CN205037655U - Cooling device - Google Patents

Abstract

The utility model discloses a cooling device, including mount and control section, the mount carries out the frame rack structure that arranges for perpendicular to the ground, the circulating line, a water pump, a water inlet, the delivery port, servo motor, pivot and rotating vane install inside the mount respectively, circulating line perpendicular to the ground arranges and specifically installs at the inside intermediate position of mount, the circulating line is that the S -shaped is arranged and specifically present nine turns to, every turns to and is 180 angle, water inlet and delivery port are located the bottom of mount respectively, realize through adding copper circulating line that the maximize of temperature gives off, temperature sensor's interpolation has then realized the detection to temperature in the circulating line in addition, the design of water pump is then can real -timely dispel the heat, the design of controller has then realized carrying out heat dissipation in various degree according to the difference of temperature in addition.

Description

A kind of cooling device

Technical field

The utility model is a kind of cooling device, belongs to automobile cooling device field.

Background technology

In prior art, in order to cool the inside of cooling device, be usually provided with cooling circuit, cooling agent circulates wherein, and compressor reducer and condenser are arranged on the outside of cooling device, because by two parts distribute heats.On the contrary, evaporimeter is positioned at inside.The cooling agent being undertaken by expanding nozzle expanding is changed to gaseous state there, and cools down significantly in this process.Therefore, in this time also without the need to heat is delivered to surrounding air from condenser.Condenser must be designed such that to be dispersed in surrounding air when the heat dissipated is only in compressor operation thus.Known such condenser, it is coupled mutually with hot storage substance or associates.Hot storage substance is adopted in this condenser, these heats are cushioned, and be slowly dispersed in surrounding air within compressor reducer idle time, but because present cooling device does not have device for detecting temperature, so cannot real-time adjustment be carried out, so need a kind of cooling device to solve the problems referred to above.

Utility model content

For the deficiency that prior art exists, the utility model object is to provide a kind of cooling device, the problem proposed in above-mentioned background technology is solved by adding circulating line, water pump, servomotor, controller and rotating vane, the utility model is easy to use, convenient operation, structure is simple, time saving and energy saving.

To achieve these goals, the utility model realizes by the following technical solutions: a kind of cooling device, comprise cooling device main part and control section, described cooling device main part is by fixed mount, circulating line, water pump, water inlet, delivery port, servomotor, rotating shaft and rotating vane composition, described fixed mount is carry out perpendicular to ground the tower structure arranged, described circulating line, water pump, water inlet, delivery port, servomotor, rotating shaft and rotating vane are arranged on fixed mount inside respectively, described circulating line carries out arranging perpendicular to ground and is specifically arranged on the centre position of fixed mount inside, described circulating line is S-shaped to be carried out arranging and specifically presents nine and turn to, each angle turned in 180 °, described water inlet and delivery port lay respectively at the bottom of fixed mount, described water inlet is positioned at the right end position of fixed mount, described delivery port is positioned at the left position of fixed mount, the back position of described circulating line is distributed with servomotor, rotating shaft and rotating vane, described servomotor and rotating shaft link together, described rotating shaft is connected with rotating vane, described rotating vane is made up of six blades and six described blades are angularly arranged, described rotating vane is fixed on the centre position of rotating shaft and described rotating vane is arranged perpendicular to rotating shaft, described servomotor is distributed in the centre position of circulating line back side end face, described water pump is distributed in the lower end position of fixed mount and the position of concrete close water inlet, described control section is by temperature sensor, connecting line, controller, microprocessor and executive component composition, temperature sensor is distributed in the pipeline place of circulating line water inlet, described temperature sensor is connected with the connecting line through circulating line tube wall, described connecting line is connected with controller, described controller is arranged on the end on the right side of fixed mount, described controller is cube structure, described microprocessor and executive component are distributed in controller inside, described microprocessor is connected with executive component by connecting line, described executive component is connected with servomotor with water pump respectively by connecting line.

Further, described water pump, controller and servomotor are bolted on fixed mount.

Further, the diameter of described water inlet and delivery port is completely the same.

Further, described circulating line adopts copper material to be made.

Further, described servomotor is a kind of electric supply installation being carried out energy supply by direct current.

The beneficial effects of the utility model: a kind of cooling device of the present utility model, the maximization realizing temperature by adding copper circulating line is distributed, the interpolation of temperature sensor then achieves the detection to temperature in circulating line in addition, the design of water pump then can be dispelled the heat by real-time carrying out, the design of controller then achieves the heat radiation carrying out in various degree according to the difference of temperature in addition, and the utility model is easy to use, convenient operation, structure is simple, time saving and energy saving.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the utility model is further described.

Fig. 1 is the structural representation of a kind of cooling device of the utility model;

Fig. 2 is the structural representation of rotating vane in a kind of cooling device of the utility model;

Fig. 3 is the principle schematic of a kind of cooling device middle controller of the utility model;

In figure: 1-fixed mount, 2-circulating line, 3-temperature sensor, 4-connecting line, 5-controller, 6-water pump, 7-water inlet, 8-delivery port, 9-servomotor, 10-rotating shaft, 11-rotating vane, 12-microprocessor, 13-executive component.

Detailed description of the invention

Below with reference to accompanying drawing, the utility model is described in detail,

Embodiment 1

Refer to Fig. 1, Fig. 2 and Fig. 3, the utility model provides a kind of technical scheme: a kind of cooling device, comprise cooling device main part and control section, cooling device main part is by fixed mount 1, circulating line 2, water pump 6, water inlet 7, delivery port 8, servomotor 9, rotating shaft 10 and rotating vane 11 form, fixed mount 1 is carry out perpendicular to ground the tower structure arranged, circulating line 2, water pump 6, water inlet 7, delivery port 8, servomotor 9, it is inner that rotating shaft 10 and rotating vane 11 are arranged on fixed mount 1 respectively, circulating line 2 carries out arranging perpendicular to ground and is specifically arranged on the centre position of fixed mount 1 inside, circulating line 2 is S-shaped to be carried out arranging and specifically presents nine and turn to, each angle turned in 180 °, the maximization realizing temperature by adding copper circulating line 2 is distributed, water inlet 7 and delivery port 8 lay respectively at the bottom of fixed mount 1, water inlet 7 is positioned at the right end position of fixed mount 1, delivery port 8 is positioned at the left position of fixed mount 1, the back position of circulating line 2 is distributed with servomotor 9, rotating shaft 10 and rotating vane 11, servomotor 9 and rotating shaft 10 link together, rotating shaft 10 is connected with rotating vane 11, rotating vane 11 is made up of six blades and six blades are angularly arranged, rotating vane 11 is fixed on the centre position of rotating shaft 10 and rotating vane 11 is arranged perpendicular to rotating shaft 10, servomotor 9 is distributed in the centre position of circulating line 2 back side end face, water pump 6 is distributed in the lower end position of fixed mount 1 and the position of concrete close water inlet 7, the design of water pump 6 then can be dispelled the heat by real-time carrying out, control section is by temperature sensor 3, connecting line 4, controller 5, microprocessor 12 and executive component 13 form, temperature sensor 3 is distributed in the pipeline place of circulating line 2 water inlet 7, temperature sensor 3 is connected with the connecting line 4 through circulating line 2 tube wall, the interpolation of temperature sensor 3 then achieves the detection to temperature in circulating line 2, connecting line 4 is connected with controller 5, controller 5 is arranged on the end on the right side of fixed mount 1, controller 5 is cube structure, the design of controller 5 then achieves the heat radiation carrying out in various degree according to the difference of temperature, it is inner that microprocessor 12 and executive component 13 are distributed in controller 5, microprocessor 12 is connected with executive component 13 by connecting line 4, executive component 13 is connected with servomotor 9 with water pump 6 respectively by connecting line 4.

Water pump 6, controller 5 and servomotor 9 are bolted on fixed mount 1, water inlet 7 is completely the same with the diameter of delivery port 8, circulating line 2 adopts copper material to be made, and servomotor 9 is a kind of electric supply installations being carried out energy supply by direct current.

Concrete occupation mode: when using, first install, power supply is started after installation, now temperature sensor 3 starts the temperature detecting circulating line 2 internal coolant, and the data of detection are transferred in the microprocessor 12 in controller 5 by connecting line 4, corresponding measure is determined after data being processed by analysis in microprocessor 12, when temperature is too high, microprocessor 12 sends instruction to executive component 13, and then executive component 13 controls water pump 6, make the spin down of water pump 6, and then the flowing velocity of cooling fluid in inside is reduced, and meanwhile control the faster rotational speed of servomotor 9, and then servomotor 9 transmits torque to rotating vane 11 place, last rotating vane 11 rotating speed improves, realize maximized heat radiation, cooling fluid after heat radiation is flowed out by delivery port 8, and then in inflow electro-heat equipment, complete a radiation processes, finally realize complete radiation processes.

What finally illustrate is, above embodiment is only in order to illustrate the technical solution of the utility model and unrestricted, although be described in detail the utility model with reference to preferred embodiment, those of ordinary skill in the art is to be understood that, can modify to the technical solution of the utility model or equivalent replacement, and not departing from aim and the scope of technical solutions of the utility model, it all should be encompassed in the middle of right of the present utility model.

Claims (5)

1. a cooling device, comprise cooling device main part and control section, it is characterized in that: described cooling device main part is by fixed mount (1), circulating line (2), water pump (6), water inlet (7), delivery port (8), servomotor (9), rotating shaft (10) and rotating vane (11) composition, described fixed mount (1) is carry out perpendicular to ground the tower structure arranged, described circulating line (2), water pump (6), water inlet (7), delivery port (8), servomotor (9), it is inner that rotating shaft (10) and rotating vane (11) are arranged on fixed mount (1) respectively, described circulating line (2) carries out arranging perpendicular to ground and is specifically arranged on the inner centre position of fixed mount (1), described circulating line (2) is S-shaped to be carried out arranging and specifically presents nine and turn to, each angle turned in 180 °, described water inlet (7) and delivery port (8) lay respectively at the bottom of fixed mount (1), described water inlet (7) is positioned at the right end position of fixed mount (8), described delivery port (7) is positioned at the left position of fixed mount (1), the back position of described circulating line (2) is distributed with servomotor (9), rotating shaft (10) and rotating vane (11), described servomotor (9) and rotating shaft (10) link together, described rotating shaft (10) is connected with rotating vane (11), described rotating vane (11) is made up of six blades and six described blades (11) are angularly arranged, described rotating vane (11) is fixed on the centre position of rotating shaft (10) and described rotating vane (11) is arranged perpendicular to rotating shaft (10), described servomotor (9) is distributed in the centre position of circulating line (2) back side end face, described water pump (6) is distributed in the lower end position of fixed mount (1) and the position of concrete close water inlet (7), described control section is by temperature sensor (3), connecting line (4), controller (5), microprocessor (12) and executive component (13) composition, temperature sensor (3) is distributed in the pipeline place of circulating line (2) water inlet (7), described temperature sensor (3) is connected with the connecting line (4) through circulating line (2) tube wall, described connecting line (4) is connected with controller (5), described controller (5) is arranged on the end on fixed mount (1) right side, described controller (5) is cube structure, it is inner that described microprocessor (12) and executive component (13) are distributed in controller (5), described microprocessor (12) is connected with executive component (13) by connecting line (4), described executive component (13) is connected with servomotor (9) with water pump (6) respectively by connecting line (4).

2. cooling device according to claim 1, is characterized in that: described water pump (6), controller (5) and servomotor (9) are bolted on fixed mount (1).

3. cooling device according to claim 1, is characterized in that: described water inlet (7) is completely the same with the diameter of delivery port (8).

4. cooling device according to claim 1, is characterized in that: described circulating line (2) adopts copper material to be made.

5. cooling device according to claim 1, is characterized in that: described servomotor (9) is a kind of electric supply installation being carried out energy supply by direct current.