CN212725926U - Intelligent machine for inserting inner core - Google Patents

Abstract

The utility model relates to a cable processing technology field especially relates to a wear inner core plug-in components intelligence machine, include: the inner core plug-in component fixing assembly comprises a plug-in component fixing piece, a fixing cavity for placing the inner core plug-in component is formed in the plug-in component fixing piece, extrusion channels communicated with the outside are symmetrically arranged in the fixing cavity, and the opening direction of the extrusion channels is perpendicular to the direction of placing the inner core plug-in component in the fixing cavity; the plug-in component comprises driving pieces arranged on two sides of the inner core plug-in component fixing component and plug-in components connected with the two driving pieces, and the plug-in components extend into or are pulled out of the extrusion channel under the driving of the driving pieces. The utility model discloses a setting of plug-in components mounting, the cable that will have fixed the crimping terminal is placed simultaneously with the inner core plug-in components and is advanced inside the plug-in components mounting, through inserting the horizontal extrusion of piece to cable tip crimping terminal, with the crimping terminal extrusion of cable tip in the inner core plug-in components, practiced thrift the labour resource, improved the efficiency of interlude of inner core plug-in components.

Description

Intelligent machine for inserting inner core

Technical Field

The utility model relates to a cable processing technology field especially relates to a wear inner core plug-in components intelligence machine.

Background

The HSD wire harness is a high-speed data wire, which has four inner cores, and when the HSD wire harness is processed, an inner core plug-in is required to be fixed at the end part of the HSD wire harness. The inner core insert is shown in figure 1 and is used for fixing the end part of the cable, so that the end part of the cable is convenient to plug; when the inner cores are particularly penetrated, the corresponding crimping terminals are fixed on the four inner cores of the cable, and then the crimping terminals are clamped into the grooves of the inner core plug-in units.

In the prior art, when the crimping end is inserted into the inner core plug-in unit, manual operation is mostly adopted, however, the efficiency is often low in the manual operation mode; and because the inner core plug-in components have certain cable sequence requirements, the phenomenon of threading mistake often appears in manual operation, and once a mistake is made, threading needs to be carried out again, so that the phenomena of low efficiency and low yield of the fixation of the HSD inner core plug-in components are caused.

In view of the above problems, the present inventors have actively studied and innovated based on practical experience and professional knowledge that is abundant over many years in engineering applications of such products, in order to create an intelligent machine with an insert for inserting an inner core, which is more practical.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: the utility model provides a wear inner core plug-in components intelligence machine improves the efficiency of alternating of inner core plug-in components.

In order to achieve the above purpose, the utility model adopts the technical scheme that: a through core plug-in smart machine comprising:

the inner core plug-in component fixing assembly comprises a plug-in component fixing piece, a fixing cavity for placing the inner core plug-in component is formed in the plug-in component fixing piece, extrusion channels communicated with the outside are symmetrically arranged in the fixing cavity, and the opening direction of the extrusion channels is perpendicular to the direction of placing the inner core plug-in component in the fixing cavity;

the ejection inserting assembly comprises driving pieces arranged on two sides of the inner core insert fixing assembly and ejection inserting pieces connected with the two driving pieces, and the ejection inserting pieces extend into or are pulled out of the extrusion channel under the driving of the driving pieces;

the inner diameter of the fixed cavity is larger than the outer diameter of the inner core plug-in unit, the requirement of the size precision of the cable and the inner core plug-in unit which penetrate simultaneously is met, when the cable and the inner core plug-in unit penetrate into the fixed cavity simultaneously, the driving unit drives the plug-in unit to stretch into the extrusion channel and contact with the cable, and the cable is pushed into the fixed groove of the inner core plug-in unit.

Furthermore, the fixed cavity comprises an insert placing inner cavity arranged in the central position and four wire cavities which are communicated with the insert placing inner cavity and are arranged in parallel, and the four wire cavities are symmetrically arranged along the axial vertical central plane of the insert placing inner cavity.

Further, the wire lumen is in communication with the extrusion channel.

Further, the inner core plug-in components fixing assembly further comprises a positioning plate, a positioning groove is formed in the plug-in components placing inner cavity, the positioning plate is fixed in the positioning groove, and the top of the positioning plate protrudes out of the inner wall of the plug-in components placing inner cavity after the positioning plate is fixed.

Further, the tip of plug-in components has two parallel arrangement's picture peg, the size precision of picture peg satisfies penetrate extremely the required precision in the extrusion passageway.

Furthermore, the inner core plug-in component fixing assembly further comprises a fixing shell, a fixing cavity for placing the plug-in component fixing component is formed in the fixing shell, a fixing channel is further formed in the top of the fixing cavity, a fastening piece is arranged in the fixing channel, and the plug-in component fixing component is fixed through extrusion of the fastening piece and the outer wall of the plug-in component fixing component.

The inner core plug-in fixing device comprises a fixing support, wherein the fixing support comprises two vertical fixing plates arranged in parallel and a horizontal supporting plate fixed on the two vertical fixing plates, the two driving pieces are oppositely arranged and fixed on the vertical fixing plates, and the inner core plug-in fixing component is fixed on the horizontal supporting plate.

Further, the color identification device comprises a bottom plate, wherein the fixing support is fixed on the bottom plate, a line sequence identification plate is further fixed on the bottom plate, four threading holes are formed in the front face of the line sequence identification plate and used for threading of an inner core of a cable, identification hole positions communicated with at least two of the threading holes are formed in the side face of the line sequence identification plate, and the identification hole positions are used for enabling probes of the color identification sensors to stretch into the identification hole positions.

The utility model has the advantages that: the utility model discloses a setting of plug-in components mounting, the cable that will have fixed the crimping terminal is placed simultaneously with the inner core plug-in components mounting inside, through the setting of the extrusion passageway that sets up on plug-in components mounting lateral wall, and insert the apical member through the driving piece drive and stretch into to the extrusion passageway in, through inserting the lateral extrusion of apical member to cable tip crimping terminal, with the crimping terminal extrusion of cable tip in the inner core plug-in components, compare with prior art, the labour resource has been practiced thrift, the efficiency of interlude of inner core plug-in components has been improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments described in the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural view of an inner core insert according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of an intelligent machine with an inner core inserted therein according to an embodiment of the present invention;

fig. 3 is a schematic view of a local explosion structure of an intelligent machine with an inner core plug-in module according to an embodiment of the present invention;

FIG. 4 is an exploded view of the core insert in an embodiment of the present invention as it is secured to the insert securing member;

fig. 5 is a partial enlarged view of a portion a in fig. 4 according to an embodiment of the present invention;

fig. 6 is a sectional view of the smart machine with an inner core plug-in module according to the embodiment of the present invention;

fig. 7 is a partial enlarged view of a portion B in TU 6 according to an embodiment of the present invention;

fig. 8 is a schematic structural diagram of the line sequence recognition board in the embodiment of the present invention.

Reference numerals: 10. an inner core insert fixing assembly; 11. a plug-in mounting; 111. a fixed cavity; 1111. the plug-in component placing inner cavity; 1112. a wire lumen; 1113. positioning a groove; 112. an extrusion channel; 12. positioning a plate; 13. a stationary case; 131. a fixed chamber; 132. a fixed channel; 20. a jack assembly; 21. a drive member; 22. a plug-in component; 221. inserting plates; 30. fixing a bracket; 31. a vertical fixing plate; 32. a horizontal support plate; 40. a base plate; 50. a line sequence identification board; 51. threading holes; 52. and identifying hole positions.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

It will be understood that when an element is referred to as being "secured to" 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," "left," "right," and the like as used herein are for illustrative purposes only and do not denote a unique embodiment.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The core-through plug-in smart machine as shown in fig. 1 to 8 comprises: the inner core plug-in unit fixing assembly 10 and the plug-in assembly 20 work in such a way that the cable and the inner core plug-in unit are fixed in the same chamber through the inner core plug-in unit fixing assembly 10, and then the cable is pressed inwards from the side surface of the inner core plug-in unit through the plug-in assembly 20, so that the cable is clamped into the inner core plug-in unit.

The utility model discloses the structure of inner core plug-in components to has four semi-open cable fixed cavity 111 rooms on the inner core plug-in components body as shown in figure 1, will fix the cable of crimping terminal during squeezing into the inner core plug-in components through the manual extruded mode of workman among the prior art, the utility model discloses an automatic extruded mode is fixed the cable in the inner core plug-in components, has improved the fixed efficiency of cable.

As shown in fig. 2 to 5, the core insert assembly includes an insert fixing member 11, the insert fixing member 11 has a fixing cavity 111 for the core insert to be inserted into, extrusion channels 112 penetrating the fixing cavity 111 are symmetrically disposed in the fixing cavity 111, and the opening direction of the extrusion channels 112 is perpendicular to the direction of the core insert to be inserted into the fixing cavity 111; when the inner core plug-in unit is placed, the inner core plug-in unit can be placed into the fixing cavity 111, and then the cable is inserted into a gap between the outer side wall of the inner core plug-in unit and the fixing cavity 111; both may be placed simultaneously, taking care that the cable should be aligned with the extrusion channel 112.

The plug assembly 20 comprises driving parts 21 arranged at two sides of the core insert fixing assembly 10 and plug pieces 22 connected with the two driving parts 21, and the plug pieces 22 are driven by the driving parts 21 to extend into or withdraw from the extrusion channel 112;

the inner diameter of the fixing cavity 111 is larger than the outer diameter of the inner core plug-in unit, the requirement of the size precision of the cable and the inner core plug-in unit which penetrate simultaneously is met, when the cable and the inner core plug-in unit penetrate into the fixing cavity 111 simultaneously, the two driving pieces 21 drive the plug-in unit 22 to extend into the extrusion channel 112 and contact with the cable, and the cable is pushed into the fixing groove of the inner core plug-in unit. The drive member 21 may be an air cylinder, a hydraulic cylinder, or other drive mechanism commonly used in the art.

After the cable is placed in the fixing cavity 111, the driving member 21 drives the plug member 22 to move toward the plug fixing member 11 and enter the extrusion channel 112 to contact the cable, and then the cable is extruded into the inner core plug member by the extrusion force.

In the above embodiment, through the setting of the plug-in fixing member 11, the cable to which the crimping terminal is fixed and the core plug-in are simultaneously placed into the plug-in fixing member 11, through the setting of the extrusion channel 112 provided on the side wall of the plug-in fixing member 11, and the plug-in member 22 is driven by the driving member 21 to extend into the extrusion channel 112, and through the transverse extrusion of the crimping terminal at the end of the cable by the plug-in member 22, the crimping terminal at the end of the cable is extruded into the core plug-in member.

As shown in fig. 5, in order to improve the cable penetration efficiency, the fixing cavity 111 includes a card placing cavity 1111 disposed at a central position and four wire cavities 1112 disposed in parallel and communicating with the card placing cavity 1111, and the four wire cavities 1112 are symmetrically disposed along an axial vertical central plane of the card placing cavity 1111. The four symmetrical parts are arranged on the left side and the right side, the two wire cavities 1112 are communicated with the inner cavities, so that the space for the cables to penetrate is enlarged, a guiding function is provided for the cables to penetrate, and the efficiency and the accuracy of the cables to penetrate are improved

Further, the wire cavity 1112 is communicated with the extrusion channel 112, and the accuracy of the plug-in piece 22 in the inward extrusion process is improved through the arrangement of the wire cavity 1112, so that the cable can be accurately extruded into the fixed cavity 111 of the inner core plug-in piece in each extrusion process.

Referring to fig. 1, the inner core insert fixing assembly 10 further includes a positioning plate 12, the insert placing cavity 1111 has a positioning slot 1113, the positioning plate 12 is fixed in the positioning slot 1113, and the top of the positioning plate 12 protrudes from the inner wall of the insert placing cavity 1111 after being fixed. Through the arrangement of the positioning plate 12, the groove on the inner core plug-in unit slides along the positioning plate 12 into the fixing cavity 111.

As shown in fig. 7, the end of the plug-in member 22 has two parallel plug-in plates 221, and the dimensional accuracy of the plug-in plates 221 meets the accuracy requirement for penetration into the extrusion channel 112. The two insertion plates 221 are arranged in parallel and respectively correspond to the two extrusion channels 112 arranged in parallel on the same side, and the efficiency of extruding the cable into the inner core plug-in unit is improved through the arrangement of the insertion plates 221 on the plug-in unit 22.

In order to fix the insert fixing member 11, as shown in fig. 7, the core insert fixing assembly 10 further includes a fixing case 13, the fixing case 13 has a fixing chamber 131 for placing the insert fixing member 11, the fixing chamber 131 further has a fixing passage 132 at the top, and a fastening member is provided in the fixing passage 132, and the insert fixing member 11 is fixed by pressing the fastening member against the outer wall of the insert fixing member 11. Specifically, when fixing, the insert fixing member 11 is first placed in the fixing chamber 131, and then screwed into the fixing channel 132 through a bolt, the fixing channel 132 is a threaded hole, the bottom of the bolt contacts with the top of the insert fixing member 11, and the insert fixing member 11 is pressed and fixed by the acting force of the thread. In the embodiment of the present invention, the depth of the fixing chamber 131 is greater than the length of the insert fixing member 11, and a passage communicating with the pressing passage 112 is further provided inside the fixing housing 13, so that the insert 22 penetrates.

In the embodiment of the present invention, as shown in fig. 2 and fig. 3, the fixing bracket 30 is further included, the fixing bracket 30 includes two parallel vertical fixing plates 31 and a horizontal support plate 32 fixed on the two vertical fixing plates 31, the two driving members 21 are relatively fixed on the vertical fixing plates 31, and the inner core plug-in fixing assembly 10 is fixed on the horizontal support plate 32. The horizontal support plate 32 is fixed at the middle and upper positions of the two vertical fixing plates 31 in the height direction, and the fixing of the inner core insert fixing assembly 10 and the insert top assembly 20 is realized through the structural arrangement, so that the structure is simple and easy to realize.

In addition, because the four inner cores of the cable have a certain sequence, in order to reduce the error rate when the cable is inserted, the color identification function is also arranged in the utility model, the correct color sequence of the cable is preset, then, the identification of the color identification sensor is used for judging whether the color identification sensor is correct or not, if not, the alarm is given, the color identification sensor and the alarm function are the prior art, the details are not repeated here, and only the structural part of the present invention will be described, as shown in fig. 2 and 8, the present invention further includes a bottom plate 40, the fixing bracket 30 is fixed on the bottom plate 40, a thread sequence recognition plate 50 is further fixed on the bottom plate 40, four thread holes 51 are provided on the front surface of the thread sequence recognition plate 50, the wire sequence recognition plate 50 is provided with recognition hole sites 52 communicated with at least two of the four wire threading holes 51 on the side surface, and the recognition hole sites 52 are used for the probes of the color recognition sensors to extend into.

When the inner core threading operation is specifically carried out, a cable is firstly threaded into the wire sequence identification plate 50, and the arrangement of four threading holes 51 on the wire sequence identification plate 50 is consistent with the hole positions of the inner core plug-in units, so that the subsequent threading is facilitated; then the color of the outer insulating sheath of the cable can be observed through the identification hole 52 on one side of the wire sequence identification plate 50, whether the wire sequence is correct or not is judged through a color identification sensor, the sensor can be connected with a display lamp, and when a green light is displayed, the wire sequence is correct; then penetrate inner core plug-in components and cable to the plug-in components mounting 11 together again, then drive actuating cylinder for plug-in components 22 stretches into and extrudes the cable in extruding channel 112, makes the cable enter into the inner core plug-in components, and the cylinder returns, drives plug-in components 22 and returns, because the cable has already been fixed in the inner core plug-in components this moment, directly takes the inner core plug-in components with the cable to pull out together and can accomplish whole operation.

It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (8)

1. The utility model provides a wear inner core plug-in components intelligence machine which characterized in that includes:

the inner core plug-in component fixing assembly comprises a plug-in component fixing piece, a fixing cavity for placing the inner core plug-in component is formed in the plug-in component fixing piece, extrusion channels communicated with the outside are symmetrically arranged in the fixing cavity, and the opening direction of the extrusion channels is perpendicular to the direction of placing the inner core plug-in component in the fixing cavity;

the ejection inserting assembly comprises driving pieces arranged on two sides of the inner core insert fixing assembly and ejection inserting pieces connected with the two driving pieces, and the ejection inserting pieces extend into or are pulled out of the extrusion channel under the driving of the driving pieces;

the inner diameter of the fixed cavity is larger than the outer diameter of the inner core plug-in unit, the requirement of the size precision of the cable and the inner core plug-in unit which penetrate simultaneously is met, when the cable and the inner core plug-in unit penetrate into the fixed cavity simultaneously, the driving unit drives the plug-in unit to stretch into the extrusion channel and contact with the cable, and the cable is pushed into the fixed groove of the inner core plug-in unit.

2. The intelligent core-through plug-in unit machine according to claim 1, wherein the fixing cavities comprise a plug-in unit placing inner cavity arranged at a central position and four wire cavities communicated with the plug-in unit placing inner cavity and arranged in parallel, and the four wire cavities are symmetrically arranged along an axial vertical central plane of the plug-in unit placing inner cavity.

3. The through-the-core smart machine of claim 2, wherein the wire cavity is in communication with the extrusion channel.

4. The intelligent machine for inserting core pieces into a machine as claimed in claim 2, wherein the core piece fixing assembly further comprises a positioning plate, the inner cavity for placing the core pieces is provided with a positioning groove, the positioning plate is fixed in the positioning groove, and the top of the positioning plate is protruded out of the inner wall of the inner cavity for placing the core pieces after the positioning plate is fixed.

5. The intelligent machine of claim 1, wherein the end of the plug-in component is provided with two parallel-arranged plug boards, and the size precision of the plug boards meets the precision requirement of penetrating into the extrusion channel.

6. The intelligent machine for inserting core inserts as claimed in claim 1, wherein the fixing assembly of core inserts further comprises a fixing shell, the fixing shell is provided with a fixing chamber for placing the fixing member of the core inserts, the top of the fixing chamber is further provided with a fixing channel, a fastening member is arranged in the fixing channel, and the fixing member of the core inserts is fixed by the pressing of the fastening member and the outer wall of the fixing member of the core inserts.

7. The intelligent machine for inserting core pieces according to claim 1, further comprising a fixing bracket, wherein the fixing bracket comprises two vertical fixing plates arranged in parallel and a horizontal supporting plate fixed on the two vertical fixing plates, the two driving members are oppositely arranged and fixed on the vertical fixing plates, and the core piece fixing assembly is fixed on the horizontal supporting plate.

8. The intelligent machine for inserting core pieces according to claim 7, further comprising a bottom plate, wherein the fixing support is fixed on the bottom plate, a thread sequence recognition plate is further fixed on the bottom plate, four threading holes are formed in the front face of the thread sequence recognition plate and used for threading the cable core, recognition hole sites communicated with at least two of the four threading holes are formed in the side face of the thread sequence recognition plate, and the recognition hole sites are used for enabling probes of the color recognition sensors to extend into the recognition hole sites.

Images