CN112196113A - Application equipment of facility management method in central air-conditioning system with moderate adjustment - Google Patents

Abstract

The invention provides a facility management method for application equipment with proper adjustment in a central air-conditioning system, which comprises a cold room frame and an equipment frame, wherein the side of the cold room frame is provided with a heat insulation plate, an air duct and an air outlet machine are arranged in the cold room frame, the air duct is communicated with a telescopic corrugated pipe, an air outlet of the telescopic corrugated pipe is opposite to the air outlet machine, a net frame positioned above the air outlet machine is arranged on the cold room frame, a cold air assembly is arranged on the equipment frame, and the cold air assembly is communicated with the telescopic corrugated pipe. The invention has the advantages that: the movable outdoor air-conditioning cold room is provided, and a comfortable working environment is provided for maintenance personnel; the cold room and the equipment are mutually independent, so that the cold room is prevented from being influenced by heat generated by the equipment, and meanwhile, the cold room is more flexible to use; realize the echelon through receiving the pipe subassembly and receive the rope, conveniently pack up the bellows.

Description

Application equipment of facility management method in central air-conditioning system with moderate adjustment

Technical Field

The invention relates to an air conditioner, in particular to an application device of a facility management method in a central air conditioning system.

Background

Most of the existing air conditioning devices are fixed and cannot be flexibly moved according to needs, so that the application of the air conditioner outdoors is greatly limited. When the aircraft ground is maintained, maintenance personnel need to face upwards to operate, and the airport is a relatively open place, and the sun is exposed to the sun in summer and is hot, and cold wind is cold with a whistle in winter, is unfavorable for maintenance personnel to be in a relatively comfortable environment, influences work efficiency.

Disclosure of Invention

The invention provides a facility management method for an application device with moderate adjustment in a central air-conditioning system, which solves the problem of poor ground maintenance environment of the existing airplane.

The technical scheme of the invention is realized as follows: an application device of a facility management method in a central air conditioning system with proper adjustment comprises a cold room frame and a device frame, wherein a heat insulation plate is arranged on the side of the cold room frame, an air channel and an air outlet machine are arranged in the cold room frame, the air channel is communicated with a telescopic corrugated pipe, an air outlet of the telescopic corrugated pipe is opposite to the air outlet machine, a net frame located above the air outlet machine is arranged on the cold room frame, a cold air assembly is arranged on the device frame, and the cold air assembly is communicated with the telescopic corrugated pipe.

The cold room frame be the rectangle, the four sides side of cold room frame all articulates the heat insulating board, the articulated department of the heat insulating board of four sides side is located not co-altitude department, the inboard of heat insulating board is equipped with fixed cover, wears to establish the U-shaped card between two adjacent fixed covers.

The heat insulation board is provided with a leaf groove, leaf plates are arranged in the leaf groove in parallel, the heat insulation board is connected with a pressing plate through a bolt, the leaf plates are pressed by the pressing plate, the upper ends of the leaf plates are provided with elastic folding pieces, the lower ends of the elastic folding pieces are connected with fan blades, and the fan blades are positioned in the leaf groove at the upper ends of the leaf plates.

The lower part of cold room frame be equipped with front wheel and rear wheel, the lower extreme of front wheel is higher than the lower extreme of rear wheel, the front end lower part of cold room frame is propped up and is equipped with a piece, a piece is articulated with the cold room frame, the front end of cold room frame is equipped with the articulated slab, the articulated slab internal rotation is worn to establish the swivel pin, is equipped with two draw-in grooves on the articulated slab, is equipped with card portion on the swivel pin, the swivel pin is connected with the pushing hands, is equipped with the extension spring between pushing hands and the piece.

The air duct is in a cross shape, and the air outlet machine and the net frame are located in a cross-shaped separated area.

The equipment frame on be equipped with the trip that the opening is down, the trip and pushing hands cooperation.

The equipment frame on be equipped with baffle, handle and the universal wheel that can stop, one side of baffle is equipped with cold wind subassembly, the opposite side of baffle is equipped with flexible bellows, cold wind subassembly and flexible bellows pass through the transition return bend intercommunication, the transition return bend is worn to establish on the baffle.

The cold wind subassembly include air inlet machine, evaporimeter, compressor, condenser and choke valve, the air inlet machine communicates with the cold wind passageway of evaporimeter, the cold wind passageway and the transition return bend intercommunication of evaporimeter, the cryogen passageway and the compressor intercommunication of evaporimeter, compressor and condenser intercommunication, condenser and choke valve intercommunication, the cryogen passageway intercommunication of choke valve and evaporimeter.

The equipment frame on be equipped with and receive the pipe subassembly, receive the pipe subassembly and include bull stick and mount, the bull stick is rotatory to be established between baffle and curb plate, be equipped with around the rope sheave on the bull stick, it is three with every side of flexible bellows symmetry to wind the rope sheave, stay cord on the three rope sheave of every side connects gradually the front portion of flexible bellows through the leading wheel, middle part and rear portion, it establishes with the bull stick card through the card key to wind the rope sheave, the card key passes through pressure spring I and establishes in the keyway of bull stick, ejector pin and depression bar are worn to establish in the activity on the mount, the ejector pin stretches into in the clearance of around the rope sheave and cooperates with the stay cord, the arc of depression bar tip draws the key section and the card key cooperation, ejector pin and depression bar all are connected with the connecting plate, be equipped with equipment frame complex pressure spring II on the connecting plate, flexible bellows is located.

The invention has the advantages that: the movable outdoor air-conditioning cold room is provided, and a comfortable working environment is provided for maintenance personnel; the cold room and the equipment are mutually independent, so that the cold room is prevented from being influenced by heat generated by the equipment, and meanwhile, the cold room is more flexible to use; realize the echelon through receiving the pipe subassembly and receive the rope, conveniently pack up the bellows.

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 the drawings without creative efforts.

FIG. 1 is a front view of the frame structure of the cold room of the present invention.

FIG. 2 is a top view of the frame structure of the cold room of the present invention.

Fig. 3 is a front view of the frame structure of the equipment of the invention.

FIG. 4 is a top view of the frame structure of the apparatus of the present invention.

FIG. 5 is a schematic view of the hinge plate and the pushing handle of the present invention.

FIG. 6 is a schematic view of a latch structure according to the present invention.

In the figure: 1-a cold house frame, 2-a heat insulation board, 3-a leaf groove, 4-a leaf board, 5-a pressing board, 6-a net frame, 7-an elastic folding sheet, 8-a fan blade, 9-a leaf groove, 10-a fixing sleeve, 11-a U-shaped clamp, 12-a front wheel, 13-an air duct, 14-a rear wheel, 15-a support block, 16-an air outlet machine, 17-a tension spring, 18-a push handle, 19-a hinge plate, 20-a rotating pin, 21-a clamping groove, 22-a clamping part, 23-an equipment frame, 24-a partition board, 25-a handle, 26-an evaporator, 27-a compressor, 28-a condenser, 29-a throttling valve, 30-a transition bent pipe, 31-a telescopic corrugated pipe, 32-a rotating rod, 33-a clamping key and 34-a pressure spring I, 35-a fixed frame, 36-a mandril, 37-a pressure lever, 38-a connecting plate, 39-a pressure spring II, 40-a rope winding wheel, 41-a guide wheel, 42-a pull rope and 43-an air inlet machine.

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 obtained by a person skilled in the art without inventive effort based on the embodiments of the present invention, are within the scope of the present invention.

As shown in fig. 1 to 6, an application device of a facility management method for adjusting the central air conditioning system includes a cold room frame 1 and a device frame 23, the cold room frame is used for providing a main structure for installing a cold room component, the device frame is used for providing a main structure for installing a device component and a pipe collecting component, and the cold room and the device are set to be independent from each other, so that the flexibility of the cold room can be improved, and the influence of heat generated when the device works on the cold room can be avoided.

The side of the cold room frame 1 is provided with a heat insulation plate 2, the heat insulation plate is used for separating the outside from the inside of the cold room, the cold room frame and the heat insulation plate form a cold room space with an upward opening, and the upper opening of the cold room space is covered on the shell of the airplane from bottom to top, so that a relatively closed space is formed integrally.

An air duct 13 and an air outlet machine 16 are arranged in the cold room frame 1, the air duct 13 is communicated with a telescopic corrugated pipe 31, an air outlet of the telescopic corrugated pipe 31 is opposite to the air outlet machine 16, and a net frame 6 located above the air outlet machine 16 is arranged on the cold room frame 1. The equipment frame 23 is provided with a cold air component which is communicated with the telescopic corrugated pipe 31. The cold wind subassembly provides the air that the temperature is suitable through flexible bellows in to cold room, and the air gets into the wind channel, discharges through the air outlet, then goes out the fan and lets in the air in the cold room, guarantees that the temperature in the cold room is suitable.

The cold room frame 1 is rectangular, the four sides of the cold room frame 1 are hinged with the heat insulation plates 2 through pins, and the heat insulation plates on the four sides are supported to form a square cold room. The hinged parts of the four-side heat insulation plates 2 are located at different heights, so that the heat insulation plates can be turned over and placed on the frame of the cold room after being used, the spatial positions of the heat insulation plates are staggered with different heights of the hinged parts, the four-side heat insulation plates are stacked together, and the occupied space is reduced.

The inboard of heat insulating board 2 is fixed with fixed cover 10, wears to establish U-shaped card 11 between two adjacent fixed covers 10, and when the heat insulating board of four sides side was propped up, the fixed cover that inserts through the U-shaped card between two heat insulating boards links together, and the support is established to the mutual card between two adjacent heat insulating boards, guarantees the fixed of whole cold room structure.

The heat insulation plate 2 is provided with a hinge groove 3, movable hinge plates 4 are arranged in the hinge groove 3 in parallel, the heat insulation plate 2 is connected with a pressing plate 5 through bolts, and the hinge plates 4 are pressed by the pressing plate 5. Because the outer shell of the airplane is not flat, a telescopic flap is arranged above the heat insulation plate and extends upwards until the flap contacts the outer shell of the airplane, and a gap at the upper end is blocked, so that the sealing performance of the cold room is ensured. After the page plate extends to the position, the page plate is tightly pressed in the page groove by utilizing the pressing plate through screwing the bolt.

Because the upper end of page or leaf board is square, can not laminate the aircraft casing well, consequently lie in the upper end of the page or leaf board 4 of the left and right sides and paste and be equipped with elasticity folded piece 7, the elasticity folded piece is used for better laminating aircraft casing to the fuselage of adaptation aircraft from inside to outside arc transition, flabellum 8 is connected to the lower extreme of elasticity folded piece 7, the flabellum shelters from the clearance of page or leaf board upper end, and flabellum 8 lies in the leaf groove 9 of page or leaf board 4 upper end, guarantees that elasticity folded piece shape and flabellum stretching out area can the adaptability adjustment.

The lower part of the cold room frame 1 is provided with a front wheel 12 and a rear wheel 14 for realizing the running of the cold room frame. The lowest end of the front wheel 12 is higher than the lowest end of the rear wheel 14, and a support block 15 is supported at the lower part of the front end of the cold room frame 1. When the cold room is in place, the support block is arranged below the cold room frame in a supporting mode, so that the front end of the cold room frame is grounded, the cold room frame cannot freely walk, and the temporary positioning is realized. When the transport is carried out, the supporting block is taken out, so that the front wheels land on the ground to realize the walking.

The front end of the cold room frame 1 is welded with a hinged plate 19, a rotating pin 20 is rotatably arranged in the hinged plate 19 in a penetrating way, two clamping grooves 21 are arranged on the hinged plate 19, a clamping part 22 is arranged on the rotating pin 20, and the rotating pin 20 is connected with the push handle 18. The pushing handle can rotate relative to the hinged plate, and can be easily clamped at the upper position and the lower position due to the matching of the clamping part and the clamping groove.

A tension spring 17 is arranged between the push handle 18 and the support block 15, and the support block 15 is hinged with the cold room frame 1 through a hinge. Therefore, when the pushing handle is located at the upper position, the pushing handle is generally used for pushing the cold room frame to move, and the tension spring lifts the support block, so that the front wheel lands on the ground.

The air duct 13 is in a cross shape, the air outlet machine 16 and the net frame 6 are located in a cross-shaped separated area, the air duct is used for conveying air, a cross-shaped supporting structure is formed, the net frame is supported, and the net frame is used for treading and supporting by personnel. The equipment frame 23 is provided with a hook with a downward opening, the hook is matched with the push handle 18, and when the push handle is transported, the push handle is clamped in the hook of the equipment frame, so that the two frames can move synchronously, and the operation is convenient.

The equipment frame 23 is provided with a partition plate 24, a handle 25 and a braking universal wheel, the partition plate is used for separating the cold air assembly from the telescopic corrugated pipe, one side of the partition plate 24 is provided with the cold air assembly, and the other side of the partition plate 24 is provided with the telescopic corrugated pipe 31. The cold air assembly and the telescopic corrugated pipe 31 are communicated through the transition bent pipe 30, the transition bent pipe 30 is arranged on the partition plate 24 in a penetrating mode, and the telescopic corrugated pipe can be flexibly extended or shortened to meet different distances between the equipment frame and the cold room frame.

The cool air unit includes an air inlet fan 43, an evaporator 26, a compressor 27, a condenser 28, and a throttle valve 29. The air inlet fan 43 is communicated with the cold air channel of the evaporator 26, and the cold air channel of the evaporator 26 is communicated with the transition bent pipe 30, so that the outside air is cooled by the evaporator in summer and then is sent into the cold room through the telescopic corrugated pipe. The refrigerant channel of the evaporator 26 is communicated with the compressor 27, the compressor 27 is communicated with the condenser 28, the condenser 28 is communicated with the throttle valve 29, the throttle valve 29 is communicated with the refrigerant channel of the evaporator 26, and the refrigerant passes through the evaporator 26, the compressor 27, the condenser 28 and the throttle valve 29, so that heat absorbed by the evaporator is discharged to the outside through the condenser, and heat transfer is realized. In winter, the air is heated by the evaporator (actually, the condenser), and the flow of the refrigerant is opposite to that in summer.

The equipment frame 23 is provided with a pipe collecting assembly which is used for collecting the telescopic corrugated pipe. Receive the pipe subassembly and include bull stick 32 and mount 35, the bull stick 32 passes through the bearing rotation and establishes between baffle 24 and curb plate, and the bull stick can the free rotation, and the mount is used for installing ejector pin and depression bar.

The rotating rod 32 is provided with a rope winding wheel 40 which is used for winding a rope, the telescopic corrugated pipe 31 is provided with a rope hoop, and the pulling rope is arranged on the rope hoop in a penetrating mode and is prevented from separating from the telescopic corrugated pipe. The telescopic corrugated pipe is pulled by the pull rope on the rope winding wheel, so that the stretched corrugated pipe can be gradually pulled back to the equipment frame, and the pipe collecting operation is realized.

The number of the rope winding wheels 40 is three on each side of the telescopic corrugated pipe 31 symmetrically, the pull ropes 42 on the three rope winding wheels 40 on each side are sequentially connected with the front part, the middle part and the rear part of the telescopic corrugated pipe 31 through guide wheels 41 so as to realize the retraction of the whole pipe section of the telescopic corrugated pipe, the guide wheels are arranged on a rotating rod, and the rotating rod is arranged between the partition plate 24 and the side plate through a bearing.

The rope winding wheel 40 is connected with the rotating rod 32 in a clamping mode through a clamping key 33, the clamping key 33 is arranged in a key groove of the rotating rod 32 through a pressure spring I34, normally, the clamping key is clamped between the rotating rod and the rope winding wheel, the rope winding wheel can rotate by rotating the rotating rod, and the pulling rope is gradually retracted to the rope winding wheel.

The fixed frame 35 is movably provided with an ejector rod 36 and a pressure rod 37 in a penetrating way, the ejector rod 36 extends into the clearance of the rope winding wheel 40 to be matched with the pull rope 42, and when the pull rope on the rope winding wheel is retracted, the pull rope slowly pushes against the ejector rod to push the ejector rod to move and drive the pull rod to synchronously move. The arc-shaped pull key section at the end part of the pressing rod 37 is matched with the clamping key 33, after the pressing rod moves to a certain position, the arc-shaped pull key section starts to jack the clamping key and presses the clamping key into the clamping groove, so that the connection between the rotating rod and the rope winding wheel disappears, the rope winding wheel which finishes winding the rope does not rotate any more, and the rope winding wheel which does not finish winding the rope continues to rotate and wind the rope.

The ejector rod 36 and the pressure rod 37 are both connected with the connecting plate 38, a pressure spring II39 matched with the equipment frame 23 is arranged on the connecting plate 38, and the pressure spring II utilizes elasticity for the connecting plate to ensure that the ejector rod and the pressure rod are in normal states and do not act on a clamping key under normal conditions. Because the telescopic corrugated pipe is easy to bend, a straight strip-shaped pipe groove is arranged on the equipment frame, the straightness of the telescopic corrugated pipe is ensured, and the pipe collection is easy to carry out.

In the fully extended state of the telescopic corrugated pipe, the pipe collecting operation is as follows: rotate the bull stick, three wire winding wheel all is connected with the bull stick this moment, carry out normal receipts rope, stay cord and the concertina bellows at rear portion do not stretch out the tube seat, stay cord pulling concertina bellows at rear portion this moment, because concertina bellows is located the tube seat, consequently, the concertina bellows at rear portion begins to contract and shortens, and the same winding is withdrawed in pulling at rear portion also, the stay cord at rear portion shortens and withdraws along the concertina bellows at rear portion this moment, after the rear portion retracts completely, the ejector pin is withstood to the stay cord at rear portion, this is around because the depression bar is pressed the card key, wire winding wheel and bull stick break away from, and the concertina bellows and the stay cord at middle part also lie in the tube seat completely this moment, then carry out the shrink pipe of middle part concertina bellows.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (9)

1. An application device of a facility management method in central air-conditioning system adjustment, which comprises a cold room frame (1) and a device frame (23), and is characterized in that: the avris of cold room frame (1) be equipped with heat insulating board (2), be equipped with wind channel (13) and play fan (16) in cold room frame (1), wind channel (13) and flexible bellows (31) intercommunication, the air outlet of flexible bellows (31) is just to going out fan (16), be equipped with on cold room frame (1) and be located net frame (6) of going out fan (16) top, be equipped with the cold wind subassembly on equipment frame (23), the cold wind subassembly communicates with flexible bellows (31).

2. The facility management method according to claim 1, applied to a central air conditioning system for moderate adjustment, wherein: the cold room frame (1) be the rectangle, the four avris of cold room frame (1) all articulates heat insulating board (2), the articulated department of heat insulating board (2) of four edges side is located not co-altitude department, the inboard of heat insulating board (2) is equipped with fixed cover (10), wear to establish U-shaped card (11) between two adjacent fixed covers (10).

3. The facility management method according to claim 1, applied to a central air conditioning system for moderate adjustment, wherein: the novel fan blade is characterized in that a blade groove (3) is formed in the heat insulation plate (2), blade plates (4) are arranged in the blade groove (3) in parallel, the heat insulation plate (2) is connected with a pressing plate (5) through a bolt, the pressing plate (5) presses the blade plates (4), an elastic folding piece (7) is arranged at the upper end of each blade plate (4), the lower end of each elastic folding piece (7) is connected with a fan blade (8), and the fan blade (8) is located in a blade groove (9) at the upper end of each blade plate (4).

4. The facility management method according to claim 1, applied to a central air conditioning system for moderate adjustment, wherein: the lower part of cold room frame (1) be equipped with front wheel (12) and rear wheel (14), the lower extreme of front wheel (12) is higher than the lower extreme of rear wheel (14), the front end lower part of cold room frame (1) props up and is equipped with a piece (15), a piece (15) are articulated with cold room frame (1), the front end of cold room frame (1) is equipped with articulated slab (19), pivot round pin (20) are worn to establish by articulated slab (19) internal rotation, be equipped with two draw-in grooves (21) on articulated slab (19), be equipped with card portion (22) on pivot round pin (20), pivot round pin (20) are connected with pushing hands (18), be equipped with extension spring (17) between pushing hands (18) and a piece (15).

5. The facility management method according to claim 1, applied to a central air conditioning system for moderate adjustment, wherein: the air duct (13) is in a cross shape, and the air outlet machine (16) and the net frame (6) are located in a cross-shaped separated area.

6. The facility management method according to claim 1, applied to a central air conditioning system for moderate adjustment, wherein: the equipment frame (23) is provided with a hook with a downward opening, and the hook is matched with the push handle (18).

7. The facility management method according to claim 1, applied to a central air conditioning system for moderate adjustment, wherein: equipment frame (23) on be equipped with baffle (24), handle (25) and the universal wheel of can stopping, one side of baffle (24) is equipped with cold wind subassembly, the opposite side of baffle (24) is equipped with flexible bellows (31), cold wind subassembly and flexible bellows (31) are through transition return bend (30) intercommunication, transition return bend (30) are worn to establish on baffle (24).

8. The application of the facility management method according to claim 1 or 7 to central air conditioning system tuning, characterized in that: the cold wind subassembly include air inlet machine (43), evaporimeter (26), compressor (27), condenser (28) and choke valve (29), air inlet machine (43) and the cold wind passageway intercommunication of evaporimeter (26), the cold wind passageway and the transition return bend (30) of evaporimeter (26) communicate, the refrigerant passageway and the compressor (27) of evaporimeter (26) communicate, compressor (27) and condenser (28) communicate, condenser (28) and choke valve (29) communicate, choke valve (29) and the refrigerant passageway intercommunication of evaporimeter (26).

9. The application of the facility management method according to claim 1 or 7 to central air conditioning system tuning, characterized in that: the pipe winding device is characterized in that a pipe winding assembly is arranged on the equipment frame (23), the pipe winding assembly comprises a rotating rod (32) and a fixing frame (35), the rotating rod (32) is rotatably arranged between a partition plate (24) and a side plate, a rope winding wheel (40) is arranged on the rotating rod (32), the number of rope winding wheels (40) is three on each side symmetrical to a telescopic corrugated pipe (31), pull ropes (42) on the three rope winding wheels (40) on each side are sequentially connected with the front part, the middle part and the rear part of the telescopic corrugated pipe (31) through guide wheels (41), the rope winding wheels (40) are clamped and connected with the rotating rod (32) through clamping keys (33), the clamping keys (33) are arranged in key grooves of the rotating rod (32) through pressure springs I (34), ejector rods (36) and pressure rods (37) are movably arranged on the fixing frame (35) in a penetrating mode, the ejector rods (36) extend into gaps of the rope winding wheels (40) to be matched with the pull ropes (42), and arc-shaped key sections at, the ejector rod (36) and the pressure rod (37) are both connected with the connecting plate (38), a pressure spring II (39) matched with the equipment frame (23) is arranged on the connecting plate (38), the telescopic corrugated pipe (31) is located in a pipe groove on the equipment frame (23), and the pipe groove is straight.

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