CN110486253B

CN110486253B - Machine room water-cooling energy-saving air conditioner

Info

Publication number: CN110486253B
Application number: CN201910594358.4A
Authority: CN
Inventors: 代艳
Original assignee: Xuzhou Kehengao Refrigeration Equipment Co ltd
Current assignee: Xuzhou kehengao refrigeration equipment Co.,Ltd.
Priority date: 2019-07-03
Filing date: 2019-07-03
Publication date: 2021-07-30
Anticipated expiration: 2039-07-03
Also published as: CN110486253A

Abstract

The invention discloses a machine room water-cooling energy-saving air conditioner, which structurally comprises a bottom plate, a machine body, a waste heat ash removal device, an air outlet and a control panel, wherein the bottom plate is connected with the bottom plate, the upper part of the machine body is provided with the air outlet, the control panel is arranged below the air outlet, the control panel is embedded in the machine body, the waste heat ash removal device is arranged at the top of the machine body and comprises a cleaning device, a speed change device, a waste heat utilization device and a pipeline, the cleaning device is arranged at the top of the machine body, the waste heat utilization device is connected with the back of the machine body, the waste heat utilization device is connected with a compressor arranged in the machine body through the pipeline, the speed change device is arranged in the waste heat utilization device, and the waste heat utilization device is connected with the cleaning device through the speed change device. The waste heat of the compressor is used for providing power to automatically clean ash on the top of the machine body, so that dust on the top is prevented from being accumulated, the machine room is environment-friendly and labor-saving, and correct data reading and writing can be carried out.

Description

Machine room water-cooling energy-saving air conditioner

Technical Field

The invention relates to the field of air conditioner compressors, in particular to a machine room water-cooling energy-saving air conditioner.

Background

The machine room air conditioner generally works all the day, and when the air conditioner works, waste heat generated by a compressor inside the air conditioner generally volatilizes in the air, so that the waste is relatively high.

Because the air requirement in the computer lab is more serious, cause data reading and writing mistake easily when the diameter in the air is greater than 0.5 micron miscellaneous more, and the air conditioner top of computer lab is located the ceiling below, and the ceiling falls grey easily, piles up at the air conditioner top, and the computer lab air conditioner is higher, and it is more troublesome to clean the top.

Disclosure of Invention

The invention mainly aims to overcome the defects of the prior art and provide a machine room water-cooling energy-saving air conditioner.

The invention is realized by adopting the following technical scheme: the utility model provides a computer lab water-cooling energy-saving air conditioner, its structure includes bottom plate, organism, waste heat ash removal device, air outlet, control panel, the bottom of the body is connected with the bottom plate, organism upper portion is equipped with the air outlet, control panel establishes in the air outlet below, control panel inlays on the organism, waste heat ash removal device installs at the organism top, waste heat ash removal device includes cleaning device, speed change gear, waste heat utilization equipment, pipeline, cleaning device installs at the organism top, waste heat utilization equipment connects at the organism back, waste heat utilization equipment is connected with the inside compressor that is equipped with of organism through the pipeline, speed change gear establishes inside waste heat utilization equipment, waste heat utilization equipment is connected with cleaning device through speed change gear.

Preferably, the cleaning device comprises a sliding block, a guide rod, racks, roller bodies, teeth and springs, the roller bodies are arranged at the top of the machine body and are in contact with the machine body, the teeth are arranged on two sides of each roller body respectively, 2 racks are arranged and are connected to two sides of the machine body respectively, and the racks are arranged below the roller bodies.

Preferably, a sliding groove is formed in the rack, a guide rod is arranged in the sliding groove, a sliding block is sleeved on the guide rod, the sliding block is matched with the sliding groove, two ends of the roller body are connected with the sliding block through supports respectively, a spring is sleeved on the guide rod, and the spring is arranged on the right side of the sliding block.

As optimization, speed change gear includes first stay cord, big line wheel, little line wheel, second stay cord, first stay cord one end winding is on big line wheel, the first stay cord other end is connected with the slider, big line wheel is connected with little line wheel, the winding has the second stay cord on the little line wheel.

Preferably, the waste heat utilization device comprises a shell, a pull rod, a partition plate, a heat exchange tube, a piston, a water outlet valve and a water inlet valve, the shell is connected to the back of the machine body, the water outlet valve and the water inlet valve are installed at the bottom of the shell, the shell is communicated with the pipeline, and the partition plate is connected in the middle of the shell.

Preferably, the bottom of the partition plate is provided with a heat exchange tube, a piston is arranged in the heat exchange tube, the top of the piston is connected with a pull rod, and the top of the pull rod penetrates through the partition plate and is connected with a second pull rope.

Preferably, the heat exchange tube is filled with mercury.

And optimally, the outer side of the heat exchange tube is provided with uniformly distributed fins.

Preferably, the heat exchange tube is made of metal.

Preferably, the shell is filled with water, and the height of the water is smaller than that of the partition plate.

As optimization, the outer side of the roller body is wrapped with a sponge layer, and the sponge layer can be detached.

Advantageous effects

When the invention is used, the waste heat generated by a compressor in the machine body is collected in the shell through the pipeline to heat the water in the shell, the mercury in the heat exchange tube expands when heated, the piston is pushed upwards, the pull rod can pull the second pull rope to drive the small wire wheel to rotate, the small wire wheel and the large wire wheel can rotate simultaneously because of the connection of the small wire wheel and the large wire wheel, the large wire wheel has a larger diameter, the first pull rope can be pulled to move for a larger distance when synchronously rotating, so that the slide block is pulled to move rightwards on the guide rod, the roller body can move to wipe the top of the machine body, the roller body can rotate and wipe conveniently because of the matching of the rack and the teeth at the two ends of the roller body, when the water is discharged through the water outlet valve after being heated, the cold water enters the shell through the water inlet valve, at the time, the heat exchange tube can be cooled by the cold water, the piston descends due to the contraction of the mercury, at the time, the slide block moves leftwards under the action of the spring, and pushing the roller body again to clean the top of the machine body, and repeating the actions when the water starts to be heated.

Compared with the prior art, the invention has the beneficial effects that: the waste heat of the compressor is used for providing power to automatically clean ash on the top of the machine body, so that dust on the top is prevented from being accumulated, the machine room is environment-friendly and labor-saving, and correct data reading and writing can be carried out.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic structural diagram of a machine room water-cooling energy-saving air conditioner of the present invention.

FIG. 2 is a side view of the ash removal device using waste heat of the present invention.

Fig. 3 is a side view of the sweeping device of the present invention.

Fig. 4 is a schematic diagram of the internal structure of the waste heat utilization device of the present invention.

In the figure: the device comprises a bottom plate 1, a machine body 2, a waste heat dust removing device 3, an air outlet 4, a control panel 5, a cleaning device a, a speed change device b, a waste heat utilization device c, a pipeline d, a sliding block a1, a guide rod a2, a rack a3, a roller body a4, teeth a5, a spring a6, a first pull rope b1, a large reel b2, a small reel b3, a second pull rope b4, a shell c1, a pull rod c2, a partition plate c3, a heat exchange pipe c4, a piston c5, a water outlet valve c6 and a water inlet valve c 7.

Detailed Description

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.

Referring to fig. 1-4, the present invention provides a technical solution of a machine room water-cooling energy-saving air conditioner: its structure includes bottom plate 1, organism 2, waste heat ash removal device 3, air outlet 4,

control panel

5, 2 bottoms of organism are connected with

bottom plate

1, 2 upper portions of organism are equipped with air outlet 4, control panel 5 is established in air outlet 4 below, control panel 5 inlays on organism 2, waste heat ash removal device 3 is installed at 2 tops of organism, waste heat ash removal device 3 includes cleaning device an, speed change gear b, waste heat utilization device c, pipeline d, cleaning device an installs at 2 tops of organism, waste heat utilization device c connects at the organism 2 back, waste heat utilization device c is connected with the inside compressor that is equipped with of organism 2 through pipeline d, speed change gear b is established inside waste heat utilization device c, waste heat utilization device c is connected with cleaning device a through speed change gear b.

The cleaning device a comprises a sliding block a1, a guide rod a2, a rack a3, a roller body a4, teeth a5 and a spring a6, wherein the roller body a4 is arranged at the top of the machine body 2 and is in contact with the machine body 2, the teeth a5 are respectively arranged on two sides of the roller body a4, 2 racks a3 are arranged and are respectively connected to two sides of the machine body 2, and the rack a3 is arranged below the roller body a 4.

The roller is characterized in that a sliding groove is formed in the rack a3, a guide rod a2 is arranged in the sliding groove, a sliding block a1 is sleeved on the guide rod a2, the sliding block a1 is matched with the sliding groove, two ends of the roller body a4 are respectively connected with the sliding block a1 through brackets, a spring a6 is sleeved on the guide rod a2, the spring a6 is arranged on the right side of the sliding block a1, and the guide rod a2 can guide the sliding block a1 and prevent the sliding block a1 from being separated from the sliding groove.

The speed change device b comprises a first pull rope b1, a large reel b2, a small reel b3 and a second pull rope b4, one end of the first pull rope b1 is wound on the large reel b2, the other end of the first pull rope b1 is connected with a sliding block a1, the large reel b2 is connected with a small reel b3, the second pull rope b4 is wound on the small reel b3, and small distance driving and large distance driving can be achieved through matching of the large reel b2 and the small reel b 3.

The waste heat utilization device c comprises a shell c1, a pull rod c2, a partition plate c3, a heat exchange tube c4, a piston c5, a water outlet valve c6 and a water inlet valve c7, the shell c1 is connected to the back of the machine body 2, the bottom of the shell c1 is provided with a water outlet valve c6 and a water inlet valve c7, the shell c1 is communicated with a pipeline d, the middle of the shell c1 is connected with the partition plate c3, waste heat is absorbed through the heat exchange tube c4, water is heated, and the waste heat is fully utilized.

The heat exchange tube c4 is installed to baffle c3 bottom, heat exchange tube c4 is inside to be equipped with piston c5, piston c5 top is connected with pull rod c2, pull rod c2 top is passed baffle c3 and is connected with second stay cord b4, and the setting of baffle c3 is convenient for heat exchange tube c4 to install, and can separate hot gas.

The heat exchange tube c4 is filled with mercury, and can lift the piston c5 through expansion and contraction.

The outer side of the heat exchange tube c4 is provided with evenly distributed fins, so that the contact area of the fins and heat in the air is increased, and the heat absorption effect is improved.

The heat exchange tube c4 is made of metal and has a good heat absorption effect.

The casing c1 is filled with water, the height of the water is less than that of the partition c3, and the water is prevented from affecting the speed changing device b.

The outside parcel of roll body a4 has the sponge layer, and the sponge layer can be dismantled, is convenient for change.

When the device is used, waste heat generated by a compressor in the machine body 2 is collected in the shell c1 through the pipeline d to heat water in the shell, mercury in the heated heat exchange pipe c4 is heated and expanded, the piston c5 is pushed upwards, the pull rod c2 can pull the second pull rope b4 to drive the small reel b3 to rotate, the small reel b3 is connected with the large reel b2 and can rotate simultaneously, the large reel b2 has a large diameter, the first pull rope b1 can be pulled to move for a large distance during synchronous rotation, the sliding block a1 is pulled to move rightwards on the guide rod a2, the roller a4 moves to wipe the top of the machine body 2, the roller a4 can wipe by rotating around the water inlet valve c6 after the water is heated, cold water enters the shell c1 through the c7, and then the heat exchange pipe c4 is cooled by the cold water, the piston c5 descends due to the mercury contraction, the slide block a1 moves to the left under the action of the spring a6, the roller body a4 is pushed again to clean the top of the machine body 2, and the actions are repeated when the water starts to be heated.

Compared with the prior art, the invention has the technical progress that: the waste heat of the compressor is used for providing power to automatically clean ash on the top of the machine body, so that dust on the top is prevented from being accumulated, the machine room is environment-friendly and labor-saving, and correct data reading and writing can be carried out.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims

1. The utility model provides a machine room water-cooling energy-saving air conditioner, its structure includes bottom plate (1), organism (2), waste heat ash removal device (3), air outlet (4), control panel (5), organism (2) bottom is connected with bottom plate (1), organism (2) upper portion is equipped with air outlet (4), establish in air outlet (4) below control panel (5), control panel (5) inlay on organism (2), its characterized in that: the waste heat ash removal device (3) is arranged at the top of the machine body (2);

the waste heat ash removal device (3) comprises a cleaning device (a), a speed change device (b), a waste heat utilization device (c) and a pipeline (d), the cleaning device (a) is installed at the top of the machine body (2), the waste heat utilization device (c) is connected to the back of the machine body (2), the waste heat utilization device (c) is connected with a compressor arranged inside the machine body (2) through the pipeline (d), the speed change device (b) is arranged inside the waste heat utilization device (c), the waste heat utilization device (c) is connected with the cleaning device (a) through the speed change device (b), the cleaning device (a) comprises a sliding block (a1), a guide rod (a2), a rack (a3), a roller body (a4), teeth (a5) and a spring (a6), the roller body (a4) is arranged at the top of the machine body (2) and is in contact with the machine body (2), the teeth (a5) are respectively arranged on two sides of the roller body (a4), the number of the racks (a3) is 2, the racks are respectively connected to two sides of the machine body (2), and the racks (a3) are arranged below the roller bodies (a 4);

a sliding groove is formed in the rack (a3), a guide rod (a2) is arranged in the sliding groove, a sliding block (a1) is sleeved on the guide rod (a2), the sliding block (a1) is matched with the sliding groove, two ends of the roller body (a4) are respectively connected with the sliding block (a1) through a support, a spring (a6) is sleeved on the guide rod (a2), and the spring (a6) is arranged on the right side of the sliding block (a 1);

the speed change device (b) comprises a first pull rope (b1), a large reel (b2), a small reel (b3) and a second pull rope (b4), one end of the first pull rope (b1) is wound on the large reel (b2), the other end of the first pull rope (b1) is connected with a sliding block (a1), the large reel (b2) is connected with the small reel (b3), and the second pull rope (b4) is wound on the small reel (b 3);

the waste heat utilization device (c) comprises a shell (c1), a pull rod (c2), a partition plate (c3), a heat exchange pipe (c4), a piston (c5), a water outlet valve (c6) and a water inlet valve (c7), wherein the shell (c1) is connected to the back of the machine body (2), the bottom of the shell (c1) is provided with the water outlet valve (c6) and the water inlet valve (c7), the shell (c1) is communicated with a pipeline (d), and the partition plate (c3) is connected to the middle of the shell (c 1);

a heat exchange tube (c4) is installed at the bottom of the partition plate (c3), a piston (c5) is arranged inside the heat exchange tube (c4), the top of the piston (c5) is connected with a pull rod (c2), and the top of the pull rod (c2) penetrates through the partition plate (c3) and is connected with a second pull rope (b 4).