CN108954618B - Assembled central air conditioning energy station - Google Patents

Abstract

The invention discloses an assembled type centralized air-conditioning energy station, which comprises an energy tower heat pump system and an assembled house for installing the energy tower heat pump system, wherein the energy tower heat pump system comprises a compressor unit, a first circulating water pump, a second circulating water pump, an energy tower, a cooling tower and a load, the compressor unit, the first circulating water pump, the energy tower and the load form a first closed loop, the compressor unit, the second circulating water pump, the cooling tower and the load form a second closed loop, the assembled house comprises a bottom mounting plate, side coamings and a roof assembly, the energy tower and the cooling tower are fixedly installed on the roof assembly through mounting brackets, and a door is arranged on one side coamings. The invention can reduce the construction steps of workers in site construction, shorten the construction time and reduce the influence of outdoor severe environment on the workers.

Description

Assembled central air conditioning energy station

Technical Field

The invention relates to the technical field of air conditioners, in particular to an assembled type centralized air conditioner energy station.

Background

The existing air conditioner energy system generally comprises a compressor, a circulating water pump, a cooling tower, other accessories and an electric distribution box, and is required to be hoisted for many times when being installed for the first time on site, so that system component elements are installed in place, then a constructor is connected with a pipeline, the working personnel can construct for a long time on site, the environment of the installation site is relatively severe, and particularly in summer, the constructor can be in a insolated environment for a long time during construction operation, so that the health of the constructor is affected.

Disclosure of Invention

The invention aims to solve the technical problems that: provided is an assembled type centralized air conditioner energy station which is easier to install.

In order to solve the problems, the energy source heat pump system comprises a compressor unit, a first circulating water pump, a second circulating water pump, an energy source tower, a cooling tower and a load, wherein the compressor unit, the first circulating water pump, the energy source tower and the load form a first closed loop, the compressor unit, the second circulating water pump, the cooling tower and the load form a second closed loop, the assembled house comprises a bottom mounting plate, a side coaming and a roof assembly, the compressor unit, the first circulating water pump and the second circulating water pump are fixedly mounted on the bottom mounting plate, the energy source tower and the cooling tower are fixedly mounted on the roof assembly through mounting brackets, and a door is arranged on one side coaming.

As optimization, the bottom mounting plate comprises a plurality of cross beams, connecting beams connected between adjacent cross beams and a cover plate covered on the cross beams and the connecting beams, wherein the cross beams are channel steel, the notch of the channel steel is downwards arranged, the upper side of the cross beams is fixedly connected with mounting support legs, the side coaming comprises an I-steel framework and a sealing plate, two groups of hoisting components are also arranged in the assembled house, each group of hoisting components comprises a hoisting rod, a bottom supporting rod and an intermediate connecting rod for connecting the hoisting rod and the bottom supporting rod, the intermediate connecting rod is parallel to the hoisting rod, the hoisting rod and the intermediate connecting rod are both arranged in one I-steel in the middle of the side coaming in a sliding manner, the hoisting rod and the intermediate connecting rod are respectively positioned at two sides of the I-steel, the upper part of the hoisting rod is provided with a hoisting hole, the lower part of the hoisting rod is provided with a strip hole, the middle part of the middle connecting rod is provided with a strip hole, the middle part of the I-shaped steel is rotationally provided with a gear and pin shafts respectively positioned at two sides of the gear, the strip hole of the middle connecting rod and the strip hole on the lifting rod are respectively movably arranged on the pin shafts at the corresponding sides, the middle connecting rod and the lifting rod are both connected with the gear through racks in a meshed manner, the middle part of a channel steel of the bottom mounting plate corresponding to the middle connecting rod is provided with a hinge shaft, the bottom supporting rod comprises a first half rod and a second half rod, one end of the first half rod is rotationally connected with the upper hinge shaft, a driving rod is arranged in the first half rod, a cam is arranged on the hinge shaft, one end of the driving rod passes through the end part of the first plate rod to be propped against the cam, the other end of the driving rod is fixedly connected with one end of the second half rod, the other end of the second half rod is hinged with the lower part of the middle connecting rod.

As optimization, the connecting beam is I-steel, a rectangular plate is arranged between the connecting beam and the cross beam, and the rectangular plate is fixedly connected with the connecting beam and the cross beam through bolts respectively.

As optimization, the lower side of the covering plate is provided with a plurality of supporting parts and a plurality of clamping plates, when the covering plate is connected to the bottom mounting plate, the clamping plates are attached to the outer side face of the cross beam, the clamping plates are fixedly connected with the outer side face of the cross beam through bolts, the supporting parts are positioned in gaps formed by adjacent cross beams and adjacent connecting beams, the supporting parts comprise a plurality of supporting plates which are connected to the lower end face of the covering plate and are arranged in parallel, and the plane where the supporting plates are located is perpendicular to the plane where the covering plate is located.

As an optimization, the roof component comprises two roofs with a certain included angle, a supporting frame and a supporting beam, wherein the supporting frame and the supporting beam are used for supporting the two roofs, and the mounting brackets of the energy tower and the cooling tower are respectively arranged on the two roofs.

The beneficial effects of the invention are as follows: the invention comprises an energy tower heat pump system and an assembled house, wherein before the on-site installation, indoor components such as a compressor unit, a first circulating water pump, a second circulating water pump and the like are firstly installed on a bottom installation plate in a factory, then a side coaming and a roof component are installed on the bottom installation plate, finally an energy source and a cooling tower are installed on the roof component through a bracket, necessary pipeline connection is carried out, a travelling crane is arranged in the factory during factory production, the lifting is more labor-saving and convenient, after the factory is assembled, the whole component is transported to an installation site for lifting, and the installation of wiring harnesses and pipelines is carried out.

Drawings

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

FIG. 2 is a schematic illustration of the connection of the bottom mounting plate of the present invention;

FIG. 3 is a schematic view of a lifting assembly according to the present invention;

FIG. 4 is an enlarged schematic view at A in FIG. 3;

FIG. 5 is a schematic view of a lifting assembly in a lifted state;

fig. 6 is a schematic bottom view of the overlay.

Wherein: 1. the energy tower, 2, the cooling tower, 3, the roof subassembly, 4, the side coaming, 5, the compressor unit, 6, bottom mounting panel, 7, the hoist and mount pole, 8, the I-steel, 9, the intermediate link, 10, bottom support pole, 11, the cladding board, 3-1, the roof face, 3-2, the support frame, 3-3, a supporting beam, 6-1, the crossbeam, 6-2, the tie-beam, 6-3, the right angle plate, 6-4, the cam, 7-1, the hoist and mount hole, 7-2, rectangular hole, 8-1, the round pin axle, 8-2, the round pin axle, 8-3, the gear, 9-1, rectangular hole, 10-1, first half pole, 10-2, the actuating lever, 10-3, second half pole, 11-1, cardboard, 11-2, backup pad.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments of the present invention. The components of the embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the invention, as presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures.

In the description of the present invention, it should be noted that, directions or positional relationships indicated by terms such as "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., are directions or positional relationships based on those shown in the drawings, or are directions or positional relationships conventionally put in use of the inventive product, are merely for convenience of describing the present invention and simplifying the description, and are not indicative or implying that the apparatus or element to be referred to must have a specific direction, be constructed and operated in a specific direction, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," "third," and the like are used merely to distinguish between descriptions and should not be construed as indicating or implying relative importance.

The assembled type centralized air-conditioning energy station shown in fig. 1 comprises an energy tower heat pump system and an assembled house for installing the energy tower heat pump system, wherein the energy tower heat pump system comprises a compressor unit 5, a first circulating water pump, a second circulating water pump, an energy tower 1, a cooling tower 2 and a load, the load is an air-conditioning indoor unit, a radiator or other heating and refrigerating equipment, the compressor unit 5, the first circulating water pump, the energy tower 1 and the load form a first closed loop, the compressor unit 5, the second circulating water pump, the cooling tower 2 and the load form a second closed loop, heating and heating are carried out by adopting the first closed loop in winter, heating can be provided, hot water can be provided, and refrigerating is simultaneously carried out by adopting the first closed loop and the second closed loop in summer, so that the refrigerating effect is enhanced. The prefabricated house comprises a bottom mounting plate 6, side coamings 4 and a roof assembly 3, wherein the compressor unit 5, the first circulating water pump and the second circulating water pump are fixedly mounted on the bottom mounting plate 6, the energy tower 1 and the cooling tower 2 are fixedly mounted on the roof assembly 3 through mounting brackets, and one of the side coamings 4 is provided with a door.

As shown in fig. 2-4, the bottom mounting plate 6 in this embodiment includes a plurality of beams, a connecting beam 6-2 connected between adjacent beams, and a cover plate 11 covering the beams 6-1 and the connecting beam 6-2, the beams 6-1 are channel steel, the channel steel is arranged with a notch facing downwards, the connecting beam 6-2 is i-steel, a rectangular plate 6-3 is arranged between the connecting beam 6-2 and the beams 6-1, and the rectangular plate 6-3 is fixedly connected with the connecting beam 6-2 and the beams 6-1 through bolts. The upper side of the cross beam 6-1 is fixedly connected with mounting legs, the side coaming 4 comprises an I-shaped steel framework and a sealing plate, even groups of hoisting components are arranged in the assembled house, the even groups of hoisting components are symmetrically arranged on two sides of the assembled house respectively, each group of hoisting components comprises a hoisting rod 7, a bottom supporting rod 10 and a middle connecting rod 9 for connecting the hoisting rod 7 with the bottom supporting rod 10, the middle connecting rod 9 is parallel to the hoisting rod 7, the hoisting rod 7 and the middle connecting rod 9 are both arranged in one I-shaped steel 8 in the middle of the side coaming 4 in a sliding manner, the hoisting rod 7 and the middle connecting rod 9 are respectively positioned on two sides of the I-shaped steel 8, the upper part of the hoisting rod 7 is provided with a hoisting hole 7-1, the lower part of the hoisting rod 7 is provided with a strip hole 7-2, the upper part of the middle connecting rod 9 is provided with a strip hole 9-1, the middle part of the I-shaped steel 8 is rotatably provided with a gear 8-3 and pin shafts 8-1 and a pin shaft 8-2 respectively positioned on two sides of the gear 8-3, the middle connecting rod 9 is parallel to the hoisting rod 7 and the middle connecting rod 9 is connected with the second pin shaft 10-10 through a half of the first pin shaft 1 and the second pin shaft 1, the middle connecting rod 10 is correspondingly arranged on the middle shaft 10-1 and the middle connecting rod 10-10 is hinged with the second pin shaft 1 and the second half-1, the middle connecting rod is provided with the second half connecting rod 10, and the middle connecting rod 10 is meshed with the second connecting rod 1 and the second connecting rod is provided with the second connecting rod 2, the hinge shaft is provided with a cam 6-4, one end of the driving rod 10-2 passes through the end part of the first half rod 10-1 and is propped against the cam 6-4, the other end of the driving rod 10-2 is fixedly connected with one end of the second half rod 10-3, and the other end of the second half rod 10-3 is hinged with the lower part of the middle connecting rod 9.

As shown in fig. 6, a plurality of supporting members and a plurality of clamping plates are arranged on the lower side of the covering plate 11 in the embodiment, when the covering plate 11 is connected to the bottom mounting plate 6, the clamping plates 11-1 are attached to the outer side surface of the cross beam 6-1, the clamping plates 11-1 are fixedly connected with the outer side surface of the cross beam 6-1 through bolts, the supporting members are located in gaps formed between the adjacent cross beam 6-1 and the adjacent connecting beam 6-2, the supporting members comprise a plurality of supporting plates 11-2 which are connected to the lower end surface of the covering plate 11 and are arranged in parallel, and the plane of the supporting plates 11-2 is perpendicular to the plane of the covering plate 11. As shown in fig. 3, when the prefabricated house is in a non-hoisting state, the hoisting rod 7 is contracted into the i-steel 8, the bottom support rod 10 is positioned in the groove of the channel steel, normal placement of the prefabricated house is not affected, when the energy tower heat pump system is installed on the prefabricated house in a factory, the prefabricated house is transported to a working site for hoisting, when the prefabricated house is hoisted, the hoisting tool is connected to the hoisting hole 7-1 of the hoisting rod 7, as shown in fig. 5, the hoisting tool gradually lifts the hoisting rod 7, the hoisting rod 7 drives the intermediate connecting rod 9 to move downwards through the gear 8-3 when the hoisting rod 7 moves upwards until the hoisting rod 7 rises to an upper limit state, the whole prefabricated house is hoisted along with the hoisting tool, the lower part of the intermediate connecting rod 9 drives the bottom support rod 10 to rotate, when the bottom support rod 10 rotates, the cam 6-4 pushes the bottom support rod 10 to stretch through the driving rod 10-2, the outer contour of the cam 6-4 is obtained through calculation, the hinging point of the bottom support rod 10 and the intermediate connecting rod 9 is always on the track where the intermediate connecting rod 9 is in a straight line down, the hoisting tool is hoisted, the compression set 5 is easily formed on the middle part of the middle support plate 5, and the compression set is prevented from deforming to the middle part of the middle part due to the compression set 5, and the compression set is prevented from being deformed to the compression set 5, and the compression set is formed to the middle part is deformed to the middle part is 5, and the compression set is easy, and the compression set is reduced, and the compression set is easy to be deformed, and the compression set is easy. After being lifted in place, the lifting rod 7 automatically falls to drive the middle connecting rod 9 and the bottom supporting rod 10 to reset, so that the placement and the installation of the assembled house are not affected.

The roof assembly in this embodiment comprises two roof surfaces 3-1 with a certain included angle, a supporting frame 3-2 for supporting the two roof surfaces 3-1, and a supporting beam 3-3, wherein the mounting brackets of the energy tower 1 and the cooling tower 2 are respectively arranged on the two roof surfaces 3-1. And an upright post is further arranged between the mounting beam and the bottom mounting plate and used for supporting the supporting frame.

The foregoing embodiments are merely examples of the present invention, and the scope of the present invention includes, but is not limited to, the forms and styles of the foregoing embodiments, and any suitable changes or modifications made by those skilled in the art, which are consistent with the claims of the present invention, shall fall within the scope of the present invention.

Claims (4)

1. An assembled centralized air conditioner energy station which is characterized in that: the energy source tower heat pump system comprises a compressor unit, a first circulating water pump, a second circulating water pump, an energy source tower, a cooling tower and a load, wherein the compressor unit, the first circulating water pump, the energy source tower and the load form a first closed loop, the compressor unit, the second circulating water pump, the cooling tower and the load form a second closed loop, the assembled house comprises a bottom mounting plate, a side coaming and a roof assembly, the compressor unit, the first circulating water pump and the second circulating water pump are fixedly mounted on the bottom mounting plate, the energy source tower and the cooling tower are fixedly mounted on the roof assembly through mounting brackets, and a door is arranged on one side coaming;

the bottom mounting panel include a plurality of crossbeams, connect the compensating beam between adjacent crossbeam and cover on crossbeam and compensating beam, the crossbeam be the channel-section steel, the notch of channel-section steel sets up down, the upside fixedly connected with installation landing leg of crossbeam, the side bounding wall include I-steel skeleton and shrouding, assembled house in still be provided with two sets of hoist and mount components, every set of hoist and mount components includes hoist and mount pole, bottom support pole and the intermediate connecting rod of connecting hoist and mount pole and bottom support pole, the intermediate connecting rod be on a parallel with the hoist and mount pole, hoist and mount pole and intermediate connecting rod all slide the setting in one of them I-steel at side bounding wall middle part, and hoist and mount pole and intermediate connecting rod are located the both sides of I-steel respectively, the upper portion of hoist and mount pole sets up the lifting hole, the lower part of hoist and mount pole is provided with rectangular hole, the middle part of I-steel rotate the round pin axle that is provided with the gear and is located the gear both sides respectively, rectangular hole and the rectangular hole on the pole set up the round pin axle on corresponding side respectively, and the intermediate connecting rod is parallel with the hoist and mount pole, and intermediate connecting rod all slide the setting up the corresponding one half of the second end with the top half of the first end of the drive shaft through the cam, the bottom half of the drive shaft is connected with the second end of the corresponding half of the first end, the second end is provided with the second end, the second end is connected with the second end.

2. The energy station of an assembled air conditioner as defined in claim 1, wherein: the connecting beam is I-steel, a rectangular plate is arranged between the connecting beam and the cross beam, and the rectangular plate is fixedly connected with the connecting beam and the cross beam through bolts respectively.

3. The energy station of an assembled air conditioner as defined in claim 1, wherein: the lower side of cladding board be provided with a plurality of supporting parts and a plurality of cardboard, when the cladding board is connected on the bottom mounting panel, the cardboard laminating on the lateral surface of crossbeam, and the cardboard passes through the lateral surface fixed connection of bolt and crossbeam, supporting part be located adjacent crossbeam and adjacent tie-beam group's clearance, supporting part including a plurality of parallel arrangement's that connect on the cladding board lower extreme face backup pad, the plane perpendicular to cladding board place in the backup pad place.

4. The energy station of an assembled air conditioner as defined in claim 1, wherein: the roof assembly comprises two roofs with a certain included angle, a support frame and a support beam, wherein the support frame and the support beam are used for supporting the two roofs, and the mounting brackets of the energy tower and the cooling tower are respectively arranged on the two roofs.