CN117471228B - Testing arrangement is used in condenser production - Google Patents

Abstract

The invention relates to the field of capacitor production, in particular to a testing device for capacitor production. The technical problems of the invention are as follows: in the test process, the explosion phenomenon of the capacitor is not treated correspondingly, so that economic loss is caused, and the electrolyte leaked outwards in the explosion process is not treated in time, so that the loss is enlarged. The technical implementation scheme of the invention is as follows: a testing device for capacitor production comprises a body, a conveyer belt, an explosion-proof window and the like; the body is provided with a conveying belt; an explosion-proof window is arranged on the body and is positioned in front of the conveying belt. According to the invention, the baffle is turned backwards by pulling the rope through the buffer rope, the explosion-proof frame is communicated with the storage container, the fire-extinguishing powder in the storage container is transferred into the explosion-proof frame, and the capacitor is covered by the fire-extinguishing powder transferred from the storage container, so that the capacitor is wrapped by the fire-extinguishing powder to achieve a better fire-extinguishing effect.

Description

Testing arrangement is used in condenser production

Technical Field

The invention relates to the field of capacitor production, in particular to a testing device for capacitor production.

Background

In the production process of the capacitor, there are the following problems;

After the capacitor is produced, the capacitor needs to be tested, whether the capacitor can be normally used or not is detected, meanwhile, whether the capacitor can be used or not is detected, and when the capacitor is in short circuit, electric sparks appear at the contact part of the capacitor and test equipment, the temperature of the short-circuited capacitor rises, the internal pressure begins to increase, a safety valve at the bottom of the capacitor begins to release pressure, the capacitor explodes in the process of continuously increasing the internal pressure of the capacitor, the test equipment is damaged, the tank and the top cover of the capacitor begin to separate to form gaps, insulating oil in the capacitor leaks out to be in contact with the electric sparks generated by the short circuit, open fire appears on the capacitor, the integral temperature of the capacitor rises again, the possibility of secondary explosion is greatly increased, the damage of the test equipment is increased, and economic loss is caused;

After the explosion of the capacitor, the electrolyte in the capacitor begins to leak outwards, and the explosion is easy to happen again due to the inflammable and explosive characteristics of the electrolyte, so that larger loss is caused.

Disclosure of Invention

In order to overcome the defects that economic loss is caused because the explosion phenomenon of the capacitor is not treated correspondingly in the test process and loss expansion is caused because electrolyte leaked outwards in explosion is not treated in time, the invention provides a test device for capacitor production.

The technical implementation scheme of the invention is as follows: a testing device for capacitor production comprises a body, a conveyer belt and an explosion-proof window; the body is provided with a conveying belt; an explosion-proof window is arranged on the body and positioned in front of the conveying belt; the reaction assembly is also included; a plurality of reaction components are arranged on the conveying belt; the reaction assembly comprises a mounting frame, an electric rotating plate, an air bag and a limiting frame; the conveyer belt is fixedly connected with a mounting frame; a plurality of electric rotating plates are arranged on the mounting frame, and a through groove is formed between all the electric rotating plates on the same mounting frame; the bottoms of all the electric rotating plates are fixedly connected with an air bag respectively, all the air bags are provided with electromagnets, and all the electromagnets are mutually adsorbed; a plurality of limiting frames used for limiting are connected to the mounting frame in a sliding manner, and all the limiting frames are connected with the corresponding air bags.

More preferably, the device also comprises a buffer frame, a spring telescopic rod and a rubber column; the body is fixedly connected with a buffer frame, the buffer frame is positioned in the conveying belt, and soft cloth is arranged on the buffer frame; the body is fixedly connected with a plurality of left-right distributed spring telescopic rods; all the telescopic parts of the spring telescopic rods are fixedly connected with rubber columns, the rubber columns are positioned below the buffer frame, and the rubber columns are in contact with the soft cloth.

More preferably, the bag I is also included; the tops of all the limiting frames are of an inclined design, and the downward inclined directions face the corresponding through grooves; all the limiting frames are respectively detachably connected with a bag I for preliminary fire extinguishing, one ends of all the bags I close to the through grooves are all provided with easy-to-break parts I, and all the easy-to-break parts I are all provided with friction layers.

More preferably, the bag II is also included; the explosion-proof window bottom is detachably connected with a plurality of bag II that is used for putting out a fire at last, and all bags II all are equipped with easy fracture department II near the one end of conveyer belt.

More preferably, an aftertreatment component is also included; a post-treatment component is arranged in front of the body; the post-processing component comprises; the anti-explosion device comprises an anti-explosion frame, a fixed frame, a storage container, a baffle plate and a buffer rope; the front side of the body is detachably connected with an explosion-proof frame; the explosion-proof frame is fixedly connected with a fixed frame; the front side of the explosion-proof frame is communicated with a storage container, and a cover is arranged on the storage container; the front side of the explosion-proof frame is rotationally connected with a plurality of baffles; the explosion-proof frame and the baffle are fixedly connected with a plurality of buffer ropes.

More preferably, the device further comprises a filter screen; a filter screen for intercepting the capacitor is fixedly connected in the explosion-proof frame and is positioned below the buffer rope.

More preferably, the device further comprises a pushing strip and a loosening column; a plurality of pushing strips which are distributed up and down are connected in a sliding way in the storage container, and the two pushing strips at the rearmost part are fixedly connected with the corresponding baffle plates through thin ropes; the front sides of all the baffles are fixedly connected with a plurality of loose columns respectively.

More preferably, all of the loose columns are staggered.

More preferably, the device further comprises a dividing rope; a plurality of dividing ropes for scattering dust are fixedly connected between the pushing strips above and the pushing strips below.

More preferably, all the dividing ropes are distributed in a staggered manner.

Compared with the prior art, the invention has the following advantages: the reaction component is used for transferring the short-circuit capacitor, so that the possibility of explosion of the capacitor is reduced, and the damage of the explosion of the capacitor to the body is avoided.

According to the invention, the impact on the capacitor during impact is reduced through the soft cloth, the spring telescopic rod and the rubber column, so that the capacitor is prevented from being subjected to larger impact when the capacitor falls down, and secondary explosion occurs in the capacitor body.

According to the invention, the capacitor is subjected to fire extinguishing treatment for many times through the bag I and the bag II, so that open fire on the capacitor is extinguished, and the explosion of the capacitor is avoided.

According to the invention, the baffle is turned backwards by pulling the rope through the buffer rope, the explosion-proof frame is communicated with the storage container, the fire-extinguishing powder in the storage container is transferred into the explosion-proof frame, and the capacitor is covered by the fire-extinguishing powder transferred from the storage container, so that the capacitor is wrapped by the fire-extinguishing powder to achieve a better fire-extinguishing effect.

According to the invention, the fire extinguishing powder in the storage container is divided and scattered through the loosening column and the dividing rope, so that the phenomenon of agglomeration of the fire extinguishing powder in the storage container is avoided, and the wrapping of the fire extinguishing powder on the capacitor is influenced.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a test device for capacitor production according to the present invention;

FIG. 2 is a partial cross-sectional view of a test device for capacitor production according to the present invention;

FIG. 3 is a schematic view showing a partial structure of a test device for capacitor production according to the present invention;

FIG. 4 is a schematic view showing a first structure of a reaction module disclosed in the test device for capacitor production of the present invention;

FIG. 5 is a schematic view showing a second structure of a reaction module disclosed in the test device for capacitor production of the present invention;

FIG. 6 is a cross-sectional view of the post-processing assembly disclosed in the test apparatus for capacitor production of the present invention;

fig. 7 is an enlarged view of a portion a of fig. 6 of the test device for capacitor production according to the present invention.

The marks of the components in the drawings are as follows: 1-body, 2-conveyer belt, 3-explosion-proof window, 4-mounting bracket, 5-electric rotating plate, 6-gasbag, 7-limit frame, 101-bag I, 102-bag II, 110-buffer frame, 111-spring telescopic rod, 112-rubber column, 201-explosion-proof frame, 202-fixed frame, 203-storage container, 207-baffle, 208-buffer rope, 209-filter screen, 210-pushing strip, 211-loose column, 212-partition rope, 5 a-through groove, 6 a-electromagnet, 101 a-easy-to-break part I, 102 a-easy-to-break part II and 110 a-soft cloth.

Detailed Description

The following description of the technical solutions in the embodiments of the present invention will be clear and complete, and it is obvious that the described embodiments are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

The testing device for capacitor production comprises a body 1, a conveyer belt 2 and an explosion-proof window 3 as shown in figures 1-5; the body 1 is provided with a conveying belt 2; an explosion-proof window 3 is arranged on the body 1, and the explosion-proof window 3 is positioned in front of the conveyer belt 2;

The reaction assembly is also included; a plurality of reaction components are arranged on the conveying belt 2; the reaction assembly comprises a mounting frame 4, an electric rotating plate 5, an air bag 6 and a limiting frame 7; the conveyer belt 2 is fixedly connected with a mounting frame 4; two electric rotating plates 5 which are bilaterally symmetrical are arranged on the mounting frame 4, and a through groove 5a is formed between all the electric rotating plates 5 on the same mounting frame 4; the bottoms of all the electric rotating plates 5 are fixedly connected with an air bag 6 respectively, all the air bags 6 are provided with electromagnets 6a, and all the electromagnets 6a are mutually adsorbed; two limit frames 7 which are bilaterally symmetrical are connected to the mounting frame 4 in a sliding manner, and all the limit frames 7 are connected with the corresponding air bags 6.

Also comprises a buffer frame 110, a spring telescopic rod 111 and a rubber column 112; the body 1 is fixedly connected with a buffer frame 110, the buffer frame 110 is positioned in the conveying belt 2, and soft cloth 110a is arranged on the buffer frame 110; two left-right distributed spring telescopic rods 111 are fixedly connected to the body 1; all the telescopic parts of the spring telescopic rods 111 are fixedly connected with rubber columns 112, the rubber columns 112 are positioned below the buffer frame 110, and the rubber columns 112 are in contact with the soft cloth 110 a.

Before the invention is used, a capacitor conveying device is arranged at the left side of the invention, a capacitor is conveyed into the invention through the capacitor conveying device, a capacitor collecting device is arranged at the right side of the invention, and the capacitor after testing is transferred through the capacitor collecting device.

Starting the test operation of the capacitor, starting the capacitor conveying equipment to convey the capacitor to the reaction component, wherein the capacitor is positioned on the electric rotating plate 5, the safety valve of the capacitor is opposite to the through groove 5a, the capacitor is blocked above the air bag 6, the air bag 6 is in a closed state, the conveyer belt 2 is started to drive the reaction component and the capacitor to move rightwards to start the test of the capacitor, when the capacitor moves to the shielding area of the explosion-proof window 3, the capacitor is tested through the body 1, after the test is finished, the capacitor which is finished is moved rightwards, the capacitor which is finished is collected and transferred through the capacitor collecting equipment, the capacitor is not fixed and slightly rocked, the air bag 6 is impacted by the air discharged by the capacitor through groove 5a, the air bag 6 starts to expand, the air bag 6 starts to push the limiting frame 7 to move upwards, after the limiting frame 7 contacts with the capacitor, the limiting frame 7 extrudes and fixes the capacitor, so that the capacitor is prevented from being inclined when shaking, liquid in the capacitor is influenced, gas sprayed by the capacitor safety valve is continuously increased, two electromagnets 6a adsorbed together are flushed by the gas sprayed by the capacitor safety valve, the electromagnets 6a send out signals, the corresponding electric rotating plate 5 is turned downwards, the capacitor is dropped downwards, the capacitor is kept in a straight state when being dropped downwards due to extrusion limiting of the limiting frame 7, the capacitor is prevented from losing contact with test equipment, the possibility that the capacitor always generates electric sparks to increase explosion is avoided, the capacitor drops to a buffer area of the buffer frame 110, when the capacitor drops to the soft cloth 110a, the capacitor carries the soft cloth 110a to extrude a rubber column 112 on the spring telescopic rod 111, the spring telescopic rod 111 starts to shrink, the impact force that the condenser dropped downwards obtains the buffering, reduces the impact that receives when the condenser striking through the rubber column 112, avoids when the condenser whereabouts, and the condenser receives great impact, and the condenser appears secondary explosion at body 1, causes the injury to body 1, and after soft cloth 110a contacted with rubber column 112, because of the condenser only one end contacted with rubber column 112, the messenger condenser can incline forward, and the condenser shifts to body 1 outside, avoids causing the injury to body 1.

Example 2

Based on the embodiment 1, as shown in fig. 4-6, the bag I101 is further included; the tops of all the limiting frames 7 are of an inclined design, and the downward inclined directions face the corresponding through grooves 5a; all limiting frames 7 are respectively detachably connected with a bag I101, one ends of all bags I101 close to the through grooves 5a are provided with easy-to-break parts I101 a, and all easy-to-break parts I101 a are provided with friction layers.

The utility model also comprises a bag II 102; the bottom of the explosion-proof window 3 is detachably connected with three bags II 102, and one end, close to the conveying belt 2, of all the bags II 102 is provided with a breakable part II 102a.

Before using the present invention, it is necessary to add sufficient fire-fighting powder to each of the bags I101 and II 102.

Considering when can appear open fire on the condenser, the possible of condenser explosion increases, when needs handle the condenser, go out the open fire on the condenser, avoid the condenser to take place secondary explosion, this moment the condenser is laminated with sack I101, when the condenser drops downwards, the condenser pulls easy fracture department I101 a, make easy fracture department I101 a open, the fire-extinguishing powder diffusion in the sack I101 comes out and carries out preliminary fire extinguishing treatment to the condenser, friction between increase condenser and the easy fracture department I101 a through the friction layer on easy fracture department I101 a, ensure that the condenser can pull easy fracture department I101 a, make the fire-extinguishing powder in the sack I101 can scatter on the condenser, through the slope design at locating part 7 top, make the fire-extinguishing powder in the sack I101 can be better scatter on the condenser.

Considering that the fire extinguishing powder in the bag I101 can not be used for extinguishing the fire on the capacitor, after the soft cloth 110a is carried by the falling of the capacitor and is contacted with the rubber column 112 to incline forwards, the test area at the top of the capacitor falls down towards the direction of the bag II 102, when the top of the capacitor is contacted with the position II 102a easy to break, the position II 102a easy to break is scratched at the top of the capacitor, the fire extinguishing powder in the bag II 102 is outwards transferred to cover the top of the capacitor, and secondary fire extinguishing treatment is carried out on the capacitor, so that the fire on the capacitor is extinguished, and explosion of the capacitor is avoided.

Example 3

On the basis of the embodiment 2, as shown in fig. 2 and fig. 6-7, a post-processing component is further included; a post-treatment component is arranged in front of the body 1; the post-processing component comprises; explosion proof frame 201, fixed frame 202, storage container 203, baffle 207 and buffer cord 208; the front side of the body 1 is detachably connected with an explosion-proof frame 201; a fixed frame 202 is fixedly connected to the explosion-proof frame 201; the front side of the explosion-proof frame 201 is communicated with a storage container 203, and the storage container 203 is provided with a cover; the front side of the explosion-proof frame 201 is rotatably connected with two baffles 207 which are distributed up and down; the explosion-proof frame 201 and the baffle 207 are fixedly connected with a plurality of buffer ropes 208 which are distributed in a staggered way.

Also included is a screen 209; a filter screen 209 is fixedly connected in the explosion-proof frame 201, and the filter screen 209 is positioned below the buffer rope 208.

Also included are push bar 210 and loosening posts 211; six pushing strips 210 distributed in a rectangular array are connected in a sliding manner in the storage container 203, and the two pushing strips 210 at the rearmost part are fixedly connected with the corresponding baffle 207 through strings; a plurality of loose posts 211 are fixedly connected to the front sides of all the baffles 207.

All the loose columns 211 are distributed in a staggered manner, and the scattering effect of the loose columns 211 on the fire-extinguishing powder is improved through the staggered distribution of the loose columns 211, so that the influence on the wrapping of the capacitor after the agglomerated fire-extinguishing powder is transferred into the explosion-proof frame 201 is avoided.

Also included is a dividing string 212; a plurality of dividing ropes 212 are fixedly connected between the upper three pushing strips 210 and the lower three pushing strips 210.

All the dividing ropes 212 are distributed in a staggered manner, and the dividing ropes 212 are distributed in a staggered manner, so that the dividing ropes 212 are reinforced to separate the fire extinguishing powder in the storage container 203, and the phenomenon of agglomeration of the fire extinguishing powder in the storage container 203 is avoided.

Before using the present invention, it is necessary to add sufficient fire-extinguishing powder into the storage container 203 and to lay sufficient slaked lime into the bottom of the explosion-proof frame 201.

Considering that the outward transfer of the capacitor is not harmful to the body 1, but the capacitor can explode around the body 1, harm is caused to staff, and the explosion can splash the electrolyte in the capacitor to the periphery, and the electrolyte has corrosiveness, the chain reaction easily appears on the circuit of sputtering to peripheral equipment, huge loss is caused, when the capacitor transfers to the outside of the body 1, the gap between the capacitor tank and the top cover is in a downward state, the electrolyte in the capacitor starts to transfer outwards, at this moment, the capacitor tank and the top cover are positioned in the explosion-proof frame 201, the electrolyte is transferred into the explosion-proof frame 201, the electrolyte is neutralized by the contact of slaked lime, at this moment, the connection position of the explosion-proof frame 201 and the storage container 203 is blocked by the baffle 207, when the capacitor is contacted with the buffer rope 208, the speed of the falling of the capacitor is weakened again through the buffer rope 208, the capacitor is prevented from being greatly impacted, the electrolyte in the capacitor is prevented from being sputtered to the frame 201, the collection of the electrolyte is influenced, and meanwhile, the buffer rope 208 is pulled to enable the baffle 207 to overturn backwards, the explosion-proof frame 201 and the storage container 203 are communicated, the inner explosion-proof powder in the storage container is transferred outwards, the explosion-proof frame 201 is more conveniently, the fire-proof powder is prevented from falling from the storage container is covered by the storage container, and the capacitor is prevented from being contacted with the fire-proof powder, and the fire-extinguishing powder is prevented from falling by the fire-proof container, and the fire-proof container is conveniently and the fire-proof container is covered by the fire-proof container.

Considering that the phenomenon that the capacitor is short-circuited can not occur frequently, the fire-extinguishing powder in the storage container 203 is in contact with air for a long time to generate a caking phenomenon, when the fire-extinguishing powder in the storage container 203 needs to be used, the fire-extinguishing powder in the storage container 203 cannot be transferred into the explosion-proof frame 201, the fire-extinguishing effect of the capacitor is affected, when the baffle 207 turns backwards, the baffle 207 pulls the pushing strip 210 to move backwards through the thin rope, the pushing strip 210 pushes the fire-extinguishing powder in the storage container 203, the fire-extinguishing powder in the storage container 203 is pushed into the explosion-proof frame 201, the caking fire-extinguishing powder exists in the fire-extinguishing powder in the explosion-proof frame 201, the fire-extinguishing powder in the storage container 203 is separated through the separating rope 212, the caking phenomenon of the fire-extinguishing powder in the storage container 203 is reduced, the separating rope 212 is used for separating the fire-extinguishing powder in the storage container 203, the caking phenomenon of the fire-extinguishing powder in the storage container 203 is avoided, when the caking powder in the storage container 203 is transferred into the explosion-proof frame 201, the fire-extinguishing powder in the caking is pushed into the explosion-proof frame 201, the fire-extinguishing powder is separated from the fire-extinguishing powder in the loose column through the loose column 211, and the fire-extinguishing powder is prevented from being scattered by the loose column 211, and the fire-extinguishing powder is scattered in the loose column, and the fire-extinguishing column is prevented from being affected by the fire-extinguishing powder in the loose column, and the fire-extinguishing column is wrapped by the fire-loosening column.

Finally, it should be noted that: the foregoing description is only illustrative of the preferred embodiments of the present invention, and although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements or changes may be made without departing from the spirit and principles of the present invention.

Claims (10)

1. The testing device for capacitor production comprises a body (1), a conveyer belt (2) and an explosion-proof window (3); the body (1) is provided with a conveyer belt (2); an explosion-proof window (3) is arranged on the body (1), and the explosion-proof window (3) is positioned in front of the conveying belt (2); the device is characterized by also comprising a reaction assembly; a plurality of reaction components are arranged on the conveying belt (2); the reaction assembly comprises a mounting frame (4), an electric rotating plate (5), an air bag (6) and a limiting frame (7); a mounting rack (4) is fixedly connected on the conveying belt (2); a plurality of electric rotating plates (5) are arranged on the mounting frame (4), and a through groove (5 a) is formed between all the electric rotating plates (5) on the same mounting frame (4); the bottoms of all the electric rotating plates (5) are fixedly connected with an air bag (6), all the air bags (6) are provided with electromagnets (6 a), and all the electromagnets (6 a) are mutually adsorbed; a plurality of limiting frames (7) used for limiting are connected to the mounting frame (4) in a sliding manner, and all the limiting frames (7) are connected with the corresponding air bags (6).

2. A test device for capacitor production according to claim 1, further comprising a buffer frame (110), a spring expansion rod (111) and a rubber column (112); a buffer frame (110) is fixedly connected to the body (1), the buffer frame (110) is positioned in the conveying belt (2), and soft cloth (110 a) is arranged on the buffer frame (110); a plurality of left-right distributed spring telescopic rods (111) are fixedly connected on the body (1); all the telescopic parts of the spring telescopic rods (111) are fixedly connected with rubber columns (112) together, the rubber columns (112) are positioned below the buffer frame (110), and the rubber columns (112) are in contact with the soft cloth (110 a).

3. A test device for the production of capacitors as claimed in claim 2, further comprising a bag i (101); the tops of all the limiting frames (7) are in inclined design, and the downward inclined directions face the corresponding through grooves (5 a); all limit frames (7) are detachably connected with a bag I (101) for preliminary fire extinguishing, one end of all bags I (101) close to the through groove (5 a) is provided with a breakable part I (101 a), and all breakable parts I (101 a) are provided with friction layers.

4. A test device for capacitor production according to any one of claims 2-3, further comprising a bag ii (102); the bottom of the explosion-proof window (3) is detachably connected with a plurality of bags II (102) used for final fire extinguishment, and one ends, close to the conveying belt (2), of all the bags II (102) are provided with easy-to-break parts II (102 a).

5. A test device for capacitor production as defined in claim 1, further comprising a post-processing assembly; a post-treatment component is arranged in front of the body (1); the post-processing component comprises; an explosion-proof frame (201), a fixed frame (202), a storage container (203), a baffle (207) and a buffer rope (208); the front side of the body (1) is detachably connected with an explosion-proof frame (201); a fixed frame (202) is fixedly connected to the explosion-proof frame (201); the front side of the explosion-proof frame (201) is communicated with a storage container (203), and a cover is arranged on the storage container (203); the front side of the explosion-proof frame (201) is rotatably connected with a plurality of baffles (207); the explosion-proof frame (201) and the baffle (207) are fixedly connected with a plurality of buffer ropes (208).

6. A test device for the production of capacitors as claimed in claim 5, further comprising a sieve (209); a filter screen (209) for intercepting a capacitor is fixedly connected in the explosion-proof frame (201), and the filter screen (209) is positioned below the buffer rope (208).

7. A test device for the production of capacitors as claimed in claim 5, further comprising a pusher bar (210) and a loose column (211); a plurality of pushing strips (210) which are distributed up and down are connected in a sliding way in the storage container (203), and the two pushing strips (210) at the rearmost part are fixedly connected with the corresponding baffle plates (207) through thin ropes; a plurality of loose columns (211) are fixedly connected on the front sides of all the baffles (207).

8. A test device for the production of capacitors as claimed in claim 7, characterized in that all loose pillars (211) are staggered.

9. A test device for capacitor production according to claim 8, further comprising a dividing string (212); a plurality of dividing ropes (212) for scattering dust are fixedly connected between the pushing strips (210) above and the pushing strips (210) below.

10. A test device for the production of capacitors as claimed in claim 9, characterized in that all the dividing cords (212) are arranged in a staggered manner.