driving piece is used for driving the first positioning piece and the second positioning piece to be folded mutually, so that the first positioning piece and the second positioning piece clamp and enclose a core, the separating component comprises a first separating piece and a first separating driving piece, and the first separating driving piece is used for driving the first separating piece to be inserted between the cores. The utility model also provides an electron detonator leg wire processing equipment including above-mentioned sinle silk separating mechanism. The utility model provides a sinle silk separating mechanism and electron detonator foot line processing equipment, interval between the tip of the different sinle silks after can the effective control separation improves the machining efficiency to the foot line.

Description

Core separation mechanism and electronic detonator leg wire processing equipment

Technical Field

The utility model relates to an automated production technical field especially relates to a core-wire separating mechanism and electronic detonator leg wire processing equipment.

Background

The inside of some cables comprises a plurality of wire cores, and in the production process of some products, the outer skin of the cable needs to be stripped and the wire cores need to be separated for subsequent treatment; for example, in the production of electronic detonators, the cores of the leg wires of the electronic detonators are separated, two cores are inserted into corresponding holes in twist equipment, and then a twist process (twisting the two cores into a twist shape) is performed. However, the distance between two holes for inserting the core in the twist device is usually fixed, and the existing core separation device is often difficult to control the distance between the ends of two cores after the core is separated, so that the situation that the ends of the separated cores cannot be accurately inserted into the twist mechanism easily occurs, and the production efficiency is affected.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. Therefore, the utility model provides a can effectively control sinle silk separation mechanism of the distance between the sinle silk tip after the sinle silk separation.

The utility model also provides an electron detonator leg wire processing equipment including above-mentioned sinle silk separating mechanism.

According to the utility model discloses a sinle silk separating mechanism of the embodiment of first aspect, include:

a support assembly;

the positioning assembly is arranged on the supporting assembly and comprises a first positioning piece, a second positioning piece and a positioning driving piece, the positioning driving piece is connected with the first positioning piece and the second positioning piece, and the positioning driving piece can drive the first positioning piece and the second positioning piece to be folded mutually so as to enable the first positioning piece and the second positioning piece to clamp and enclose the wire core;

the separating assembly is installed on the supporting assembly and comprises a first separating piece and a first separating driving piece, the first separating driving piece is connected with the first separating piece, and the first separating driving piece can drive the first separating piece to be inserted between the wire cores.

According to the utility model discloses sinle silk separating mechanism has following beneficial effect at least: the core separating mechanism clamps and encloses the core that closes needs to separate through first setting element and second setting element earlier, draws in the core in less region, and then the first separator of rethread inserts and is enclosed to separate the core between the core that closes to the interval between the tip of the different cores after effective control separation.

According to some embodiments of the invention, the first positioning element and/or the second positioning element has a notch, which can accommodate the wire core.

According to some embodiments of the invention, along in the direction of the recess of the breach, the width of breach reduces gradually.

According to some embodiments of the invention, the side wall surface of the notch is a bevel.

According to some embodiments of the utility model, the second setting element includes two first setting elements, two have the clearance between the first setting element, first setting element can stretch into in the clearance.

According to some embodiments of the utility model, the second setting element still includes second location portion, second location portion is located in the clearance, the both ends of second location portion respectively with different first location portion is connected, second location portion can support the sinle silk, just second location portion can with first setting element centre gripping the sinle silk.

According to some embodiments of the invention, the first separator comprises an insertion portion, the insertion portion being insertable between the cores, along a direction of movement in which the first separator is inserted between the cores, the width of the insertion portion being gradually reduced.

According to some embodiments of the utility model, the release assembly still includes second separator and second separation driving piece, the second separation driving piece is installed on the supporting component, the second separation driving piece is connected with the second separator, the second separation driving piece is used for the drive the second separator inserts between the sinle silk, first separator with the second separator sets up respectively locating component's different sides.

According to some embodiments of the invention, the second disconnecting drive member is further capable of driving the second disconnecting member to move in a direction close to the positioning assembly.

According to the utility model discloses an electron detonator leg wire processing equipment of second aspect embodiment, including foretell sinle silk separating mechanism.

According to the utility model discloses, following beneficial effect has at least: the distance between the wire core end parts after the wire cores are separated can be effectively controlled, and the processing efficiency of the leg wire of the electronic detonator is high.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The invention will be further described with reference to the following drawings and examples, in which:

FIG. 1 is an overall schematic view of a core separation mechanism in some embodiments;

FIG. 2 is a schematic view of another angle of the core separation mechanism shown in FIG. 1;

FIG. 3 is a simplified schematic diagram of a leg wire suitable for use in the wire core separation mechanism in some embodiments;

FIG. 4 is a schematic view of some embodiments of the process of folding the first positioning member and the second positioning member together;

FIG. 5 is a schematic view of a first separating member and a second positioning member according to some embodiments.

Reference numerals: 101-support component, 102-positioning component, 103-first support seat, 104-second support seat, 105-first positioning piece, 106-second positioning piece, 107-second separating piece, 108-second driving cylinder, 109-first driving cylinder, 110-joint seat, 111-second separating driving piece, 112-separating lifting cylinder, 113-separating translation cylinder, 201-first separating piece, 202-first separating driving piece, 301-leg wire, 302-sheath, 303-wire core, 401-notch, 501-first positioning part, 502-gap, 503-second positioning part, 504-insertion part.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it should be understood that the orientation or positional relationship indicated with respect to the orientation description, such as up, down, front, rear, left, right, etc., is based on the orientation or positional relationship shown in the drawings, and is only for convenience of description and simplification of description, and does not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, the meaning of a plurality is more than two, and if there is a description that the first and the second are only used for distinguishing technical features, it is not understood that the relative importance is indicated or implied or the number of the indicated technical features is implicitly indicated or the precedence of the indicated technical features is implicitly indicated.

In the description of the present invention, unless there is an explicit limitation, the words such as setting, installation, connection, etc. should be understood in a broad sense, and those skilled in the art can reasonably determine the specific meanings of the above words in combination with the specific contents of the technical solution.

In the description of the present invention, reference to the description of the terms "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

Referring to fig. 1 and 2, there is shown the entirety of a core separation mechanism in some embodiments, including a support assembly 101, a positioning assembly 102, and a separation assembly.

The support assembly 101 comprises a first support seat 103 and a second support seat 104, both the first support seat 103 and the second support seat 104 can be mounted on a workbench (the workbench is not shown), and the first support seat 103 and the second support seat 104 are far away from or close to each other so as to adjust the relative position between the first support seat 103 and the second support seat 104, and thus the relative position of the critical working components mounted on the support assembly 101.

The positioning assembly 102 comprises a first positioning member 105, a second positioning member 106 and a positioning driving member, wherein the first positioning member 105 is installed on the first supporting seat 103, the second positioning member 106 is installed on the second supporting seat 104, and the first positioning member 105 and the second positioning member 106 can be mutually folded to clamp and enclose the wire core. The positioning driving member is used for driving the first positioning member 105 and the second positioning member 106 to move toward or away from each other, and specifically, in some embodiments, the positioning driving member includes a first driving cylinder 109 and a second driving cylinder 108, the first driving cylinder 109 is mounted on the first supporting seat 103, and the first driving cylinder 109 is connected to the first positioning member 105; the second driving cylinder 108 is mounted on the second supporting base 104, an engaging base 110 (not shown in the corresponding slide rail) is slidably mounted on the second supporting base 104, the second positioning member 106 is connected to the engaging base 110, and the second driving cylinder 108 is connected to the engaging base 110. Taking the core separating mechanism shown in fig. 1 and 2 as an example, when the first positioning member 105 and the second positioning member 106 need to be folded together, the first driving cylinder 109 drives the first positioning member 105 to descend, and the second driving cylinder 108 drives the second positioning member 106 to ascend. In other embodiments, the positioning driving member may also be configured to drive only one of the first positioning member 105 and the second positioning member 106 to move, as long as the distance between the first positioning member 105 and the second positioning member 106 can be changed, for example, the second positioning member 106 is fixed on the second support seat 104, and the positioning driving member drives only the first positioning member 105 to move up and down.

The separating assembly includes a first separating member 201 and a first separating driving member 202, the first separating member 201 and the first separating driving member 202 are both mounted on the connecting base 110, the first separating driving member 202 is connected to the first separating member 201, the first separating driving member 202 can drive the first separating member 201 to be inserted between the cores, and the first separating driving member 202 needs to drive the first separating member 201 to move upward if the first separating member 201 is to be inserted between the cores, with the direction shown in fig. 2 as a reference.

The process of separating the core from the core separating mechanism will be briefly described below by taking the leg wire 301 shown in fig. 3 as an example. Referring to fig. 3, which illustrates a leg wire 301 in some embodiments, the leg wire 301 includes a sheath 302, two wire cores 303 are wrapped inside the sheath 302, and before the wire cores 303 are separated, the sheath 302 at one end of the leg wire 301 needs to be peeled off to expose the wire cores 303 to a certain length (i.e., the state shown in fig. 3). Referring to fig. 1 to 4, first, the wire core 303 is partially inserted from front to back into the space between the first positioning member 105 and the second positioning member 106, then the positioning driving member drives the first positioning member 105 and the second positioning member 106 to close each other, so as to clamp and enclose the two wire cores 303 (as shown in fig. 4), then the first separating driving member 202 drives the first separating member 201 to ascend, the first separating member 201 is inserted into the space between the two wire cores 303 (specifically, the first separating member 201 is inserted into the portion of the wire core 303 located at the rear side of the positioning assembly 102), and the two wire cores 303 are separated. It should be noted that the first positioning member 105 and the second positioning member 106 clamp the wire core 303, the sheath 302 is located at the front side of the positioning assembly 102, the end of the wire core 303 is located at the rear side of the positioning assembly 102, and the wire core 303 passes through the positioning assembly 102 and extends a certain distance to the rear.

The utility model provides a sinle silk separating mechanism, earlier through first setting element 105 and second setting element 106 centre gripping and enclose the sinle silk 303 that closes needs to separate, draw in sinle silk 303 in less region, rethread first separator 201 inserts and is enclosed to separate sinle silk 303 between the sinle silk 303 that closes afterwards to interval between the tip of the different sinle silks 303 after the effective control separation.

The structures of the first positioning member 105 and the second positioning member 106 will be described in detail below. Referring to fig. 4 and 5, in some embodiments, the first positioning member 105 and/or the second positioning member 106 have a notch 401, and the notch 401 can accommodate the wire core, so that the first positioning member 105 and the second positioning member 106 can enclose the wire core after being folded together. Both the first positioning element 105 and the second positioning element 106 may have a notch 401, or only one of the positioning elements may have the notch 401, and the other positioning element does not have the notch 401, for example, the lower edge of the first positioning element 105 is flat, and the second positioning element 106 has the notch 401.

Referring to fig. 4, in some embodiments, the width of the notch 401 gradually decreases along the concave direction of the notch 401; taking the notch 401 of the second positioning element 106 as an example, the notch 401 is recessed from top to bottom, and the width of the notch 401 is gradually reduced from top to bottom, so that the notch is beneficial to gradually gathering the wire core 303 in the process of mutually gathering the first positioning element 105 and the second positioning element 106, namely, the final positioning of the wire core 303 is facilitated. For convenience of manufacturing, the side wall surfaces (referring to the left and right sides) of the notch 401 are inclined surfaces, that is, the notch 401 is entirely V-shaped, and in other embodiments, the side wall surfaces of the notch 401 may also be an arc surface under the condition that the width of the notch 401 is set.

Referring to fig. 5, in some embodiments, the second positioning member 106 includes two first positioning portions 501, a gap 502 is formed between the two first positioning portions 501, and the first positioning member 105 can extend into the gap 502. The gap 502 is provided to allow the second positioning member 106 and the first positioning member 105 to escape from each other, so that the first positioning member 105 and the second positioning member 106 can be folded together. The second positioning member 106 further includes a second positioning portion 503, the second positioning portion 503 is located in the gap 502, and two ends of the second positioning portion 503 are respectively connected to different first positioning portions 501. Specifically, the second positioning portion 503 extends in the front-rear direction, the front end and the rear end of the second positioning portion 503 are respectively connected to different first positioning portions 501, the upper surface of the second positioning portion 503 can support the wire core 303, and the wire core 303 can be clamped by the second positioning portion 503 and the first positioning member 105, so that the wire core 303 can be positioned.

Referring to fig. 5, in some embodiments, the first separator 201 includes an insertion portion 504, the insertion portion 504 being insertable between the cores 303, the width of the insertion portion 504 gradually decreasing in a moving direction in which the first separator 201 is inserted between the cores 303. Specifically, the width direction here corresponds to the left-right direction of fig. 5, the insertion portion 504 is substantially triangular, the insertion portion 504 is located at the upper end of the first separator 201 and protrudes upward, the first separator 201 needs to move upward when the core 303 needs to be separated, and the width of the insertion portion 504 gradually decreases from bottom to top. In such an arrangement, the upper end of the insertion portion 504 is relatively thin and sharp, which is beneficial for inserting between two wire cores 303 which are close to each other; and the spacing between the cores 303 is related to the width of the portion of the insertion portion 504 in contact with the cores 303, the spacing between the cores 303 after the cores 303 are separated can be adjusted by adjusting the height position of the insertion portion 504 with respect to the cores 303. For example, when the spacing between the cores 303 needs to be increased, the first separating driving member 202 may be controlled to drive the first separating member 201 to ascend to a higher position, so that the portion of the insertion portion 504 with a larger width moves between two cores.

Referring to fig. 1, in some embodiments, the separation assembly further comprises a second separation drive 107 and a second separation drive 111, the second separation drive 111 is mounted on the support assembly 101, the second separation drive 111 is connected with the second separation member 107, the second separation drive 111 is used to drive the second separation member 107 to be inserted between the cores, and the second separation member 107 and the first separation member 201 are disposed on different sides of the positioning assembly 102. The second separating piece 107 is needle-shaped, and the end part of the second separating piece 107 is provided with a conical surface, so that the end part of the second separating piece 107 is relatively sharp and is easily inserted between the wire cores; the second separating member 107 is located on the front side of the positioning assembly 102 and the first separating member 201 is located on the rear side of the positioning assembly 102.

The first separating member 201 can separate the portion of the wire core 303 closer to the end of the wire core 303, but the rest of the wire core 303 may still be in a wound state, and the second separating member 107 is provided to initially separate the wire cores 303, preventing the two wire cores 303 from being in a wound state when the positioning assembly 102 clamps the wire cores 303. Specifically, after the wire core 303 is inserted between the first positioning member 105 and the second positioning member 106, the second positioning member 106 is lifted and supports the wire core 303 from below, and then the second separating driving member 111 drives the second separating member 107 to move downward, so that the second separating member 107 is inserted between the wire cores 303 (referring to fig. 3, the second separating member 107 is inserted closer to the end of the sheath 302), and the wound or disordered wire core 303 is primarily separated. In some embodiments, the second breakaway drive 111 can also drive the second breakaway member 107 in a direction that approaches the positioning assembly 102. Referring to fig. 1, the second separation driving member 111 includes a separation lifting cylinder 112 and a separation translation cylinder 113, the separation lifting cylinder 112 is connected to the second separation member 107, the separation lifting cylinder 112 is used for driving the second separation member 107 to lift, the separation translation cylinder 113 is connected to the separation lifting cylinder 112, and the separation translation cylinder 113 is used for driving the separation lifting cylinder 112 and the second separation member 107 connected to the separation lifting cylinder 112 to move back and forth. Taking fig. 1 as an example, after the second separating member 107 is lowered and inserted between the wire cores 303, the inserted position is closer to the end of the sheath 302 (refer to fig. 3), then the second separating and driving member 111 drives the second separating member 107 to move from front to back (i.e. to the direction close to the positioning assembly 102, and also to the direction close to the end of the wire core 303), so as to separate the wire core 303 with higher winding degree or disorder degree, and then the first positioning member 105 and the second positioning member 106 clamp the wire core 303 again. It should be noted that for some relatively hard cores 303 (e.g., the core 303 is a wire), the second separating member 107 does not need to pass over the second positioning member 106 from front to back and reach the end of the core, and the second separating member 107 only needs to move from front to back for a short distance to effectively separate the cores 303.

It should be noted that, in the core separation mechanism shown in fig. 1 and 2, two first positioning members 105, two second positioning members 106, two first separation members 201 and two second separation members 107 are provided, and the core separation can be performed on two leg wires 301 at the same time; in order to improve the production efficiency (for example, it is necessary to separate the cores of the four leg wires 301 at the same time), the number of the above four components may be increased, or alternatively, the number of the above four components may be decreased to simplify the structure. In addition, if a greater number of cores 303 need to be separated, the structure of the positioning assembly 102 or the first separating member 201 may be adjusted, for example, the first separating member 201 is provided with a plurality of insertion portions 504.

The utility model also provides an electron detonator leg wire processing equipment, including above-mentioned embodiment sinle silk separating mechanism, this electron detonator leg wire processing equipment, the distance between the sinle silk tip after can the separation of effective control sinle silk, the machining efficiency to the leg wire of electron detonator is high.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present invention within the knowledge of those skilled in the art. Furthermore, the embodiments of the present invention and features of the embodiments may be combined with each other without conflict.

Claims (10)

1. Sinle silk separating mechanism for with many sinle silks separation, its characterized in that includes:

a support assembly;

the positioning assembly is arranged on the supporting assembly and comprises a first positioning piece, a second positioning piece and a positioning driving piece, the positioning driving piece is connected with the first positioning piece and the second positioning piece, and the positioning driving piece can drive the first positioning piece and the second positioning piece to be folded mutually so as to enable the first positioning piece and the second positioning piece to clamp and enclose the wire core;

the separating assembly is installed on the supporting assembly and comprises a first separating piece and a first separating driving piece, the first separating driving piece is connected with the first separating piece, and the first separating driving piece can drive the first separating piece to be inserted between the wire cores.

2. The core separation mechanism according to claim 1, wherein the first and/or second positioning element has a notch capable of receiving the core.

3. The core separation mechanism of claim 2, wherein the width of the notch decreases in the direction of the recess of the notch.

4. The core stripping mechanism as claimed in claim 3, wherein said notch has a side wall surface that is beveled.

5. The core separation mechanism of claim 1, wherein the second positioning member comprises two first positioning portions having a gap therebetween, and the first positioning member is capable of extending into the gap.

6. The core separation mechanism according to claim 5, wherein the second positioning element further comprises a second positioning portion, the second positioning portion is located in the gap, two ends of the second positioning portion are respectively connected to different first positioning portions, the second positioning portion is capable of supporting the core, and the second positioning portion is capable of clamping the core with the first positioning element.

7. The core separating mechanism according to claim 1, wherein the first separating member includes an insertion portion which is insertable between the cores, the insertion portion gradually decreasing in width in a moving direction in which the first separating member is inserted between the cores.

8. The core splitting mechanism of any of claims 1 to 7, wherein the splitting assembly further comprises a second splitting drive and a second splitting drive, the second splitting drive being coupled to the second splitting drive for driving the second splitting into the core, the first splitting and the second splitting being respectively disposed on different sides of the positioning assembly.

9. The core stripping mechanism as claimed in claim 8, wherein said second stripping drive member is further configured to drive said second stripping member in a direction approaching said positioning assembly.

10. Electronic detonator leg wire processing apparatus comprising a wire core separating mechanism according to any one of claims 1 to 9.

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