CN216563899U - Large tolerance positioning connector - Google Patents

Abstract

The utility model relates to a connector, in particular to a large tolerance positioning connector. The utility model provides a large-tolerance positioning connector which is simple to operate and convenient to detach and replace, and simultaneously avoids resource waste. The utility model provides a big tolerance location connector, is including bottom plate, limiting plate, place board and fixed plate etc. and the quantity of bottom plate is two, is equipped with the limiting plate between the top of two bottom plates, and the upper right portion of limiting plate inboard is equipped with slidingly places the board, and the left upper portion of limiting plate is equipped with the fixed plate. On placing the fixed plate through manual first connector, the staff is placing the second connector and is placing the board on and contact simultaneously, and in the contact, the staff will be manual promotes etc. to the second connector right, alright convenient use the big tolerance location connector, gives people to a certain extent and has provided convenience.

Description

Large tolerance positioning connector

Technical Field

The utility model relates to a connector, in particular to a large tolerance positioning connector.

Background

Connectors are also often referred to as circuit connectors; an electrical connector is a electromechanical system that provides a separable interface for connecting two sub-electronic systems, simply, the components used to complete the electrical connection between the electronic circuits or machines are called connectors, i.e., the bridge between the two.

There is presently disclosed a multi-directional high tolerance coaxial connector, publication No. CN211376980U, comprising: a sliding connector including a mating groove and a center terminal; the flexible connector comprises a central inner conductor, an insulator and a cylindrical outer conductor, wherein the central inner conductor is of a one-piece tubular structure, a plurality of first hollow holes are formed in the middle of the central inner conductor, a spring structure is formed between the first hollow holes, and the central inner conductor can stretch in the axial direction and deflect in the radial direction through the spring structure; the middle part of the cylindrical outer conductor is provided with a plurality of second hollow holes, a multi-layer elastic structure is formed among the second hollow holes, and the cylindrical outer conductor can stretch in the axial direction and deflect in the radial direction through the multi-layer elastic structure; when the flexible connector is inserted into the butt-joint groove of the sliding connector, the central inner conductor and the cylindrical outer conductor in the flexible connector can stretch in the axial direction and deflect in the radial direction, so that X, Y, Z connection with large tolerance in the three-axis direction is formed between the flexible connector and the sliding connector. Although the above patent enables the flexible connector to form X, Y, Z connections with large tolerance in three axial directions with respect to the sliding connector, the above device does not have the capability of effectively removing and replacing the connector, thereby resulting in wasted resources.

For this reason, it is necessary to design a positioning connector with a large tolerance, which is easy to operate and convenient to detach and replace, and simultaneously avoids wasting resources, so as to optimize the above problems.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defect that the device in the prior art does not have the defect that the connector cannot be effectively disassembled and replaced, thereby causing resource waste, the technical problem is as follows: the large tolerance positioning connector is simple to operate, convenient to detach and replace and capable of avoiding resource waste.

The technical scheme of the utility model is as follows: a large tolerance positioning connector comprises bottom plates, limiting plates, placing plates, fixing plates, first connectors, second connectors, inclined plates, rotating shafts, torsion springs, extrusion plates, pull ropes, fixing rods and return springs, wherein the number of the bottom plates is two, the limiting plates are arranged between the tops of the two bottom plates, the placing plates are arranged on the right upper portions of the inner sides of the limiting plates in a sliding mode, the fixing plates are arranged on the upper portions of the left sides of the limiting plates, the first connectors are placed on the upper portions of the fixing plates, the second connectors are arranged on the upper sides of the inner portions of the placing plates in a sliding mode, the rotating shafts are arranged around the left portions in the second connectors in a rotating mode, the inclined plates are arranged in the middle portions of the outer sides of the four rotating shafts, the four inclined plates are located around the left sides of the second connectors in a rotating mode and are in rotating fit, the torsion springs are sleeved on the outer sides of the four rotating shafts, two ends of the torsion springs are respectively connected to the second connectors and the inclined plates, the extrusion plates are arranged on the left sides of the inner portions of the second connectors in a sliding mode, all be connected with two stay cords between the middle part in four pivot outsides around the stripper plate, eight stay cords all are located the sliding fit all around in the second connector left part outside, and the inside left side of second connector is equipped with the dead lever, is connected with the return spring between the outside of dead lever and the right side of stripper plate, and the return spring is located the inboard middle part of second connector.

Furthermore, the connector also comprises a lifting plate, and the lifting plate is arranged on the upper part of the right side in the second connector in a sliding manner.

Further, the bottoms of the two bottom plates are provided with anti-skid rubber pads.

Further, a handle is arranged in the middle of the right side of the placing plate.

Furthermore, the inside all around of second connector has all opened the spout.

Further, the limiting plate is made of stainless steel.

The beneficial effect after adopting above-mentioned technical scheme is: 1. on placing the fixed plate through manual first connector, the staff is placing the second connector and is placing the board on and contact simultaneously, and in the contact, the staff will be manual promotes etc. to the second connector right, alright convenient use the big tolerance location connector, gives people to a certain extent and has provided convenience.

2. When the outside through the second connector along first connector moved left, first connector will extrude the lifter plate on the second connector, and at this moment the lifter plate will be along second connector rebound etc. the lifter plate alright convenient carry out the joint to the first connector in the second connector, give people to a certain extent and provided convenience.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a first partial cross-sectional view of the present invention.

Fig. 3 is a second partial cross-sectional view of the present invention.

Fig. 4 is an enlarged view of the utility model at a.

Fig. 5 is a third partial cross-sectional view of the present invention.

Part names and serial numbers in the figure: 1-bottom plate, 2-limiting plate, 3-placing plate, 4-fixing plate, 5-first connector, 51-second connector, 6-sloping plate, 7-rotating shaft, 8-torsion spring, 9-extrusion plate, 10-pulling rope, 11-fixing rod, 12-return spring and 13-lifting plate.

Detailed Description

The preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Example 1

A large tolerance positioning connector is disclosed, referring to fig. 1 to 5, comprising bottom plates 1, limiting plates 2, placing plates 3, fixing plates 4, first connectors 5, second connectors 51, inclined plates 6, rotating shafts 7, torsion springs 8, extrusion plates 9, pull ropes 10, fixing rods 11 and return springs 12, wherein the bottoms of the two bottom plates 1 are respectively provided with an anti-skidding rubber mat which is not easy to skid, the number of the bottom plates 1 is two, the limiting plates 2 are welded between the tops of the two bottom plates 1, the limiting plates 2 are made of stainless steel and are not easy to rust and age, the placing plates 3 are slidably arranged at the right upper parts of the inner sides of the limiting plates 2, handles are arranged at the middle parts of the right sides of the placing plates 3, the placing plates 3 are better pushed, the fixing plates 4 are welded at the upper parts of the left sides of the limiting plates 2, the first connectors 5 are placed at the upper parts of the fixing plates 4, the second connectors 51 are slidably arranged at the upper sides inside of the placing plates 3, the periphery of the left part in the second connector 51 is connected with a rotating shaft 7 through a bearing seat, the middle parts of the outer sides of the four rotating shafts 7 are welded with inclined plates 6, the four inclined plates 6 are positioned on the periphery of the left side of the second connector 51 and are in rotating fit, the outer sides of the four rotating shafts 7 are welded with torsion springs 8, two ends of each torsion spring 8 are respectively connected with the second connector 51 and the inclined plates 6, the left side in the second connector 51 is provided with a compression plate 9 in a sliding manner, the periphery in the second connector 51 is provided with sliding grooves which are better matched with the compression plate 9 in a sliding manner, two pull ropes 10 are respectively connected between the periphery of the compression plate 9 and the middle parts of the outer sides of the four rotating shafts 7, eight pull ropes 10 are positioned on the periphery of the outer side of the left part of the second connector 51 in a sliding fit, the left side in the second connector 51 is provided with a fixed rod 11, and a return spring 12 is connected between the outer side of the fixed rod 11 and the right side of the compression plate 9, the return spring 12 is located in the middle of the inside of the second connector 51.

When the worker uses the large tolerance positioning connector, the worker can firstly move the device to a designated position, and when the device is moved to the designated position, the worker manually places the first connector 5 on the fixing plate 4, and simultaneously the worker places the second connector 51 on the placing plate 3 for contact, and at the same time, the worker manually pushes the second connector 51 to the right, so that the second connector 51 will move to the right along the placing plate 3, so that, when the second connector 51 moves to a certain position along the placing plate 3 to the right, the worker manually pushes the placing plate 3 to the left, and then the placing plate 3 will drive the second connector 51 to move to the left along the limiting plate 2, during the movement, the second connector 51 will contact with the first connector 5, and while contacting, the placing plate 3 will continuously drive the second connector 51 to move to the left along the limiting plate 2, at this time, the first connector 5 will press the pressing plate 9 in the second connector 51, during the pressing process, the placing plate 3 will again continuously drive the second connector 51 to move leftwards along the limiting plate 2, so that the second connector 51 will move leftwards along the outer side of the first connector 5, and then the first connector 5 will continuously press the pressing plate 9, and then the pressing plate 9 will move rightwards along the inner side of the second connector 51, so that the return spring 12 will be compressed, and at the same time, when the pressing plate 9 moves rightwards along the second connector 51, the pressing plate 9 will simultaneously drive the pulling rope 10 to slide rightwards along the second connector 51, and in the case that the pressing plate 9 drives the pulling rope 10 to move rightwards along the second connector 51, at this time, the pulling rope 10 will simultaneously pull the four rotating shafts 7 on the second connector 51 to rotate, so that, when the four rotating shafts 7 rotate, so that the four inclined plates 6 are driven by the rotating shafts 7 to simultaneously move along the inner sides of the second connector 51, the torsion spring 8 deforms, when the four inclined plates 6 are driven by the four rotating shafts 7 to simultaneously move to a certain position, the fixing rod 11 in the second connector 51 is in contact with the first connector 5, and when the fixing rod is in contact with the first connector 5, the worker stops pushing the placing plate 3 to the left, the first connector 5 stops squeezing the squeezing plate 9, the squeezing plate 9 stops pulling the pull rope 10, the four rotating shafts 7 drive the four inclined plates 6 to simultaneously stop moving to the inner sides, however, when the inclined plates 6 stop moving, the second connector 51 and the first connector 5 are completely connected, and then the worker takes out the connected connector for use, and when the connector cannot be used normally, the worker places the connectors which cannot be used normally on the playback setting plate 3 and the fixing plate 4 manually, when the connectors are placed, the worker releases the placement plate 3, so that the placement plate 3 stops driving the second connector 51 to move leftwards, when the second connector 51 does not have a force for moving leftwards, the first connector 5 simultaneously extrudes the extrusion plate 9, so that the extrusion plate 9 simultaneously extrudes the return spring 12, then the extrusion plate 9 is driven to move leftwards along the second connector 51 to reset under the reset action of the return spring 12, when the extrusion plate 9 moves leftwards along the second connector 51 to reset, the extrusion plate 9 simultaneously stops stretching the pull rope 10, then when the rotating shaft 7 does not have a pulling force, the rotating shaft 7 stops driving the inclined plate 6 to move inwards, and then the torsion spring 8 stops deforming, thus, at this time, under the reset action of the torsion spring 8, the four rotating shafts 7 and the inclined plate 6 are driven to simultaneously perform outside moving reset along the second connector 51, after the rotating shafts 7 and the inclined plate 6 simultaneously perform outside moving reset along the second connector 51, the worker is enabled to manually pull the placing plate 3 to the right for reset, and simultaneously the placing plate 3 is enabled to drive the second connector 51 to move rightwards for reset along the limiting plate 2, after the placing plate 3 drives the second connector 51 to move rightwards for reset, the worker is enabled to manually replace the first connector 5 on the fixing plate 4, after the replacement is completed, the worker repeats the above operations of pushing the placing plate 3 leftwards and simultaneously the placing plate 3 drives the second connector 51 to move leftwards, in this way, when the placing plate 3 drives the second connector 51 to move leftwards to a certain position, the second connector 51 is enabled to be connected with the first connector 5, then at this moment, the staff will be manual to take out the connector that finishes connecting and use, so, the staff only need repeat above operation, alright convenient use to the big tolerance location connector, give people to a certain extent and provided convenience.

Example 2

In addition to embodiment 1, referring to fig. 1, 2 and 5, the present invention further includes a lifting plate 13, and the lifting plate 13 is slidably disposed in the right upper portion of the second connector 51.

When the second connector 51 moves leftwards along the outer side of the first connector 5, the first connector 5 extrudes the lifting plate 13 on the second connector 51, and at this time, the lifting plate 13 moves upwards along the second connector 51, and when the lifting plate 13 moves upwards along the second connector 51, the second connector 51 continuously moves leftwards along the outer side of the first connector 5, so that when the second connector 51 moves leftwards along the outer side of the first connector 5 to a certain position, the lifting plate 13 is engaged with the first connector 5, and at this time, the worker stops pushing the placing plate 3 leftwards, so that the placing plate 3 stops driving the second connector 51 to move leftwards at the same time, when the lifting plate 13 does not need to be engaged with the first connector 5, the worker only needs to manually pull the lifting plate 13 upwards, and then the lifting plate 13 moves upwards along the second connector 51, so, when lifter plate 13 when certain extent along second connector 51 rebound for lifter plate 13 will not just joint with first connector 5, then people only need repeat above operation, and lifter plate 13 alright convenient carry out the joint to first connector 5 in the second connector 51, gives people to a certain extent and has provided convenience.

The above examples are merely representative of preferred embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, various changes, modifications and substitutions can be made without departing from the spirit of the present invention, and these are all within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (6)

1. The large tolerance positioning connector is characterized by comprising two bottom plates (1), two limiting plates (2), two placing plates (3), two fixing plates (4), two first connectors (5), two second connectors (51), inclined plates (6), rotating shafts (7), torsion springs (8), extrusion plates (9), pull ropes (10), fixing rods (11) and return springs (12), wherein the placing plates (2) are arranged between the tops of the two bottom plates (1), the placing plates (3) are arranged on the right upper portions of the inner sides of the limiting plates (2) in a sliding manner, the fixing plates (4) are arranged on the left upper portions of the limiting plates (2), the first connectors (5) are placed on the upper portions of the fixing plates (4), the second connectors (51) are arranged on the upper sides of the inner portions of the placing plates (3), the rotating shafts (7) are arranged around the left portions of the inner portions of the second connectors (51) in a rotating manner, the middle part in four pivot (7) outsides all is equipped with swash plate (6), four swash plates (6) are located the left normal running fit all around of second connector (51), the outside of four pivot (7) all overlaps there are torque spring (8), the both ends of torque spring (8) are connected respectively on second connector (51) and swash plate (6), the inside left side of second connector (51) is equipped with stripper plate (9) slidingly, all be connected with two stay cords (10) between the middle part in the all around and four pivot (7) outsides of stripper plate (9), eight stay cords (10) all are located the sliding fit all around in second connector (51) left part outside, the inside left side of second connector (51) is equipped with dead lever (11), be connected with between the outside of dead lever (11) and the right side of stripper plate (9) return spring (12), return spring (12) are located the inboard middle part of second connector (51).

2. A high tolerance positioning connector according to claim 1, further comprising a lifting plate (13), wherein the upper right side of the inside of the second connector (51) is slidably provided with the lifting plate (13).

3. A high tolerance positioning connector according to claim 1, wherein the bottom of both base plates (1) is provided with an anti-slip rubber mat.

4. A high tolerance positioning connector according to claim 1, characterized in that the middle of the right side of the placing plate (3) is provided with a handle.

5. A high tolerance positioning connector as claimed in claim 1 wherein the second connector (51) is slotted around its inside.

6. A high tolerance positioning connector according to claim 1, wherein the retainer plate (2) is stainless steel.

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