CN217985874U - Electric power simulation signal converter - Google Patents

Abstract

The utility model discloses an electric power simulation signal converter relates to signal converter technical field. The utility model discloses a: a converter body; the converter comprises two mounting frames, wherein the two mounting frames are fixedly mounted on two sides of the converter body respectively, through holes are formed in two ends of each mounting frame, and a cooling fan is fixedly mounted between two sides of the inner wall of each mounting frame; the filter plate is detachably arranged at one end of the mounting frame and is used for filtering dust in air; and the radiating fins are detachably arranged at the top of the converter body. The utility model discloses a radiator fan and radiating fin can dispel the heat fast with this internal heat of converter, avoid leading to its inside overheated, cause inside electrical components to appear damaging, utilize the filter to filter the dust in the air simultaneously, avoid the dust to inside, overstock on electrical components, cause the damage to electrical components.

Description

Electric power simulation signal converter

Technical Field

The utility model relates to a signal converter technical field, concretely relates to electric power emulation signal converter.

Background

In order to better match hardware facilities when an electric power company produces and transports electric power, simulation detection adaptation can be continuously carried out on the electric power transmission process, so that a set of omnibearing electric power system simulation analysis platform system is established, the operation characteristics of a novel electric power system are accurately mastered, a signal converter is used for converting a signal into another signal, the signal is in a form or a carrier in which information exists, in an automatic instrument device and an automatic control system, one signal is often converted into another signal which is compared with a standard quantity or a reference quantity so as to connect two types of instruments or devices, therefore, the converter is often an intermediate link between the two instruments or devices, the signal converter belongs to a part which cannot be lost in the operation of the omnibearing electric power system simulation analysis platform system, and when the existing signal converter is used in operation, the heat generated by electric appliance elements in the signal converter is automatically dissipated to the outside only through meshes arranged on two sides of the existing signal converter, the heat dissipation mode is adopted, when the temperature is too high, not only the internal heat cannot be quickly dissipated, the internal heat is overheated, the internal electric appliance elements are damaged, dust easily enters the signal converter, and the electric appliance elements are accumulated on the electric appliance elements, and the electric appliance elements are not easy to be damaged for a long time, so that people are inconvenient to use.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a: in order to solve the problems in the background art, the present invention provides an electric power simulation signal converter.

The utility model discloses a realize above-mentioned purpose and specifically adopt following technical scheme: a power emulating signal converter, comprising: a converter body; the converter comprises two mounting frames, wherein the two mounting frames are fixedly mounted on two sides of the converter body respectively, through holes are formed in two ends of each mounting frame, and a cooling fan is fixedly mounted between two sides of the inner wall of each mounting frame; the filter plate is detachably arranged at one end of the mounting frame and is used for filtering dust in air; and the radiating fins are detachably arranged on the top of the converter body and are used for conducting heat and radiating heat in the converter body.

Furthermore, a support plate is fixedly installed between two sides of the inner wall of the installation frame, and the support plate is provided with two cooling fans which are distributed and fixedly installed in a linear array mode.

Further, a placing groove is formed in the position, corresponding to the through hole, of one end of the mounting frame, a filter plate is placed in the placing groove, a bottom plate is fixedly mounted at the bottom of the inner wall of the placing groove, a slot is formed in the bottom of the filter plate, the bottom plate is connected with the slot in a clamped mode, and a fixing piece used for fixing the filter plate is mounted at the top end of the mounting frame.

Furthermore, a mounting groove is formed in the mounting frame, the fixing piece comprises a sliding plate, a clamping plate, a reset spring and a T-shaped plate, the sliding plate is slidably mounted between two sides of the inner wall of the mounting groove, the clamping plate is fixedly mounted at the bottom of the sliding plate, a clamping groove is formed in the top of the filtering plate, one end of the clamping plate penetrates through the mounting frame and extends to the inside of the clamping groove to be clamped with the clamping plate, the reset spring is fixedly mounted between the sliding plate and the inner wall of the mounting groove, and the T-shaped plate is fixedly mounted on one side of the sliding plate.

Furthermore, the number of the radiating fins is at least nine, and the radiating fins are distributed in a linear array and detachably mounted on the top of the converter body.

Furthermore, the locating piece is installed at the top of converter body, the locating piece includes two L templates that are the symmetric distribution, radiating fin's bottom slides and inserts and locates two between the L template, radiating fin's bottom with the top laminating of converter body.

Further, the radiating fin is S-shaped.

The utility model has the advantages as follows:

the utility model discloses a radiator fan and radiating fin can dispel the heat fast with this internal heat of converter, avoid leading to its inside overheated, cause inside electrical components to appear damaging, utilize the filter to filter the dust in the air simultaneously, avoid the dust to inside, overstock on electrical components, cause the damage to electrical components.

Drawings

FIG. 1 is a perspective view of the present invention;

fig. 2 is a cross-sectional view of the perspective structure of fig. 1;

fig. 3 is a sectional view of another perspective structure of fig. 1 according to the present invention.

Reference numerals: 1. a converter body; 2. installing a frame; 3. a heat radiation fan; 4. a filter plate; 5. a heat dissipating fin; 6. a support plate; 7. a placement groove; 71. a base plate; 8. a fixing member; 81. a sliding plate; 82. clamping a plate; 83. a return spring; 84. a T-shaped plate; 9. a positioning member; 91. an L-shaped plate.

Detailed Description

In order to make the purpose, technical solution and advantages of the embodiments of the present invention clearer, the attached drawings in the embodiments of the present invention will be combined below to clearly and completely describe the technical solution in the embodiments of the present invention.

As shown in fig. 1-2, an embodiment of the present invention provides a power emulation signal converter, including: a converter body 1; the converter comprises two mounting frames 2, the number of the mounting frames 2 is two, the two mounting frames 2 are respectively and fixedly mounted on two sides of a converter body 1, openings are formed in two ends of each mounting frame 2, and a heat dissipation fan 3 is fixedly mounted between two sides of the inner wall of each mounting frame 2, when the converter body 1 generally operates for heat dissipation, heat dissipation is carried out through heat dissipation holes formed in two sides no matter the temperature is too high or normal, the heat dissipation effect is poor, in the application, a temperature sensor is arranged in the converter body 1, the two rectangular mounting frames 2 are fixedly mounted at two ends of each mounting frame, then the heat dissipation fan 3 is mounted in each mounting frame 2, when the temperature in the sensor body 1 is too high and the temperature is sensed through the temperature sensor to be too high, the heat dissipation fan 3 can be started, so that the wind power of the heat dissipation fan 3 can rapidly extract and dissipate the heat in the converter body 1 through the heat dissipation holes in the air, the effect of rapid heat dissipation is achieved, the temperature in the converter body 1 is reduced, internal overheating is avoided, and internal elements are damaged, and when the temperature in the converter body 1 is normal, the heat can be removed through the heat dissipation holes; the filter plate 4 is detachably mounted at one end of the mounting frame 2 and used for filtering dust in the air, and the filter plate 4 can filter the dust in the air and then enter the converter body 1 to prevent large dust from flying into the converter body and accumulating on electrical elements to damage the electrical elements; radiating fin 5, radiating fin 5 demountable installation in the top of converter body 1, it is used for heat-conduction to give off the heat in the converter body 1, the heat in the converter body 1 can be conducted on the shell of converter body 1, on conducting radiating fin 5 again, dispel the heat, can increase radiating heat radiating area through radiating fin 5, namely increase the area of contact with the air, conveniently dispel the heat fast to the heat that produces in the converter body 1, the radiating effect thereof is improved, therefore compared with the prior art, can dispel the heat fast with the heat in the converter body 1 through radiator fan 3 and radiating fin 5, avoid leading to its inside overheated, cause inside electrical components to appear damaging, utilize filter 4 to filter the dust in the air simultaneously, avoid the dust to its inside, the accumulation is on electrical components, cause the damage to electrical components.

As shown in fig. 2, in some embodiments, a supporting plate 6 is fixedly installed between two sides of the inner wall of the mounting frame 2, two heat dissipation fans 3 are fixedly installed on the supporting plate 6 in a linear array, and the heat dissipation area of the interior of the converter body 1 is wider due to wind force generated by the two heat dissipation fans 3, and the speed of heat dissipation is higher, so as to achieve a better heat dissipation effect.

As shown in fig. 3, in some embodiments, a placement groove 7 is configured at the opening of one end of the mounting frame 2, a filter plate 4 is placed in the placement groove 7, a bottom plate 71 is fixedly mounted at the bottom of the inner wall of the placement groove 7, the bottom plate 71 is made of rubber, a slot is configured at the bottom of the filter plate 4, the bottom plate 71 is connected with the slot in a clamping manner, a fixing member 8 for fixing the filter plate 4 is mounted at the top end of the mounting frame 2, the filter plate 4 is vertically mounted inside the placement groove 7, when the filter plate 4 needs to be detached, the fixing member 8 fixes the top end of the filter plate 4, because the bottom plate 71 is made of rubber and can be bent, the top end of the filter plate 4 is pulled to incline, then the filter plate 4 is pulled upwards, the slot and the bottom plate 71 are removed, so that the detachment of the filter plate 4 is completed, the accumulated dust on the filter plate 4 is conveniently cleaned, and the filter holes are prevented from being blocked, and the heat dissipation is prevented from being affected.

As shown in fig. 2 and 3, in some embodiments, a mounting groove is configured on the mounting frame 2, the fixing member 8 includes a sliding plate 81, a clamping plate 82, a return spring 83, and a T-shaped plate 84, the sliding plate 81 is slidably mounted between two sides of an inner wall of the mounting groove, the clamping plate 82 is fixedly mounted at the bottom of the sliding plate 81, a clamping groove is configured at the top of the filter plate 4, one end of the clamping plate 82 penetrates through the mounting frame 2 and extends into the clamping groove to be clamped with the clamping groove, the return spring 83 is fixedly mounted between the sliding plate 81 and the inner wall of the mounting groove, the T-shaped plate 84 is fixedly mounted at one side of the sliding plate 81, an opening is formed in the mounting frame 2, the T-shaped plate 84 penetrates through the opening to extend into the mounting groove, and when the fixing at the top end of the filter plate 4 is disassembled, the T-shaped plate 84 is pulled upwards to drive the sliding plate 81 to press the return spring 83 upwards, and the clamping plate 82 moves upwards to disassemble the clamping plate 82 from the clamping groove, so as to disassemble the fixing at the top end of the filter plate 4, which the filter plate is disassembled.

As shown in fig. 3, in some embodiments, the number of the heat dissipation fins 5 is at least nine, and the heat dissipation fins 5 are distributed in a linear array and detachably mounted on the top of the converter body 1, and the nine heat dissipation fins 5 can absorb heat conducted on the shell of the converter body 1, and then contact the heat with air to dissipate the heat, so as to increase the contact area with the air, thereby achieving the effect of rapid heat dissipation.

As shown in fig. 3, in some embodiments, locating piece 9 is installed at the top of converter body 1, and the quantity of locating piece 9 is corresponding with radiating fin 5's quantity, locating piece 9 includes two L templates 91 that are the symmetric distribution, radiating fin 5's bottom slides and inserts and locates two between the L template 91, radiating fin 5's bottom with converter body 1's top laminating, when radiating fin 5 was dismantled to needs, directly twitch radiating fin 5 and take out its bottom between two L templates 91, remove it fixed, when not needing to use, be convenient for dismantle it and accomodate, reduce occupation space.

As shown in fig. 2, in some embodiments, the heat dissipation fins 5 are S-shaped, and the S-shaped heat dissipation fins 5 have a larger area contacting with air and are easier to dissipate heat compared to a straight shape, so as to achieve a better heat dissipation effect.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (7)

1. A power emulating signal converter, comprising:

a converter body (1);

the converter comprises two mounting frames (2), wherein the two mounting frames (2) are fixedly mounted on two sides of the converter body (1) respectively, through openings are formed in two ends of each mounting frame (2), and a heat dissipation fan (3) is fixedly mounted between two sides of the inner wall of each mounting frame (2);

the filter plate (4) is detachably arranged at one end of the mounting frame (2) and is used for filtering dust in air;

the heat dissipation device comprises heat dissipation fins (5), wherein the heat dissipation fins (5) are detachably mounted at the top of the converter body (1) and used for dissipating heat in the converter body (1) in a heat conduction mode.

2. The electric power simulation signal converter according to claim 1, wherein a support plate (6) is fixedly installed between two sides of the inner wall of the installation frame (2), and two heat dissipation fans (3) are fixedly installed on the support plate (6) in a linear array distribution.

3. The electric power simulation signal converter according to claim 1, wherein a placing groove (7) is formed at the opening of one end of the mounting frame (2), a filter plate (4) is placed in the placing groove (7), a bottom plate (71) is fixedly mounted at the bottom of the inner wall of the placing groove (7), a slot is formed at the bottom of the filter plate (4), the bottom plate (71) is clamped with the slot, and a fixing member (8) for fixing the filter plate (4) is mounted at the top end of the mounting frame (2).

4. The electric power simulation signal converter according to claim 3, wherein the mounting frame (2) is configured with a mounting groove, the fixing member (8) comprises a sliding plate (81), a clamping plate (82), a return spring (83) and a T-shaped plate (84), the sliding plate (81) is slidably mounted between two sides of the inner wall of the mounting groove, the clamping plate (82) is fixedly mounted at the bottom of the sliding plate (81), the clamping groove is configured at the top of the filter plate (4), one end of the clamping plate (82) penetrates through the mounting frame (2) and extends to the inside of the clamping groove to be clamped with the clamping plate, the return spring (83) is fixedly mounted between the sliding plate (81) and the inner wall of the mounting groove, and the T-shaped plate (84) is fixedly mounted at one side of the sliding plate (81).

5. The electrical simulation signal converter according to claim 1, wherein the number of the heat dissipation fins (5) is at least nine, and the heat dissipation fins are detachably mounted on the top of the converter body (1) in a linear array distribution.

6. The electric power simulation signal converter according to claim 5, wherein a positioning member (9) is installed at the top of the converter body (1), the positioning member (9) comprises two L-shaped plates (91) which are symmetrically distributed, the bottom ends of the heat dissipation fins (5) are slidably inserted between the two L-shaped plates (91), and the bottom ends of the heat dissipation fins (5) are attached to the top of the converter body (1).

7. The power emulating signal converter according to claim 6, characterized in that said heat sink fins (5) are S-shaped.

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