CN115603149A - Assembling equipment for manufacturing connector - Google Patents

Abstract

The invention relates to the technical field of connectors, in particular to assembling equipment for manufacturing a connector. The invention provides an assembling device for manufacturing a connector, which can synchronously align a mounting terminal and a shell and correct a metal conducting sheet skewed on the terminal. The utility model provides an equipment is used in connector manufacturing, includes frame and backup pad etc. and frame top left side is connected with the backup pad, and bilateral symmetry is connected with the backup pad around the top of frame right side, and left backup pad top is used for placing the connector shell, and evenly open on the connector shell has the jack, and left backup pad left side blocks the connector shell, is used for placing the connector terminal between two backup pad tops on right side. Under the combined action of the left side of the positioning plate clamped by the L-shaped guide rod and the right side of the positioning plate clamped by the clamping rod, the positioning plate can drive the connector terminal to move leftwards more stably, and the assembling stability of the connector is improved.

Description

Assembling equipment for manufacturing connector

Technical Field

The invention relates to the technical field of connectors, in particular to assembling equipment for manufacturing a connector.

Background

A connector is a connector for connecting two active devices for transmitting current or signals, and mainly a terminal portion is used for transmission, and in order to protect the terminal, it is generally necessary to attach a housing to the terminal portion when manufacturing the connector.

Chinese patent publication No. CN113964620a discloses an assembling device for USB connector joint processing production, which can automatically feed and discharge materials and can limit the position of a shell and a terminal. An assembly device for processing and producing a USB connector joint comprises a collecting frame; the top of the collecting frame is connected with two first fixing plates; the contact switch is arranged on the left side of the top of the first fixing plate on the left side; first fixed column, two first fixed plate tops are connected with two first fixed columns.

This patent is through putting the left shell that USB connector connects in second shell unloading frame, put the right shell in first shell unloading frame, realize spacing to two shells about the connector, then through putting the terminal of connector joint in terminal unloading frame, under the drive of third electric putter telescopic link, the second push pedal is spacing to the terminal inwards, when left shell and right shell toward inboard move to with the terminal contact, under the extrusion of two first push pedals, make left shell and right shell block the terminal together, and then accomplish the equipment, however above-mentioned patent is when the equipment, though can carry out spacing to shell and terminal respectively, shell and terminal are easy to misplace in the removal process, lead to difficult alignment installation, and when the metal on the terminal is crooked, it is more difficult to aim at the installation, based on above-mentioned technical defect, we provide one kind and can aim at installation terminal and shell and can correct the crooked equipment for connector manufacturing of the metal conducting strip on the terminal synchronously.

Disclosure of Invention

The invention provides an assembling device for manufacturing a connector, which can synchronously align and install a terminal and a shell and correct the inclined metal conducting plate on the terminal, aiming at overcoming the defects that the alignment and the installation of the connector terminal and a connector shell are difficult and the alignment and the installation are influenced when the metal conducting plate on the terminal is inclined in the prior art.

The left side of the top of the rack is connected with the supporting plate, the front side and the back side of the top of the right side of the rack are symmetrically connected with the supporting plate, the top of the supporting plate on the left side is used for placing a connector shell, jacks are uniformly formed in the connector shell, the connector shell is blocked at the left side of the supporting plate on the left side, a connector terminal is placed between the two supporting plate tops on the right side, metal conducting strips are uniformly connected to the left side of the connector terminal, the number of the metal conducting strips on the connector terminal corresponds to the number of the jacks on the connector shell, one metal conducting strip is inserted into one jack, a positioning mechanism for synchronously limiting and aligning the connector shell and the connector terminal is arranged in the supporting plates on the left side of the rack, the connector shell is positioned at the left side of the positioning mechanism, the connector terminal is positioned at the right side of the positioning mechanism, and a clamping mechanism for correcting the metal conducting strips on the connector terminal is arranged in the rack.

In one embodiment, the positioning mechanism comprises a first rodless cylinder, an L-shaped guide rod, a guide spring and positioning plates, the first rodless cylinder is connected to the middle of the right side of the rack in a sliding manner, the first rodless cylinder moves to the left side to contact with the connector terminal, the first rodless cylinder continues to move to the left side to drive the connector terminal to move to the left side, the L-shaped guide rod is connected to the front side and the rear side of the left support plate in a sliding manner, the guide spring is wound around the front side and the rear side of the left support plate, the inner end and the outer end of the guide spring are connected with the L-shaped guide rod and the left support plate respectively, the positioning plates are connected to the upper portion of the L-shaped guide rod in a sliding manner, the right side of the two support plates block the right side of the positioning plates, the connector shell is clamped to the left side between the two positioning plates, the right side of the two positioning plates is smaller than the left side of the two positioning plates, and when the right side of the positioning plates moves to the left side to contact with the connector shell, the connector shell presses the positioning plates to slide outwards.

In one embodiment, the clamping mechanism comprises a touch switch, a second rodless cylinder, a connecting frame, a clamping plate, an L-shaped push plate and an electromagnet, wherein the touch switches are arranged on the left side and the right side of the front part of the rack, the right wall of the lower part of the first rodless cylinder is contacted with the touch switch on the right side, when the first rodless cylinder slides leftwards to be separated from the touch switch on the right side, the touch switch on the right side is triggered, the second rodless cylinder is arranged on the right side of the front part and the rear part of the rack in a sliding way, the second rodless cylinder is electrically connected with the two touch switches, the connecting frame is connected between the two second rodless cylinders in a sliding way, the connecting frame is made of a magnetic metal material, and the second rodless cylinder drives the connecting frame to slide upwards and downwards, when the connecting frame moves leftwards and touches the left touch switch, the left touch switch is triggered, the upper part of the connecting frame is connected with clamping plates from the front to the back in an even sliding manner, every two clamping plates clamp a metal conducting strip on a connector terminal, the right side of the connecting frame is connected with an L-shaped push plate in a sliding manner, the L-shaped push plate is contacted with the clamping plates, the L-shaped push plate extrudes the clamping plates to slide inwards when moving leftwards, electromagnets are installed at the front and back of the left wall of the L-shaped push plate, the electromagnets are electrically connected with the two touch switches, when the touch switch on the right side is triggered, the electromagnets are powered on, when the electromagnets are powered on, the electromagnets are attracted with the connecting frame through magnetic attraction, when the left touch switch is triggered, the electromagnets are powered off.

In one embodiment, the clamping mechanism for clamping the right side of the positioning plate is further included, the clamping mechanism comprises a guide frame, clamping rods and a clamping spring, the guide frame is connected to the front side and the rear side of the first rodless cylinder, the clamping rods are connected to the outer side of the guide frame in a sliding mode, the clamping rods are located on the right side of the positioning plate, when the clamping rods move leftwards and contact with the positioning plate, the clamping rods are extruded by the positioning plate to slide outwards along the guide frame, the clamping spring is wound on the outer side of the guide frame, and the inner end and the outer end of the clamping spring are connected with the clamping rods and the guide frame respectively.

In one embodiment, the connector terminal straightening mechanism further comprises a straightening mechanism for straightening a metal conducting strip on the connector terminal, the straightening mechanism comprises a T-shaped clamping rod, a clamping spring, a pushing plate, a guide plate and a U-shaped rod, the T-shaped clamping rod is connected to the upper portion of the right side of the L-shaped guide rod in a sliding mode, the inner end of the T-shaped clamping rod penetrates through a positioning plate and clamps a connector shell, the clamping spring is wound on the outer side of the T-shaped clamping rod, the inner end and the outer end of the clamping spring are connected with the T-shaped clamping rod and the L-shaped guide rod respectively, the pushing plate is connected to the outer side of the positioning plate in a sliding mode, the left end face of the pushing plate is in contact with the T-shaped clamping rod, the clamping rod moves leftwards and is in contact with the pushing plate, the pushing plate extrudes the T-shaped clamping rod to slide outwards when the clamping rod continues to move leftwards, the front side and the rear side of the lower portion of the left side of the first rodless cylinder are connected with the guide plates, the U-shaped rod is connected between the guide plates in a sliding mode, and the left side of the U-shaped push plate is connected with the L-shaped push plate.

In one embodiment, the clamping device further comprises a return spring, the connecting frame is uniformly wound with the return springs for buffering and resetting the clamping plates, the number of the return springs corresponds to that of the clamping plates, one ends of the return springs are connected with the connecting frame, and the other ends of the return springs are connected with the clamping plates.

In one embodiment, the connecting frame is made of iron.

In one embodiment, the clamping plate is perpendicular to the conductive sheet metal on the connector terminal.

The invention has the following beneficial effects:

1. the first rodless cylinder drives the connector terminal to be aligned and inserted into the jack on the connector shell leftwards to complete the assembly of the connector, and in the moving process, the metal conducting strip on the connector terminal is always aligned with the jack on the connector shell, so that the connector terminal can synchronously swing forwards and backwards even if the connector shell swings forwards and backwards, and the convenience of alignment operation during the installation of the connector can be improved;

2. the electromagnet is electrified to enable the L-shaped push plate to be close to the connecting frame leftwards, the L-shaped push plate moving leftwards extrudes the clamping plate to slide inwards, and the clamping plate clamps the metal conducting strip on the connector terminal, so that the metal conducting strip on the connector terminal in a skewed direction is corrected, and the situation that the alignment installation of the connector is influenced due to the fact that the metal conducting strip on the connector terminal is skewed is avoided;

3. under the combined action of the left side of the positioning plate clamped by the L-shaped guide rod and the right side of the positioning plate clamped by the clamping rod, the positioning plate can drive the connector terminal to move leftwards more stably, and the assembling stability of the connector is improved;

4. the U-shaped rod pushes the clamping plate to move leftwards along the metal conducting strip of the connector terminal through the L-shaped push plate and the connecting frame, so that the bent metal conducting strip on the connector terminal is straightened, the connector terminal is further smoothly aligned and inserted into the connector shell, and the phenomenon that the alignment and installation of the connector are influenced due to the fact that the metal conducting strip on the connector terminal is twisted is avoided.

Drawings

Fig. 1 is a schematic view of a first perspective structure according to the present invention.

Fig. 2 is a schematic perspective view of a second perspective structure according to the present invention.

Fig. 3 is a schematic view of a first perspective three-dimensional structure of the positioning mechanism of the present invention.

Fig. 4 is a schematic perspective view of a second perspective structure of the positioning mechanism of the present invention.

Fig. 5 is a first perspective view of the clamping mechanism of the present invention.

Fig. 6 is a perspective view of a second aspect of the clamping mechanism of the present invention.

Fig. 7 is a schematic three-dimensional structure diagram of the L-shaped push plate and the electromagnet according to the present invention.

Fig. 8 is a schematic perspective view of the clamping mechanism of the present invention.

Fig. 9 is a first perspective view of the straightening mechanism according to the present invention.

Fig. 10 is a perspective view of a second view of the straightening mechanism according to the present invention.

FIG. 11 is a perspective view of a third embodiment of the straightening mechanism of the present invention.

FIG. 12 is a schematic perspective view of the connecting frame, the clamping plate, the L-shaped pushing plate and the return spring of the present invention.

Part names and serial numbers in the figure: 1-a frame, 2-a support plate, 3-a connector housing, 4-a connector terminal, 5-a positioning mechanism, 51-a first rodless cylinder, 52-an L-shaped guide rod, 53-a guide spring, 54-a positioning plate, 6-a clamping mechanism, 61-a touch switch, 62-a second rodless cylinder, 63-a connecting frame, 64-a clamping plate, 65-an L-shaped push plate, 66-an electromagnet, 7-a clamping mechanism, 71-a guide frame, 72-a clamping rod, 73-a clamping spring, 8-a straightening mechanism, 81-a T-shaped clamping rod, 82-a clamping spring, 83-a pushing plate, 84-a guide plate, 85-a U-shaped rod, and 9-a reset spring.

Detailed Description

The following description is only a preferred embodiment of the present invention, and does not limit the scope of the present invention.

Example 1

An assembling device for manufacturing a connector is shown in fig. 1 and 2 and comprises a rack 1, three supporting plates 2, a positioning mechanism 5 and a clamping mechanism 6, wherein one supporting plate 2 is connected to the left side of the top of the rack 1, the other two supporting plates 2 are connected to the front side and the rear side of the top of the right side of the rack 1, a connector shell 3 is placed on the top of the supporting plate 2 on the left side, jacks are uniformly formed in the connector shell 3, the connector shell 3 is blocked by the left side of the supporting plate 2 on the left side, a connector terminal 4 is placed between the tops of the two supporting plates 2 on the right side, metal conducting plates are uniformly connected to the left side of the connector terminal 4, the number of the metal conducting plates on the connector terminal 4 corresponds to the number of the jacks on the connector shell 3, one metal conducting plate is inserted into one jack, the positioning mechanism 5 is arranged on the rack 1 and the supporting plate 2 on the left side, the left side of the positioning mechanism 5 is used for positioning the connector shell 3, the right side of the positioning mechanism 5 is used for positioning the connector terminal 4, and the clamping mechanism 6 is arranged on the rack 1.

As shown in fig. 3 and 4, the positioning mechanism 5 includes a first rodless cylinder 51, an L-shaped guide rod 52, two guide springs 53, and two positioning plates 54, the first rodless cylinder 51 is slidably connected to the middle of the right side of the frame 1, the first rodless cylinder 51 moves to the left side to contact the connector terminal 4, the two L-shaped guide rods 52 are slidably connected to the front and rear sides of the left support plate 2, the two guide springs 53 are respectively wound around the front and rear sides of the left support plate 2, the inner and outer ends of the guide springs 53 are respectively connected to the L-shaped guide rod 52 and the left support plate 2, the two positioning plates 54 are slidably connected to the upper portion of the L-shaped guide rod 52, the two right support plates 2 block the right sides of the positioning plates 54, the connector terminal 4 is clamped to the right sides between the two positioning plates 54, the connector housing 3 is clamped to the left side between the two positioning plates 54, the right sides of the two positioning plates 54, the two positioning plates 54 are located at a distance between the right sides is smaller than a distance between the left sides of the two positioning plates 54, and the positioning plates 54, the right side of the positioning plates 54 can be moved to contact the connector housing 3.

As shown in fig. 5, 6 and 7, the clamping mechanism 6 includes a touch switch 61, a second rodless cylinder 62, a connecting frame 63, a clamping plate 64, an L-shaped push plate 65 and an electromagnet 66, the touch switch 61 is mounted on both the left and right sides of the front portion of the rack 1 through screws, the right wall of the lower portion of the first rodless cylinder 51 contacts with the right touch switch 61, the second rodless cylinder 62 is slidably mounted on both the right sides of the front and rear portions of the rack 1, the second rodless cylinder 62 is electrically connected with the two touch switches 61, the connecting frame 63 is slidably connected between the two second rodless cylinders 62, the connecting frame 63 is made of iron, the second rodless cylinder 62 drives the connecting frame 63 to slide up and down, the connecting frame 63 moves leftwards to touch the left touch switch 61, the upper portion of the connecting frame 63 is evenly connected with clamping plates 64 from front to back in a sliding mode, every two clamping plates 64 clamp a metal conducting strip on the connector terminal 4, the L-shaped push plate 65 is connected to the right side of the connecting frame 63 in a sliding mode, the L-shaped push plate 65 is in contact with the clamping plates 64, electromagnets 66 are mounted on the front portion and the rear portion of the left wall of the L-shaped push plate 65, the electromagnets 66 are electrically connected with the two touch switches 61, and the electromagnets 66 are attracted with the connecting frame 63 through magnetic attraction when electrified.

First, one pulls the positioning plate 54 outward, the positioning plate 54 moves the L-shaped guide rod 52 outward, the guide spring 53 is compressed, then, one puts the connector housing 3 and the connector terminal 4 to be assembled between the two support plates 2 on the left side and the two support plates 2 on the right side, respectively, the connector housing 3 and the connector terminal 4 are located on the left and right sides between the positioning plates 54, after putting, releases the positioning plate 54, the guide spring 53 resets to move the positioning plate 54 inward through the L-shaped guide rod 52, the positioning plate 54 clamps the front and rear sides of the connector housing 3 on the left side, the positioning plate 54 clamps the front and rear sides of the connector terminal 4 on the right side, achieving the effect of limiting the front and rear sides of the connector housing 3 and the connector terminal 4, then, the first rodless cylinder 51 is started, the first rodless cylinder 51 is controlled to slide leftward along the chassis 1, the first rodless cylinder 51 is released from the right touch switch 61 first, the right touch switch 61 is triggered to enable the electromagnet 66 to be powered on, the second rodless cylinder 62 is started, the second rodless cylinder 62 drives the connecting frame 63 to slide upwards to the limit and then is closed, the connecting frame 63 drives the clamping plates 64 and the L-shaped push plate 65 to slide upwards, each metal conducting strip of the connector terminal 4 is located between the two clamping plates 64, the electromagnet 66 is powered on, the L-shaped push plate 65 approaches the connecting frame 63 to the left, the L-shaped push plate 65 moving to the left presses the clamping plates 64 to slide inwards, the clamping plates 64 clamp the metal conducting strips on the connector terminal 4, so that the metal conducting strips skewed on the connector terminal 4 are corrected, the first rodless cylinder 51 continues to slide leftwards to be in contact with the connector terminal 4 and drives the connector terminal 4 to move leftwards together, so that the positioning plate 54 is driven to slide leftwards along the L-shaped guide rod 52, the connector terminal 4 simultaneously carries the second rodless cylinder 62, the connecting frame 63, the clamping plate 64, the L-shaped push plate 65 and the electromagnet 66 to move left, during movement, the metal conductive sheet on the connector terminal 4 is always aligned with the insertion hole on the connector housing 3, even if the connector housing 3 is shaken back and forth, the connector terminal 4 can be shaken back and forth synchronously, thus improving the convenience of the alignment operation during the installation of the connector, when the inclined surface on the right side of the positioning plate 54 is moved left to contact with the right side of the connector housing 3, the positioning plate 54 is pressed by the connector housing 3 to move outward, thereby driving the L-shaped guide rod 52 to move outward, the guide spring 53 is compressed again, the outward moving positioning plate 54 releases the assembled connector, when the connecting frame 63 moves leftward to touch the left touch switch 61, the left touch switch 61 is triggered, so that the electromagnet 66 is powered off and the second rodless cylinder 62 is again activated, the second rodless cylinder 62 drives the connecting frame 63 to slide down to the limit, the connecting frame 63 drives the clamping plate 64 and the L-shaped push plate 65 to slide downward, so that each connecting block 4 of the connector terminal 4 is not positioned between the clamping plates 64, thereby preventing the connector housing 4 from being easily inserted into the connector housing 3, and the connector housing 4 from being easily assembled, and the connector is prevented from being easily inserted into the connection frame 51, and the connector housing 4, and the connector is easily removed, and the connector is easily assembled by the connection frame 51, people manually push the positioning plate 54 rightwards, so that the positioning plate 54 slides rightwards along the L-shaped guide rod 52 to reset, then the second rodless cylinder 62 is pushed rightwards, the second rodless cylinder 62 drives the connecting frame 63, the clamping plate 64, the L-shaped push plate 65 and the electromagnet 66 to move rightwards together to reset, and finally people manually push the L-shaped push plate 65 rightwards again, so that the L-shaped push plate 65 drives the electromagnet 66 to keep away from the connecting frame 63.

Example 2

On the basis of embodiment 1, as shown in fig. 1, fig. 2 and fig. 8, the clamping mechanism 7 is further included, the clamping mechanism 7 includes a guide frame 71, clamping rods 72 and clamping springs 73, the guide frame 71 is connected to both the front side and the rear side of the first rodless cylinder 51, the clamping rods 72 are slidably connected to the outer sides of the guide frame 71, the clamping rods 72 are located on the right side of the positioning plate 54, when the clamping rods 72 move leftward to contact the positioning plate 54, the positioning plate 54 presses the clamping rods 72 to slide outward along the guide frame 71, the clamping springs 73 are wound around the outer sides of the guide frame 71, and the inner end and the outer end of each clamping spring 73 are respectively connected to the clamping rods 72 and the guide frame 71.

The first rodless cylinder 51 drives the guide frame 71, the clamping rods 72 and the clamping springs 73 to move leftward together, before the first rodless cylinder 51 slides leftward to contact the connector terminal 4, the clamping rods 72 firstly contact the positioning plate 54 leftward, when the clamping rods 72 continue to move leftward, the positioning plate 54 simultaneously presses the clamping rods 72 to slide outward along the guide frame 71, the clamping springs 73 are compressed, and under the action of the clamping springs 73, the clamping rods 72 clamp the right side of the positioning plate 54, so that under the combined action of the L-shaped guide rods 52 and the clamping rods 72, the positioning plate 54 can drive the connector terminal 4 to move leftward more stably, the stability of connector assembly is improved, when the first rodless cylinder 51 moves rightward to reset, the first rodless cylinder 51 drives the guide frame 71, the clamping rods 72 and the clamping springs 73 to move leftward together, the clamping rods 72 drive the positioning plate 54 to reset rightward, so that manual pushing of the positioning plate 54 to reset rightward is not needed, and when the clamping rods 72 move rightward to separate from the positioning plate 54, the clamping springs 73 reset drive the clamping rods 72 to slide inward to reset.

As shown in fig. 1, 2, 9, 10 and 11, the straightening mechanism 8 further comprises a T-shaped clamping rod 81, a blocking spring 82, a pushing plate 83, a guide plate 84 and a U-shaped pushing rod 85, the T-shaped clamping rod 81 is slidably connected to the upper portion of the right side of the L-shaped guide rod 52, the inner ends of the T-shaped clamping rod 81 penetrate through the positioning plate 54 and block the connector housing 3,T, the blocking spring 82 is wound around the outer side of the clamping rod 81, the inner end and the outer end of the blocking spring 82 are respectively connected to the T-shaped clamping rod 81 and the L-shaped guide rod 52, the pushing plate 83 is slidably connected to the outer side of the positioning plate 54, the left end surface of the pushing plate 83 contacts with the T-shaped clamping rod 81, the clamping rod 72 moves left and contacts with the pushing plate 83, the pushing plate 83 pushes the T-shaped clamping rod 81 to slide outwards when the clamping rod 72 continues moving left, the front side and rear sides of the left lower portion of the first rodless cylinder 51 are respectively connected to the guide plate 84, the U-shaped pushing plate 85 is connected to the left side of the L-shaped clamping rod 65.

Initially, the T-shaped clipping rod 81 clips the positioning plate 54 between the connector housing 3 and the L-shaped guiding rod 52, so that the connector terminal 4 cannot be pushed temporarily, when the first rod-less cylinder 51 moves to the left, the first rod-less cylinder 51 drives the U-shaped rod 85 to move to the left through the guiding plate 84, so as to drive the L-shaped pushing plate 65 to move to the left, the L-shaped pushing plate 65 slides to the left along the connecting frame 63 to contact with the connecting frame 63, at this time, the clamping plate 64 also clamps the metal conducting strip on the connector terminal 4 inward, and then the first rod-less cylinder 51 continues to drive the U-shaped rod 85 to move to the left through the guiding plate 84, the U-shaped rod 85 pushes the clamping plate 64 to move to the left along the metal conducting strip of the connector terminal 4 through the L-shaped pushing plate 65 and the connecting frame 63, so as to straighten the metal conducting strip bent on the connector terminal 4, further to enable the connector terminal 4 to be inserted into the connector housing 3 smoothly, when the clamping plate 64 moves to the left to the limit along the metal conducting sheet of the connector terminal 4, the clamping rod 72 starts moving to the left to contact with the pushing plate 83, the clamping rod 72 continues moving to the left to push the pushing plate 83 to slightly press the T-shaped clamping rod 81 to slide outwards, the clamping spring 82 is stretched, so that the T-shaped clamping rod 81 no longer clamps the connector housing 3 and the positioning plate 54, thus, when the first rodless cylinder 51 continues moving to the left to contact with the connector terminal 4, the connector terminal 4 can be pushed to the left to perform subsequent assembly operation, when the first rodless cylinder 51 moves to the right, the first rodless cylinder 51 drives the U-shaped rod 85 to move to the right through the guide plate 84, thereby driving the L-shaped push plate 65 to move to the right, the L-shaped push plate 65 slides to the right along the connecting frame 63 to disengage from the connecting frame 63, and the first rodless cylinder 51 drives the positioning plate 54 to reset through the clamping rod 72 moving to the right, the clamping rod 72 moves rightwards to be separated from the pushing plate 83, people pull the pushing plate 83 rightwards, the pushing plate 83 slides rightwards along the positioning plate 54 to reset, the clamping spring 82 resets to drive the T-shaped clamping rod 81 to slide inwards, the T-shaped clamping rod 81 clamps the positioning plate 54 between the connector shell 3 and the L-shaped guide rod 52 again, and when the L-shaped pushing plate 65 moves vertically, the L-shaped pushing plate 65 drives the U-shaped rod 85 to move vertically along the guide plate 84.

As shown in fig. 12, the clamping device further comprises a return spring 9, the return spring 9 is uniformly wound on the connecting frame 63, the return spring 9 buffers and resets the clamping plate 64, the number of the return springs 9 corresponds to the number of the clamping plate 64, one end of the return spring 9 is connected with the connecting frame 63, and the other end of the return spring 9 is connected with the clamping plate 64.

Finally, it should be noted that the above embodiments are only used for illustrating the technical solutions of the present invention and not for limiting the protection scope of the present invention, and although the present invention is described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions can be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention.

Claims (8)

1. An assembling device for manufacturing a connector is characterized by comprising a rack (1), a supporting plate (2), a positioning mechanism (5) and a clamping mechanism (6), wherein the supporting plate (2) is connected to the left side of the top of the rack (1), the supporting plates (2) are symmetrically connected to the front side and the rear side of the top of the right side of the rack (1), the top of the supporting plate (2) on the left side is used for placing a connector shell (3), jacks are uniformly formed in the connector shell (3), the connector shell (3) is blocked by the left side of the supporting plate (2) on the left side, a connector terminal (4) is placed between the tops of the two supporting plates (2) on the right side, metal conducting strips are uniformly connected to the left side of the connector terminal (4), the number of the metal conducting strips on the connector terminal (4) corresponds to the number of the jacks in the connector shell (3), and a metal conducting strip is inserted into a jack, a positioning mechanism (5) for synchronously limiting and aligning the connector shell (3) and the connector terminal (4) is arranged on the frame (1) and the supporting plate (2) on the left side, the connector shell (3) is positioned on the left side of the positioning mechanism (5), the connector terminal (4) is positioned on the right side of the positioning mechanism (5), and a clamping mechanism (6) for correcting the metal conducting strip on the connector terminal (4) is arranged on the frame (1).

2. An assembling apparatus for manufacturing a connector according to claim 1, wherein the positioning mechanism (5) comprises a first rodless cylinder (51), an L-shaped guide rod (52), a guide spring (53) and a positioning plate (54), the first rodless cylinder (51) is slidably connected to the middle of the right side of the housing (1), the first rodless cylinder (51) moves to the left side to contact with the connector terminal (4), the first rodless cylinder (51) continues to move to the left side to drive the connector terminal (4) to move to the left, the L-shaped guide rod (52) is slidably connected to both the front and rear sides of the left support plate (2), the guide spring (53) is wound around both the front and rear sides of the left support plate (2), the inner and outer ends of the guide spring (53) are respectively connected to the L-shaped guide rod (52) and the left support plate (2), the positioning plate (54) is slidably connected to the upper portion of the L-shaped guide rod (52), the right two support plates (2) block the right side, the connector housing (3) is clamped to the left side between the two positioning plates (54), the connector terminal (4) is clamped between the right side, and the distance between the two positioning plates (54) is smaller than the distance between the left positioning plate (54), the connector housing (3) presses the positioning plate (54) to slide outwards.

3. The assembling apparatus for manufacturing a connector according to claim 2, wherein the clamping mechanism (6) comprises a touch switch (61), a second rodless cylinder (62), a connecting frame (63), a clamping plate (64), an L-shaped push plate (65) and an electromagnet (66), the touch switches (61) are installed on the left and right sides of the front portion of the housing (1), the right wall of the lower portion of the first rodless cylinder (51) is in contact with the touch switch (61) on the right side, when the first rodless cylinder (51) slides leftwards to separate from the touch switch (61) on the right side, the touch switch (61) on the right side is triggered, the second rodless cylinder (62) is installed on the right side of the front and rear portions of the housing (1) in a sliding manner, the second rodless cylinder (62) is electrically connected with the two touch switches (61), the connecting frame (63) is connected between the two second rodless cylinders (62) in a sliding manner, the connecting frame (63) is made of a metal material having a sliding property, the second rodless cylinder (62) drives the connecting frame (63) to slide upwards and downwards, when the touch switch (61) on the left side is moved, the contact switch (65) on the left side, the connecting plate (64) is connected with a uniform sliding type connecting plate (64), and the connecting plate (64) is connected with the connecting plate (64) on the front and the connecting plate (4), l shape push pedal (65) and pinch-off blades (64) contact, extrusion pinch-off blades (64) slide inwards when L shape push pedal (65) move left, electro-magnet (66) are all installed to two portions around L shape push pedal (65) left wall, electro-magnet (66) and two touch switch (61) electric connection, when touch switch (61) on right side is triggered, electro-magnet (66) circular telegram, when circular telegram, through the mutual actuation of magnetic attraction between electro-magnet (66) and linking frame (63), when left touch switch (61) is triggered, electro-magnet (66) outage.

4. The assembling device for manufacturing the connector according to claim 2, further comprising a clamping mechanism (7) for clamping the right side of the positioning plate (54), wherein the clamping mechanism (7) comprises a guide frame (71), clamping rods (72) and clamping springs (73), the guide frame (71) is connected to the front side and the rear side of the first rodless cylinder (51), the clamping rods (72) are connected to the outer side of the guide frame (71) in a sliding manner, the clamping rods (72) are located on the right side of the positioning plate (54), when the clamping rods (72) move leftwards to contact with the positioning plate (54), the positioning plate (54) extrudes the clamping rods (72) to slide outwards along the guide frame (71), the clamping springs (73) are wound around the outer side of the guide frame (71), and the inner end and the outer end of the clamping springs (73) are respectively connected with the clamping rods (72) and the guide frame (71).

5. The assembling device for manufacturing the connector according to claim 4, characterized by further comprising a straightening mechanism (8) for straightening the metal conducting strip on the connector terminal (4), wherein the straightening mechanism (8) comprises a T-shaped clamping rod (81), a clamping spring (82), a pushing plate (83), a guide plate (84) and a U-shaped rod (85), the upper portion of the right side of the L-shaped guide rod (52) is connected with the T-shaped clamping rod (81) in a sliding manner, the inner end of the T-shaped clamping rod (81) penetrates through the positioning plate (54) and clamps the connector shell (3), the clamping spring (82) is wound on the outer side of the T-shaped clamping rod (81), the inner end and the outer end of the clamping spring (82) are respectively connected with the T-shaped clamping rod (81) and the L-shaped guide rod (52), the pushing plate (83) is connected on the outer side of the positioning plate (54) in a sliding manner, the left end surface of the pushing plate (83) is in contact with the T-shaped clamping rod (81), the clamping rod (72) moves left to contact with the pushing plate (83), the pushing plate (72) is connected with the U-shaped pushing plate (84), and the pushing plate (85) is connected with the U-shaped pushing plate (85) and the U-shaped pushing plate (81) are connected with the U-shaped pushing plate (85).

6. The assembling device for manufacturing the connector according to claim 5, further comprising return springs (9), wherein the connecting frame (63) is uniformly wound with the return springs (9) for buffering and returning the clamping plates (64), the number of the return springs (9) corresponds to the number of the clamping plates (64), one ends of the return springs (9) are connected with the connecting frame (63), and the other ends of the return springs (9) are connected with the clamping plates (64).

7. An assembling apparatus for connector manufacturing according to claim 6, wherein the connecting frame (63) is made of iron.

8. An assembling apparatus for connector manufacturing according to claim 6, wherein the clamping plate (64) is perpendicular to the conductive metal plate on the connector terminal (4).

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