CN211041490U - Refrigeration machine room based on BIM block modeling - Google Patents

Abstract

The utility model belongs to the technical field of refrigeration computer lab design installation, especially, be a refrigeration computer lab based on BIM blocking ization modeling, including integrated form refrigerator chunk, the frozen water pump chunk, cooling water pump chunk and level pressure moisturizing chunk, integrated form refrigerator chunk includes the refrigeration host computer, the frozen delivery pipe, the freezing wet return, cooling delivery pipe and cooling wet return, the port of refrigeration host computer is installed and is can be bent around the soft joint of rubber, can be bent around the soft joint of rubber and freeze delivery union coupling, install the manometer on the frozen delivery pipe in proper order, the thermometer, a weighing sensor and a temperature sensor, pressure sensor, dynamic pressure difference balance regulating valve and manual butterfly valve, the port of freezing wet return and refrigeration host computer is through being bent around the soft articulate of rubber. The utility model provides a through application BIM technique, carry out integral module design, establish to become more meticulous, through parameter adjustment, realize drawing fast, realize the collision inspection, guide the refrigeration computer lab model of site operation.

Description

Refrigeration machine room based on BIM block modeling

Technical Field

The utility model relates to a refrigeration computer lab design installation technical field especially relates to a refrigeration computer lab based on BIM blocking piece ization modeling.

Background

The BIM building information model or building information management is based on various relevant information data of a building engineering project, a three-dimensional building model is established, real information of a building is simulated through digital information simulation, and the BIM building information model or building information management has the characteristics of information completeness, information relevance, information consistency, visualization, harmony, simulation, optimization, chargeability and the like, and plays an important role in improving production efficiency, saving cost and shortening construction period.

When the traditional refrigeration machine room is modeled, a design drawing is considered, and the pipeline route of the refrigeration machine room is comprehensively adjusted to avoid collision; specifications of various professional pipelines, valves and instruments need to be set one by one, and design efficiency is low, so that a refrigeration machine room based on BIM block modeling is provided for solving the problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the shortcoming of prior art, and the refrigeration computer lab based on BIM blocking modeling that proposes.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

A refrigerating machine room based on BIM block modeling comprises an integrated refrigerating machine block, a refrigerating water pump block, a cooling water pump block and a constant-pressure water supplementing block, wherein the integrated refrigerating machine block comprises a refrigerating host machine, a refrigerating water supply pipe, a refrigerating water return pipe, a cooling water supply pipe and a cooling water return pipe, a port of the refrigerating host machine is provided with a flexible rubber joint, the flexible rubber joint is connected with the refrigerating water supply pipe, the refrigerating water supply pipe is sequentially provided with a pressure gauge, a thermometer, a temperature sensor, a pressure sensor, a dynamic pressure difference balance adjusting valve and a manual butterfly valve, the refrigerating water return pipe is connected with the port of the refrigerating host machine through the flexible rubber joint, the refrigerating water return pipe is sequentially provided with the pressure gauge, the thermometer, the temperature sensor, the pressure sensor and the manual butterfly valve, and various specification parameters of the refrigerating host machine can be, the flexible rubber joint can be wound to reduce the vibration of the pipeline, and the manual butterfly valve can be used for adjusting the flow of the chilled water.

Preferably, the cooling water supply pipe and the cooling water return pipe are connected with the refrigeration host through flexible rubber joints, a pressure gauge, a thermometer, a temperature sensor, a pressure sensor and a manual butterfly valve are sequentially installed on the cooling water supply pipe and the cooling water return pipe, and the various accessories are used for monitoring and controlling the temperature and the pressure of cooling water supply and cooling water return.

Preferably, the frozen water pump chunk contains frozen water pump and freezing wet return, the both sides port of frozen water pump and freezing wet return are through can winding rubber soft joint connection, but install in proper order on the pipeline of cooling water pump intake one side and can wind rubber soft joint, Y type filter and manual butterfly valve, frozen water pump goes out water one side and installs and can wind rubber soft joint and check valve, and frozen water pump type and specification accessible parameter selection set for, the check valve is used for preventing the refrigerant backward flow.

Preferably, the cooling water pump block includes cooling water pump and cooling delivery pipe, cooling water pump both sides port is connected with the cooling delivery pipe through can winding rubber soft joint, manometer, Y type filter and manual butterfly valve, cooling water pump's the flexible rubber soft joint of winding, manometer, Y type filter and manual butterfly valve are installed in proper order to cooling water pump's the pipeline of the water outlet side, cooling water pump's specification model can carry out the parameterization setting, and affiliated cooling water piping can carry out the parameterization change, Y type filter, check valve specification can the adaptability adjustment.

Preferably, level pressure moisturizing chunk includes level pressure moisturizing device, softened water device and softened water tank, the water inlet and the running water inlet pipe connection of softened water device, automatic softening installation water inlet and running water pipe connection, the delivery port of softened water device with softened water tank connects, the delivery port of softened water tank pass through the pipeline with level pressure moisturizing device's water inlet is connected, level pressure moisturizing device's delivery port pass through the pipeline with freezing wet return intercommunication, for freezing wet return moisturizing pressurization, running water pipeline pass through the tee bend with level pressure moisturizing device connects, forms the bypass.

The refrigeration machine room based on BIM block modeling in the utility model combines equipment, pipelines, pipe fittings and pipeline accessories in the refrigeration machine room into a group according to design requirements through an integrated idea, and when BIM is in electromechanical design, the group is loaded into a model, and the design of the main part of the refrigeration machine room can be completed only by slightly changing the pipelines, the pipe fittings and the pipeline accessories according to the design drawing requirements, so that the workload can be greatly reduced, and the modeling efficiency is improved;

The refrigeration machine room based on BIM modularized modeling in the utility model realizes parameterization through the integrated cluster blocks of the refrigeration machine room, can carry out parameterization adjustment on the size of a pipeline, and can carry out automatic adaptation change on other valve pieces, thereby improving the flexibility of design;

The refrigeration machine room based on BIM block modeling in the utility model has the advantages that the content of the refrigeration machine room block component can be adjusted according to the actual design condition, the applicability is good, and the refrigeration machine room can be used, transferred and modified among different projects;

The utility model provides a through application BIM technique, carry out integral module design, establish to become more meticulous, through parameter adjustment, realize drawing fast, realize the collision inspection, guide the refrigeration computer lab model of site operation.

Drawings

Fig. 1 is a schematic structural diagram of a refrigeration machine room based on BIM block modeling proposed by the present invention;

Fig. 2 is a schematic structural diagram of an integrated refrigerator module of a refrigeration machine room based on BIM modular modeling according to the present invention;

Fig. 3 is a schematic structural diagram of a chilled water pump block of a refrigeration machine room based on BIM block modeling provided by the utility model;

Fig. 4 is a schematic structural diagram of a cooling water pump block of a refrigeration machine room based on BIM block modeling provided by the present invention;

Fig. 5 is the utility model provides a structural schematic of constant pressure moisturizing chunk of refrigeration computer lab based on BIM chunked modeling.

In the figure: 1. an integrated refrigerator block; 2. a chilled water pump block; 3. cooling the water pump block; 4. a water replenishing block is under constant pressure; 5. a refrigeration host; 6. a flexible rubber joint; 7. a freezing water supply pipe; 8. a water flow switch; 9. a pressure gauge; 10. a thermometer; 11. a temperature sensor; 12. a pressure sensor; 13. a dynamic differential pressure balance regulating valve; 14. a manual butterfly valve; 15. a freezing water return pipe; 16. a cooling water return pipe; 17. cooling the water supply pipe; 18. a check valve; 19. a chilled water pump; 20. a Y-type filter; 21. a cooling water pump; 22. a softened water tank; 23. a water softening device; 24. a constant pressure water replenishing device; 25. a stop valve; 26. a tap water inlet pipe; 27. and (5) freezing water replenishing pipes.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-5, a refrigeration machine room based on BIM block modeling comprises an integrated refrigerator block 1, a chilled water pump block 2, a cooling water pump block 3 and a constant pressure water replenishing block 4, wherein the integrated refrigerator block 1 comprises a refrigeration host 5, a chilled water supply pipe 7, a chilled water return pipe 15, a cooling water supply pipe 17 and a cooling water return pipe 16, a flexible rubber soft joint 6 is installed at a port of the refrigeration host 5, the flexible rubber soft joint 6 is connected with the chilled water supply pipe 7, a pressure gauge 9, a thermometer 10, a temperature sensor 11, a pressure sensor 12, a dynamic pressure difference balance adjusting valve 13 and a manual butterfly valve 14 are sequentially installed on the chilled water supply pipe 7, the chilled water return pipe 15 is connected with the port of the refrigeration host 5 through the flexible rubber soft joint 6, and the chilled water return pipe 15 is sequentially provided with the pressure gauge 9, the thermometer 10, the temperature sensor, The pressure sensor 12 and the manual butterfly valve 14, each specification parameter of the refrigeration host 5 can be adjusted, the flexible rubber joint 6 can be wound to reduce the vibration of the pipeline, and the manual butterfly valve 14 can be used for adjusting the flow of the chilled water.

The utility model discloses in, cooling delivery pipe 17 and cooling wet return 16 all are connected through can winding rubber soft joint 6 with refrigeration host computer 5, install manometer 9, thermometer 10, temperature sensor 11, pressure sensor 12 and manual butterfly valve 14 on cooling delivery pipe 17 and cooling wet return 16's the pipeline in proper order, and above-mentioned all kinds of annexes are used for monitoring and control cooling water supply and cooling water return's temperature and pressure.

The utility model discloses in, frozen water pump chunk 2 contains frozen water pump 19 and frozen wet return 15, frozen water pump 19's both sides port and frozen wet return 15 are connected through can winding rubber soft joint 6, install in proper order on the pipeline of cooling water pump 21 intake one side and can wind rubber soft joint 6, Y type filter 20 and manual butterfly valve 14, frozen water pump 19 goes out water one side and installs and can wind rubber soft joint 6 and check valve 18, frozen water pump 19 type and specification accessible parameter selection set for, check valve 18 is used for preventing the refrigerant backward flow.

The utility model discloses in, cooling water pump chunk 3 includes cooling water pump 21 and cooling delivery pipe 17, cooling water pump 21 both sides port is connected with cooling delivery pipe 17 through can winding rubber soft joint 6, cooling water pump 21's the side pipeline of intaking installs in proper order and can wind rubber soft joint 6, manometer 9, Y type filter 20 and manual butterfly valve 14, cooling water pump 21's play water side pipeline is installed in proper order and can be wound rubber soft joint 6, manometer 9, check valve 18, cooling water pump 21's specification model can carry out the parameterization setting, affiliated cooling water piping can carry out the parameterization change, Y type filter 20, 18 specification of check valve can the adaptability adjustment.

The utility model discloses in, level pressure moisturizing chunk 4 includes level pressure moisturizing device 24, soften water device 23 and demineralized water tank 22, the water inlet and the running water inlet tube 26 of soften water device 23 are connected, automatic softening installation water inlet and running water pipe connection, the delivery port and the demineralized water tank 22 of soften water device 23 are connected, the delivery port of demineralized water tank 22 passes through the pipeline and is connected with level pressure moisturizing device 24's water inlet, level pressure moisturizing device 24's delivery port passes through the pipeline and 15 intercommunications with freezing wet return, for 15 moisturizing pressurizations of freezing wet return, water pipeline passes through the tee bend and is connected with level pressure moisturizing device 24, form the bypass.

In the utility model, the integrated refrigerator module 1, the refrigeration water pump module 2, the cooling water pump module 3, the constant pressure water supplement module 4 and each system pipeline valve piece can be parameterized and modified according to the condition of each project refrigeration machine room, the routing of each system pipeline can be adjusted, the size of each pipeline accessory can be changed along with the size of the pipeline, the operation is convenient and fast, and the modeling efficiency of the machine room can be improved; the integrated refrigeration machine room can adjust the size of the pipeline of each system and various valves, instruments and devices by parameterizing the specification and performance of each device. The system can arrange pipelines of various professional systems, meet the requirement of space routing in a refrigeration machine room, and quickly complete the design modeling of the refrigeration machine room.

Claims (5)

1. A refrigerating machine room based on BIM block modeling comprises an integrated refrigerating machine block (1), a refrigerating water pump block (2), a cooling water pump block (3) and a constant-pressure water supplementing block (4), and is characterized in that the integrated refrigerating machine block (1) comprises a refrigerating host (5), a refrigerating water supply pipe (7), a refrigerating water return pipe (15), a cooling water supply pipe (17) and a cooling water return pipe (16), a flexible rubber soft joint (6) is installed at a port of the refrigerating host (5), the flexible rubber soft joint (6) is connected with the refrigerating water supply pipe (7), a pressure gauge (9), a thermometer (10), a temperature sensor (11), a pressure sensor (12), a dynamic pressure difference balance regulating valve (13) and a manual butterfly valve (14) are sequentially installed on the refrigerating water supply pipe (7), the refrigerating water return pipe (15) is connected with the port of the refrigerating host (5) through the flexible rubber soft joint (6), and a pressure gauge (9), a thermometer (10), a temperature sensor (11), a pressure sensor (12) and a manual butterfly valve (14) are sequentially arranged on the freezing water return pipe (15).

2. The refrigerating machine room based on BIM block modeling is characterized in that the cooling water supply pipe (17) and the cooling water return pipe (16) are both connected with a refrigerating host machine (5) through a flexible rubber joint (6), and a pressure gauge (9), a thermometer (10), a temperature sensor (11), a pressure sensor (12) and a manual butterfly valve (14) are sequentially mounted on the pipelines of the cooling water supply pipe (17) and the cooling water return pipe (16).

3. The refrigeration machine room based on BIM block modeling is characterized in that the freezing water pump block (2) comprises a freezing water pump (19) and a freezing water return pipe (15), two side ports of the freezing water pump (19) are connected with the freezing water return pipe (15) through a flexible rubber soft joint (6), the flexible rubber soft joint (6), a Y-shaped filter (20) and a manual butterfly valve (14) are sequentially installed on a pipeline on the water inlet side of the cooling water pump (21), and the flexible rubber soft joint (6) and the check valve (18) are installed on the water outlet side of the freezing water pump (19).

4. The refrigerating machine room based on BIM block modeling is characterized in that the cooling water pump block (3) comprises a cooling water pump (21) and a cooling water supply pipe (17), the ports on the two sides of the cooling water pump (21) are connected with the cooling water supply pipe (17) through flexible rubber joints (6), a pressure gauge (9), a Y-shaped filter (20) and a manual butterfly valve (14) are sequentially installed on a water inlet side pipeline of the cooling water pump (21), and flexible rubber joints (6), the pressure gauge (9) and a check valve (18) are sequentially installed on a water outlet side pipeline of the cooling water pump (21).

5. The refrigerating machine room based on BIM block modeling is characterized in that the constant-pressure water supplementing block (4) comprises a constant-pressure water supplementing device (24), a softened water device (23) and a softened water tank (22), wherein a water inlet of the softened water device (23) is connected with a running water inlet pipe (26), a water outlet of the softened water device (23) is connected with the softened water tank (22), a water outlet of the softened water tank (22) is connected with a water inlet of the constant-pressure water supplementing device (24) through a pipeline, and a water outlet of the constant-pressure water supplementing device (24) is communicated with the freezing water return pipe (15) through a pipeline.

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