CN215378207U - Passive wireless intelligent temperature measurement switch cabinet - Google Patents

Abstract

The utility model relates to the technical field of switch cabinets and discloses a passive wireless intelligent temperature measurement switch cabinet, wherein two support plates are fixedly arranged in an air outlet groove, pressure springs are fixedly arranged on the right sides of the two support plates, a filter plate is fixedly arranged at the right ends of the two pressure springs, a rotary pipe is movably penetrated through the filter plate, threads are arranged on the inner wall of the rotary pipe, a screw rod is movably connected in the rotary pipe, a heat extraction fan is used for extracting heat by rotation to suck air in a shell into the air outlet groove and then discharge the air from right to left, dust in the air is intercepted when passing through the filter plate, when the intercepted dust is excessive and is accumulated on the filter plate, the wind resistance of the filter plate is increased, so that the filter plate is blown to the left by wind, the rotary pipe is driven to move to the left, the rotary pipe can be rotated by the screw rod, and then two cleaning strips can be driven to rotate, thereby the dust that piles up on the filter can be cleared up.

Description

Passive wireless intelligent temperature measurement switch cabinet

Technical Field

The utility model relates to the technical field of switch cabinets, in particular to a passive wireless intelligent temperature measurement switch cabinet.

Background

Prior patent No. CN211790039U discloses a switchgear. The switchgear described herein comprises: a plurality of switch rooms arranged in a height direction of the switch cabinet and configured to accommodate respective ones of the plurality of switches; a plurality of connection chambers arranged in a height direction and configured to accommodate incoming lines or outgoing lines of respective ones of the plurality of switches; and a main bus bar compartment disposed above the plurality of switch compartments in a height direction and configured to accommodate a main bus bar; and a power distribution bar extending in a height direction from the main bus bar, wherein the power distribution bar is arranged adjacent to different sidewalls of the plurality of switching compartments with the plurality of connection compartments. According to an embodiment of the present disclosure, a switchgear with improved safety and easy installation is provided.

Although have the security of promotion and easily install, inside electron original paper can give off the heat when the cubical switchboard is in the operation to need dispel the heat, just so need use the heat extraction fan to dispel the heat, and can filter the dust in order to can install the filter in heat sink department mostly, but will influence the heat dissipation when the dust is too much, thereby need the staff to clear up the filter, will increase staff's work load like this.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

Aiming at the defects of the prior art, the utility model provides a passive wireless intelligent temperature measurement switch cabinet, which has the advantages that the condition that excessive dust needs to be cleaned manually and the working efficiency of workers is reduced is avoided, and the problem that the heat extraction fan needs to be used for heat dissipation because an electronic element in the switch cabinet can emit heat when the switch cabinet is in operation and needs to dissipate heat, a filter plate is arranged at a heat dissipation port for filtering dust mostly, the heat dissipation is influenced when the excessive dust exists, the filter plate needs to be cleaned by the workers and the workload of the workers is increased is solved.

(II) technical scheme

In order to realize the purpose that the excessive dust can be avoided and the manual cleaning is needed, so that the working efficiency of workers is reduced, the utility model provides the following technical scheme: the utility model provides a passive wireless intelligent temperature measurement cubical switchboard, which comprises an outer shell, the air-out groove has been seted up to the left wall of shell, it has the heat extraction fan to go out the inslot fixed mounting, heat extraction fan and mounting bar fixed connection, fixed mounting has two backup pads in the air-out groove, the equal fixed mounting in right side of two backup pads has pressure spring, two pressure spring's right-hand member fixed mounting has the filter, the activity runs through the rotatory pipe on the filter, the screw thread has been seted up to the rotatory intraductal wall, swing joint has the screw rod in the rotatory pipe, the screw rod is connected with the thread engagement in the rotatory pipe, the right-hand member and the mounting bar left side fixed connection of screw rod, fixed mounting has two clearance strips on the rotatory pipe, the left side and the filter laminating of two clearance strips.

Preferably, the rotary pipe is fixedly sleeved with a limiting disc, and the right side of the limiting disc is attached to the left side of the filter plate.

Preferably, fixed mounting has grid a in the air-out duct, and grid a sets up the left at two backup pads, and fixed mounting has grid b in the air-out duct, and grid b sets up on the right-hand side at the heat extraction fan.

Preferably, the air outlet groove is circular, and the filter plate is circular.

Preferably, the lower side of the air outlet groove is provided with a chute, the left side of the shell is provided with a square groove, the square groove is communicated with the chute, and a baffle is movably connected in the square groove.

(III) advantageous effects

Compared with the prior art, the utility model provides a passive wireless intelligent temperature measurement switch cabinet, which has the following beneficial effects:

1. the passive wireless intelligent temperature measurement switch cabinet can suck air in a shell into an air outlet groove through the rotary heat discharge of a heat discharge fan, then discharge the air from right to left, intercept dust in the air when passing through a filter plate, increase the wind resistance of the filter plate when the intercepted dust is too much and accumulates on the filter plate, so that the filter plate can be blown to the left by wind, drive a rotary pipe to move to the left, rotate the rotary pipe through a screw rod, drive two cleaning strips to rotate, clean the dust accumulated on the filter plate, reduce the wind resistance of the filter plate after the dust on the filter plate is cleaned, drive the filter plate to move to the right through the resilience of a pressure spring, drive the two cleaning strips to clean the filter plate again through the rotary pipe, and avoid the excessive dust from needing manual cleaning, thereby reducing the working efficiency of the staff.

2. This passive wireless intelligent temperature measurement cubical switchboard can prevent through spacing dish that the swivelling joint pipe from removing the messenger and breaking away from the filter about to avoid leading to the clearance strip can't clear up the filter, can prevent through grid an that the user leads to the device impaired with external contact pressure spring isotructure, through grid b, can prevent that the user from leading to the injury from contacting the heat extraction fan simultaneously.

3. This passive wireless intelligent temperature measurement cubical switchboard is circular through going out the tuber groove, and the filter is circular, can make and carry out comprehensive clearance when two rotatory clearance filters to can improve the clearance effect, simultaneously through the chute, the dust that the clearance got off can be saved through chute downstream to the square inslot, when needs handle the dust, move the baffle left and just can collect the dust and carry out centralized processing, thereby convenience of customers uses.

Drawings

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

fig. 2 is a schematic cross-sectional perspective view of the left wall of the housing of fig. 1 according to the present invention.

In the figure: 1. a housing; 2. an air outlet groove; 3. a grid a; 4. a baffle plate; 5. a square groove; 6. cleaning the strips; 7. a support plate; 8. a chute; 9. a limiting disc; 10. rotating the tube; 11. a screw; 12. mounting a bar; 13. a heat exhaust fan; 14. a grid b; 15. a filter plate; 16. a pressure spring.

Detailed Description

The present invention will be described in further detail with reference to the drawings, wherein like elements are designated by like reference numerals, wherein the terms "front", "rear", "left", "right", "upper" and "lower", "bottom" and "top" used in the following description refer to directions in the drawings, and the terms "inner" and "outer" refer to directions toward and away from, respectively, the geometric center of a particular element.

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example one

Referring to fig. 1-2, the present invention provides a technical solution: a passive wireless intelligent temperature measurement switch cabinet comprises a shell 1, an air outlet groove 2 is formed in the left wall of the shell 1, a heat extraction fan 13 is arranged in the air outlet groove 2, a mounting bar 12 is fixedly arranged in the air outlet groove 2, the heat extraction fan 13 is fixedly connected with the mounting bar 12, two support plates 7 are fixedly arranged in the air outlet groove 2, pressure springs 16 are fixedly arranged on the right sides of the two support plates 7, a filter plate 15 is fixedly arranged at the right ends of the two pressure springs 16, a rotary pipe 10 movably penetrates through the filter plate 15, threads are formed in the inner wall of the rotary pipe 10, a screw rod 11 is movably connected in the rotary pipe 10, the screw rod 11 is meshed with the threads in the rotary pipe 10, the right end of the screw rod 11 is fixedly connected with the left side of the mounting bar 12, two cleaning bars 6 are fixedly arranged on the rotary pipe 10, the left sides of the two cleaning bars 6 are attached to the filter plate 15, heat extraction is realized by the rotation of the heat extraction fan 13, air in the shell 1 can be sucked into the air outlet groove 2, then the air is discharged from right to left, the dust in the air is intercepted when passing through the filter 15, when the intercepted dust is too much and is accumulated on the filter 15, the wind resistance of the filter 15 is increased, so that the filter 15 is blown to the left by the wind, so that the rotary pipe 10 is driven to move to the left, so that the rotary pipe 10 can be rotated by the screw 11, so that the two cleaning strips 6 can be driven to rotate, so that the dust accumulated on the filter 15 can be cleaned, after the dust on the filter 15 is cleaned, the wind resistance of the filter 15 can be reduced, so that the resilience of the pressure spring 16 can drive the filter 15 to move to the right, so that the two cleaning strips 6 are driven by the rotary pipe 10 to clean the filter 15 again, if the heat-removing wind power fan 13 is closed, the filter 15 is not influenced by the wind, the resilience of the pressure spring 16 can drive the filter 15 to move to the right, thereby drive two clearance strips 6 through rotatory pipe 10 and clear up filter 15, just so can avoid the too much manual work clearance that needs of dust, thereby reduce staff's work efficiency, the fixed cover has spacing dish 9 on the rotatory pipe 10, the right side and the laminating in filter 15 left side of spacing dish 9, fixed mounting has grid a3 in the play wind-out groove 2, grid a3 sets up the left at two backup pads 7, fixed mounting has grid b14 in the play wind-out groove 2, grid b14 sets up right-hand at heat extraction fan 13, can prevent through spacing dish 9 that rotatory pipe 10 from removing the left and right the messenger and break away from on filter 15, thereby avoid leading to the clearance strip 6 can't clear up filter 15, can prevent through grid a3 that the user from leading to the device impaired with structures such as external contact pressure spring 16, simultaneously through grid b14, can prevent that the user from contacting fan 13 and leading to be injured.

In use, the first step: through the rotatory heat extraction of heat extraction fan 13, will inhale the air in the shell 1 in the air-out groove 2, discharge the air from right side to left again, dust in the air will be intercepted when passing through filter 15, when the dust that intercepts down is too much and pile up on filter 15 again, will increase the windage of filter 15, thereby can make filter 15 be blown by wind direction left side, will drive rotatory pipe 10 and remove left side like this, thereby can make rotatory pipe 10 rotate through screw rod 11, just so can drive two clearance strips 6 and rotate, thereby can clear up the dust that piles up on filter 15, after the dust on filter 15 is cleared up, will reduce the windage of filter 15, thereby the resilience of pressure spring 16 can drive filter 15 and remove right side, thereby drive two clearance strips 6 through rotatory pipe 10 and clear up filter 15 once more, if close fan 13, the filter 15 does not receive the influence of wind-force, and pressure spring 16's resilience can drive filter 15 and move to the right to drive two clearance strips 6 through the rotating tube 10 and clear up filter 15, just so can avoid the too much manual clearance that needs of dust, thereby reduce staff's work efficiency.

The second step is that: can prevent through spacing dish 9 that the rotatory pipe 10 from moving about and make and break away from the filter 15 to avoid leading to cleaning strip 6 can't clear up the filter 15, can prevent through grid a3 that the user from leading to the device impaired with structures such as outer contact pressure spring 16, simultaneously through grid b14, can prevent that the user from leading to the injury from contacting heat removal fan 13.

Example two

Please refer to fig. 1-2 on the basis of embodiment one, air-out groove 2 is circular, filter 15 is circular, chute 8 has been seted up to the downside of air-out groove 2, square groove 5 has been seted up in the left side of shell 1, square groove 5 communicates with chute 8, swing joint has baffle 4 in the square groove 5, it is circular to go out air-out groove 2, filter 15 is circular, carry out comprehensive clearance when making two rotatory 6 rotatory clearance filters 15 of strip, thereby can improve the clearance effect, simultaneously through chute 8, the dust that the clearance got off can be saved in moving down square groove 15 through chute 8, when needs handle the dust, move baffle 4 left and just can collect the dust and carry out centralized processing, thereby convenience of customers uses.

When using, be circular through going out wind groove 2, filter 15 is circular, can make two rotatory 6 rotatory clearance filters 15 of strip clear up comprehensively to can improve the clearance effect, simultaneously through chute 8, the dust that the clearance got off can be saved in chute 8 downstream square groove 15, when needs handle the dust, remove baffle 4 and just can collect the dust and carry out centralized processing, thereby convenience of customers uses left.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments 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 (5)

1. The utility model provides a passive wireless intelligence temperature measurement cubical switchboard, includes shell (1), and air-out groove (2) have been seted up to the left wall of shell (1), are provided with heat extraction fan (13), its characterized in that in air-out groove (2): fixed mounting has mounting bar (12) in air-out groove (2), heat extraction fan (13) and mounting bar (12) fixed connection, fixed mounting has two backup pads (7) in air-out groove (2), the equal fixed mounting in right side of two backup pads (7) has pressure spring (16), the right-hand member fixed mounting of two pressure spring (16) has filter (15), the activity runs through rotatory pipe (10) on filter (15), screw has been seted up to rotatory pipe (10) inner wall, swing joint has screw rod (11) in rotatory pipe (10), screw rod (11) are connected with the screw-thread engagement in rotatory pipe (10), the right-hand member and mounting bar (12) left side fixed connection of screw rod (11), fixed mounting has two clearance strips (6) on rotatory pipe (10), the left side and the laminating of two clearance strips (6).

2. The passive wireless intelligent temperature measurement switch cabinet according to claim 1, characterized in that: the rotary pipe (10) is fixedly sleeved with a limiting disc (9), and the right side of the limiting disc (9) is attached to the left side of the filter plate (15).

3. The passive wireless intelligent temperature measurement switch cabinet according to claim 1, characterized in that: fixed mounting has grid a (3) in air-out groove (2), and grid a (3) set up the left in two backup pads (7), and air-out groove (2) internal fixed mounting has grid b (14), and grid b (14) set up on heat extraction fan (13) right-hand side.

4. The passive wireless intelligent temperature measurement switch cabinet according to claim 1, characterized in that: the air outlet groove (2) is circular, and the filter plate (15) is circular.

5. The passive wireless intelligent temperature measurement switch cabinet according to claim 1, characterized in that: chute (8) have been seted up to the downside of air-out groove (2), square groove (5) have been seted up on the left side of shell (1), square groove (5) and chute (8) intercommunication, swing joint has baffle (4) in square groove (5).

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