CN219664207U - Nanometer antiwear agent dip-coating equipment for connector - Google Patents

Abstract

A nanometer antiwear agent dip-coating equipment for connector relates to connector dip-coating technical field, includes: dip coating grooves; the storage mechanism comprises a lifting piece, a supporting piece, two fixing pieces, a plurality of clamping pieces and a driving piece, wherein the lifting piece is arranged at the bottom of the dip-coating groove along the vertical direction, the supporting piece is arranged in the dip-coating groove, the two fixing pieces are oppositely arranged at the upper part of the supporting piece, the clamping pieces are rotatably arranged between the two fixing pieces, and the driving piece is rotatably arranged on one fixing piece; the supporting piece is connected with the lifting end of the lifting piece, the clamping pieces are arranged in parallel, the connecting piece is rotationally connected between the clamping pieces, and the power output end of the driving piece freely passes through the fixing piece and then is connected with one clamping piece; the operation driving piece rotates, and the connecting piece drives the clamping pieces to synchronously rotate.

Description

Nanometer antiwear agent dip-coating equipment for connector

Technical Field

The utility model relates to the technical field of connector dip-coating, in particular to nano antiwear agent dip-coating equipment for a connector.

Background

The connector is one of indispensable elements in electronic equipment for realizing electrical connection, and in some precision measurement equipment or high-frequency equipment, the inner conductor and the outer conductor of the connector are required to have high wear resistance and reliability besides good conductivity, corrosion resistance and weldability; the connector can be uniformly adhered with the nano antiwear agent on the outer surface by adopting a dip-coating mode in the preparation process, so that the connector has higher wear resistance and reliability.

The utility model in China with publication number of CN115625087A discloses nano antiwear agent dip-coating equipment for dip-coating a connector, which consists of a dip-coating tank, a carrying net rack, a lifter and an operation adjusting component, wherein the nano antiwear agent can enable the connector placed on the carrying net rack to stably move into the nano antiwear agent in the dip-coating tank for dip-coating; and then the connector after dip-coating is removed from the nano antiwear agent in the dip-coating tank, and the superfluous nano antiwear agent adhered on the connector is thrown back into the dip-coating tank for collection and reuse, so that the waste of the nano antiwear agent is reduced.

However, in the above patent document, when dip-coating is performed on the connectors, the connectors are randomly stacked on the carrier rack, so that the dip-coating effect of the connectors contacting each other is poor, and during the moving process of the carrier rack or the process of taking out and placing the connectors, the connectors may move relatively and generate friction, thereby causing abrasion of the connectors and affecting the quality of the connectors.

Disclosure of Invention

Aiming at the defects existing in the prior art, the utility model provides nano antiwear agent dip-coating equipment for a connector, which solves the problems that the dip-coating effect of the connector is poor and abrasion is generated in the dip-coating process in the prior art.

A nano antiwear agent dip coating apparatus for a connector, comprising:

dip coating grooves; and

the object placing mechanism comprises a lifting piece, a supporting piece, two fixing pieces, a plurality of clamping pieces and a driving piece, wherein the lifting piece is arranged at the bottom of the dip-coating groove along the vertical direction, the supporting piece is arranged in the dip-coating groove, the two fixing pieces are oppositely arranged at the upper part of the supporting piece, the clamping pieces are rotatably arranged between the two fixing pieces, and the driving piece is rotatably arranged on one fixing piece;

the supporting piece is connected with the lifting end of the lifting piece, the clamping pieces are arranged in parallel, the connecting piece is rotationally connected between the clamping pieces, and the power output end of the driving piece freely passes through the fixing piece and then is connected with one clamping piece;

the operation driving piece rotates, and the connecting piece drives the clamping pieces to synchronously rotate.

Compared with the prior art, the utility model has the following beneficial effects: when the dip-coating device is used, nano antiwear agents are added into a dip-coating groove, a lifting piece is started to lift a supporting piece, a driving piece is operated to rotate a plurality of clamping pieces to the vertical direction, then a plurality of connectors are clamped on the plurality of clamping pieces in a one-to-one correspondence manner, then the driving piece is rotated again to drive the plurality of clamping pieces to rotate, so that the included angle between the plurality of connectors and the horizontal direction is as small as possible, but the adjacent two connectors are ensured not to be contacted, and then the lifting piece is started to lower the supporting piece, so that the plurality of connectors are immersed in the nano antiwear agents, and dip-coating operation is performed; the operation is simple and convenient, all-round dip-coating of every connector can be guaranteed, and in the in-process of taking out and placing the connector, can not produce wearing and tearing between the connector moreover.

Preferably, each clamping piece all includes the U type pole, equal fixed mounting has the pivot on the outer wall at U type pole both ends, two pivot one-to-one rotates with two mountings and links to each other, and equal fixed mounting has the clamp splice on the two opposite inner walls of U type pole, each the draw-in groove has all been seted up along vertical direction to the clamp splice, has slot along its length direction fixed mounting in the bottom of U type pole, the connecting piece rotates to be connected between the bottom of a plurality of U type poles, the power take off end of driving piece freely passes behind the mounting and is fixed continuous with one of them pivot.

Preferably, the connecting pieces are two, each connecting piece comprises a connecting rod rotationally connected with the bottoms of the U-shaped rods, and the connecting rods of the two connecting pieces are symmetrically arranged on two sides of the bottoms of the U-shaped rods.

Preferably, the driving piece comprises a knob rotatably installed on one of the fixing pieces, the power output end of the knob freely penetrates through the fixing piece and then is coaxially and fixedly connected with the corresponding rotating shaft, and a locking bolt is arranged on the knob in a threaded penetrating manner.

Preferably, the supporting piece comprises a grid plate fixedly connected with the lifting end of the lifting piece, the grid plate is horizontally arranged, and the two fixing pieces are fixedly installed on the upper portion of the grid plate in opposite directions.

Preferably, the lifting piece comprises a hydraulic rod which is vertically arranged, the connecting end of the hydraulic rod is fixedly arranged in the bottom of the dip-coating groove, and the telescopic end of the hydraulic rod is fixedly connected with the grid plate.

Preferably, each fixing piece comprises a reverse-U-shaped frame fixedly installed on the grid plate, the knob is rotatably installed on the corresponding reverse-U-shaped frame, and each rotating shaft is rotatably connected with the corresponding reverse-U-shaped frame.

Preferably, limiting blocks are fixedly arranged on the side walls of the two opposite clamping blocks.

Additional advantages, objects, and features of the utility model will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the utility model.

Drawings

FIG. 1 is a top view of one embodiment of the present utility model.

Fig. 2 is a cross-sectional view taken along the direction A-A in fig. 1.

Fig. 3 is a cross-sectional view of the dip-coated connector of fig. 2.

Fig. 4 is a schematic structural view of the U-shaped bar of fig. 1.

The reference numerals in the figures are as follows: 1. dip coating grooves; 2. a grid plate; 3. a hydraulic rod; 4. a reverse-U type frame; 5. a U-shaped rod; 51. a rotating shaft; 52. a knob; 53. a locking bolt; 6. clamping blocks; 61. a clamping groove; 62. a limiting block; 7. a slot; 8. a connecting rod; 9. a connector.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the present utility model more clear and easy to understand, the present utility model is further described below with reference to the accompanying drawings and the detailed description:

as shown in fig. 1-3, embodiments of the present utility model provide a nano antiwear agent dip coating apparatus for a connector, comprising: dip coating tank 1; the storage mechanism comprises a lifting piece arranged at the bottom of the dip-coating groove 1 along the vertical direction, a supporting piece arranged in the dip-coating groove 1, two fixing pieces oppositely arranged at the upper part of the supporting piece, a plurality of clamping pieces rotatably arranged between the two fixing pieces and a driving piece rotatably arranged on one fixing piece; the supporting piece is connected with the lifting end of the lifting piece, the clamping pieces are arranged in parallel, the connecting piece is rotationally connected between the clamping pieces, and the power output end of the driving piece freely passes through the fixing piece and then is connected with one clamping piece; the operation driving piece rotates, and the connecting piece drives the clamping pieces to synchronously rotate.

Adding nano antiwear agents into the dip coating tank 1, starting a lifting piece to lift a supporting piece, operating a driving piece to rotate a plurality of clamping pieces to the vertical direction, clamping a plurality of connectors 9 on the plurality of clamping pieces in a one-to-one correspondence manner, then rotating the driving piece again to drive the plurality of clamping pieces to rotate, so that the included angle between the plurality of connectors 9 and the horizontal direction is as small as possible, but no contact between two adjacent connectors 9 is ensured, and then starting the lifting piece to lower the supporting piece to submerge the plurality of connectors 9 in the nano antiwear agents, and performing dip coating operation; the operation is simple and convenient, the all-round dip-coating of every connector 9 can be guaranteed, and in the process of taking out and placing the connector 9, the abrasion can not be produced between the connectors 9.

As shown in fig. 1-4, according to another embodiment of the present utility model, the nano antiwear agent dip coating apparatus for a connector further optimizes a clamping member, a connecting member, a driving member, a supporting member, a lifting member and a fixing member, where each clamping member includes a U-shaped rod 5, two rotating shafts 51 are fixedly installed on outer walls of two ends of the U-shaped rod 5, two rotating shafts 51 are connected with two fixing members in a one-to-one correspondence, clamping blocks 6 are fixedly installed on two opposite inner walls of the U-shaped rod 5, each clamping block 6 is provided with a clamping slot 61 along a vertical direction, a slot 7 is fixedly installed in a bottom of the U-shaped rod 5 along a length direction thereof, the connecting member is rotatably connected between bottoms of the U-shaped rods 5, and a power output end of the driving member is fixedly connected with one rotating shaft 51 after freely penetrating through the fixing member; and preferably, the side walls of two adjacent clamping blocks 6 which are oppositely arranged are fixedly provided with limiting blocks 62, so that in the process that the driving piece drives the plurality of U-shaped rods 5 to rotate, the limiting blocks 62 can ensure that a certain distance exists between two adjacent connectors 9, and the two adjacent connectors 9 are not contacted.

The two connecting pieces are arranged, each connecting piece comprises a connecting rod 8 rotationally connected with the bottoms of the plurality of U-shaped rods 5, and the connecting rods 8 of the two connecting pieces are symmetrically arranged on two sides of the bottoms of the plurality of U-shaped rods 5; when the driving piece drives the corresponding U-shaped rod 5 to rotate, the two connecting rods 8 can drive the other U-shaped rods 5 to synchronously rotate.

The driving part comprises a knob 52 rotatably arranged on one of the fixing parts, the power output end of the knob 52 freely passes through the fixing part and is coaxially and fixedly connected with the corresponding rotating shaft 51, and a locking bolt 53 is arranged on the knob 52 in a threaded penetrating manner; the U-shaped rod 5 and the connector 9 are driven to rotate by rotating the knob 52, and after the U-shaped rod is rotated in place, the locking bolt 53 is screwed to abut against the fixing piece, so that the position of the knob 52 is fixed, and the knob 52 is ensured not to be easily rotated by external force.

The supporting piece comprises a grid plate 2 fixedly connected with the lifting end of the lifting piece, the grid plate 2 is horizontally arranged, and two fixing pieces are fixedly installed on the upper part of the grid plate 2 in opposite directions; the mesh plate 2 allows random passage of nano-antiwear agent therethrough, allowing better contact with the connector 9.

The lifting piece comprises a hydraulic rod 3 which is vertically arranged, the connecting end of the hydraulic rod 3 is fixedly arranged in the bottom of the dip-coating tank 1, and the telescopic end of the hydraulic rod 3 is fixedly connected with the grid plate 2; the lifting function is achieved by the hydraulic lever 3, and the hydraulic lever 3 is powered by an external hydraulic station.

Each fixing piece comprises an inverted U-shaped frame 4 fixedly arranged on the grid plate 2, the knob 52 is rotatably arranged on the corresponding inverted U-shaped frame 4, and each rotating shaft 51 is rotatably connected with the corresponding inverted U-shaped frame 4.

The application principle of the utility model is as follows: when the dip-coating device is used, nano antiwear agents are added into the dip-coating tank 1, the hydraulic rod 3 is started to push the grid plate 2 to rise, then the knob 52 is turned to drive the U-shaped rods 5 to rotate to the vertical direction through the two connecting rods 8, then the connectors 9 are correspondingly inserted between the two clamping grooves 61 of the two clamping blocks 6 of the U-shaped rods 5 one by one and continuously inserted into the slots 7, after the connectors 9 are installed, the knob 52 is turned to drive the U-shaped rods 5 and the connectors 9 to rotate until the limiting blocks 62 on each clamping block 6 are contacted with the adjacent U-shaped rods 5, so that a certain distance is kept between the two connectors 9, at the moment, the locking bolts 53 are screwed to make the locking bolts abut against the U-shaped frames 4, the position of the knob 52 is fixed, and then the hydraulic rod 3 is started again to drive the grid plate 2 to descend, so that the connectors 9 are immersed in the nano antiwear agents to be dip-coated; after the dip coating is finished, the hydraulic rod 3 is started to lift the grid plate 2, so that a plurality of connectors 9 are separated from nano antiwear agents, then the locking bolt 53 is reversely screwed to separate the connectors from the U-shaped frame 4, then the knob 52 is rotated to drive the plurality of U-shaped rods 5 and the connectors 9 to rotate to the vertical direction, and the connectors are stood for a period of time, so that residual nano antiwear agents on the connectors 9 drop in the dip coating tank 1 to be recovered, waste is avoided, and finally the connectors 9 after the dip coating is finished are taken down; and if the connector 9 is smaller in size, the grid plate 2 is directly driven to descend through the hydraulic rod 3 without rotating the knob 52, and the connectors 9 in the vertical state are immersed.

Finally, it is noted that the above embodiments are only for illustrating the technical solution of the present utility model and not for limiting the same, and although the present utility model has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications and equivalents may be made thereto without departing from the spirit and scope of the technical solution of the present utility model, which is intended to be covered by the scope of the claims of the present utility model.

Claims (8)

1. A nano antiwear agent dip coating apparatus for a connector, comprising:

a dip-coating tank (1); and

the storage mechanism comprises a lifting piece arranged at the bottom of the dip-coating groove (1) along the vertical direction, a supporting piece arranged in the dip-coating groove (1), two fixing pieces oppositely arranged at the upper part of the supporting piece, a plurality of clamping pieces rotatably arranged between the two fixing pieces and a driving piece rotatably arranged on one fixing piece;

the supporting piece is connected with the lifting end of the lifting piece, the clamping pieces are arranged in parallel, the connecting piece is rotationally connected between the clamping pieces, and the power output end of the driving piece freely passes through the fixing piece and then is connected with one clamping piece;

the operation driving piece rotates, and the connecting piece drives the clamping pieces to synchronously rotate.

2. The nano antiwear agent dip-coating equipment for connectors according to claim 1, wherein each clamping piece comprises a U-shaped rod (5), rotating shafts (51) are fixedly installed on the outer walls of two ends of the U-shaped rod (5), two rotating shafts (51) are in one-to-one correspondence and are rotationally connected with two fixing pieces, clamping blocks (6) are fixedly installed on two opposite inner walls of the U-shaped rod (5), clamping grooves (61) are formed in each clamping block (6) in the vertical direction, slots (7) are fixedly installed in the bottoms of the U-shaped rods (5) in the length direction of the clamping blocks, the connecting pieces are rotationally connected between the bottoms of the U-shaped rods (5), and power output ends of the driving pieces are fixedly connected with one rotating shaft (51) after freely penetrating through the fixing pieces.

3. The nano antiwear agent dip-coating device for connectors according to claim 2, wherein the number of the connecting pieces is two, each connecting piece comprises a connecting rod (8) rotationally connected with the bottoms of the plurality of U-shaped rods (5), and the connecting rods (8) of the two connecting pieces are symmetrically arranged on two sides of the bottoms of the plurality of U-shaped rods (5).

4. The nano antiwear agent dip-coating apparatus for a connector as set forth in claim 2, wherein the driving member includes a knob (52) rotatably mounted on one of the fixing members, a power output end of the knob (52) freely passes through the fixing member and is fixedly connected with a corresponding rotating shaft (51) coaxially, and a locking bolt (53) is threaded through the knob (52).

5. The nano antiwear agent dip-coating apparatus for connectors as set forth in claim 4, wherein said supporting member comprises a mesh plate (2) fixedly connected to a lifting end of the lifting member, said mesh plate (2) being horizontally disposed, and two fixing members being fixedly installed on an upper portion of the mesh plate (2) in opposition.

6. The nano antiwear agent dip-coating equipment for connectors as claimed in claim 5, wherein the lifting piece comprises a hydraulic rod (3) which is vertically arranged, the connecting end of the hydraulic rod (3) is fixedly arranged in the bottom of the dip-coating groove (1), and the telescopic end of the hydraulic rod (3) is fixedly connected with the grid plate (2).

7. The nano antiwear dip coating apparatus for connectors according to claim 5, wherein each of said fixing members comprises a n-type rack (4) fixedly mounted on a grid plate (2), said knob (52) is rotatably mounted on the corresponding n-type rack (4), and each rotary shaft (51) is rotatably connected to the corresponding n-type rack (4).

8. The nano antiwear agent dip-coating apparatus for connectors as claimed in claim 1, wherein stoppers (62) are fixedly installed on side walls of two adjacent clamp blocks (6) disposed opposite to each other.