CN220292488U - Novel cabinet for collecting heat energy of machine room - Google Patents

Abstract

The utility model discloses a novel cabinet for collecting heat energy of a machine room, which comprises: the novel cabinet for collecting heat energy of a machine room is characterized in that the cabinet is internally provided with a heat energy collecting mechanism, the front end of the cabinet is connected with a movable door, the cabinet is used as a connecting foundation, a hot air flow is discharged into a heating water storage tank from a three-way pipe fitting by an exhaust fan, water of the heating water storage tank is heated and warmed up through hot air flow, the heated water flows out through a heat flow pipeline by a first water pump, the heat energy inside the machine room can be collected and utilized through the heat energy collecting mechanism, overload damage to other electrical control equipment in the machine room caused by overhigh heat energy is prevented, a lug is clamped and connected in a concave plate, a rotating screw rod drives a clamping rod to be clamped and connected to limit one side of the lug, and a user can quickly disassemble, assemble and clean a dust-proof screen with excessive dust through the quick dismounting mechanism, so that time is saved, and the working efficiency is improved.

Description

Novel cabinet for collecting heat energy of machine room

Technical Field

The utility model relates to the technical field of cabinets, in particular to a novel cabinet for collecting heat energy of a machine room.

Background

The cabinet is an integral part of the electrical equipment and is a carrier of the electrical control equipment. Is generally made of cold-rolled steel sheet or alloy. Can provide the protection functions of water resistance, dust resistance, electromagnetic interference resistance and the like for the storage equipment. The cabinets are generally divided into server cabinets, network cabinets, console cabinets and the like, and the problems of the prior art are that when the cabinet is used, for example;

the existing cabinet is generally used for supplying electric control equipment, a plurality of groups of cabinets are arranged in a machine room, when the plurality of groups of cabinets run simultaneously, larger heat is generated, excessive overload caused by excessive electric control equipment cannot be removed in time, the heat energy is discharged into the air to cause waste of resources, and when the existing cabinet dust screen is installed, the existing cabinet dust screen is generally fixedly installed through a plurality of groups of bolt holes, the flow is more and the time is longer, and the working efficiency is lower when the filter screen is detached and cleaned in the later stage.

Disclosure of Invention

The utility model aims to provide a novel cabinet for collecting heat energy of a machine room, which aims to solve the problems that the cabinet in the prior market provided by the background technology cannot collect heat energy in the machine room for full use and cannot quickly disassemble, assemble and clean a filter screen.

In order to achieve the above purpose, the present utility model provides the following technical solutions: a novel cabinet for collecting machine room heat energy, comprising: the device comprises a cabinet, a heat energy collecting mechanism, a movable door and a quick dismounting mechanism;

the heat energy collecting device is characterized in that a heat energy collecting mechanism is arranged in the cabinet, the front end of the cabinet is connected with a movable door, a quick dismounting mechanism is arranged inside one side of the cabinet, a dust screen is connected to the quick dismounting mechanism, and the cabinet is used as a connecting base.

Preferably, the thermal energy collecting mechanism includes: tee bend pipe fitting, air extraction fan, heating water storage tank, bleeder vent, first water pump, heat flow pipeline, backward flow storage water tank, second water pump, inlet tube and control panel, through-connection has the tee bend pipe fitting in the rack opposite side, tee bend pipe fitting entrance point interconnect has the air extraction fan, tee bend pipe fitting exit end is connected with the heating water storage tank, the heating water storage tank is connected in the rack.

Preferably, the bleeder vent has been seted up to heating water storage box top inside, heating water storage box one side is connected with first water pump, first water pump one end is connected with the heat flow pipeline, heat flow pipeline one end is connected with the backward flow storage water tank, the backward flow storage water tank is connected in the inside below of rack.

Preferably, one side of the backflow water storage tank is connected with a second water pump, one end of the second water pump is connected with a water inlet pipe, and one end of the water inlet pipe is connected to the other side of the heating water storage tank.

Preferably, the second water pump is electrically connected with a control panel, the control panel is connected to the movable door, the first water pump is electrically connected to the control panel, and the exhaust fan is electrically connected to the control panel.

Preferably, the quick assembly disassembly mechanism includes: concave plate, lug, place chamber, lead screw, pinion rack, stopper, spacing slide rail, gear, clamping lever, first logical groove and second logical groove, rack one side inside top is connected with the concave plate, the block is connected with the lug in the concave plate, the lug connection is in the dust screen top.

Preferably, the cabinet is one side inside to be offered and to place the chamber, it is connected with the lead screw to place to rotate on the chamber inside wall, lead screw one end through connection is in cabinet one side, threaded connection has the pinion rack on the lead screw, the pinion rack top is connected with the stopper, stopper one end block is connected in spacing slide rail, spacing slide rail connection is placing intracavity portion top.

Preferably, the toothed plate below meshing is connected with the gear, the gear rotates to be connected on placing the intracavity wall, the gear below is connected with the draw-in lever, draw-in lever one end runs through first logical groove and connects inside rack one side, draw-in lever one end runs through the second and pass through the groove and connect in the concave plate, draw-in lever one end block is connected in lug one side, first logical groove is seted up and is being placed the chamber below, the second is passed through the groove and is seted up in the concave plate.

Compared with the prior art, the utility model has the beneficial effects that: this a novel rack for collecting computer lab heat energy, the exhaust fan is with the hot air flow follow tee bend pipe fitting and is discharged in the heating water storage tank, the water of heating water storage tank heats the intensification through the hot air flow, first water pump is with the water after heating through the heat flow pipeline outflow, realized can collect and utilize the inside heat energy of computer lab through heat energy collection mechanism, prevent that the heat is too high to cause overload damage to other electrical control equipment in the computer lab, the lug gets into in the concave plate and carries out the block and connect, it is spacing that the clamping lever block is connected in lug one side to rotate the lead screw through the gear drive, it is through quick assembly disassembly mechanism with the dust screen that the dust is too much fast to have realized the user and have carried out dismouting cleaning, save time improves work efficiency, specific content is as follows:

1. when the temperature in a machine room is too high, the control panel controls the exhaust fans to work, the two groups of exhaust fans suck hot air from two inlets of the three-way pipe fitting, the hot air is discharged into the heating water storage tank through the outlet of the three-way pipe fitting, the water in the heating water storage tank is heated and warmed through the hot air, the control panel controls the first water pump to work, the heated water flows out through the hot air pipeline, the hot air pipeline can be arranged in a wall of a room body needing heat supply, the heat preservation effect can be realized, the water in the hot air pipeline is cooled after flowing and enters the backflow water storage tank, the control panel controls the second water pump to work, and cold water flows into the heating water storage tank to be heated through the water inlet pipe to form water circulation, so that the effects of collecting heat energy and fully utilizing are achieved;

2. the dust screen is taken up to drive the lug and get into the concave plate and carry out the block and connect, when the lug promotes the concave plate depths, manual rotation lead screw drives the pinion rack and carries out lateral shifting, the pinion rack is led through the stopper in spacing slide rail is slided, the pinion rack drives the gear and rotates, the gear drives the clamping lever block and connects spacing in lug one side, when needing to dismantle, earlier reverse direction rotation lead screw rotates the clamping lever into place the intracavity, pull out the lug break away from the concave plate can, thereby reached quick assembly disassembly and carried out abluent effect.

Drawings

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

FIG. 2 is a schematic view of a three-way pipe fitting according to the present utility model;

FIG. 3 is a schematic view of a concave plate structure according to the present utility model;

FIG. 4 is an enlarged view of the structure of the portion A of the present utility model;

fig. 5 is an enlarged view of the structure of the portion B of the present utility model.

In the figure: 1. a cabinet; 2. a heat energy collection mechanism; 201. a three-way pipe fitting; 202. an exhaust fan; 203. heating the water storage tank; 204. ventilation holes; 205. a first water pump; 206. a heat flow conduit; 207. a reflux water storage tank; 208. a second water pump; 209. a water inlet pipe; 210. a control panel; 3. a movable door; 4. a quick-dismantling mechanism; 401. a concave plate; 402. a bump; 403. a placement cavity; 404. a screw rod; 405. a toothed plate; 406. a limiting block; 407. a limit sliding rail; 408. a gear; 409. a clamping rod; 410. a first through groove; 411. a second through slot; 5. a dust-proof net.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-5, the present utility model provides a technical solution: a novel cabinet for collecting machine room heat energy, comprising: the device comprises a cabinet 1, a heat energy collecting mechanism 2, a movable door 3 and a quick dismounting mechanism 4;

the heat energy collection mechanism 2 is arranged in the cabinet 1, the front end of the cabinet 1 is connected with the movable door 3, the quick dismounting mechanism 4 is arranged inside one side of the cabinet 1, the dust screen 5 is connected to the quick dismounting mechanism 4, and the cabinet 1 is used as a connection foundation.

The heat energy collection mechanism 2 includes: three-way pipe fitting 201, exhaust fan 202, heating water storage tank 203, bleeder vent 204, first water pump 205, heat flow pipeline 206, backward flow storage tank 207, second water pump 208, inlet tube 209 and control panel 210, the through-connection has three-way pipe fitting 201 in the rack 1 opposite side, three-way pipe fitting 201 in the entrance point is connected with exhaust fan 202, three-way pipe fitting 201 exit end is connected with heating water storage tank 203, heating water storage tank 203 connects in rack 1, the bleeder vent 204 has been seted up to heating water storage tank 203 top inside, heating water storage tank 203 one side is connected with first water pump 205, first water pump 205 one end is connected with heat flow pipeline 206, heat flow pipeline 206 one end is connected with backward flow storage tank 207, backward flow storage tank 207 is connected with second water pump 208 in the inside below of rack 1, second water pump 208 one end is connected with inlet tube 209, inlet tube 209 one end is connected at heating water storage tank 203 opposite side, second water pump 208 electric connection has control panel 210, control panel 210 is connected on movable door 3, first water pump 205 electric connection is on control panel 210, exhaust fan 202 electric connection is on control panel 210, exhaust 202 will heat flow from three-way pipe fitting 203 one side 203, heat flow water storage tank 203 carries out through heating water storage tank 203, after the heat flow pipeline 206 heats up.

The quick assembly disassembly mechanism 4 includes: concave plate 401, protruding block 402, place the chamber 403, lead screw 404, pinion rack 405, stopper 406, spacing slide rail 407, gear 408, clamping lever 409, first logical groove 410 and second through-groove 411, cabinet 1 one side inside top is connected with concave plate 401, the block is connected with protruding block 402 in the concave plate 401, protruding block 402 is connected in dustproof net 5 top, cabinet 1 one side inside has seted up and has placed chamber 403, be connected with lead screw 404 on placing chamber 403 inside wall rotation, lead screw 404 one end through connection is in cabinet 1 one side, threaded connection has pinion rack 405 on the lead screw 404, pinion rack 405 top is connected with stopper 406, stopper 406 one end block is connected in spacing slide rail 407, spacing slide rail 407 is connected in place chamber 403 inside top, pinion rack 405 below meshing is connected with gear 408, gear 408 rotates to be connected on placing chamber 403 inner wall, the gear 408 below is connected with clamping lever 409, clamping lever 409 one end runs through first logical groove 410 and is connected in cabinet 1 one side inside, clamping lever 409 one end runs through second through the through-groove 411 and is connected in concave plate 401, clamping lever 409 one end block is connected in protruding block 402 one side, first logical groove 403 one end joint is connected in protruding block 402 side, protruding block 401 drive protruding block 401 one side is connected in the first through the two-way 401 joint groove 401, the rotation joint hole is connected in the protruding block 401 side 402 through the first through the block groove 401.

To sum up: as shown in fig. 1 to 5, when the novel cabinet for collecting heat energy of a machine room is used, a simple understanding is made of the device, firstly, the control panel 210 controls the exhaust fan 202 to suck hot air from two inlets of the three-way pipe 201, the hot air is discharged into the heating water storage tank 203 through the outlet of the three-way pipe 201, the water in the heating water storage tank 203 is heated and warmed by the hot air, the first water pump 205 flows out the heated water through the hot air pipeline 206, the water in the hot air pipeline 206 is cooled after flowing and enters the backflow water storage tank 207, the second water pump 208 flows cold water into the heating water storage tank 203 through the water inlet pipe 209 to heat, so that the heat energy in the machine room can be collected and utilized through the heat energy collecting mechanism 2, prevent that the heat is too high to cause the overload damage to other electrical control equipment in the computer lab, then, lug 402 gets into in the concave plate 401 and carries out the block and connect, rotate lead screw 404 and drive gear 408 through pinion rack 405 and rotate, gear 408 drives clamping lever 409 block and connects in lug 402 one side spacing, when need dismantle, earlier the opposite direction rotate lead screw 404 rotate clamping lever 409 place in the cavity 403, pull out lug 402 break away from concave plate 401 can, be convenient for carry out the dismouting through quick assembly disassembly mechanism 4 with dust excessive dust screen 5 fast and wash, save time improves work efficiency, the content that does not make detailed description in this specification belongs to the prior art that the expert of the field knows.

Although the present utility model has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present utility model.

Claims (8)

1. A novel cabinet for collecting machine room heat energy, comprising: the device is characterized by comprising a cabinet (1), a heat energy collecting mechanism (2), a movable door (3) and a quick dismounting mechanism (4);

the novel heat energy collecting device is characterized in that a heat energy collecting mechanism (2) is arranged in the cabinet (1), the front end of the cabinet (1) is connected with a movable door (3), a quick dismounting mechanism (4) is arranged inside one side of the cabinet (1), and a dust screen (5) is connected to the quick dismounting mechanism (4).

2. The novel cabinet for collecting heat energy of a machine room of claim 1, wherein: the heat energy collection mechanism (2) comprises: tee bend pipe fitting (201), exhaust fan (202), heating water storage tank (203), bleeder vent (204), first water pump (205), heat flow pipeline (206), backward flow storage water tank (207), second water pump (208), inlet tube (209) and control panel (210), through-connection has tee bend pipe fitting (201) in rack (1) opposite side, tee bend pipe fitting (201) entrance point internal connection has exhaust fan (202), tee bend pipe fitting (201) exit end is connected with heating water storage tank (203), heating water storage tank (203) are connected in rack (1).

3. A novel cabinet for collecting thermal energy of a machine room as claimed in claim 2, wherein: the novel water heater is characterized in that an air vent (204) is formed in the upper portion of the heating water storage tank (203), one side of the heating water storage tank (203) is connected with a first water pump (205), one end of the first water pump (205) is connected with a heat flow pipeline (206), one end of the heat flow pipeline (206) is connected with a backflow water storage tank (207), and the backflow water storage tank (207) is connected to the lower portion in the cabinet (1).

4. A novel cabinet for collecting thermal energy of a machine room according to claim 3, wherein: one side of the backflow water storage tank (207) is connected with a second water pump (208), one end of the second water pump (208) is connected with a water inlet pipe (209), and one end of the water inlet pipe (209) is connected to the other side of the heating water storage tank (203).

5. The novel cabinet for collecting heat energy of a machine room of claim 4, wherein: the second water pump (208) is electrically connected with a control panel (210), the control panel (210) is connected to the movable door (3), the first water pump (205) is electrically connected to the control panel (210), and the exhaust fan (202) is electrically connected to the control panel (210).

6. The novel cabinet for collecting heat energy of a machine room of claim 1, wherein: the quick assembly disassembly mechanism (4) comprises: concave plate (401), lug (402), place chamber (403), lead screw (404), pinion rack (405), stopper (406), spacing slide rail (407), gear (408), clamping lever (409), first logical groove (410) and second logical groove (411), the inside top of rack (1) one side is connected with concave plate (401), the block is connected with lug (402) in concave plate (401), lug (402) are connected in dust screen (5) top.

7. The novel cabinet for collecting heat energy of a machine room of claim 6, wherein: the novel cabinet is characterized in that a placing cavity (403) is formed in one side of the cabinet (1), a screw rod (404) is rotatably connected to the inner side wall of the placing cavity (403), one end of the screw rod (404) is connected to one side of the cabinet (1) in a penetrating mode, a toothed plate (405) is connected to the screw rod (404) in a threaded mode, a limiting block (406) is connected to the upper portion of the toothed plate (405), one end of the limiting block (406) is connected to the inside of the limiting slide rail (407) in a clamping mode, and the limiting slide rail (407) is connected to the upper portion of the inside of the placing cavity (403).

8. The novel cabinet for collecting heat energy of a machine room of claim 7, wherein: the rack is characterized in that a gear (408) is connected to the lower portion of the toothed plate (405) in a meshed mode, the gear (408) is rotationally connected to the inner wall of the placement cavity (403), a clamping rod (409) is connected to the lower portion of the gear (408), one end of the clamping rod (409) penetrates through a first through groove (410) to be connected to the inside of one side of the cabinet (1), one end of the clamping rod (409) penetrates through a second through groove (411) to be connected to the inside of the concave plate (401), one end of the clamping rod (409) is connected to one side of the protruding block (402) in a clamping mode, the first through groove (410) is formed in the lower portion of the placement cavity (403), and the second through groove (411) is formed in the concave plate (401).