CN209819708U - An air duct structure of a medical rotary accelerator cooling system - Google Patents

Abstract

The utility model relates to an air duct structure of a cooling system for a medical rotary accelerator, mainly comprising: a return air cover, a wind-water heat exchanger, an air intake cover, a return air interface flange, an air intake interface flange, a return air duct, an air intake Pipeline, air-conditioning air inlet flange, air-conditioning air outlet flange, air conditioner; multiple Fengshui heat exchangers are arranged on the accelerator rotating mechanism, and the Fengshui heat exchanger and the accelerator rotating mechanism rotate together; The wind cover is arranged on the outside of the accelerator rotating mechanism to form an air inlet duct; the bottom of the return air cover is provided with a return air port, and the return air cover covers the air outlet end of the accelerator rotating mechanism to form a return air duct; the bottom of the return air cover The return air outlet is connected to the return air duct through the return air interface flange; the return air duct is fixedly connected to the air conditioner air inlet through the air conditioner air inlet flange. The utility model can ensure the comfort of the temperature in the treatment room, can efficiently utilize the cooling power of the air conditioner, reduce the selected capacity of the air conditioner, and achieve the purpose of energy saving and efficiency improvement.

Description

An air duct structure of a medical rotary accelerator cooling system

technical field

The utility model mainly relates to the cooling field of a medical rotary accelerator, in particular to an air duct structure of a cooling system of a medical rotary accelerator.

Background technique

The medical rotary accelerator is mainly used for radiation therapy of tumors, and the accelerator needs to be equipped with a wind-water heat exchanger for heat dissipation. For the rotary accelerator, the equipped wind-water heat exchanger should rotate together with the accelerator. The cooling power of the existing air-water heat exchanger is linearly related to the ambient temperature, the lower the ambient temperature, the higher the cooling power. The current cooling method of the medical rotary accelerator is to place a large air conditioner inside the accelerator treatment room to reduce the ambient temperature in the treatment room, so as to meet the cooling power required for the accelerator to work. Disadvantages of this approach:

1. The air conditioner needs to reduce the ambient temperature of the entire treatment room. Calculated according to the area of the treatment room and the required ambient temperature, the power and volume of the selected air conditioner are very large, resulting in serious waste of energy and space.

2. In order to meet the heat dissipation requirements of the accelerator, the ambient temperature in the treatment room will generally drop below 16°C, which is far lower than the normal comfortable temperature, and the patient's treatment comfort at this temperature is extremely poor.

3. The air-conditioning internal unit is placed in the treatment room, and the noise is loud, which affects the comfort of treatment.

Utility model content

The purpose of the invention of the utility model is to realize the self-circulation of the cold air required by the cooling system of the medical accelerator in the air duct without affecting the temperature of the whole treatment room and ensuring the comfort of the treatment room. At the same time, the utilization efficiency of the air conditioner is improved, and the cooling capacity of the air conditioner is effectively utilized. The air conditioner is placed underground in the treatment room to save space and reduce noise.

The technical scheme that the utility model adopts is:

An air duct structure for a cooling system of a medical rotary accelerator, mainly comprising: a return air cover, a wind-water heat exchanger, an air intake cover, a return air interface flange, an air intake interface flange, a return air duct, an air intake duct, and an air-conditioning inlet Air flange, air-conditioning air outlet flange, air conditioner; multiple wind-water heat exchangers are installed on the accelerator rotating mechanism, and the wind-water heat exchanger and the accelerator rotating mechanism rotate together; the air inlet is provided at the bottom of the air inlet cover, and is fixed on the On the accelerator frame, the air inlet cover is set outside the accelerator rotating mechanism to form an air inlet duct; the air inlet at the bottom of the air inlet cover is connected to the air inlet pipe through the air inlet interface flange; the air inlet pipe passes through the air conditioner outlet flange It is fixedly connected to the air outlet of the air conditioner; the bottom of the return air cover is provided with a return air port, and is fixed on the accelerator frame by bolts, and the return air cover covers the air outlet end of the accelerator rotating mechanism to form a return air duct; the bottom of the return air cover The return air outlet of the air conditioner is connected to the return air duct through the return air interface flange; the return air duct is fixedly connected to the air conditioner air inlet through the air conditioner air inlet flange.

The advantages of the utility model are:

The utility model can make the cold air blown out by the air conditioner circulate inside the air inlet duct and the return air duct, realize efficient utilization of the refrigeration capacity of the air conditioner, greatly reduce the power selected by the air conditioner, and achieve the purpose of high efficiency and energy saving. The cooling air is isolated from the ambient air in the treatment room, and the temperature inside the treatment room will be adjusted to the appropriate temperature for the patient, which greatly improves the comfort of treatment. The air conditioner is placed underground, and the treatment room can save the space for placing the air conditioner internal unit, and at the same time, it has the function of sound insulation and noise reduction.

Description of drawings

Fig. 1 is a schematic diagram of the installation of the accelerator rotating mechanism of the utility model on the accelerator frame.

Fig. 2 is a schematic diagram of the installation of the air inlet cover of the utility model.

Fig. 3 is a schematic diagram of the installation of the return air cover of the utility model.

Fig. 4 is a schematic diagram of the complete air duct structure of the utility model.

Detailed ways

The following will clearly and completely describe the technical solutions in the embodiments of the utility model in conjunction with accompanying drawings 1-4. Obviously, the described embodiments are only some embodiments of the utility model, not all embodiments.

An air duct structure for a medical rotary accelerator cooling system, mainly comprising: a return air cover 1, a wind-water heat exchanger 2, an air intake cover 3, a return air interface flange 6, an air intake interface flange 7, a return air duct 8, Air inlet pipe 9, air-conditioner inlet flange 10, air-conditioner outlet flange 11, air conditioner 12; accelerator rotating mechanism 13 is provided with a plurality of Fengshui heat exchangers 2, and Fengshui heat exchanger 2 and accelerator rotating mechanism 13 rotate together; The return air cover and the air intake cover are arranged correspondingly; the bottom of the air intake cover 3 is provided with an air inlet, and is fixed on the accelerator frame 16 by bolts, and the air intake cover 3 is arranged on the outside of the accelerator rotating mechanism 13 to form an air intake duct; The air inlet at the bottom of the air inlet cover 3 is connected to the air inlet pipe 9 through the air inlet interface flange 7; the air inlet pipe 9 is fixedly connected to the air outlet of the air conditioner 12 through the air outlet flange 11 of the air conditioner; the bottom of the air return cover 1 is provided with a return air outlet , and fixed on the accelerator frame 16 by bolts, the return air cover 1 covers the air outlet end of the accelerator rotating mechanism 13 to form a return air duct; the return air port at the bottom of the return air cover 1 passes through the return air interface flange 6 and The return air duct 8 is connected; the return air duct 8 is fixedly connected to the air inlet of the air conditioner 12 through the air-conditioning air inlet flange 10; nine wind-water heat exchangers are used.

The air intake cover 3 and the accelerator rotating mechanism 13 are connected by clearance fit.

The return air cover 1 and the air intake cover 3 are fixedly connected by bolts along the circumferential direction.

The bottom rings of the air inlet housing 3 and the air return housing 1 are provided with flanges for fixed installation.

Place the air conditioner below ground level in the accelerator treatment room.

Working process: the air outlet of the air conditioner 12 blows cold air into the air inlet cover 3 through the air inlet duct 9, the cold air enters the accelerator rotating mechanism 13 and then passes through the wind water heat exchanger 2 to cool down, and finally passes through the return air cover 1 and the return air duct 8 Get back in the air conditioner 12 to complete a complete cooling cycle. The cold air blown out of the air outlet of the air conditioner is directly led to the rotating Fengshui heat exchanger through the air inlet duct by using the method of air duct. It is led to the air inlet of the air conditioner through the return air duct, and then enters the air intake duct after being cooled by the air conditioner to realize the self-circulation of cooling air.

The above is only a preferred embodiment of the utility model, but the scope of protection of the utility model is not limited thereto. Any equivalent replacement or change of the new technical solution and the concept of the utility model shall be covered by the protection scope of the utility model.

For the convenience of description, spatially relative terms may be used here, such as "on ...", "over ...", "on the surface of ...", "above", etc., to describe the The spatial positional relationship between one device or feature shown and other devices or features. It will be understood that the spatially relative terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if the device in the figures is turned over, devices described as "above" or "above" other devices or configurations would then be oriented "beneath" or "above" the other devices or configurations. under other devices or configurations”. Thus, the exemplary term "above" can encompass both an orientation of "above" and "beneath". The device may be otherwise oriented (rotated 90 degrees or at other orientations) and the spatially relative descriptions used herein interpreted accordingly.

In addition, it should be noted that the use of words such as "first" and "second" to define components is only for the convenience of distinguishing corresponding components. To limit the scope of protection of the utility model.

Claims (6)

1. An air duct structure of a medical rotary accelerator cooling system, characterized in that, Mainly include: return air cover, wind water heat exchanger, air intake cover, return air interface flange, air intake interface flange, return air duct, air intake duct, air conditioner air inlet flange, air conditioner outlet flange, air conditioner; There are multiple Fengshui heat exchangers on the accelerator rotating mechanism, and the Fengshui heat exchangers and the accelerator rotating mechanism rotate together; There is an air inlet at the bottom of the air inlet cover, which is fixed on the accelerator frame by bolts, and the air inlet cover is arranged outside the accelerator rotating mechanism to form an air inlet air duct; The air inlet at the bottom of the air inlet cover is connected to the air inlet pipe through the air inlet interface flange; the air inlet pipe is fixed to the air outlet of the air conditioner through the air conditioner outlet flange; The return air cover and the air intake cover are arranged correspondingly; the bottom of the return air cover is provided with a return air outlet, which is fixed on the accelerator frame by bolts, and the return air cover covers the air outlet end of the accelerator rotating mechanism to form a return air duct; The return air outlet at the bottom of the return air cover is connected to the return air duct through the return air interface flange; the return air duct is fixedly connected to the air conditioner air inlet through the air conditioner air inlet flange. 2. The air duct structure of a cooling system for a medical spintronic accelerator according to claim 1, wherein Feng Shui heat exchanger adopts nine. 3. The air duct structure of a cooling system for a medical spintronic accelerator according to claim 1, wherein The air inlet cover and the accelerator rotating mechanism are connected by clearance fit. 4. The air duct structure of a cooling system for a medical spintronic accelerator according to claim 1, wherein The air return cover and the air intake cover are fixedly connected by bolts along the circumferential direction. 5. The air duct structure of a cooling system for a medical spintronic accelerator according to claim 1, wherein The bottom rings of the air inlet housing and the air return housing are provided with raised edges for fixed installation. 6. The air duct structure of a cooling system for a medical spintronic accelerator according to claim 1, wherein, Place the air conditioner below ground level in the accelerator treatment room.