CN219738848U - Protective device for relay - Google Patents

Abstract

The utility model relates to the technical field of relays, in particular to a protective device for a relay, which comprises a relay body and a heat pipe radiating component, wherein the outer side of the relay body is provided with a compression-resistant protective component, the joint of the compression-resistant protective component and the relay body is provided with an assembly groove and a jogged groove plate, the compression-resistant protective component consists of protective partition boards and bearing partition boards, a plurality of bearing partition boards are uniformly distributed among the protective partition boards at equal intervals, an I-shaped structure is formed between the bearing partition boards and the protective partition boards, and the heat pipe radiating component is arranged on the protective partition board close to one side of the relay body. The compression-resistant protective component provided by the utility model can form an I-shaped structure through the bearing partition plate and the protective partition plate, so that the bearing capacity in collision can be improved, and meanwhile, the smoothness of the upper part and the lower part of the heat dissipation air duct can be ensured when the relay is assembled through the bonding assembly plate which is slightly longer than the protective partition plate, so that the heat dissipation effect can be ensured.

Description

Protective device for relay

Technical Field

The utility model relates to the technical field of relays, in particular to a protective device for a relay.

Background

The relay is composed of a coil and a contact set. In effect, a "recloser" is used to control a larger current with a smaller current. The relay plays roles of automatic regulation, safety protection, circuit switching and the like in the circuit.

The utility model discloses a relay with safety protection mechanism for CN217306402U, including the installation shell, the equal fixedly connected with connecting strip in both sides of installation shell bottom, the both ends threaded connection of connecting strip has fixing bolt, fixing bolt's bottom threaded connection has the mounting panel, the pillar that four symmetries set up of middle part fixedly connected with on mounting panel top, the top fixedly mounted of pillar has the relay body, the middle part fixedly connected with spread box of installation shell one side, the middle part fixedly connected with backup pad of spread box, through setting up the installation shell, be convenient for increase the protective structure of relay body, the relay body is difficult for directly suffering external gravity in use or transportation, rethread sets up radiator fan and cooling tube, be convenient for dispel the heat to the relay body, be equipped with the cooling water in the cooling tube, cooperation radiator fan can cool down the heat dissipation to the relay body, prevent that the heat from piling up, safer during the use.

In summary, the following technical problems exist in the prior art: when the relay existing in the current market is used, part of the relay dissipates heat through air cooling, other part of the relay does not have an additional heat dissipation structure, heat accumulation is easy to break down during use, and long-term use of the relay is not facilitated.

Disclosure of Invention

The utility model aims to provide a protective device for a relay, which solves the problems that when the prior relay is used, part of the relays are cooled by air cooling, the rest of the relays have no additional cooling structure, and heat accumulation is easy to fail during use, so that the relay is not beneficial to long-term use.

In order to solve the technical problems, the utility model adopts the following technical scheme:

the utility model provides a protector for relay, includes relay body and heat pipe cooling module, relay body's outside is equipped with resistance to compression protective component, resistance to compression protective component is equipped with mounting groove and gomphosis frid with relay body junction, and the mounting groove is offered on relay body's outside surface, and the gomphosis frid is fixed in resistance to compression protective component one side that is close to relay body, resistance to compression protective component comprises protection baffle and load bearing baffle, equidistant evenly distributed has a plurality of load bearing baffles between the protection baffle, and constitutes I shape structure between load bearing baffle and the protection baffle, is close to relay body one side install heat pipe cooling module on the protection baffle.

Preferably, the compression-resistant protection component is connected with the relay body through mutual clamping among the assembly groove, the embedded groove plate, and the embedded groove plate is mutually attached to the outer side wall of the relay body.

Preferably, the heat pipe heat dissipation assembly comprises a heat dissipation attaching plate, a heat pipe evaporating head and a heat pipe condensing head, wherein the heat dissipation attaching plate is embedded in the middle of the embedded groove plate, the heat pipe evaporating head is arranged on one surface, far away from the relay body, of the heat dissipation attaching plate, the heat pipe condensing head is arranged on the other end of the heat pipe evaporating head, the heat pipe evaporating head and the heat pipe condensing head are mutually communicated, a heat dissipation air channel is formed between the protection partition boards and is positioned in the heat dissipation air channel, the heat dissipation attaching plate and the outer side wall of the relay body are mutually attached, a liquid core and working liquid are arranged in the heat pipe evaporating head and the heat pipe condensing head, and the liquid core is made of capillary porous materials.

Preferably, the side of resistance to compression protection subassembly is fixed with the bonding assembly board, the intermediate position of bonding assembly board lateral surface is equipped with the assembly and inserts the joint hand groove, be equipped with the assembly bonding subassembly on the bonding assembly board, the assembly bonding subassembly comprises assembly press bladder, linking channel and bonding glue groove, the assembly press bladder is assembled in the assembly joint hand groove, and the inside at the bonding assembly board is seted up to the linking channel, and the bonding glue groove is seted up on the top face of bonding assembly board, and the assembly press bladder communicates each other with the bonding glue groove through linking channel.

The above description shows that the technical problems to be solved by the present utility model can be solved by the above technical solutions of the present utility model.

Meanwhile, through the technical scheme, the utility model has at least the following beneficial effects:

the compression-resistant protective component provided by the utility model can form an I-shaped structure through the bearing partition plate and the protective partition plate, so that the bearing capacity in collision can be improved, and meanwhile, the smoothness of the upper part and the lower part of the heat dissipation air duct can be ensured when the relay is assembled through the bonding assembly plate which is slightly longer than the protective partition plate, so that the heat dissipation effect can be ensured.

According to the utility model, the heat pipe radiating component utilizes the function of evaporation and radiation, so that the two ends of the heat pipe evaporating head and the heat pipe condensing head have larger temperature difference, heat is quickly conducted, the heat is transferred through evaporation and condensation of working fluid in the totally-enclosed vacuum heat pipe, the heat is conducted and radiated through the action of capillary porous materials, the heat generated during the operation of the relay body is uniformly absorbed through the mutual bonding between the radiating bonding plate and the relay body, and the heat transferred at the heat pipe condensing head can be discharged from the radiating air duct, so that the radiating protection effect is achieved.

The arrangement of the assembly bonding assembly can ensure the stability of the relay body during plugging, and the bonding adhesive groove is filled with the adhesive, so that the bonding assembly plate can be bonded on the assembly part of the relay during plugging of the relay body, and the stability of connection is ensured.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of the structure of the bottom end face of the relay body of the present utility model;

FIG. 3 is a schematic view of the junction between the relay body and the compression-resistant protective assembly according to the present utility model;

FIG. 4 is a schematic view of the inner side surface of the protective partition according to the present utility model;

fig. 5 is a schematic view of a heat pipe heat dissipation assembly according to the present utility model.

In the figure: 1. a relay body; 2. a compression-resistant protective assembly; 201. a protective barrier; 202. a load-bearing partition; 3. a heat dissipation air duct; 4. bonding the assembly plate; 5. assembling the plug-in hand groove; 6. assembling an adhesive assembly; 601. assembling a pressing bag; 602. a connecting channel; 603. a bonding glue groove; 7. an assembly groove; 8. fitting the groove plate; 9. a heat pipe heat dissipation assembly; 901. a heat dissipation adhesive sheet; 902. a heat pipe evaporation head; 903. a heat pipe condensing head.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

Description of the preferred embodiments

As shown in fig. 1, 3 and 4, the present utility model provides a technical solution: the utility model provides a protector for relay, including relay body 1 and heat pipe radiator unit 9, relay body 1's the outside is equipped with resistance to compression protection subassembly 2, resistance to compression protection subassembly 2 and relay body 1 junction are equipped with mounting groove 7 and gomphosis frid 8, mounting groove 7 is seted up on relay body 1's outside surface, gomphosis frid 8 is fixed in resistance to compression protection subassembly 2 and is close to relay body 1's one side, resistance to compression protection subassembly 2 is connected through the mutual block between mounting groove 7, gomphosis frid 8 and relay body 1, and laminating each other between gomphosis frid 8 and relay body 1's the lateral wall, can be with resistance to compression protection subassembly 2 assembly on relay body 1 through mounting groove 7, gomphosis frid 8's block, thereby protect relay body 1's front and back left and right sides, resistance to compression protection subassembly 2 comprises protection baffle 201 and bearing baffle 202, equidistant evenly distributed has a plurality of bearing baffle 202 between the baffle 201, and constitute I-shaped structure between bearing baffle 202 and the protection baffle 201, resistance to compression protection subassembly 2 that sets up can constitute the I-shaped protection structure through bearing baffle 202, the bearing capacity when the collision can improve.

Example two

The scheme in the first embodiment is further described below in conjunction with a specific working manner, and the details are described below:

as shown in fig. 1, fig. 4 and fig. 5, as a preferred embodiment, further, on the basis of the above manner, the heat pipe heat dissipation component 9 is installed on the protective partition 201 close to one side of the relay body 1, the heat pipe heat dissipation component 9 includes a heat dissipation adhesion plate 901, a heat pipe evaporation head 902 and a heat pipe condensation head 903, the heat dissipation adhesion plate 901 is embedded in the middle position of the embedded groove plate 8, one side of the heat dissipation adhesion plate 901 far away from the relay body 1 is provided with the heat pipe evaporation head 902, the other end of the heat pipe evaporation head 902 is provided with the heat pipe condensation head 903, the heat pipe evaporation head 902 and the heat pipe condensation head 903 are mutually communicated, a heat dissipation air duct 3 is formed between adjacent protective partition 201, and the heat pipe condensation head 903 is located in the heat dissipation air duct 3, the heat dissipation adhesion plate 901 and the outer side wall of the relay body 1 are mutually attached, a liquid core and working liquid are respectively arranged in the heat pipe evaporation head 902 and the heat pipe condensation head 903, the liquid core is composed of capillary porous materials, the heat pipe heat dissipation component 9 through the use of the function of evaporation so that the heat pipe evaporation head 902 and the two ends of the heat pipe condensation head 903 have larger temperature difference, heat is quickly conducted, the heat can be transferred through the heat dissipation effect of the heat pipe evaporation adhesion plate and the heat pipe condensation head 903 through the capillary material, and the heat dissipation effect is evenly transferred from the heat pipe condensation body 1 through the heat dissipation adhesion plate 1.

As shown in fig. 1 and 2, as a preferred embodiment, further, on the basis of the above manner, the side surface of the pressure-resistant protection component 2 is fixed with the adhesive assembly plate 4, and meanwhile, the length of the adhesive assembly plate 4 slightly longer than that of the protection partition plate 201 can ensure the smoothness of the upper and lower sides of the heat dissipation air duct 3 when the relay is assembled, so as to ensure the heat dissipation effect, the middle position of the outer side surface of the adhesive assembly plate 4 is provided with the assembly inserting hand groove 5, the adhesive assembly plate 4 is provided with the assembly adhesive component 6, the assembly adhesive assembly 6 is composed of the assembly pressing bag 601, the communication channel 602 and the adhesive glue groove 603, the assembly pressing bag 601 is assembled in the assembly inserting hand groove 5, the communication channel 602 is opened in the adhesive assembly plate 4, the adhesive glue groove 603 is opened on the top end surface of the adhesive assembly plate 4, the arrangement of the assembly adhesive pressing bag 601 is communicated with the adhesive glue groove 603 through the communication channel 602, so that the stability of the relay body 1 when the relay body 1 is inserted can be ensured, and thus the adhesive assembly plate 4 is adhered on the relay body 1 when the relay body is inserted, so that the stability of connection is ensured.

From the above, it can be seen that:

the utility model aims at the technical problems that: when the existing relays in the market are used, part of the relays are subjected to heat dissipation through air cooling, the rest of the relays do not have an additional heat dissipation structure, and heat accumulation is easy to fail during use, so that the long-term use of the relays is not facilitated; the technical scheme of each embodiment is adopted. Meanwhile, the implementation process of the technical scheme is as follows:

when the relay is assembled and used, the compression-resistant protective component 2 is clamped on the outer side wall of the relay body 1 through the assembly groove 7 and the embedded groove plate 8, when the outer side wall is collided, the protective partition plate 201 and the bearing partition plate 202 form an I-shaped structure, the impact resistance of the relay during collision can be improved, the heat dissipation attaching plate 901 can be attached to the outer side wall of the relay body 1 through the attachment of the embedded groove plate 8 and the outer side wall of the relay body 1, so that heat generated during operation of the relay body 1 can be uniformly absorbed, the heat pipe evaporation head 902 is positioned on the heat dissipation attaching plate 901, the heat pipe condensation head 903 is positioned in the heat dissipation air duct 3, so that two ends have larger temperature difference, the heat is conducted from the heat pipe evaporation head 902 to the heat pipe condensation head 903 through evaporation and condensation of working fluid in the totally-enclosed vacuum heat pipe, so that the heat transferred at the heat pipe condensation head 903 can be discharged from the heat dissipation air duct 3, and when the relay is required to be inserted onto the assembly part, the assembly pressing of the assembly pressing attaching press-bag 601 can be used for evenly absorbing the heat generated during operation of the relay body 1, the heat generated during operation of the heat dissipation attaching-absorbing glue in the relay body 603 through the connecting channel 603, and the adhesive pressing-attaching groove 603 can be dispersed at the position of the relay adhesive pressing groove 603, so that the adhesive can be stably assembled at the position when the relay is ensured.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. A protective device for a relay, comprising: relay body (1) and heat pipe cooling module (9), a serial communication port, the outside of relay body (1) is equipped with resistance to compression protection subassembly (2), resistance to compression protection subassembly (2) are equipped with assembly groove (7) and gomphosis frid (8) with relay body (1) junction, and the outside surface at relay body (1) is offered in assembly groove (7), and gomphosis frid (8) are fixed in resistance to compression protection subassembly (2) one side near relay body (1), resistance to compression protection subassembly (2) are by protection baffle (201) and bear baffle (202) constitution, equidistant evenly distributed has a plurality of bearing baffle (202) between protection baffle (201), and bear and constitute I shape structure between baffle (202) and the protection baffle (201), be close to relay body (1) one side protection baffle (201) on install heat pipe cooling module (9).

2. The protective device for the relay according to claim 1, wherein the compression-resistant protective component (2) is connected with the relay body (1) in a mutually clamping way through the assembly groove (7), the embedded groove plate (8), and the embedded groove plate (8) is mutually attached to the outer side wall of the relay body (1).

3. The protective device for the relay according to claim 1, wherein the heat pipe heat radiation assembly (9) comprises a heat radiation attaching plate (901), a heat pipe evaporating head (902) and a heat pipe condensing head (903), the heat radiation attaching plate (901) is embedded in the middle position of the embedded groove plate (8), one surface of the heat radiation attaching plate (901) far away from the relay body (1) is provided with the heat pipe evaporating head (902), and the other end of the heat pipe evaporating head (902) is provided with the heat pipe condensing head (903).

4. A protective device for a relay according to claim 3, wherein the heat pipe evaporation head (902) and the heat pipe condensation head (903) are mutually communicated, a heat dissipation air channel (3) is formed between adjacent protective baffles (201), and the heat pipe condensation head (903) is located in the heat dissipation air channel (3).

5. The protective device for the relay according to claim 4, wherein the heat dissipation adhesion plate (901) is adhered to the outer side wall of the relay body (1), and liquid cores and working liquid are respectively arranged in the heat pipe evaporation head (902) and the heat pipe condensation head (903), and the liquid cores are made of capillary porous materials.

6. The protective device for the relay according to claim 1, wherein the side surface of the compression-resistant protective component (2) is fixedly provided with an adhesive assembly plate (4), an assembly inserting hand groove (5) is arranged in the middle of the outer side surface of the adhesive assembly plate (4), and an assembly adhesive component (6) is arranged on the adhesive assembly plate (4).

7. The protective device for the relay according to claim 6, wherein the assembly bonding assembly (6) is composed of an assembly pressing bag (601), a communication channel (602) and a bonding glue groove (603), the assembly pressing bag (601) is assembled in the assembly inserting hand groove (5), the communication channel (602) is formed in the bonding assembly plate (4), the bonding glue groove (603) is formed in the top end face of the bonding assembly plate (4), and the assembly pressing bag (601) is mutually communicated with the bonding glue groove (603) through the communication channel (602).