CN118249166B - Connector rubber core press-fitting device - Google Patents

Abstract

The invention relates to the technical field of rubber core press fitting, and discloses a connector rubber core press fitting device, which comprises a cable guide belt and a device shell, wherein a plurality of elastic clamping pieces are guided on the cable guide belt, and the elastic clamping pieces are used for clamping the end parts of cables and continuously guiding the end parts of the cables to the front part of the device shell; the wire harness in the wire harness is sequentially subjected to needle pressing operation, the rubber core positioning assembly is switched to the press mounting assembly through the guide rail, the wire harness after the wire harness is subjected to rubber core pressing operation, and automatic control is completed through PLC programming to replace manual work.

Description

Connector rubber core press-fitting device

Technical Field

The invention relates to the technical field of rubber core press fitting, in particular to a rubber core press fitting device of a connector.

Background

The rubber core press fitting refers to tightly pressing the cable through the rubber core and the sheath of the connector in the manufacturing process of the connector so as to ensure the stability and reliability between the cable and the connector.

At present, because the wire harness position inside the cable is distributed in disorder after the cable is pulled out, the operation of pressing the needle and sleeving the rubber core can be performed after the wire harness is straightened out, and the operation is usually performed manually by manpower, so that a large amount of manpower is required, and the efficiency of pressing the rubber core is low and the cost is high.

Disclosure of Invention

The invention aims to provide a connector rubber core press-fitting device, which aims to solve the problems of labor consumption, low efficiency and high cost caused by wire harness needle pressing and rubber core sleeving operation in the conventional connector rubber core press-fitting process.

The invention is realized in such a way that the connector rubber core press-fitting device comprises a cable guide belt and a device shell, wherein a plurality of elastic clamping pieces are guided on the cable guide belt, and the elastic clamping pieces are used for clamping the end parts of cables and continuously guiding the end parts of the cables to the front part of the device shell;

The device comprises a device shell, a rubber core positioning assembly, a needle guide belt, a press assembly and a needle box, wherein the rubber core positioning assembly and the needle guide belt are arranged in the device shell;

the rubber core positioning assembly is used for positioning the hole site of the rubber core and sending the hole site of the rubber core into the press-fit assembly to perform rubber core top-fit operation on the wire harness after the needle pressing is completed.

Preferably, the press-fit assembly comprises a positioning ring and an axis switching motor which are rotatably arranged, wherein a traction belt is wound outside an output shaft of the positioning ring and the axis switching motor, and a guide plate which is guided outside the positioning ring is connected through the traction belt;

The cable guide belt is characterized in that a pressing piece is arranged at one end, close to the cable guide belt, of the guide plate, a pushing telescopic cylinder and a pulling piece which is obliquely arranged are respectively arranged at the other end of the guide plate, and the telescopic end of the pushing telescopic cylinder is connected with a squeezing plate.

Preferably, the pulling piece comprises a sleeve and a telescopic motor arranged on one side of the sleeve, a telescopic cylinder is slidably arranged in the sleeve, a top is arranged at the tail end of the telescopic cylinder, an output shaft of the telescopic motor is connected with a guide rod, and one side of the end part of the telescopic cylinder is in threaded connection with the guide rod;

The end of the telescopic cylinder is provided with an adjusting motor, the adjusting motor is driven by a rotating rod which is connected with the telescopic cylinder and the inside of the plug through bearings, the rotating rod is positioned at the outer side of one end of the inside of the plug and is connected with a connecting block through threads, a pull tab is connected between the connecting block and the end of the plug through a rotating shaft, and a supporting groove is formed in the surface of the pull tab.

Preferably, the pressing piece comprises a bottom plate, an extrusion motor is arranged at the end part of the bottom plate, an output shaft of the extrusion motor is connected with a clamping rod arranged in the bottom plate, and the outer parts of two ends of the clamping rod are respectively connected with a pressing head extending to the upper part of the guide plate;

The two ends of the clamping rod are respectively provided with a forward thread and a reverse thread, and the inner sides of the end parts of the pressure heads at the two ends of the clamping rod are respectively provided with thread grooves connected with the forward thread and the reverse thread.

Preferably, the guide rail is installed on the inner wall of the device shell, the guide rail is provided with an assembly frame in a guiding manner, the rubber core positioning assembly and the needle guide belt are respectively installed on the upper portion and the lower portion of the assembly frame, and the rubber core positioning assembly and the needle guide belt are respectively switched to the corresponding positions of the press-fit assembly through the assembly frame.

Preferably, the rubber core positioning assembly comprises a supporting block, a rotating block is connected to a rotating shaft on the supporting block, a positioning disc which is annularly arranged is fixed through the rotating block, and a plurality of guide posts are uniformly distributed on one side of the positioning disc, which is far away from the rotating block;

The assembly rack is provided with a steering motor, and an output shaft of the steering motor is connected with a rotating shaft of the rotating block through belt transmission;

The device shell is far away from one side of the press-fit assembly and is provided with a rubber core jacking telescopic cylinder, and the middle part of the positioning disc is provided with a through hole corresponding to the telescopic end of the rubber core jacking telescopic cylinder.

Preferably, the rubber core positioning assembly further comprises a rubber core feeding seat and a rotating motor, wherein the rubber core feeding seat and the rotating motor are fixed above the device shell, a rotating ring is connected to a top bearing of the rubber core feeding seat, and the rotating ring is driven to rotate through the rotating motor;

the rubber core feeding seat is characterized in that all around the rubber core feeding seat are connected with rotating rollers through bearings, tooth grooves are formed in the inner wall of the rotating ring, and gears meshed with the tooth grooves are sleeved on the tops of the rotating rollers.

Preferably, the assembly frame is provided with a thimble telescopic cylinder, and the end part of the guide seat is provided with a jacking hole corresponding to the telescopic end of the thimble telescopic cylinder.

The invention discloses a connector rubber core press-fitting device, which has the beneficial effects that: the wire harness in the wire harness is sequentially subjected to needle pressing operation, the rubber core positioning assembly is switched to the press mounting assembly through the guide rail, the wire harness after the wire harness is subjected to rubber core pressing operation, and automatic control is completed through PLC programming to replace manual work.

Drawings

Fig. 1 is a schematic diagram of a connector rubber core press-fitting device according to an embodiment of the present invention;

fig. 2 is a schematic view of a forward structure of a device housing of a connector rubber core press-fitting device according to an embodiment of the present invention;

Fig. 3 is a schematic view of a backward sectional structure of a device housing of a connector rubber core press-fitting device according to an embodiment of the present invention;

Fig. 4 is a schematic structural diagram of a press-fitting assembly of a connector rubber core press-fitting device according to an embodiment of the present invention;

FIG. 5 is a schematic cross-sectional view of the adhesive core press-fitting device of FIG. 4 along arrow A-A according to an embodiment of the present invention;

Fig. 6 is a schematic diagram of a local structure of a rubber core positioning assembly of a rubber core press-fitting device of a connector according to an embodiment of the present invention;

fig. 7 is a schematic diagram of another partial structure of a rubber core positioning assembly of a rubber core press-fitting device of a connector according to an embodiment of the present invention.

Marking:

1. a device housing; 2. a cable guide belt;

11. Press-fitting the assembly; 12. a rubber core positioning assembly; 13. a needle box; 14. a guide rail; 15. an assembly frame; 16. the rubber core is propped up with a telescopic cylinder; 17. a thimble telescopic cylinder; 18. a needle guide belt;

111. a positioning ring; 112. an axis switching motor; 113. a guide plate; 114. a pressing piece; 115. a pull member; 116. pushing and extruding a telescopic cylinder;

1121. Pulling the belt; 1141. a bottom plate; 1142. extruding a motor; 1143. a clamping rod; 1144. a pressure head;

1151. A sleeve; 1152. a telescopic cylinder; 1153. a telescopic motor; 1154. a guide rod; 1155. a plug; 1156. a rotating rod; 1157. adjusting a motor; 1158. a connecting block; 1159. a pull tab; 11591. a groove is propped against;

1161. Extruding a plate;

121. A swivel; 1211. tooth slots; 122. a rubber core feeding seat; 1221. a rotating motor; 123. a rotating roller; 1231. a gear; 124. a steering motor; 125. a positioning plate; 126. a guide post; 127. a through hole; 128. a support block; 129. a rotating block;

181. A guide seat; 182. a top hole;

21. And an elastic clamping piece.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

The same or similar reference numerals in the drawings of the present embodiment correspond to the same or similar components; in the description of the present invention, it should be understood that, if there is an azimuth or positional relationship indicated by terms such as "upper", "lower", "left", "right", etc., based on the azimuth or positional relationship shown in the drawings, it is only for convenience of describing the present invention and simplifying the description, but it is not indicated or implied that the apparatus or element referred to must have a specific azimuth, be constructed and operated in a specific azimuth, and thus terms describing the positional relationship in the drawings are merely illustrative and should not be construed as limiting the present invention, and specific meanings of the terms described above may be understood by those of ordinary skill in the art according to specific circumstances.

The implementation of the present invention will be described in detail below with reference to specific embodiments.

In this embodiment:

referring to fig. 1-3, a preferred embodiment of the present invention is provided.

The connector rubber core press-fitting device comprises a cable guide belt 2 and a device shell 1, wherein a plurality of elastic clamping pieces 21 are guided on the cable guide belt 2, and the elastic clamping pieces 21 are used for clamping the end parts of cables and continuously guiding the end parts to the front part of the device shell 1;

The rubber core positioning assembly 12 and the needle guide belt 18 are arranged in the device shell 1, the press assembly 11 and the needle box 13 are also arranged, the press assembly 11 is used for stroking the wire harness in the linear cable, a plurality of guide seats 181 are guided on the needle guide belt 18, and the guide seats 181 are used for conveying the needles in the needle box 13 and conveying the needles into the press assembly 11 for needle pressing operation; the rubber core positioning component 12 is used for positioning the hole position of the rubber core and sending the hole position into the press-fitting component 11 to perform rubber core jacking operation on the wire harness after the needle pressing is completed.

Referring to fig. 4, the press-fitting assembly 11 includes a positioning ring 111 and an axis switching motor 112 that are rotatably disposed, a pulling belt 1121 is wound around an output shaft of the positioning ring 111 and an output shaft of the axis switching motor 112, and is connected with a guide plate 113 that is guided outside the positioning ring 111 through the pulling belt 1121, the axis switching motor 112 drives the positioning ring 111 to rotate by using the pulling belt 1121, a pressing member 114 is mounted at one end of the guide plate 113 near the cable guiding belt 2, a pushing telescopic cylinder 116 and a pull member 115 that is obliquely disposed are mounted at the other end of the guide plate 113, a squeezing plate 1161 is connected to a telescopic end of the pushing telescopic cylinder 116, and the pressing member 114, the pull member 115 and the pushing telescopic cylinder 116 on the guide plate 113 can rotate around an end of the cable so as to sequentially perform a plurality of wire bundles straightening operations inside the cable;

Further, referring to fig. 5, the pull member 115 includes a sleeve 1151 and a telescopic motor 1153 mounted on one side of the sleeve 1151, a telescopic tube 1152 is slidably mounted in the sleeve 1151, a top 1155 is disposed at the end of the telescopic tube 1152, an output shaft of the telescopic motor 1153 is connected with a guide rod 1154, one side of the end of the telescopic tube 1152 is in threaded connection with the guide rod 1154, the guide rod 1154 is driven by the telescopic motor 1153 to rotate, so as to push the telescopic tube 1152 in threaded connection with the outside of the telescopic tube 1151 to slide in the sleeve 1151, a wire harness at the position close to a wire stripping end of a cable is in a uniform stranded wire state, a wire harness at the position far away from the cable end of the wire harness is in a non-uniform stranded wire state, the top 1155 needs to obliquely pass through a wire harness gap at the uniform stranded wire state and is placed in the middle of a plurality of wire harnesses, and the wire harness at the position at the uniform stranded wire harness state position can better locate the position where the top 1155 penetrates the wire harness;

It is noted that, an adjusting motor 1157 is installed at the end of the telescopic tube 1152, the adjusting motor 1157 drives a rotating rod 1156 connected to the telescopic tube 1152 and the inside of the top 1155 through a bearing, the rotating rod 1156 is located at the outer side of one end of the inside of the top 1155 and is connected with a connecting block 1158 through threads, a pull piece 1159 is connected between the connecting block 1158 and the end of the top 1155 through a rotating shaft, a supporting groove 11591 is formed in the surface of the pull piece 1159, after the top 1155 is inserted into the middle of a plurality of wire harnesses, the adjusting motor 1157 drives the rotating rod 1156 to rotate, the connecting block 1158 connected with the threads outside of the rotating rod 1156 slides downwards, in the process, the pull piece 1159 between the connecting block 1158 and the end of the top 1155 is extruded, the wire harness 1159 is transversely stretched into one wire harness located above the top 1155 in the process of being stressed and is lifted outwards by the supporting groove 11591 of the pull piece 9 in the process of driving the top 1155 to move upwards, so that the wire harness is independently pulled away from the wire harness, the wire harness is pulled out of the copper wire harness is matched with the wire harness, the copper wire harness is extruded by the extending plate 1151, and the wire harness is pulled down in turn, and the wire harness is pushed down by the wire harness is moved back to the connecting plate, and the wire harness is moved to be opened, and the wire harness is moved, and the wire harness is pulled down, and the wire harness is moved;

It should be noted that, the bottom of the device housing 1 is provided with a guiding mechanism, which can push the press-fitting assembly 11 away from or close to the cable guiding belt 2, so that the pull tab 1159 and the extrusion plate 1161 can smooth out the linear beam during the process that the device housing 1 is far away from the cable guiding belt 2, and simultaneously, during the process that the device housing 1 is close to the cable guiding belt 2, the press-fitting assembly 11 can also act on the cable outside of the cable for the required needle pressing and rubber core pressing operation guided on the cable guiding belt 2.

Further, in the straightening process of each wire harness of the cable, the pressing piece 114 comprises a bottom plate 1141, an extrusion motor 1142 is mounted at the end of the bottom plate 1141, an output shaft of the extrusion motor 1142 is connected with a clamping rod 1143 disposed inside the bottom plate 1141, the outer parts of two ends of the clamping rod 1143 are respectively connected with a pressing head 1144 extending above the guide plate 113, two ends of the clamping rod 1143 are respectively provided with a forward thread and a reverse thread, the inner sides of the end parts of the pressing heads 1144 at the two ends are respectively provided with a thread groove connected with the forward thread and the reverse thread, the extrusion motor 1142 is used for driving the clamping rod 1143 to rotate, so that the pressing heads 1144 connected with the forward thread and the reverse thread at the two ends of the pressing rod 1143 realize reverse synchronous transmission, and the needle pressing operation on the wire harness heads on the extrusion plate 1161 is completed;

The assembly frame 15 is provided with a thimble telescopic cylinder 17, the end part of the guide seat 181 is provided with a jacking hole 182 corresponding to the telescopic end of the thimble telescopic cylinder 17, the needle guide belt 18 is used for pushing the guide seat 181 with the inserted needle into the press-fit assembly 11, the telescopic end of the thimble telescopic cylinder 17 passes through the jacking hole 182 to jack the needle into the outer side of the head of the wire harness on the extrusion plate 1161, and the needle is extruded by the pressure head 1144 to finish the needle pressing operation with the head of the wire harness;

further, referring to fig. 6-7, the rubber core positioning assembly 12 includes a supporting block 128, a rotating block 129 is connected to a rotating shaft on the supporting block 128, and a positioning disc 125 disposed in a ring shape is fixed on the supporting block 129, a plurality of guide posts 126 are uniformly distributed on one side of the positioning disc 125 far away from the rotating block 129, a steering motor 124 is mounted on the assembly frame 15, an output shaft of the steering motor 124 is connected with the rotating shaft of the rotating block 129 through a belt transmission, a rubber core jacking telescopic cylinder 16 is mounted on one side of the device housing 1 far away from the press mounting assembly 11, a through hole 127 corresponding to the telescopic end of the rubber core jacking telescopic cylinder 16 is provided in the middle of the positioning disc 125, the rubber core positioning assembly 12 further includes a rubber core feeding seat 122 and a rotating motor 1221 fixed above the device housing 1, a rotating ring 121 is connected to a top bearing of the rubber core feeding seat 122, the rotating ring 121 is driven to rotate by the rotating motor 1221, the rotating rollers 123 are connected to the inner periphery of the rubber core feeding seat 122 in a bearing manner, tooth grooves 1211 are formed in the inner wall of the rotating ring 121, gears 1231 meshed with the tooth grooves 1211 are sleeved on the tops of the rotating rollers 123, in the process of sleeving the rubber core on the cable subjected to needle pressing, the positioning disc 125 is driven by the steering motor 124 to rotate clockwise along the supporting block 128 through the rotating block 129, the positioning disc 125 is placed under the rubber core feeding seat 122, the rubber core is fed into the rubber core feeding seat 122 from above the rubber core feeding seat 122, at the moment, the rotating motor 1221 drives the rotating ring 121 to rotate, the rotating rollers 123 with the end parts sleeved with the gears 1231 are pushed by the rotating rings 121 to rotate by the rotating rollers 123, so that openings on the rubber core can be aligned with guide posts 126 on the positioning disc 125 and fall onto the positioning disc 125, the positioning is completed, at this time, the positioning disc 125 reversely rotates by 90 degrees under the drive of the steering motor 124 and corresponds to the press-fitting assembly 11 again, and the telescopic end of the rubber core jacking telescopic cylinder 16 passes through the through hole 127 and pushes the rubber core into the cable end after needle pressing is completed, so that the press-fitting operation of the rubber core is realized;

It is noted that, since the glue core press-mounting occurs after the pressure equalizing needles of all the wire harnesses of the cable are completed, the needle pressing operation and the glue core top-mounting operation are separately performed, the inner wall of the device housing 1 is provided with the guide rail 14, the guide rail 14 is provided with the assembly frame 15 in a guiding manner, the glue core positioning assembly 12 and the needle guide belt 18 are respectively installed at the upper and lower parts of the assembly frame 15, the glue core positioning assembly 12 and the needle guide belt 18 are respectively switched to the corresponding parts of the press-mounting assembly 11 through the assembly frame 15, and the guide rail 14 is utilized to adjust the lifting of the assembly frame 15, so that the glue core positioning assembly 12 and the needle guide belt 18 are alternately guided to the corresponding parts of the press-mounting assembly 11, and the needle pressing operation and the glue core top-mounting operation are respectively performed.

In the embodiment, the real-time control of each electric device is realized through the PLC programming with the model number of S4-400, and the automatic operation is completed instead of manual operation.

The cable is sequentially conveyed into the press-fit assembly 11 of the device shell 1 through the cable guide belt 2, the wire harness inside the cable is straightened by utilizing the pressing piece 114, the pulling piece 115 and the pushing telescopic cylinder 116 of the press-fit assembly 11, the needle guide belt 18 is switched to act on the press-fit assembly 11 through the guide rail 14, the wire harness inside the cable is sequentially subjected to needle pressing operation, the rubber core positioning assembly 12 is switched to act on the press-fit assembly 11 through the guide rail 14, the wire harness subjected to needle pressing is subjected to rubber core pressing operation, and automatic control is completed through PLC programming to replace manual work.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims (5)

1. The connector rubber core press-fitting device is characterized by comprising a cable guide belt and a device shell, wherein a plurality of elastic clamping pieces are guided on the cable guide belt, and the elastic clamping pieces are used for clamping the end parts of cables and continuously guiding the end parts of the cables to the front part of the device shell;

The device comprises a device shell, a rubber core positioning assembly, a needle guide belt, a press assembly and a needle box, wherein the rubber core positioning assembly and the needle guide belt are arranged in the device shell;

the rubber core positioning assembly is used for positioning the hole site of the rubber core and sending the hole site of the rubber core into the press-fit assembly to perform rubber core top-fit operation on the wire harness after the needle pressing is finished;

The press-fit assembly comprises a locating ring and an axis switching motor which are rotatably arranged, wherein a traction belt is wound outside an output shaft of the locating ring and the axis switching motor, and a guide plate which is led to the outside of the locating ring is connected with the traction belt;

a pressing piece is arranged at one end of the guide plate close to the cable guide belt, the other end of the guide plate is provided with a pushing telescopic cylinder and a pulling piece which is obliquely arranged, and the telescopic end of the pushing telescopic cylinder is connected with a squeezing plate;

The pulling piece comprises a sleeve and a telescopic motor arranged on one side of the sleeve, a telescopic cylinder is slidably arranged in the sleeve, a top is arranged at the tail end of the telescopic cylinder, an output shaft of the telescopic motor is connected with a guide rod, and one side of the end part of the telescopic cylinder is in threaded connection with the guide rod;

An adjusting motor is arranged at the end part of the telescopic cylinder, the adjusting motor drives a rotating rod which is connected with the telescopic cylinder and the inside of the plug through a bearing, a connecting block is connected with the outer side of one end of the rotating rod, which is positioned in the plug, of the rotating rod, a pull tab is connected between the connecting block and the end part of the plug through a rotating shaft, and a supporting groove is formed in the surface of the pull tab;

The guide rail is installed to the inner wall of device casing, guide on the guide rail is installed the assembly jig, glue core locating component with needle guide belt install respectively in the upper and lower part of assembly jig, glue core locating component and needle guide belt switch to respectively through the assembly jig the pressure equipment subassembly corresponds the department.

2. The connector rubber core press-fitting device according to claim 1, wherein the pressing piece comprises a bottom plate, an extrusion motor is mounted at the end part of the bottom plate, an output shaft of the extrusion motor is connected with a clamping rod arranged inside the bottom plate, and the outer parts of two ends of the clamping rod are connected with a pressing head extending above the guide plate;

The two ends of the clamping rod are respectively provided with a forward thread and a reverse thread, and the inner sides of the end parts of the pressure heads at the two ends of the clamping rod are respectively provided with thread grooves connected with the forward thread and the reverse thread.

3. The connector rubber core press-fitting device according to claim 1, wherein the rubber core positioning assembly comprises a supporting block, a rotating block is connected to a rotating shaft on the supporting block, a positioning disc which is annularly arranged is fixed through the rotating block, and a plurality of guide posts are uniformly distributed on one side of the positioning disc away from the rotating block;

The assembly rack is provided with a steering motor, and an output shaft of the steering motor is connected with a rotating shaft of the rotating block through belt transmission;

The device shell is far away from one side of the press-fit assembly and is provided with a rubber core jacking telescopic cylinder, and the middle part of the positioning disc is provided with a through hole corresponding to the telescopic end of the rubber core jacking telescopic cylinder.

4. A connector rubber core press-fitting device as recited in claim 3, wherein said rubber core positioning assembly further comprises a rubber core feeding seat and a rotating motor fixed above the device housing, a swivel is connected to a top bearing of said rubber core feeding seat, and said swivel is driven to rotate by said rotating motor;

the rubber core feeding seat is characterized in that all around the rubber core feeding seat are connected with rotating rollers through bearings, tooth grooves are formed in the inner wall of the rotating ring, and gears meshed with the tooth grooves are sleeved on the tops of the rotating rollers.

5. The connector rubber core press-fitting device according to claim 4, wherein the assembly frame is provided with a thimble telescopic cylinder, and an ejector hole corresponding to the telescopic end of the thimble telescopic cylinder is formed in the end portion of the guide seat.