CN212907411U - Capacitor and capacitor cover plate with improved structure - Google Patents

Abstract

The utility model belongs to the technical field of the condenser, especially, relate to a condenser apron of institutional advancement, including the apron main part, the apron main part is protruding to be stretched upward and is had last lug, the apron main part is protruding to be stretched downward and is had lower lug, the apron main part, all be provided with first through-hole on last lug and the lower lug, protruding to be stretched downward on the lower lug has the detection post, be provided with on the detection post with the first through-hole is located the second through-hole on the same vertical line, first through-hole and the second through-hole is used for supplying a temperature sensor to get into the condenser and carry out temperature detection; the utility model discloses the realization utilizes temperature sensor detects the inside temperature variation of condenser, need not to punch again, has avoided appearing damaging the condition of condenser, and is simple and convenient, has improved efficiency, compares traditional detection method, institutional advancement's condenser apron can make the temperature to the condenser detect convenient more, quick, and can not damage the condenser.

Description

Capacitor and capacitor cover plate with improved structure

Technical Field

The utility model belongs to the technical field of the condenser, especially, relate to a condenser and institutional advancement's condenser apron thereof.

Background

The capacitor is an essential element for terminals of various electronic products, and plays an important role in industrial frequency conversion, power supply and other applications. The high temperature affects the service life of the electronic components, and may cause early failure of the electronic components, thereby causing the failure or invalidation of the whole equipment, and possibly causing an accident in case of serious failure. Therefore, in order to ensure that the temperature change of the capacitor meets the requirement of equipment specification, the temperature change of the capacitor is detected.

The temperature change of present condenser detects and all places the condenser in a simulation operational environment earlier mostly, then punches on condenser apron through the manual work, passes the hole entering condenser inside detection temperature on the apron with temperature sensor, but discovers in the actual operation process, causes the damage to electric capacity carelessly very easily when punching, and troublesome poeration, inefficiency.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a condenser and institutional advancement's condenser apron aims at solving and causes the damage to the condenser easily when the mode that punches on condenser apron detects the temperature variation of condenser among the prior art, and troublesome poeration, technical problem such as inefficiency.

In order to achieve the above object, an embodiment of the utility model provides a pair of institutional advancement's condenser apron, including the apron main part, the apron main part is protruding to be stretched upward and is had last lug, the apron main part is protruding to be stretched downward and is had lower lug, the apron main part go up the lug with all be provided with first through-hole down on the lug, it has the detection post to stretch downward on the lug down, be provided with on the detection post with first through-hole is located the second through-hole on the same vertical line, first through-hole with the second through-hole is used for supplying a temperature sensor to get into the condenser and carries out temperature detection.

Optionally, a first stop block, a second stop block and a third stop block are sequentially and fixedly arranged on the lower protruding block along the clockwise direction, one ends of the first stop block, the second stop block and the third stop block are fixedly connected with the detection column, the other ends of the first stop block, the second stop block and the third stop block are respectively located at the edge of the lower protruding block, a first isolation region is formed between the first stop block and the second stop block, a second isolation region is formed between the second stop block and the third stop block, and a third isolation region is formed between the third stop block and the first stop block.

Optionally, be provided with third through-hole and fourth through-hole on the condenser apron of institutional advancement, the third through-hole is located second isolation region department, the fourth through-hole is located third isolation region department, the third through-hole internal fixation is provided with the negative pole connecting seat, the fourth through-hole internal fixation is provided with anodal connecting seat, the last fixed surface of negative pole connecting seat is provided with negative connection terminal, the lower fixed surface of negative pole connecting seat is provided with the negative pole spliced pole, the last fixed surface of anodal connecting seat is provided with anodal connecting terminal, the lower fixed surface of anodal connecting seat is provided with the anodal spliced pole.

Optionally, the positive connecting column and the negative connecting column are both provided with second grooves.

Optionally, still be provided with first sign structure and second sign structure on the condenser apron of institutional advancement, first sign structure includes first sign recess, first sign recess is located on the lug down, first sign recess is located the third isolation region, second sign structure is including the second sign recess, the second sign recess is located on the lug, first sign recess with the protruding piece of "plus" shape is all fixed to be provided with in second sign recess bottom.

Optionally, a fifth through hole is formed in the cover plate main body and located in the first isolation region, a first groove is formed in the lower protruding block, a second groove is formed in the upper protruding block and located below the fifth through hole, and the second groove is located above the fifth through hole.

Optionally, a warning assembly is further fixedly arranged on the capacitor cover plate with the improved structure, the warning assembly is fixedly mounted on the upper protruding block, the warning assembly is connected with the temperature sensor, and the warning assembly is used for reminding whether the capacitor is unqualified.

Optionally, the warning assembly comprises a buzzer, the buzzer is fixedly mounted on the upper protruding block, and the buzzer is connected with the temperature sensor.

The embodiment of the utility model provides an above-mentioned one or more technical scheme in the condenser apron of institutional advancement has one of following technological effect at least: firstly, a capacitor cover plate with an improved structure is installed on a capacitor, one end of a temperature sensor sequentially penetrates through a first through hole and a second through hole on an upper convex block and a first through hole on a lower convex block to enter the capacitor, the temperature sensor is utilized to detect the temperature change in the capacitor without re-punching, the condition that the capacitor is damaged is avoided, the capacitor is simple and convenient, the efficiency is improved, then the capacitor is electrified, the capacitor is positioned in a simulated working environment, the temperature sensor detects the temperature change in the capacitor in real time and converts the detected temperature data into a signal to be sent to a temperature recorder, the temperature recorder records and displays the temperature in the capacitor in real time, so that a worker can easily know the temperature in the capacitor, when the temperature of the capacitor in the simulated working environment rises to exceed a limit value, the temperature sensor transmits the temperature data to the temperature recorder, make the staff can know this condenser and be unsatisfactory from the temperature recorder, compare traditional detection method, institutional advancement's condenser apron can make the temperature to the condenser detect convenient more, quick, and can not damage the condenser.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the embodiments or the prior art descriptions will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without inventive labor.

Fig. 1 is a schematic structural diagram of a capacitor cover plate with an improved structure according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a capacitor cover plate with an improved structure according to an embodiment of the present invention.

Fig. 3 is a schematic structural diagram of a capacitor cover plate with an improved structure according to an embodiment of the present invention.

Fig. 4 is a schematic structural diagram of a capacitor cover plate with an improved structure according to an embodiment of the present invention.

Fig. 5 is a schematic structural diagram of a capacitor cover plate with an improved structure according to an embodiment of the present invention.

The cover plate comprises a cover plate body 1, an upper convex block 2, a lower convex block 3, a negative electrode connecting seat 4, a positive electrode connecting seat 5, a first identification structure 6, a second identification structure 7, a fifth through hole 8 and a warning assembly 9;

the detection device comprises a first through hole 21, a second groove 22, a detection column 31, a second through hole 32, a first stop 33, a second stop 34, a third stop 35, a first groove 36, a negative connection terminal 41, a negative connection column 42, a positive connection terminal 51, a positive connection column 52, a second groove 521, a first identification groove 61 and a second identification groove 71.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below by referring to the drawings are exemplary and intended to explain the embodiments of the present invention and are not to be construed as limiting the present invention.

In the description of the embodiments of the present invention, it should be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientation or positional relationship indicated in the drawings, which is only for convenience in describing the embodiments of the present invention and simplifying the description, and do not indicate or imply that the device or element so indicated must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the embodiments of the present invention, "a plurality" means two or more unless specifically limited otherwise.

In the embodiments of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly, e.g., as fixed or detachable connections or as an integral part; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the embodiments of the present invention can be understood by those skilled in the art according to specific situations.

In an embodiment of the present invention, as shown in fig. 1 and 2, a capacitor cover plate with improved structure is provided, which includes a cover plate main body 1, the cover plate main body 1 protrudes upward to have an upper protrusion 2, the cover plate main body 1 protrudes downward to have a lower protrusion 3, the cover plate main body 1 is provided with a first through hole 21 on the upper protrusion 2 and the lower protrusion 3, the lower protrusion 3 protrudes downward to have a detection column 31, the detection column 31 is provided with a second through hole 32 on the same vertical line as the first through hole 21, the first through hole 21 and the second through hole 32 are used for allowing a temperature sensor to enter the capacitor for temperature detection.

In this embodiment, when in use, the capacitor cover plate with the improved structure is firstly installed on a capacitor, one end of a temperature sensor sequentially penetrates through the first through hole 21 on the upper lug 2, the second through hole 32 and the first through hole 21 on the lower lug 3 to enter the capacitor, so that the temperature sensor is used for detecting the temperature change in the capacitor without re-punching, the condition of damaging the capacitor is avoided, the operation is simple and convenient, the efficiency is improved, then the capacitor is electrified, the capacitor is positioned in a simulated working environment, the temperature sensor detects the temperature change in the capacitor in real time and converts the detected temperature data into a signal to be sent to a temperature recorder, the temperature recorder records and displays the temperature in the capacitor in real time, and a worker can easily know the temperature in the capacitor, when the condenser temperature rise in simulation work environment exceeded the limit value, temperature sensor can give temperature data transmission the temperature recorder for the staff can follow temperature recorder department learns this condenser and is not conform to the requirement, compares traditional detection method, institutional advancement's condenser apron can make the temperature to the condenser detect convenient more, quick, and can not damage the condenser.

In another embodiment of the present invention, as shown in fig. 1 and fig. 2, a first stopper 33, a second stopper 34 and a third stopper 35 are sequentially and fixedly disposed on the lower protruding block 3 along a clockwise direction, the first stopper 33, the second stopper 34 and one end of the third stopper 35 are fixedly connected to the detecting column 31, the first stopper 33, the second stopper 34 and the other end of the third stopper 35 are respectively located at the edge of the lower protruding block 3, a first isolation region is formed between the first stopper 33 and the second stopper 34, a second isolation region is formed between the second stopper 34 and the third stopper 35, and a third isolation region is formed between the third stopper 35 and the first stopper 33.

In this embodiment, when the cover plate is used, the cover plate main body 1 is firstly installed on a capacitor, because in the actual use process, the capacitor needs to be connected with an electronic device, or needs to be subjected to various detections, that is, the capacitor can pass through the cover plate main body 1 through different connecting wires or connecting terminals to be connected with an external device, the first stopper 33, the second stopper 34 and the third stopper 35 are used for separating the different connecting wires or connecting terminals, thereby avoiding the occurrence of the situations of electric sparks and arc discharge caused by too short distance, and preventing the occurrence of potential safety hazards.

In another embodiment of the utility model, as shown in fig. 1 and 2, be provided with third through-hole and fourth through-hole on the condenser apron of institutional advancement, the third through-hole is located second isolation region department, the fourth through-hole is located third isolation region department, the third through-hole internal fixation is provided with negative pole connecting seat 4, the fourth through-hole internal fixation is provided with anodal connecting seat 5, the last fixed surface of negative pole connecting seat 4 is provided with negative pole connecting terminal 41, the lower fixed surface of negative pole connecting seat 4 is provided with negative pole spliced pole 42, the last fixed surface of anodal connecting seat 5 is provided with anodal connecting terminal 51, the lower fixed surface of anodal connecting seat 5 is provided with anodal spliced pole 52.

In this embodiment, the cover plate body 1 is fixedly mounted on a capacitor, the positive terminal of the capacitor is connected to the positive connection terminal 51, the negative terminal of the capacitor is connected to the negative connection terminal 41, the positive connecting terminal 51 is connected with the positive end of the equipment, the negative connecting terminal 41 is connected with the negative end of the equipment, so that the capacitor supplies power to the equipment, compared with the conventional capacitor which is directly connected with the equipment through the cover plate main body 1 by using a lead, the capacitor is more stably connected with the equipment by the embodiment, and the first stopper 33, the second stopper 34 and the third stopper 35 separate the positive connecting column 52 from the negative connecting column 42, so that the phenomena of electric sparks and arc discharge caused by too close distance between the positive connecting column 52 and the negative connecting column 42 are avoided, and the use safety of the capacitor is improved.

In another embodiment of the present invention, as shown in fig. 3, a second groove 521 is disposed on each of the positive connection post 52 and the negative connection post 42; the second groove 521 facilitates the connection between the positive connection post 52 and the negative connection post 42 and the positive electrode and the negative electrode of the capacitor, so that the connection between the positive connection post 52 and the negative connection post 42 and the capacitor is more stable.

In another embodiment of the present invention, as shown in fig. 1, fig. 2 and fig. 4, a first identification structure 6 and a second identification structure 7 are further disposed on the capacitor cover plate with improved structure, the first identification structure 6 includes a first identification groove 61, the first identification groove 61 is located on the lower bump 3, the first identification groove 61 is located in the third isolation region, the second identification structure 7 includes a second identification groove 71, the second identification groove 71 is located on the upper bump 2, the first identification groove 61 and the second identification groove 71 are all fixedly disposed at the bottom of the protrusion block with a "+" shape.

In this embodiment, when the capacitor is used, the first identification groove 61 and the positive connecting column 52 are both located in the third isolation region, and the positive connecting column 52 and the negative connecting column 42 can be clearly distinguished by observing the first identification groove 61, so that when the cover plate main body 1 is subsequently mounted on a capacitor, the positive electrode of the capacitor can be accurately connected with the positive connecting column 52, and the negative electrode of the capacitor can be accurately connected with the negative connecting column 42, so that the positive connecting column 52 and the negative connecting column 42 are prevented from being reversely mounted when the cover plate main body 1 is mounted on the capacitor, and occurrence of human accidents is avoided; because the second mark groove 71 is located on the side of the positive connecting terminal 51, that is, the distance between the second mark groove 71 and the positive connecting terminal 51 is shorter than the distance between the second mark groove 71 and the negative connecting terminal 41, the positive connecting terminal 51 and the negative connecting terminal 41 can be clearly distinguished by observing the position of the second mark groove 71, so that errors can be avoided when the electronic equipment is connected with the positive connecting terminal 51 and the negative connecting terminal 41, and the use safety of the capacitor is further improved.

In another embodiment of the present invention, as shown in fig. 1, fig. 2 and fig. 4, a fifth through hole 8 is provided on the cover plate main body 1, the fifth through hole 8 is located at the first isolation region, a first groove 36 is provided on the lower protrusion 3, a second groove 22 is provided on the upper protrusion 2, the first groove 36 is located below the fifth through hole 8, and the second groove 22 is located above the fifth through hole 8. When the capacitor needs to be subjected to other detection, if explosion-proof detection is needed, the corresponding detection part can sequentially penetrate through the second groove 22, the fifth through hole 8 and the second groove 22 and then is connected with the capacitor, so that the detection of the capacitor is realized, the detection of the capacitor is simpler, and the efficiency is improved.

In the utility model discloses a further embodiment, as shown in fig. 5, still fixed warning subassembly 9 that is provided with on the condenser apron of institutional advancement, warning subassembly 9 fixed mounting be in on the lug 2, warning subassembly 9 with temperature sensor connects, warning subassembly 9 is used for reminding whether unqualified condenser. The temperature sensor detects the temperature change in the capacitor in real time, when the temperature sensor detects that the temperature in the capacitor exceeds a preset value, the temperature sensor can send a signal to the warning assembly 9, the warning assembly 9 can remind workers that the capacitor is unqualified in time, and the workers are prevented from omitting the unqualified capacitor in assembly line operation.

In another embodiment of the present invention, as shown in fig. 5, the warning component 9 includes a buzzer, the buzzer is fixedly mounted on the upper protrusion 2, and the buzzer is connected to the temperature sensor. The temperature sensor detects the temperature change in the capacitor in real time, when the temperature sensor detects that the temperature in the capacitor exceeds a preset value, the temperature sensor can send a signal to the buzzer, the buzzer can send a sound in time to remind a worker that the capacitor is unqualified, and the situation that the worker omits the unqualified capacitor in assembly line operation is avoided.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (9)

1. The utility model provides a construction improvement's condenser apron, its characterized in that, including the apron main part, the apron main part is the protruding upward protruding and is stretched and have last lug, the apron main part is protruding to stretch downwards and is had lower lug, the apron main part go up the lug with all be provided with first through-hole down on the lug, it has the detection post to stretch downwards on the lug down, be provided with on the detection post with first through-hole is located the second through-hole on the same vertical line, first through-hole with the second through-hole is used for supplying a temperature sensor to get into the condenser and carries out temperature detection.

2. The structurally improved capacitor cover plate of claim 1, wherein: the lower convex block is sequentially and fixedly provided with a first stop block, a second stop block and a third stop block along the clockwise direction, one ends of the first stop block, the second stop block and the third stop block are fixedly connected with the detection column, the other ends of the first stop block, the second stop block and the third stop block are respectively located at the edge of the lower convex block, a first isolation area is formed between the first stop block and the second stop block, a second isolation area is formed between the second stop block and the third stop block, and a third isolation area is formed between the third stop block and the first stop block.

3. The structurally improved capacitor cover plate as claimed in claim 2, wherein a third through hole and a fourth through hole are formed in the structurally improved capacitor cover plate, the third through hole is located at the second isolation region, the fourth through hole is located at the third isolation region, a negative connecting seat is fixedly arranged in the third through hole, a positive connecting seat is fixedly arranged in the fourth through hole, a negative connecting terminal is fixedly arranged on an upper surface of the negative connecting seat, a negative connecting post is fixedly arranged on a lower surface of the negative connecting seat, a positive connecting terminal is fixedly arranged on an upper surface of the positive connecting seat, and a positive connecting post is fixedly arranged on a lower surface of the positive connecting seat.

4. The structurally improved capacitor cover plate as defined in claim 3, wherein a second groove is provided on each of said positive connection post and said negative connection post.

5. The structurally improved capacitor cover plate as claimed in any one of claims 2 to 4, wherein a first identification structure and a second identification structure are further disposed on the structurally improved capacitor cover plate, the first identification structure includes a first identification groove, the first identification groove is located on the lower protruding block, the first identification groove is located in the third isolation region, the second identification structure includes a second identification groove, the second identification groove is located on the upper protruding block, and a "+" shaped protruding block is fixedly disposed at the bottom of each of the first identification groove and the second identification groove.

6. The condenser cover plate with improved structure as claimed in any one of claims 2 to 4, wherein a fifth through hole is formed on the cover plate main body, the fifth through hole is located at the first isolation region, a first groove is formed on the lower protrusion, a second groove is formed on the upper protrusion, the first groove is located below the fifth through hole, and the second groove is located above the fifth through hole.

7. The structurally improved capacitor cover plate as claimed in any one of claims 1 to 4, wherein a warning assembly is further fixedly arranged on the structurally improved capacitor cover plate, the warning assembly is fixedly mounted on the upper bump, the warning assembly is connected with the temperature sensor, and the warning assembly is used for reminding whether the capacitor is unqualified.

8. The condenser cover plate with improved structure according to claim 7, wherein the warning component comprises a buzzer, the buzzer is fixedly installed on the upper protruding block, and the buzzer is connected with the temperature sensor.

9. Capacitor, characterized by a structurally improved capacitor cover plate according to any one of claims 1 to 7.

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