CN115007960A

CN115007960A - Wicking detection device

Info

Publication number: CN115007960A
Application number: CN202210844855.7A
Authority: CN
Inventors: 贾凯冉; 王力崇; 裴梦昭; 康纹硕; 刘向前; 李亮; 王昭显; 张大鹏; 王晓丰
Original assignee: HEBEI SHENKE ELECTRONICS CO Ltd
Current assignee: HEBEI SHENKE ELECTRONICS CO Ltd
Priority date: 2022-07-19
Filing date: 2022-07-19
Publication date: 2022-09-06
Anticipated expiration: 2042-07-19
Also published as: CN115007960B

Abstract

The invention belongs to transformer tinning equipment, and particularly relates to a tin immersion detection device which comprises a rack, a tin immersion station and a detection station, wherein the tin immersion station is provided with a tin immersion container, the tin immersion station also comprises a conveying chain arranged on the rack, the conveying chain sequentially passes through the tin immersion container and the detection station, a carrying mechanism of a transformer is arranged on the conveying chain, the tin immersion station also comprises a deflector rod arranged on the rack, and the deflector rod and the transformer form interference fit in the conveying direction of the conveying chain. When the transformer assembly line is used, the transmission chain is connected with the transformer assembly production line, the transformer is hung on the transmission chain through the carrying mechanism, the secondary line of the transformer is in a vertically downward state in a transposition mode under the action of the gravity of the secondary line, and the transformer passes through the tin immersion container and the detection station along with the rotation of the transmission chain, so that the operations of tin plating and detection are sequentially completed, the production efficiency is improved, the problem of poor uniformity of manual operation is solved, the product quality is favorably ensured, and the use experience of a user is improved.

Description

Wicking detection device

Technical Field

The invention belongs to the field of transformer tinning equipment, and particularly relates to a tin immersion detection device.

Background

The method comprises the steps that after the mutual inductor is assembled and glue is poured, tin plating treatment needs to be carried out on a lead part exposed out of a secondary wire of the mutual inductor, the mutual inductor is held by a hand in a manual mode, the secondary wire of the mutual inductor is immersed into a tin pot serving as a tin immersion container, and the secondary wire is made to soak tin liquor to complete tin plating operation.

The existing manual operation mode cannot meet the requirement of mass production of the mutual inductor due to the problem of low working efficiency, and in addition, the manual operation cannot guarantee the uniformity of the tinning length of the secondary wire of the mutual inductor, so that the mutual inductor has instability when being installed and used by a user, and further the product using effect of an end user is influenced.

Disclosure of Invention

In order to solve the problems in the prior art, the invention provides the tin immersion detection device which can realize automatic tin immersion operation, ensure the uniformity of the tin plating length of the secondary wire of the mutual inductor and ensure the product quality.

The invention adopts the specific technical scheme that:

the utility model provides a wicking detection device, includes frame and wicking station, detection station, the wicking station is provided with the wicking container, still including setting up the conveying chain in the frame, and the conveying chain is provided with the mechanism of carrying of mutual-inductor through wicking container and detection station in proper order on the conveying chain, the wicking station still includes the driving lever that sets up in the frame, the driving lever forms interference fit with the mutual-inductor in the direction of delivery of conveying chain.

The carrying mechanism comprises a connecting sheet and a hanging rod, the hanging rod and the connecting sheet are of an integral structure, the connecting sheet is connected with the conveying chain, and the hanging rod is tilted upwards relative to the horizontal plane.

The detection station is provided with a detection clamping jaw and a driving frame for driving the detection clamping jaw to move in the vertical and horizontal directions, and the detection clamping jaw is provided with a connecting contact matched with a secondary line of the mutual inductor.

The driving frame includes vertical actuating cylinder and horizontal actuating cylinder, the stiff end of vertical actuating cylinder sets up in the frame along vertical direction, the horizontal actuating cylinder sets up the flexible end at vertical actuating cylinder along the horizontal direction, the detection clamping jaw sets up the flexible end at horizontal actuating cylinder.

The rear end of the detection station is provided with a blanking station, the blanking station comprises a blowpipe arranged on the rack and a blanking frame arranged on a base of the rack, the blanking frame comprises a horizontal moving seat driven by an air cylinder and fork rods arranged on the horizontal moving seat, the fork rods are arranged in two groups side by side, and the blanking frame and the blowpipe are respectively positioned on two sides of the moving track of the mutual inductor on the conveying chain.

The deflector rod is arranged above the conveying chain and is positioned on the entering side of the mutual inductor of the tin immersion container.

The carrying mechanism is arranged on the conveying chain at equal intervals, when the shifting lever is in contact with a group of mutual inductors on the carrying mechanism, another group of mutual inductors are positioned on one side of the output of the tin immersion container, the secondary wires of the mutual inductors are lapped on the side wall of the tin immersion container, the tail ends of the secondary wires of the mutual inductors are positioned in the tin immersion container, and when the shifting lever is positioned between the two groups of mutual inductors, another group of mutual inductors are positioned at a detection station.

The driving lever is positioned above the conveying chain and close to the middle part of the conveying chain.

The tin immersion cleaning device is characterized in that a cleaning scraper blade is further arranged on the rack and connected with a horizontally arranged cleaning cylinder, and the cleaning scraper blade is driven by the cleaning cylinder to scrape the surface of tin liquid of a tin immersion container.

The invention has the beneficial effects that:

when the transformer assembly line is used, the transmission chain is connected with the transformer assembly production line, the transformer is hung on the transmission chain through the carrying mechanism, the secondary line of the transformer is in a vertically downward state in a transposition mode under the action of the gravity of the secondary line, and the transformer passes through the tin immersion container and the detection station along with the rotation of the transmission chain, so that the operations of tin plating and detection are sequentially completed, the production efficiency is improved, the problem of poor uniformity of manual operation is solved, the product quality is favorably ensured, and the use experience of a user is improved.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view in the direction of the front view;

FIG. 3 is a schematic view of the rear side of the present invention;

in the attached drawing, the tin immersion device comprises a frame 1, a frame 2, a tin immersion container 3, a conveying chain 4, a deflector rod 5, a connecting sheet 6, a hanging rod 7, a detection clamping jaw 8, a vertical driving cylinder 9, a horizontal driving cylinder 10, a blowpipe 11, a horizontal moving seat 12, a fork rod 13, a cleaning scraper blade 14 and a cleaning cylinder.

Detailed Description

The invention will be further described with reference to the following drawings and specific embodiments:

the invention relates to a tin immersion detection device, which comprises a rack 1, a tin immersion station and a detection station, wherein the tin immersion station is provided with a tin immersion container 2, the tin immersion detection device also comprises a conveying chain 3 arranged on the rack 1, the conveying chain 3 sequentially passes through the tin immersion container 2 and the detection station, a carrying mechanism of a mutual inductor is arranged on the conveying chain 3, the tin immersion station also comprises a deflector rod 4 arranged on the rack 1, and the deflector rod 4 is in interference fit with the mutual inductor in the conveying direction of the conveying chain 3.

The wicking station, the setting of detection station are in frame 1, the both ends of conveying chain 3 are provided with drive sprocket, conveying chain 3 sets up between drive sprocket, through adding the tin material in the tin pot as wicking container 2 when using, and the tin pot heating makes the tin material melt for the tin liquid, has hung conveying chain 3 of mutual-inductor and has rotated for thereby the secondary line of mutual-inductor soaks accomplish the tin-plating in the tin liquid.

Because the mutual-inductor is dragged into the tin pot by conveying chain 3, the mutual-inductor is drawn in the tin liquid that tin pot lateral wall got into the tin pot, because tin liquid density is great and the secondary line advances along with conveying chain 3, the secondary line of mutual-inductor has soaked in the tin liquid at certain angle under the tin liquid resistance, stir the mutual-inductor through driving lever 4 that sets up in frame 1, make the mutual-inductor rotate certain angle, also the annular core of mutual-inductor is the original point, the circle is drawn in the swing of secondary line, make the secondary line fully soak the tin liquid, every mutual-inductor is all stirred, the unanimity of tinning length has been guaranteed, the product uniformity of mutual-inductor has been improved.

Through stirring of the shift lever 4, the conveying chain 3 vibrates, so that secondary wires of the mutual inductor are repeatedly soaked, and high-quality tin plating is guaranteed.

Further, as shown in fig. 1 and 3, the carrying mechanism comprises a connecting sheet 5 and a hanging rod 6, the hanging rod 6 and the connecting sheet 5 are of an integral structure, the connecting sheet 5 is connected with the conveying chain 3, and the hanging rod 6 tilts upwards relative to the horizontal plane.

With the help of the tilting of the hanging rod 6, the mutual inductor tends to be close to the connecting sheet 5 and the conveying chain 3 after being hung on the hanging rod 6, and the mutual inductor can be prevented from falling off when the conveying chain 3 is trembled.

Further, the detection station is provided with a detection clamping jaw 7 and a driving frame for driving the detection clamping jaw 7 to move in the vertical and horizontal directions, and a connecting contact matched with a secondary line of the mutual inductor is arranged on the detection clamping jaw 7.

As shown in fig. 1, fig. 2 and fig. 3, when the mutual inductor moves to the detection station, the detection clamping jaw 7 stretches out under the movement drive of the driving frame, the detection clamping jaw 7 is a pneumatic clamping jaw, the secondary line of the mutual inductor is gripped through the closing of the detection clamping jaw 7, the connecting contact of the secondary line of the mutual inductor on the detection clamping jaw 7 is conducted with the mutual inductor, so that the detection equipment is communicated with the mutual inductor, and further, the conditions are provided for detecting the performance parameters of the mutual inductor, such as the on-off and the like.

Further, as shown in fig. 3, the driving frame includes a vertical driving cylinder 8 and a horizontal driving cylinder 9, a fixed end of the vertical driving cylinder 8 is disposed on the frame 1 along the vertical direction, the horizontal driving cylinder 9 is disposed at a telescopic end of the vertical driving cylinder 8 along the horizontal direction, and the detecting clamping jaw 7 is disposed at a telescopic end of the horizontal driving cylinder 9.

Make horizontal driving cylinder 9 and detection clamping jaw 7 have the degree of freedom that goes up and down along vertical direction with the help of vertical driving cylinder 8, make detection clamping jaw 7 have the degree of freedom of horizontal reciprocating translation with the help of horizontal driving cylinder 9, through the cooperation of vertical driving cylinder 8 and horizontal driving cylinder 9, realize detecting clamping jaw 7 and displacement in vertical and horizontal direction, guarantee that the mutual-inductor is in place in the motion, detect clamping jaw 7 and can in time carry out the centre gripping and detect.

Further, as shown in fig. 1 and fig. 3, a blanking station is arranged at the rear end of the detection station, the blanking station includes a blowpipe 10 arranged on the frame 1 and a blanking frame arranged on the base of the frame 1, the blanking frame includes a horizontal moving seat 11 driven by an air cylinder and a fork rod 12 arranged on the horizontal moving seat 11, the fork rods 12 are arranged side by side in two groups, and the blanking frame and the blowpipe 10 are respectively located on two sides of the moving track of the mutual inductor on the conveying chain 3.

As shown in fig. 1, the fork arms 12 are provided with two sets on the horizontal moving seat 11, the two sets of fork arms 12 are respectively used for storing qualified mutual inductors and unqualified mutual inductors, after the mutual inductors enter the blanking station through the detection station, according to the detection result, the air cylinder drives the horizontal moving seat 11 to move horizontally, the corresponding fork arms 12 are moved to the mutual inductor position to be blanked, the fork arms 12 are connected with the hanging rod 6 of the mutual inductor, air is blown through the blow pipe 10, the mutual inductors are blown down and inserted into the fork arms 12, blanking and classified storage of materials are completed, and after the fork arms 12 are fully inserted, the materials are manually collected and subsequently packed and the like.

Further, as shown in fig. 1, the shift lever 4 is disposed above the conveyor chain 3 and on the transformer entrance side of the wicking container 2. The upper and lower position of the driving lever 4 and the conveying chain 3 is arranged, so that the driving force is from top to bottom, and due to the annular shape of the mutual inductor, the driving lever 4 can press the secondary wire of the mutual inductor into the tin liquor, the pressing degree of each mutual inductor is ensured to be the same, and under the condition that the liquid level of the tin liquor is kept, the tin plating length is basically consistent, and the uniformity of products is improved.

Along with the continuous rotation of conveying chain 3, conveying chain 3 takes place slight tremble when driving lever 4 breaks away from the mutual-inductor, guarantees that follow-up secondary line that still is in the mutual-inductor of tin pot is soaked repeatedly, improves the tinning quality, prevents to have the wire part of non-tinning.

Further, as shown in fig. 2, the carrying mechanism is arranged on the conveying chain 3 at equal intervals, when the shift lever 4 is in contact with a group of mutual inductors on the carrying mechanism, another group of mutual inductors are positioned on one side of the output of the tin immersion container 2, secondary wires of the mutual inductors are lapped on the side wall of the tin immersion container 2, the tail ends of the secondary wires of the mutual inductors are positioned in the tin immersion container 2, and when the shift lever 4 is positioned between the two groups of mutual inductors, another group of mutual inductors are positioned at a detection station.

As shown in fig. 2, when the conveying chain 3 shakes under the action of the shifting rod 4, the tail end of the secondary wire of another group of mutual inductors which are about to move out of the tin pot is still in the tin pot, redundant tin liquid can flow back to the tin pot through the shaking, excessive loss of the tin liquid is avoided, and uneven tin plating of the secondary wire caused by the excessive tin liquid is also avoided.

Further, the deflector rod 4 is positioned above the conveying chain 3 and close to the middle of the conveying chain 3. As shown in figure 1, on one hand, the moderate vibration degree of the conveying chain 3 is ensured, on the other hand, the chain dropping condition caused by the fact that the deflector rod 4 is close to the chain wheel is avoided, and the stable operation of the tin immersion detection device is ensured.

Further, as shown in fig. 1 and 3, a cleaning blade 13 is further provided on the frame 1, a horizontally disposed cleaning cylinder 14 is connected to the cleaning blade 13, and the cleaning blade 13 is driven by the cleaning cylinder 14 to scrape the surface of the tin liquid in the immersion tin container 2.

The cleaning cylinder 14 drives the cleaning scraper 13 to scrape on the surface of the tin liquid when floating impurities exist on the surface of the tin liquid, so that the secondary wire of the mutual inductor can be ensured to contact with the clean tin liquid, and the tin plating quality is improved.

Claims

1. The utility model provides a wicking detection device, includes frame (1) and wicking station, detection station, the wicking station is provided with wicking container (2), its characterized in that: still including setting up conveying chain (3) in frame (1), conveying chain (3) are provided with the mechanism that carries of mutual-inductor through wicking container (2) and detection station in proper order on conveying chain (3), wicking station still includes driving lever (4) that set up on frame (1), driving lever (4) form interference fit with the mutual-inductor on the direction of delivery of conveying chain (3).

2. The wicking detection device of claim 1, wherein: carry the mechanism include connection piece (5) and peg (6), peg (6) are overall structure with connection piece (5), connection piece (5) are connected with conveying chain (3), the relative level of peg (6) upwards perk.

3. The wicking detection device of claim 1, wherein: the detection station is provided with a detection clamping jaw (7) and a driving frame for driving the detection clamping jaw (7) to move in the vertical and horizontal directions, and a connecting contact matched with a secondary line of a mutual inductor is arranged on the detection clamping jaw (7).

4. The wicking detection device of claim 3, wherein: the drive frame includes vertical actuating cylinder (8) and horizontal driving cylinder (9), the stiff end of vertical actuating cylinder (8) sets up on frame (1) along vertical direction, horizontal driving cylinder (9) set up the flexible end at vertical actuating cylinder (8) along the horizontal direction, detect clamping jaw (7) and set up the flexible end at horizontal driving cylinder (9).

5. The wicking detection device of claim 1, wherein: the rear end of the detection station is provided with a blanking station, the blanking station comprises a blow pipe (10) arranged on the frame (1) and a blanking frame arranged on a base of the frame (1), the blanking frame comprises a horizontal moving seat (11) driven by an air cylinder and fork rods (12) arranged on the horizontal moving seat (11), the fork rods (12) are arranged side by side in two groups, and the blanking frame and the blow pipe (10) are respectively positioned on two sides of the moving track of a mutual inductor on the conveying chain (3).

6. The wicking detection device of claim 1, wherein: the deflector rod (4) is arranged above the conveying chain (3) and is positioned on the transformer entering side of the tin immersion container (2).

7. The wicking detection device of claim 1, wherein: the carrying mechanism is arranged on the conveying chain (3) at equal intervals, when the shifting rod (4) is in contact with a group of mutual inductors on the carrying mechanism, another group of mutual inductors are positioned on one output side of the tin immersion container (2), secondary wires of the mutual inductors are lapped on the side wall of the tin immersion container (2), the tail ends of the secondary wires of the mutual inductors are positioned in the tin immersion container (2), and when the shifting rod (4) is positioned between the two groups of mutual inductors, another group of mutual inductors are positioned on a detection station.

8. The wicking detection device of claim 1, wherein: the shifting rod (4) is positioned above the conveying chain (3) and is close to the middle part of the conveying chain (3).

9. The wicking detection device of claim 1, wherein: still be provided with cleaning blade (13) on frame (1), cleaning blade (13) are connected with the clean cylinder (14) of level setting, cleaning blade (13) are scraped on the tin liquid surface of wicking container (2) with the help of the drive of clean cylinder (14).