CN212740722U - Filling station on-line monitoring device - Google Patents

Abstract

The utility model discloses an online monitoring device of filling station, including monitoring devices body and heat dissipation channel, the cooperation opening has all been seted up at the box both sides middle part of monitoring devices body, the slot has all been seted up along transversely to the upper portion and the lower part of monitoring devices body box both sides, the mounting hole has all vertically been seted up to the top surface and the bottom surface both sides of monitoring devices body. Has the advantages that: the utility model discloses all set up the fixed fan of cooperation opening and coaxial contrast in the box both sides of monitoring devices body to this mode through the fan convulsions comes the inside ventilation cooling of box of monitoring devices body, has realized the forced air cooling to the monitoring devices body is inside, is favorable to guaranteeing to the inside timely heat dissipation of monitoring devices body, has ensured that the monitoring devices body has reliable and stable operating condition.

Description

Filling station on-line monitoring device

Technical Field

The utility model relates to a filling station's auxiliary assembly field, concretely relates to filling station's on-line monitoring device.

Background

In the daily operation of a gas station, an online monitoring device is needed to be used for monitoring the gas-liquid ratio in the process of refueling oil gas recovery in real time, the air tightness of an oil gas recovery system, the parameters of pipeline liquid resistance and the like, and recording, storing, processing and transmitting monitoring data.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a filling station on-line monitoring device in order to solve above-mentioned problem, all set up the fixed fan of cooperation opening and coaxial contrast in the box both sides of monitoring device body to this comes the inside ventilation and heat dissipation of box of monitoring device body through the mode of fan convulsions, has realized the forced air cooling to the inside of monitoring device body, and the detail is described below.

In order to achieve the above purpose, the utility model provides a following technical scheme:

the utility model provides a gas station on-line monitoring device, including monitoring device body and heat dissipation channel, the box both sides middle part of monitoring device body has all seted up the cooperation opening, the upper portion and the lower part of monitoring device body box both sides have all transversely seted up the slot, the top surface of monitoring device body and bottom surface both sides all have vertically seted up the mounting hole, every the mounting hole all coaxial fixed with the locking Assembly, and be located the upper portion and be located the lower part the locking Assembly symmetric distribution;

the number of the heat dissipation channels is two, the heat dissipation channels are respectively attached to two sides of the box body of the monitoring device body, fans are embedded on the opposite side faces of the heat dissipation channels along the transverse direction, the fans are communicated with the inner space of the heat dissipation channels, and the fans are coaxially and slidably matched with the adjacent matching openings;

the upper portion and the lower portion of the side face, opposite to each other, of the heat dissipation channel are horizontally fixed with inserting blocks, the inserting blocks are in one-to-one comparison and sliding fit with the inserting grooves, limiting holes are vertically formed in the portions, located inside the box body of the monitoring device body, of the inserting blocks, and the limiting holes are in coaxial sliding fit with the locking assemblies in a similar mode.

Preferably, the heat dissipation channel is a rectangular tube with two open ends.

Preferably, the material of the heat dissipation channel is pure copper.

Preferably, the fan is of the axial flow type.

Preferably, the slot is a rectangular slot, and the insertion block is a rectangular block.

Preferably, the locking subassembly includes gag lever post and handle, the gag lever post with coaxial and sliding fit of mounting hole, the gag lever post stretches into inside the monitoring devices body box the inner all with correspond the coaxial sliding fit of gag lever post, the gag lever post stretches out the outer end of mounting hole all is fixed with the handle, the gag lever post is located the handle with the equal clearance fit of part between the monitoring devices body box surface has the spring, just the spring both ends respectively with the handle with monitoring devices body box fixed surface is connected.

Preferably, the surface of the handle is provided with anti-skid threads, and the handle is connected with the limiting rod through threads.

By adopting the online monitoring device for the gas station, initially, the insertion block of the heat dissipation channel is in horizontal sliding fit with the slot of the monitoring device body, and the limiting rod of the locking assembly is in vertical sliding fit with the limiting hole of the insertion block, so that the heat dissipation channel can be detachably fixed on the outer side of the monitoring device body in a mode that the insertion block is in horizontal fit with the slot and the limiting rod is in vertical fit with the limiting hole, the heat dissipation channel and the fan can be taken down for maintenance in a mode that the insertion block is taken out of the slot after the limiting rod is taken out of the limiting hole when the heat dissipation channel is taken down, the heat dissipation channel and the fan slide in a mode that the fan of the heat dissipation channel is in coaxial contrast with the matching opening when the heat dissipation channel is taken down again, and the insertion block and the slot are in coaxial contrast and slide in simultaneously, when the inserting block slides into the inserting slot, the limiting rod is pulled outwards in a mode of stretching the spring to enable the inserting block to slide smoothly, when the heat dissipation channel is attached to the outer side of the monitoring device body again, the limiting rod is coaxial with the limiting hole again, at the moment, the limiting rod can be inserted into the limiting hole again in a mode of releasing the stretching state of the spring by loosening the limiting rod, so that the heat dissipation channel and the fan are quickly installed on the outer side of the monitoring device body, the disassembling and assembling mode is simple and easy to operate, the heat dissipation channel and the fan can be conveniently and quickly disassembled for maintenance, in the using process, the inside of the box body of the monitoring device body is ventilated and radiated in a mode of working air draft of the fan, the forced air cooling inside the monitoring device body is realized, and the timely heat dissipation inside the monitoring device body is favorably ensured, the monitoring device body is ensured to have a stable and reliable working state, and meanwhile, because the heat dissipation channels are respectively attached to the two sides of the monitoring device body, the heat dissipation channels and the box side wall of the monitoring device body can dissipate heat inside the monitoring device body, so that the heat dissipation effect is enhanced, and the monitoring device body is further ensured to have a stable and reliable working state.

Has the advantages that: 1. the utility model discloses set up the fixed fan that cooperates the opening and coaxial contrast in the box both sides of monitoring devices body to this ventilates the heat dissipation to the box inside of monitoring devices body through the mode of fan convulsions, has realized the forced air cooling to the inside of monitoring devices body, is favorable to guaranteeing the timely heat dissipation to the inside of monitoring devices body, has guaranteed that the monitoring devices body has reliable and stable operating condition;

2. the heat dissipation channels are attached to the two sides of the box body of the monitoring device body, so that heat dissipation is performed in a heat exchange mode between the heat dissipation channels and the side wall of the box body of the monitoring device body, the heat dissipation effect is enhanced, and the stable and reliable working state of the monitoring device body is further ensured;

3. the heat dissipation channel and the fan are detachably fixed outside the box body of the monitoring device body in a mode of horizontally matching the insertion block and the insertion groove and vertically matching the limiting rod and the limiting hole, the disassembly and assembly mode is simple and easy to operate, and the heat dissipation channel and the fan can be conveniently and quickly disassembled to be maintained.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a front external view of the present invention;

figure 2 is a front cross-sectional view of the present invention from figure 1;

fig. 3 is a partially enlarged view of a portion a of fig. 2 according to the present invention.

The reference numerals are explained below:

1. a heat dissipation channel; 101. inserting a block; 102. a limiting hole; 103. a fan; 2. a monitoring device body; 201. mounting holes; 202. a slot; 203. a mating opening; 3. a locking assembly; 301. a handle; 302. a spring; 303. a limiting rod.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be described in detail below. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1-3, the utility model provides a filling station on-line monitoring device, including monitoring device body 2 and heat dissipation channel 1, cooperation opening 203 has all been seted up at the box both sides middle part of monitoring device body 2, and slot 202 has all been seted up along transversely to the upper portion and the lower part of 2 box both sides of monitoring device body, and mounting hole 201 has all vertically been seted up to the top surface and the bottom surface both sides of monitoring device body 2, and every mounting hole 201 all is coaxially fixed with locking Assembly 3, and is located upper portion and the locking Assembly 3 symmetric distribution who is located the lower part. The number of the heat dissipation channels 1 is two, the two heat dissipation channels are respectively attached to two sides of the box body of the monitoring device body 2, the fans 103 are embedded on the opposite side faces of the heat dissipation channels 1 along the transverse direction, the fans 103 are communicated with the inner space of the heat dissipation channels 1, and the fans 103 are in coaxial sliding fit with the close matching openings 203. The upper portion and the lower portion of the opposite side surfaces of the heat dissipation channel 1 are horizontally fixed with the insertion blocks 101, the insertion blocks 101 are in one-to-one comparison with the insertion grooves 202 and are in sliding fit, the portion, located inside the box body of the monitoring device body 2, of the insertion blocks 101 is vertically provided with the limiting holes 102, and the limiting holes 102 are in coaxial sliding fit with the adjacent locking assemblies 3.

As the preferred scheme of this case, heat dissipation channel 1 is the both ends open-ended rectangular pipe, so set up, is convenient for ensure attached the setting in monitoring devices body 2 outside that heat dissipation channel 1 can be good, and heat dissipation channel 1's material is pure copper to heat dissipation channel 1 self has good heat transfer performance.

The type of fan 103 is the axial-flow type, so sets up, and the fan 103 during operation of being convenient for can promote the radiating effect at the inside good convection current that produces of monitoring devices body 2, and slot 202 is the rectangular channel, and inserted block 101 is the rectangular channel, so sets up, has good mistake proofing design when being convenient for inserted block 101 and slot 202 cooperation.

The locking assembly 3 comprises a limiting rod 303 and a handle 301, the limiting rod 303 is coaxially and slidably matched with the mounting hole 201, the inner end of the limiting rod 303 extending into the box body of the monitoring device body 2 is coaxially and slidably matched with the corresponding limiting hole 102, the handle 301 is fixed at the outer end of the limiting rod 303 extending out of the mounting hole 201, the part of the limiting rod 303 between the handle 301 and the surface of the box body of the monitoring device body 2 is in clearance fit with a spring 302, and two ends of the spring 302 are fixedly connected with the handle 301 and the surface of the box body of the monitoring device body 2 respectively, so that the matching of the insert block 101 and the insert groove 202 can be quickly locked by the matching of the limiting rod 303 and the limiting hole 102, and meanwhile, the locking of the insert block 101 and the insert groove 202 can be conveniently released by the mode that the limiting rod 303 is separated from the limiting hole 102, the surface of the handle 301 is provided with anti-slip threads, so that the handle 301 can be, and handle 301 passes through threaded connection with gag lever post 303, so sets up, the quick assembly disassembly combination of handle 301 and gag lever post 303 of being convenient for.

By adopting the structure, initially, the insert block 101 of the heat dissipation channel 1 is in horizontal sliding fit with the slot 202 of the monitoring device body 2, and the limit rod 303 of the locking component 3 is in vertical sliding fit with the limit hole 102 of the insert block 101, at the moment, the heat dissipation channel 1 can be detachably fixed on the outer side of the monitoring device body 2 in a mode that the insert block 101 is in horizontal fit with the slot 202 and the limit rod 303 is in vertical fit with the limit hole 102, when the heat dissipation channel 1 is dismounted, the heat dissipation channel 1 and the fan 103 can be dismounted together for maintenance in a mode that the insert block 101 is dismounted from the slot 202 only by pulling the limit rod 303 outwards, when the heat dissipation channel 1 is mounted again, the insert block 101 and the slot 202 are in coaxial contrast and slide in, when the insert block 101 slides into the slot 202, the limit rod 303 is pulled outwards in a mode of the extension spring 302 to smoothly slide the insert block 101, when the heat dissipation channel 1 is attached to the outer side of the monitoring device body 2 again, the limiting rod 303 and the limiting hole 102 are coaxial again, and then the limiting rod 303 is loosened, so that the limiting rod 303 can be inserted into the limiting hole 102 again in a manner that the spring 302 releases the stretching state, thereby completing the rapid installation of the heat dissipation channel 1 and the fan 103 on the outer side of the monitoring device body 2, the disassembly and assembly manner is simple and easy to operate, and the heat dissipation channel 1 and the fan 103 can be conveniently and rapidly disassembled for maintenance, and in the using process, the ventilation and heat dissipation can be realized inside the box body of the monitoring device body 2 in a manner that the fan 103 works to draw air, thereby realizing the forced air cooling inside the monitoring device body 2, being beneficial to ensuring the timely heat dissipation inside the monitoring device body 2, ensuring that the monitoring device body 2 has a stable and reliable working state, and simultaneously because the heat dissipation channel 1 is, then can be to the inside heat dissipation of monitoring devices body 2 through the mode of heat exchange of the box lateral wall of heat dissipation channel 1 and monitoring devices body 2, strengthened the radiating effect, further guaranteed that monitoring devices body 2 has reliable and stable operating condition.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (7)

1. The utility model provides a filling station on-line monitoring device, includes monitoring device body (2) and heat dissipation channel (1), its characterized in that: the middle parts of two sides of the box body of the monitoring device body (2) are respectively provided with a matching opening (203), the upper part and the lower part of two sides of the box body of the monitoring device body (2) are respectively provided with a slot (202) along the transverse direction, two sides of the top surface and the bottom surface of the monitoring device body (2) are respectively vertically provided with a mounting hole (201), each mounting hole (201) is coaxially fixed with a locking component (3), and the locking components (3) positioned at the upper part and the lower part are symmetrically distributed;

the number of the heat dissipation channels (1) is two, the two heat dissipation channels are respectively attached to two sides of the box body of the monitoring device body (2), the mutually opposite side surfaces of the heat dissipation channels (1) are respectively provided with a fan (103) in an embedded mode along the transverse direction, the fans (103) are communicated with the inner space of the heat dissipation channels (1), and the fans (103) are in coaxial sliding fit with the close matching openings (203);

the heat dissipation channel (1) is horizontally fixed with inserting blocks (101) on the upper portion and the lower portion of the opposite side faces of the heat dissipation channel (1), the inserting blocks (101) are matched with the inserting grooves (202) in a one-to-one mode and are in sliding fit, limiting holes (102) are vertically formed in the portions, located inside the box body of the monitoring device body (2), of the inserting blocks (101), and the limiting holes (102) are in coaxial sliding fit with the locking assemblies (3) in a close mode.

2. A gasoline station on-line monitoring device as claimed in claim 1, characterized in that: the heat dissipation channel (1) is a rectangular tube with two open ends.

3. A gasoline station on-line monitoring device according to claim 2, characterized in that: the heat dissipation channel (1) is made of pure copper.

4. A gasoline station on-line monitoring device according to claim 3, characterized in that: the fan (103) is of the axial type.

5. A gasoline station on-line monitoring arrangement according to any of claims 1-4, characterized in that: the slot (202) is a rectangular slot, and the insertion block (101) is a rectangular block.

6. A gasoline station on-line monitoring device according to claim 5, characterized in that: locking Assembly (3) include gag lever post (303) and handle (301), gag lever post (303) with mounting hole (201) are coaxial and sliding fit, gag lever post (303) stretch into inside inner all with corresponding of monitoring devices body (2) box spacing hole (102) are coaxial sliding fit, gag lever post (303) stretch out the outer end of mounting hole (201) all is fixed with handle (301), gag lever post (303) are located handle (301) with the equal clearance fit of part between monitoring devices body (2) box surface has spring (302), just spring (302) both ends respectively with handle (301) with monitoring devices body (2) box fixed surface is connected.

7. A gasoline station on-line monitoring device according to claim 6, characterized in that: anti-skidding line has been seted up on handle (301) surface, just handle (301) with gag lever post (303) pass through threaded connection.

Images