CN113175745A - General platform of assembly type intelligent high-efficiency source station and manufacturing method - Google Patents

Abstract

The invention discloses an assembled intelligent high-efficiency general platform for a source station and a manufacturing method thereof.A box body of a support assembly is rotationally connected with a box door, a boiler of an energy supply assembly is arranged in the box body, a cold water pump, a water inlet pipe and a water tank are sequentially connected, a hot water pump is connected with the boiler through a water outlet pipe, a first rotating plate of an expansion assembly is rotationally connected with the box body, a rotating rod is rotationally connected with the first rotating plate, a support pad is detachably connected with the first rotating plate, and two auxiliary plates are slidably arranged at two sides of the first rotating plate. When needs expand the heat supply ability, open first commentaries on classics board, the commentaries on classics pole is first commentaries on classics board relatively and is rolled out, and the supporting pad supports first commentaries on classics board in the equipment, installs the subplate through two draw-in grooves, increases other coverboards again and seals up the gap, can expand the space at energy station fast, conveniently puts into more energy supply subassemblies and supplies energy to can use in multiple occasion.

Description

General platform of assembly type intelligent high-efficiency source station and manufacturing method

Technical Field

The invention relates to the field of energy station universal platforms, in particular to an assembled intelligent high-efficiency energy station universal platform and a manufacturing method thereof.

Background

In recent years, most of newly developed communities in urban construction adopt a boiler which is an energy station to supply heat, and the building area of residential communities is generally hundreds of thousands of flat to millions of flat meters. The building area of the residential area is gradually increased, the matched boiler rooms are built backwards, and the later-stage construction of the boiler rooms cannot provide heat for the houses built in batches. And current energy station can't carry out nimble extension or overhaul the change to cause energy supply efficiency to reduce.

Disclosure of Invention

The invention aims to provide an assembled intelligent high-efficiency general platform for a source station and a manufacturing method thereof, and aims to solve the problem that the energy supply efficiency is reduced because the conventional energy station cannot be flexibly expanded or overhauled and replaced.

In order to achieve the above object, in a first aspect, the present invention provides an assembly type intelligent high-performance general platform for a source station, comprising a support assembly, an energy supply assembly and an extension assembly, wherein the support assembly comprises a box body and a box door, the box body is provided with a first through hole and a connector, the connector is located on one side of the box body, the box door is rotatably connected with the box body and located on one side of the box body away from the connector, the energy supply assembly comprises a plurality of boilers, a cold water pump, a hot water pump, a water tank, a water inlet pipe and a water outlet pipe, the boilers are provided in a plurality, the boilers are fixedly connected with the box body and located in the first through hole, the cold water pump is communicated with the boilers and located on one side of the boilers, the water tank is fixedly connected with the box body and located on one side of the boilers, the water inlet pipe is communicated with the cold water pump and the water tank, the expansion assembly comprises a first rotating plate, a rotating rod, a supporting pad and auxiliary plates, the first rotating plate is provided with a first groove and two clamping grooves, the two clamping grooves are located on two sides of the first groove, the rotating rod is rotatably connected with the first rotating plate and located in the first groove, the supporting pad is detachably connected with the rotating rod and located on one side of the rotating rod, the number of the auxiliary plates is two, and the two auxiliary plates are slidably connected with the first rotating plate and located in the two clamping grooves respectively.

The supporting assembly further comprises a top cover, and the top cover is connected with the box body in a sliding mode and located on one side, far away from the boiler, in the box body.

The supporting assembly further comprises a moving wheel, and the moving wheel is fixedly connected with the box body and is positioned on one side of the box body.

Wherein, the connector includes support column and connecting bolt, the subplate includes subplate body and link, the support column is located in the link, connecting bolt with support column sliding connection, and pass the support column with the link.

The supporting component further comprises a sealing adhesive layer, the sealing adhesive layer is fixedly connected with the box body and located at the joint of the connector and the auxiliary plate.

The water tank comprises a water tank body and a tank cover, wherein the tank cover is rotatably connected with the water tank body and is positioned on one side of the water tank body.

The water tank further comprises a liquid level sensor, and the liquid level sensor is fixedly connected with the water tank body and is positioned in the water tank body.

In a second aspect, the present invention further provides a method for manufacturing a fabricated intelligent high performance source station universal platform, including: manufacturing and connecting a box body and a box door; manufacturing a first rotating plate, and connecting the first rotating plate with the box body; mounting a rotating rod to the first rotating plate; installing an energy supply assembly into the box body; and manufacturing the auxiliary plate and the supporting pad.

The invention relates to an assembly type intelligent high-efficiency general platform for a source station and a manufacturing method thereof, wherein a first through hole is used for placing an energy supply assembly and preserving heat, a box door is rotationally connected with a box body, the condition in the box body can be observed and processed through the box door, the plurality of boilers are fixedly connected with the box body and are main bodies for heating a water source and supplying heat, the cold water pump is communicated with the boiler, the water tank is fixedly connected with the box body, the water inlet pipe is communicated with the cold water pump and the water tank, the water tank is communicated with an external water source, the cold water pump is started to send cold water from the water tank into the cold water pump through the water inlet pipe for heating, the hot water pump is fixedly connected with the box body, the water outlet pipe is communicated with the boilers, and hot water heated by the boilers can be pumped out by starting the hot water pump; the rotating rod is rotatably connected with the first rotating plate, the supporting pad is detachably connected with the rotating rod, the two auxiliary plates are slidably connected with the first rotating plate, when the heating capacity needs to be expanded, the first rotating plate can be opened, the rotating rod rotates out relative to the first rotating plate, the first rotating plate can be supported after the supporting pad is assembled, then the auxiliary plates are installed through the two clamping grooves, and other covering plates are added to seal gaps, so that the space of the energy station can be rapidly expanded, more energy supply assemblies can be conveniently placed for supplying energy, the energy station can be used in various occasions, and the problem that the energy station cannot be flexibly expanded or overhauled and replaced, and the energy supply efficiency is reduced is solved.

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 top block diagram of a modular intelligent high performance source station platform according to the present invention;

FIG. 2 is a bottom block diagram of a modular intelligent high performance source station platform according to the present invention;

FIG. 3 is a side view of a general platform for an intelligent high performance source station of the present invention;

FIG. 4 is a schematic cross-sectional view of a modular intelligent high performance source station platform along a sub-deck of the present invention;

FIG. 5 is a flow chart of a method of manufacturing a mounted intelligent high performance source station platform according to the present invention.

1-supporting component, 2-energy supply component, 3-expansion component, 11-box body, 12-box door, 13-top cover, 14-moving wheel, 15-sealant layer, 21-boiler, 22-cold water pump, 23-hot water pump, 24-water tank, 25-water inlet pipe, 26-water outlet pipe, 31-first rotating plate, 32-rotating rod, 33-supporting pad, 34-auxiliary plate, 35-roller, 36-sealing strip, 111-first through hole, 112-connector, 241-water tank body, 242-box cover, 243-liquid level sensor, 311-first groove, 312-clamping groove, 341-auxiliary plate body, 342-connecting frame, 1121-supporting column and 1122-connecting bolt.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or to elements having the same or similar power supply throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships illustrated in the drawings, and are used merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention. Further, in the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

In a first aspect, referring to fig. 1 to 4, the present invention provides a general platform for an assembly type intelligent high performance source station, comprising: supporting component 1, energy supply component 2 and extension module 3, supporting component 1 includes box 11 and chamber door 12, box 11 has first through-hole 111 and connector 112, connector 112 is located one side of box 11, chamber door 12 with box 11 rotates to be connected, and is located box 11 keeps away from one side of connector 112, energy supply component 2 includes boiler 21, cold water pump 22, hot-water pump 23, water tank 24, inlet tube 25 and outlet pipe 26, the quantity of boiler 21 has a plurality ofly, and is a plurality of boiler 21 with box 11 fixed connection, and be located in first through-hole 111, cold water pump 22 with boiler 21 communicates, and is located one side of boiler 21, water tank 24 with box 11 fixed connection, and be located one side of boiler 21, inlet tube 25 with cold water pump 22 with water tank 24 communicates, the expansion assembly 3 includes a first rotating plate 31, a rotating rod 32, a supporting pad 33 and sub-plates 34, the first rotating plate 31 has a first groove 311 and two slots 312, the two slots 312 are located on two sides of the first groove 311, the rotating rod 32 is rotatably connected with the first rotating plate 31 and located in the first groove 311, the supporting pad 33 is detachably connected with the rotating rod 32 and located on one side of the rotating rod 32, the number of the sub-plates 34 is two, and the two sub-plates 34 are slidably connected with the first rotating plate 31 and located in the two slots 312 respectively.

In this embodiment, the supporting component 1 includes a box 11 and a box door 12, the box 11 has a first through hole 111 and a connector 112, the connector 112 is located on one side of the box 11, the first through hole 111 is used for placing the energy supply component 2 and preserving heat, the box door 12 is rotatably connected to the box 11 and located on one side of the box 11 away from the connector 112, the interior of the box 11 can be observed and processed through the box door 12, the energy supply component 2 includes a boiler 21, a cold water pump 22, a hot water pump 23, a water tank 24, a water inlet pipe 25 and a water outlet pipe 26, the number of the boilers 21 is plural, the plural boilers 21 are fixedly connected to the box 11 and located in the first through hole 111, a main body for heating the water source and supplying heat is provided, the cold water pump 22 is communicated with the boiler 21 and located on one side of the boiler 21, the water tank 24 is fixedly connected with the tank 11 and located at one side of the boiler 21, the water inlet pipe 25 is communicated with the cold water pump 22 and the water tank 24 and located between the cold water pump 22 and the water tank 24, the water tank 24 is communicated with an external water source, the cold water pump 22 is started to feed cold water from the water tank 24 into the cold water pump 22 through the water inlet pipe 25 for heating, the hot water pump 23 is fixedly connected with the tank 11 and located in the first through hole 111, the water outlet pipe 26 is communicated with the boilers 21 and communicated with the hot water pump 23, and the hot water pump 23 is started to discharge the hot water pump 23 heated by the boiler 21; the expansion assembly 3 comprises a first rotating plate 31, a rotating rod 32, a supporting pad 33 and a secondary plate 34, wherein the first rotating plate 31 is provided with a first groove 311 and two clamping grooves 312, the two clamping grooves 312 are positioned at two sides of the first groove 311, the rotating rod 32 is rotatably connected with the first rotating plate 31 and is positioned in the first groove 311, the supporting pad 33 is detachably connected with the rotating rod 32 and is positioned at one side of the rotating rod 32, the number of the secondary plates 34 is two, the two secondary plates 34 are slidably connected with the first rotating plate 31 and are respectively positioned in the two clamping grooves 312, when the heat supply capacity needs to be expanded, the first rotating plate 31 can be opened, the rotating rod 32 rotates out relative to the first rotating plate 31, the first rotating plate 31 can be supported after the supporting pad 33 is assembled, and then the secondary plate 34 is installed through the two clamping grooves 312, increase other overlay again and seal up the gap to can expand fast the space at energy station, conveniently put into more energy supply subassembly 2 supplies energy, thereby can use in multiple occasion, solves current energy station and can't carry out nimble extension or overhaul the change, thereby causes the problem that energy supply efficiency reduces.

Further, the supporting assembly 1 further comprises a top cover 13, and the top cover 13 is slidably connected with the box body 11 and is located on one side, far away from the boiler 21, in the box body 11.

In this embodiment, the top of the extension part can be closed by sliding the top cover 13, so that the amount of the outer plate structure can be reduced, and the assembly is more convenient.

Further, the support assembly 1 further comprises a moving wheel 14, and the moving wheel 14 is fixedly connected with the box body 11 and is located on one side of the box body 11.

In the present embodiment, the case 11 can be easily moved by the moving wheels 14.

Further, the connecting head 112 includes a supporting pillar 1121 and a connecting bolt 1122, the sub-plate 34 includes a sub-plate body 341 and a connecting frame 342, the supporting pillar 1121 is located in the connecting frame 342, and the connecting bolt 1122 is slidably connected to the supporting pillar 1121 and passes through the supporting pillar 1121 and the connecting frame 342.

In this embodiment, the support pillar 1121 is placed in the connecting frame 342, and then the connecting bolt 1122 is inserted through the support pillar 1121 and the connecting frame 342, so that the sub-plate 34 and the box body 11 can be firmly connected, the placement area can be increased, and more energy supply assemblies 2 can be placed in the box body.

Further, the supporting assembly 1 further includes a sealing adhesive layer 15, the sealing adhesive layer 15 is fixedly connected to the box 11 and is located at a joint of the connector 112 and the sub-plate 34.

In this embodiment, the sealant layer 15 is disposed at the joint between the connecting head 112 and the sub-plate 34, so as to seal the joint position and reduce the heat dissipation.

Further, the water tank 24 includes a tank body 241 and a tank cover 242, and the tank cover 242 is rotatably connected to the tank body 241 and is located at one side of the tank body 241.

In the present embodiment, the tank cover 242 is provided to the tank body 241, so that the tank body 241 can be easily opened to clean the inside.

Further, the water tank 24 further includes a liquid level sensor 243, and the liquid level sensor 243 is fixedly connected to the water tank body 241 and is located inside the water tank body 241.

In this embodiment, the type of the liquid level sensor 243 may be XKC-Y23-V, and the liquid level sensor 243 may detect the depth of water in the tank body 241, so that when the water amount is insufficient, an alarm may be issued by connecting to an alarm, thereby preventing the boiler 21 from being dried.

Further, the expansion assembly 3 further includes a plurality of rollers 35, and the plurality of rollers 35 are rotatably connected to the first rotating plate 31 and are respectively located in the two slots 312.

In the present embodiment, by providing the roller 35 in the engaging groove 312, friction between the sub-plate 34 and the first rotating plate 31 can be reduced when the sub-plate 34 is put in, so that assembly is easier.

Further, the expansion assembly 3 further comprises a sealing strip 36, wherein the sealing strip 36 is fixedly connected with the first rotating plate 31 and is located at the joint of the first rotating plate 31 and the secondary plate 34.

In the present embodiment, the sealing strip 36 can seal the joint between the first rotating plate 31 and the sub-plate 34, so as to reduce the dissipation of heat and prevent external foreign matters from entering the inside.

In a second aspect, referring to fig. 5, the present invention further provides a method for manufacturing an assembly-type intelligent high-performance source station universal platform, including:

s101, manufacturing and connecting a box body 11 and a box door 12;

the cabinet 11 and the door 12 are separately manufactured by casting and then coupled using a coupling structure.

S102, manufacturing a first rotating plate 31, and connecting the first rotating plate 31 with the box body 11;

the first rotating plate 31 is manufactured by casting and then connected using a connecting structure.

S103 mounting the rotating rod 32 to the first rotating plate 31;

the rotating rod 32 can be made of standard components, and the rotating rod 32 and a preset mounting point on the first rotating plate 31 are connected.

S104, installing the energy supply assembly 2 into the box body 11;

the energy supply assembly 2 and the installation area defined in the box body 11 are connected and debugged.

S105, the sub-plate 34 and the support pad 33 are manufactured.

The sub-plate 34 and support pad 33 are prefabricated and transported to the location of the energy station for assembly on site when expansion is required.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (8)

1. An assembly type intelligent high-efficiency source station universal platform is characterized in that,

including supporting component, energy supply subassembly and extension subassembly, the supporting component includes box and chamber door, the box has first through-hole and connector, the connector is located one side of box, the chamber door with the box rotates to be connected, and lie in one side that the connector was kept away from to the box, the energy supply subassembly includes boiler, cold water pump, hot-water pump, water tank, inlet tube and outlet pipe, the quantity of boiler has a plurality ofly, a plurality ofly the boiler with box fixed connection, and lie in the first through-hole, the cold water pump with the boiler intercommunication, and lie in one side of boiler, the water tank with box fixed connection, and lie in one side of boiler, the inlet tube with the cold water pump with the water tank intercommunication, and lie in between the cold water pump with the water tank, the hot-water pump with box fixed connection, the expansion assembly comprises a first rotating plate, a rotating rod, a supporting pad and two auxiliary plates, the first rotating plate is provided with a first groove and two clamping grooves, the two clamping grooves are located on two sides of the first groove, the rotating rod is rotatably connected with the first rotating plate and located in the first groove, the supporting pad is detachably connected with the rotating rod and located on one side of the rotating rod, the number of the auxiliary plates is two, and the two auxiliary plates are slidably connected with the first rotating plate and located in the two clamping grooves respectively.

2. The assembly-type intelligent high-performance source station universal platform of claim 1,

the supporting component further comprises a top cover, and the top cover is connected with the box body in a sliding mode and is located on one side, far away from the boiler, in the box body.

3. The invention of claim 2 wherein said platform is a self-contained intelligent high-performance source station platform,

the supporting component further comprises a moving wheel, and the moving wheel is fixedly connected with the box body and is positioned on one side of the box body.

4. The utility model as claimed in claim 3, wherein the general platform of the source station is a set-top box,

the connector includes support column and connecting bolt, the subplate includes subplate body and link, the support column is located in the link, connecting bolt with support column sliding connection, and pass the support column with the link.

5. The invention of claim 4 wherein the said platform is a universal platform for an assembly type intelligent high-performance source station,

the supporting component further comprises a sealing adhesive layer, the sealing adhesive layer is fixedly connected with the box body and is located at the joint of the connector and the auxiliary plate.

6. The assembly-type intelligent high-performance source station universal platform of claim 1,

the water tank comprises a water tank body and a tank cover, wherein the tank cover is rotatably connected with the water tank body and is positioned on one side of the water tank body.

7. The invention of claim 6 wherein the said platform is a universal platform for an assembly type intelligent high-performance source station,

the water tank further comprises a liquid level sensor, and the liquid level sensor is fixedly connected with the water tank body and is positioned in the water tank body.

8. A manufacturing method of a fabricated intelligent high-performance source station universal platform applied to the fabricated intelligent high-performance source station universal platform as claimed in any one of claims 1-7,

the method comprises the following steps: manufacturing and connecting a box body and a box door;

manufacturing a first rotating plate, and connecting the first rotating plate with the box body;

mounting a rotating rod to the first rotating plate;

installing an energy supply assembly into the box body;

and manufacturing the auxiliary plate and the supporting pad.

Images