CN108119436A - The method of work of tubing type industrial constant-temperature machine with protecting against shock accumulation of energy radiator - Google Patents

Abstract

A kind of method of work of tubing type industrial constant-temperature machine with protecting against shock accumulation of energy radiator of the present invention, it is characterised in that：Step 1: connection equipment heating source (900) and industrial constant-temperature machine；Step 2: during start, fuel reserve tank temperature sensor (908) or hydraulic oil transfer pipeline temperature sensor (103) first detect fluid temperature, and heating mode is opened when temperature is less than 35 DEG C, and refrigeration mode is opened when temperature is higher than 60 DEG C.The present invention has reliability high, the advantages of being hardly damaged, ensure system stable operation.

Description

The method of work of tubing type industrial constant-temperature machine with protecting against shock accumulation of energy radiator

Technical field

The present invention relates to a kind of method of works of the tubing type industrial constant-temperature machine with protecting against shock accumulation of energy radiator.

Background technology

It is well known that oil temperature in hydraulic system optimum temperature is between 35~55 degrees Celsius, once temperature increases to over 60 Degree Celsius, the system working efficiency of hydraulic system will significantly decline and its equipment fault continuously emerges, and cause the stabilization of equipment Property degradation, can not ensure machinery equipment normal operation.In especially season in full summer, high oil temperature or even machine can be caused to set It is standby to be usually in shutdown status.In winter, particularly severe cold area, oil temperature is relatively low, and the oil liquid temperature inside hydraulic system is low, glues Degree is big, poor mobile performance, and working efficiency is also poor, and work is run by force under this environment, may result in hydraulic system member device The failure of part is damaged or even scrapped.Traditional industrial refrigeration machine does not heat and constant temperature system.

Therefore the stability of industrial constant-temperature machine directly influences the working condition of machinery equipment, in traditional industrial constant-temperature machine When fluid pressure is excessive, directly result in that pressure in heat exchanger is excessive to damage radiator.General radiator is to radiate For the collecting tank of device all there are one the capacity of fixed proportion, fluid has certain big resistance by radiator heat-dissipation channel interior.It Amount of liquid storage it is smaller, do not buffer, the temperature difference is big, low temperature environment, flow are uneven, have the liquid of certain viscosity, has punching running into It hits under the fluid situations of power, the pressure of radiator heat-dissipation channel interior also increases therewith, is especially having impact force and viscosity to compare In the case of big fluid, since fluid is in the resistance of channel interior, fluid is prevented to be allowed to from running through inside radiator passage Pressure increases, and more than the highest operating pressure of radiator, radiator is easy to damage, scrap.

The content of the invention

It is high the purpose of the present invention is to overcome the above shortcomings and to provide a kind of reliability, it is hardly damaged, ensures that system stablizes fortune The method of work of the capable tubing type industrial constant-temperature machine with protecting against shock accumulation of energy radiator.

The object of the present invention is achieved like this：

A kind of method of work of the tubing type industrial constant-temperature machine with protecting against shock accumulation of energy radiator, it is characterised in that：

Step 1: connection equipment heating source and industrial constant-temperature machine；

The hydraulic oil oil inlet and hydraulic oil oil outlet of the hydraulic oil transfer pipeline of industrial constant-temperature machine pass through hydraulic oil respectively Oil inlet hose connects the hydraulic oil drain line in equipment heating source and hydraulic oil oil return line with hydraulic oil oil outlet hose；

Step 2: after equipment heating source brings into operation, the hydraulic oil of second fluid chamber of fuel reserve tank goes out by fuel reserve tank Oil pipe line supply arrangement heat generating device, the hydraulic oil in equipment heating device drain into the of fuel reserve tank by fuel reserve tank oil inlet pipe One fluid chamber, the hydraulic oil of first fluid chamber is successively by hydraulic oil drain line, hydraulic oil oil inlet hose, liquid Pressure oil transfer pipeline, hydraulic oil oil outlet hose and hydraulic oil oil return line are back to second fluid chamber of fuel reserve tank；

During start, fuel reserve tank temperature sensor or hydraulic oil transfer pipeline temperature sensor first detect fluid temperature, when Temperature opens heating mode when being less than 35 DEG C, and refrigeration mode is opened when temperature is higher than 60 DEG C；

Industrial constant-temperature machine includes a hydraulic oil transfer pipeline, from hydraulic oil oil inlet to liquid on the hydraulic oil transfer pipeline Hydraulic oil transfer pipeline delivery pump, radiator and heat-exchanger rig are disposed between pressure oil oil outlet, the one side of radiator is set It is equipped with cooling fan,

Hydraulic oil transfer pipeline temperature sensor is additionally provided on hydraulic oil transfer pipeline wherein in front of radiator, is radiated Be provided with the first solenoid valve of hydraulic oil transfer pipeline on hydraulic oil transfer pipeline between device and heat-exchanger rig, in front of radiator and One is arranged in parallel on the hydraulic oil transfer pipeline at the first solenoid valve rear and carries hydraulic oil transfer pipeline second solenoid valve Hydraulic oil conveying bypass；

The upper heat exchange connector of the heat-exchanger rig is connected with heat exchanging pipe between lower heat exchange connector, on heat exchanging pipe It is provided with gas-liquid separator, compressor, condenser, heat exchanging pipe by-passing valve, four-way valve, the first check valve, the first liquid storage device, It is one device for drying and filtering, the first heat exchanging pipe solenoid valve, first throttling device, the second check valve, the second liquid storage device, second dried Four ends up and down of filter, the second heat exchanging pipe solenoid valve and second throttling device, wherein four-way valve are respectively provided with A mouthfuls, B Mouthful, C mouthfuls and D mouthfuls, E reversal valves are provided in four-way valve；Heat exchanging pipe by-passing valve is connected to compressor and gas-liquid separator Between import；

Equipment heating source includes equipment heating device and fuel reserve tank, and one piece is provided in the liquid reserve tank and is vertically arranged Partition plate, partition plate will in liquid reserve tank be respectively two fluid chambers, first fluid chamber be provided with fuel reserve tank oil inlet and The oil discharge outlet of fuel reserve tank, second fluid chamber are provided with the oil outlet of fuel reserve tank and the oil return opening of fuel reserve tank, fuel reserve tank The oil outlet of oil discharge outlet and fuel reserve tank is both provided with filter, the oil outlet of equipment heating device and the oil inlet of fuel reserve tank it Between be connected with fuel reserve tank oil inlet pipe, the oil discharge outlet of fuel reserve tank draws hydraulic oil drain line, the oil inlet of equipment heating device Fuel reserve tank oil outlet pipe is connected between the oil outlet of fuel reserve tank, is set in fuel reserve tank oil inlet pipe or fuel reserve tank oil outlet pipe Fuel reserve tank oil-way circulation pump is equipped with, the oil return opening of fuel reserve tank draws hydraulic oil oil return line, first fluid chamber of fuel reserve tank There are one fuel reserve tank temperature sensors for interior setting；

The hydraulic oil oil inlet and hydraulic oil oil outlet of the hydraulic oil transfer pipeline are soft by hydraulic oil oil inlet respectively Pipe connects the hydraulic oil drain line in equipment heating source and hydraulic oil oil return line with hydraulic oil oil outlet hose；

The radiator is protecting against shock accumulation of energy radiator, and the radiator includes radiator body and accumulation of energy pipe, described Radiator body includes the first collecting tank and the second collecting tank that left and right is vertically arranged, between the first collecting tank and the second collecting tank It is connected with more shunting liquid baths of lateral arrangement, the tubular structure that the accumulation of energy pipe is closed for bottom opening rest part, accumulation of energy The bottom opening of pipe is connected with the first collecting tank and the second collecting tank.

Refrigeration mode：Heat-exchanger rig, gas-liquid separator, compressor, condenser, four-way valve, are provided on refrigeration pipeline One check valve, the first liquid storage device, the first device for drying and filtering, the first heat exchanging pipe solenoid valve and first throttling device；

The operation principle of refrigeration pipeline：

Automatically controlled instruction of freezing requires compressor operating refrigerant sequence, and the first heat exchanging pipe solenoid valve is opened, the second heat exchanger tube Way solenoid valve is closed, four-way valve power-off, and the E reversal valves in four-way valve are closed；Compressor operating compresses refrigerant high temperature and pressure gas Body is successively by A mouthfuls of four-way valve, D mouthfuls of four-way valve, condenser, the first check valve, the first liquid storage device, the first device for drying and filtering, the Pressure is back to after one heat exchanging pipe solenoid valve, first throttling device, heat-exchanger rig, B mouthfuls of four-way valve, C mouthfuls of four-way valve, gas-liquid separator Contracting machine；Wherein：For cooling down the high-temperature high-pressure refrigerant gas of compression, the first liquid storage device is used to separate refrigerant gas condenser And liquid, first throttling device become low pressure refrigerant liquid for high pressure refrigerant liquid, heat-exchanger rig is used for low voltage refrigeration Agent liquid evaporation absorbs heat and becomes low pressure refrigerant gas；

Heating mode：Heat-exchanger rig, gas-liquid separator, compressor, condenser, four-way valve, the are provided on heating pipeline Two check valves, the second liquid storage device, the second device for drying and filtering, the second heat exchanging pipe solenoid valve and second throttling device；

Heat the operation principle of pipeline：

Heating automatically controlled instruction requires compressor operating to heat program, and the first heat exchanging pipe solenoid valve is closed, the second heat exchanger tube Way solenoid valve is opened, and four-way valve is powered, and the E reversal valves in four-way valve are opened；Compressor operating compresses refrigerant high temperature and pressure gas Body successively by A mouthfuls of four-way valve, B mouthfuls of four-way valve, heat-exchanger rig, the second check valve, the second liquid storage device, the second device for drying and filtering, Pressure is back to after second heat exchanging pipe solenoid valve, second throttling device, condenser, D mouthfuls of four-way valve, C mouthfuls of four-way valve, gas-liquid separator Contracting machine；

Wherein：Heat-exchanger rig becomes higher pressure refrigerant gas for high-temperature high-pressure refrigerant gas condensed absorbent heat, the For two liquid storage devices for separating refrigerant gas and liquid, second throttling device becomes low pressure refrigerant for higher pressure refrigerant gas Gas；

The first solenoid valve of hydraulic oil transfer pipeline and hydraulic oil transfer pipeline second solenoid valve are heated and made in heat exchanging pipe When cold, action is depending on environment temperature；

Refrigeration mode：When fluid temperature is higher than environment temperature, the first solenoid valve of hydraulic oil transfer pipeline is opened, and hydraulic oil is defeated Pipeline second solenoid valve is sent to close；When fluid temperature is lower than environment temperature, the first solenoid valve of hydraulic oil transfer pipeline is closed, hydraulic pressure Oily transfer pipeline second solenoid valve is opened；

Heating mode：When fluid temperature is higher than environment temperature, the first solenoid valve of hydraulic oil transfer pipeline is closed, and hydraulic oil is defeated Pipeline second solenoid valve is sent to open；When fluid temperature is lower than environment temperature, the first solenoid valve of hydraulic oil transfer pipeline is opened, hydraulic pressure Oily transfer pipeline second solenoid valve is closed.

The bottom side of first collecting tank and the second collecting tank is provided with sewage draining exit.

When the first, built in accumulation of energy pipe：

When the inlet and liquid outlet of protecting against shock accumulation of energy radiator are located at the top of the first collecting tank and the second collecting tank, Accumulation of energy pipe is installed on to the inside of the first collecting tank and the second collecting tank；

When the inlet and liquid outlet of protecting against shock accumulation of energy radiator are located at the side of the first collecting tank and the second collecting tank, Accumulation of energy pipe is installed on to the inside of the first collecting tank and the second collecting tank, if the height of accumulation of energy pipe is higher than inlet and liquid outlet Height, then other processing need not be done, if height of the height of accumulation of energy pipe less than inlet and liquid outlet, in accumulation of energy pipe Top installs distributing damper additional, and distributing damper separates the shunting liquid bath of inlet and the corresponding height and position of liquid outlet；

2nd, when accumulation of energy pipe is external：

The bottom opening of accumulation of energy pipe is threadedly coupled with the connector of the first collecting tank and the bottom side of the second collecting tank, institute The top for stating accumulation of energy pipe is fixed by bolts with the installation side of the first collecting tank and the top side of the second collecting tank and is connected.

Heat exchanging pipe switches between refrigeration pipeline and heating pipeline be respectively formed refrigeration mode and system as needed Heat pattern；

Refrigeration mode：Heat-exchanger rig, gas-liquid separator, compressor, condenser, four-way valve, are provided on refrigeration pipeline One check valve, the first liquid storage device, the first device for drying and filtering, the first heat exchanging pipe solenoid valve and first throttling device；

Heating mode：Heat-exchanger rig, gas-liquid separator, compressor, condenser, four-way valve, the are provided on heating pipeline Two check valves, the second liquid storage device, the second device for drying and filtering, the second heat exchanging pipe solenoid valve and second throttling device.

Compared with prior art, the beneficial effects of the invention are as follows：

At summer, hydraulic work system, oil temperature is more than the technological temperature of setting, and industrial constant-temperature machine automatic running reduces The oil temperature of hydraulic work system reaches required technological temperature, and in winter, the oil temperature of hydraulic system is less than technological temperature, industry Constant temperature machine automatic running by compression mechanism hot systems and corresponding tube heater auxiliary heating system, reaches required work Skill temperature, and constant temperature is in desired Process temperature ranges.It is energy-saving and environmental protection, low by tubing type compressor heating system Carbon, Energy Efficiency Ratio is high, is saved greatly the energy, efficiently thermal energy referral is made oil liquid temperature quickly raise, may be used also to fluid So that fluid undergoes no deterioration and is carbonized, it is service life to extend fluid.The present invention has reliability high, is hardly damaged, and ensures The advantages of system stable operation.

Description of the drawings

Fig. 1 is the front view of the embodiment A of radiator.

Fig. 2 is the side view of the embodiment A of radiator.

Fig. 3 is the explosive view of Fig. 2.

Fig. 4 is the three-dimensional semi-cutaway of the embodiment A of radiator.

Fig. 5 is the first collecting tank schematic internal view of the embodiment A of radiator.

Fig. 6 is the front view of the embodiment B of radiator.

Fig. 7 is the side view of the embodiment B of radiator.

Fig. 8 is the explosive view of Fig. 6.

Fig. 9 is the three-dimensional semi-cutaway of the embodiment B of radiator.

Figure 10 is the first collecting tank schematic internal view of the embodiment B of radiator.

Figure 11 is the front view of the embodiment C of radiator.

Figure 12 is the side view of the embodiment C of radiator.

Figure 13 is the explosive view of Figure 12.

Figure 14 is the three-dimensional semi-cutaway of the embodiment C of radiator.

Figure 15 is the first collecting tank schematic internal view of the embodiment C of radiator.

Figure 16 is the front view of the embodiment D of radiator.

Figure 17 is the side view of the embodiment D of radiator.

Figure 18 is the explosive view of Figure 16.

Figure 19 is the three-dimensional semi-cutaway of the embodiment D of radiator.

Figure 20 is the first collecting tank schematic internal view of the embodiment D of radiator.

Figure 21 is the structure diagram of the present invention.

Figure 22 is the structure diagram of heat exchanging pipe.

Figure 23 is the structure diagram of four-way valve.

Wherein：

Hydraulic oil transfer pipeline 100, hydraulic oil transfer pipeline delivery pump 101, heat-exchanger rig 102, hydraulic oil transfer pipeline Temperature sensor 103, the first solenoid valve of hydraulic oil transfer pipeline 104, hydraulic oil transfer pipeline second solenoid valve 105, hydraulic oil Conveying bypass 106

Heat exchanging pipe 200, gas-liquid separator 201, compressor 202, condenser 203, heat exchanging pipe by-passing valve 204, four-way Valve 205, the first check valve 206, the first liquid storage device 207, the first device for drying and filtering 208, the first heat exchanging pipe solenoid valve 209, One throttling set 210, the second check valve 211, the second liquid storage device 212, the second device for drying and filtering 213, the second heat exchanging pipe electromagnetism Valve 214, second throttling device 215

Radiator 5, accumulation of energy pipe 500, the first collecting tank 501, the second collecting tank 502, shunting liquid bath 503, sewage draining exit 504, Sewage draining exit bolt 505, sewage draining exit gasket 506, distributing damper 507

Equipment heating source 900, equipment heating device 901, fuel reserve tank 902, fuel reserve tank oil inlet pipe 903, hydraulic oil oil extraction Pipeline 904, fuel reserve tank oil outlet pipe 905, fuel reserve tank oil-way circulation pump 906, hydraulic oil oil return line 907, fuel reserve tank temperature pass Sensor 908.

Specific embodiment

Referring to Fig. 1~Figure 23, a kind of tubing type industrial constant-temperature machine with protecting against shock accumulation of energy radiator of the present invention, it Including a hydraulic oil transfer pipeline 100, on the hydraulic oil transfer pipeline 100 from hydraulic oil oil inlet to hydraulic oil oil outlet it Between be disposed with hydraulic oil transfer pipeline delivery pump 101, radiator 5 and heat-exchanger rig 102, the one side of radiator 5 is provided with Cooling fan,

Wherein hydraulic oil transfer pipeline temperature sensor is additionally provided on the hydraulic oil transfer pipeline 100 in 5 front of radiator 103, the first electromagnetism of hydraulic oil transfer pipeline is provided on the hydraulic oil transfer pipeline 100 between radiator 5 and heat-exchanger rig 102 One has been arranged in parallel with liquid on the hydraulic oil transfer pipeline 100 at valve 104,5 front of radiator and 104 rear of the first solenoid valve The hydraulic oil conveying bypass 106 of pressure oil transfer pipeline second solenoid valve 105；

The upper heat exchange connector of the heat-exchanger rig 102 is connected with heat exchanging pipe 200 between lower heat exchange connector, exchanges heat Be provided on pipeline 200 gas-liquid separator 201, compressor 202, condenser 203, heat exchanging pipe by-passing valve 204, four-way valve 205, First check valve 206, the first liquid storage device 207, the first device for drying and filtering 208, the first heat exchanging pipe solenoid valve 209, first throttle Device 210, the second check valve 211, the second liquid storage device 212, the second device for drying and filtering 213, the second heat exchanging pipe solenoid valve 214 with And second throttling device 215, four ends up and down of wherein four-way valve 205 are respectively provided with A mouthfuls, B mouthfuls, C mouthfuls and D mouthfuls, four-way E reversal valves are provided in valve 205；Heat exchanging pipe by-passing valve 204 be connected to compressor 202 and gas-liquid separator 201 import it Between；

Heat exchanging pipe 200 as needed refrigeration pipeline and heating pipeline between switch over be respectively formed refrigeration mode and Heating mode；

Refrigeration mode：Heat-exchanger rig 102, gas-liquid separator 201, compressor 202, condenser are provided on refrigeration pipeline 203rd, four-way valve 205, the first check valve 206, the first liquid storage device 207, the first device for drying and filtering 208, the first heat exchanging pipe electromagnetism Valve 209 and first throttling device 210；

The operation principle of refrigeration pipeline：

Automatically controlled instruction of freezing requires compressor operating refrigerant sequence, and the first heat exchanging pipe solenoid valve 209 is opened, the second heat exchange Pipeline electromagnetic valve 214 is closed, and four-way valve 205 powers off, and the E reversal valves in four-way valve 205 are closed；Compressor operating, compression refrigeration Agent high temperature and high pressure gas are successively by A mouthfuls of four-way valve, D mouthfuls of four-way valve, condenser, the first check valve, the first liquid storage device, first dry Dry filter, the first heat exchanging pipe solenoid valve, first throttling device, heat-exchanger rig, B mouthfuls of four-way valve, C mouthfuls of four-way valve, gas-liquid point From being back to compressor after device；Wherein：For cooling down the high-temperature high-pressure refrigerant gas of compression, the first liquid storage device is used to divide condenser From refrigerant gas and liquid, first throttling device becomes low pressure refrigerant liquid, heat-exchanger rig for high pressure refrigerant liquid Heat, which is absorbed, for low pressure refrigerant liquid evaporation becomes low pressure refrigerant gas；

Heating mode：Heat-exchanger rig 102, gas-liquid separator 201, compressor 202, condenser are provided on heating pipeline 203rd, four-way valve 205, the second check valve 211, the second liquid storage device 212, the second device for drying and filtering 213, the second heat exchanging pipe electromagnetism Valve 214 and second throttling device 215；

Heat the operation principle of pipeline：

Heating automatically controlled instruction requires compressor operating to heat program, and the first heat exchanging pipe solenoid valve 209 is closed, the second heat exchange Pipeline electromagnetic valve 214 is opened, and four-way valve 205 is powered, and the E reversal valves in four-way valve 205 are opened；Compressor operating, compression refrigeration Agent high temperature and high pressure gas are successively by A mouthfuls of four-way valve, B mouthfuls of four-way valve, heat-exchanger rig, the second check valve, the second liquid storage device, second Device for drying and filtering, the second heat exchanging pipe solenoid valve, second throttling device, condenser, D mouthfuls of four-way valve, C mouthfuls of four-way valve, gas-liquid point From being back to compressor after device；

Wherein：Heat-exchanger rig becomes higher pressure refrigerant gas for high-temperature high-pressure refrigerant gas condensed absorbent heat, the For two liquid storage devices for separating refrigerant gas and liquid, second throttling device becomes low pressure refrigerant for higher pressure refrigerant gas Gas；

The first solenoid valve of hydraulic oil transfer pipeline 104 and hydraulic oil transfer pipeline second solenoid valve 105 are in heat exchanging pipe 200 When heating and refrigeration, action is depending on environment temperature；

Refrigeration mode：When fluid temperature is higher than environment temperature, the first solenoid valve of hydraulic oil transfer pipeline 104 is opened, hydraulic pressure Oily transfer pipeline second solenoid valve 105 is closed；When fluid temperature is lower than environment temperature, the first solenoid valve of hydraulic oil transfer pipeline 104 close, and hydraulic oil transfer pipeline second solenoid valve 105 is opened；

Heating mode：When fluid temperature is higher than environment temperature, the first solenoid valve of hydraulic oil transfer pipeline 104 is closed, hydraulic pressure Oily transfer pipeline second solenoid valve 105 is opened；When fluid temperature is lower than environment temperature, the first solenoid valve of hydraulic oil transfer pipeline 104 open, and hydraulic oil transfer pipeline second solenoid valve 105 is closed；

Equipment heating source 900 includes equipment heating device 901 and fuel reserve tank 902, and one is provided in the liquid reserve tank 902 The partition plate that block is vertically arranged, partition plate will be respectively two fluid chambers in liquid reserve tank 902, and first fluid chamber is provided with oil storage The oil inlet of case 902 and the oil discharge outlet of fuel reserve tank 902, second fluid chamber be provided with fuel reserve tank 902 oil outlet and The oil return opening of fuel reserve tank 902, the oil discharge outlet of fuel reserve tank 902 and the oil outlet of fuel reserve tank 902 are both provided with filter, equipment hair Fuel reserve tank oil inlet pipe 903, the row of fuel reserve tank 902 are connected between the oil outlet of thermal 901 and the oil inlet of fuel reserve tank 902 Hydraulic fluid port draws hydraulic oil drain line 904, is connected between the oil inlet of equipment heating device 901 and the oil outlet of fuel reserve tank 902 There is fuel reserve tank oil outlet pipe 905, fuel reserve tank oil circuit is provided in fuel reserve tank oil inlet pipe 903 or fuel reserve tank oil outlet pipe 905 Circulating pump 906, the oil return opening of fuel reserve tank 902 draw hydraulic oil oil return line 907, in first fluid chamber of fuel reserve tank 902 Fuel reserve tank temperature sensor 908 there are one setting.

The hydraulic oil oil inlet and hydraulic oil oil outlet of the hydraulic oil transfer pipeline 100 pass through hydraulic oil oil inlet respectively Hose connects the hydraulic oil drain line 904 in equipment heating source 900 and hydraulic oil oil return line with hydraulic oil oil outlet hose 907。

A kind of method of work of the tubing type industrial constant-temperature machine with protecting against shock accumulation of energy radiator：

Step 1: connection equipment heating source 900 and industrial constant-temperature machine；

The hydraulic oil oil inlet and hydraulic oil oil outlet of the hydraulic oil transfer pipeline 100 of industrial constant-temperature machine pass through hydraulic pressure respectively Oily oil inlet hose connects the hydraulic oil drain line 904 in equipment heating source 900 with hydraulic oil oil outlet hose and hydraulic oil returns Oil pipe line 907；

Step 2: after equipment heating source 900 brings into operation, the hydraulic oil of 902 second fluid chambers of fuel reserve tank is by storage 905 supply arrangement heat generating device 901 of fuel tank oil outlet pipe, the hydraulic oil in equipment heating device 901 pass through fuel reserve tank oil inlet pipe Road 903 drains into first fluid chamber of fuel reserve tank 902, and the hydraulic oil of first fluid chamber passes through hydraulic oil oil exit pipe successively Road 904, hydraulic oil oil inlet hose, hydraulic oil transfer pipeline 100, hydraulic oil oil outlet hose and hydraulic oil oil return line 907 are back to second fluid chamber of fuel reserve tank 902；

During start, fuel reserve tank temperature sensor 908 or hydraulic oil transfer pipeline temperature sensor 103 first detect liquid temperature Degree opens heating mode when temperature is less than 35 DEG C, and refrigeration mode is opened when temperature is higher than 60 DEG C.

The radiator 5 is protecting against shock accumulation of energy radiator, and the radiator 5 includes radiator body and accumulation of energy pipe 500, The radiator body includes the first collecting tank 501 and the second collecting tank 502 that left and right is vertically arranged, 501 He of the first collecting tank Be connected with more of lateral arrangement shunting liquid baths 503 between second collecting tank 502, the accumulation of energy pipe 500 for bottom opening remaining Partially enclosed tubular structure, the bottom opening of accumulation of energy pipe 500 is connected with the first collecting tank 501 and the second collecting tank 502, described The bottom side of first collecting tank 501 and the second collecting tank 502 is provided with sewage draining exit 504, and sewage draining exit 504 is when not in use using row Dirty mouth bolt 505 and sewage draining exit gasket 506 are blocked.

Embodiment A,

Built in accumulation of energy pipe, when the inlet and liquid outlet of protecting against shock accumulation of energy radiator are located at the first collecting tank 501 and second During the top of collecting tank 502, accumulation of energy pipe 500 is installed on the inside of the first collecting tank 501 and the second collecting tank 502.

Embodiment B,

Built in accumulation of energy pipe, when the inlet and liquid outlet of protecting against shock accumulation of energy radiator are located at the first collecting tank 501 and second During the side of collecting tank 502, accumulation of energy pipe 500 is installed on to the inside of the first collecting tank 501 and the second collecting tank 502, if stored The height of energy pipe 500 need not then do other processing, if the height of accumulation of energy pipe 500 is low higher than the height of inlet and liquid outlet It in the height of inlet and liquid outlet, then needs to install distributing damper 507 additional at the top of accumulation of energy pipe 500, distributing damper 507 will be into The shunting liquid bath 503 of liquid mouth and the corresponding height and position of liquid outlet separates, and the direct impact of liquid is avoided to enter shunting liquid bath 503。

Embodiment C,

Accumulation of energy pipe is external, and the inlet and liquid outlet of protecting against shock accumulation of energy radiator are located at the first collecting tank 501 and the second collection The top of liquid bath 502.The bottom opening of the accumulation of energy pipe 500 and the bottom side of the first collecting tank 501 and the second collecting tank 502 Connector be threadedly coupled, the top side of the top of the accumulation of energy pipe 500 and the first collecting tank 501 and the second collecting tank 502 Installation side be fixed by bolts connection, it is easy to disassemble.Since the accumulation of energy pipe 500 of protecting against shock accumulation of energy radiator is arranged at the first collection The outside of 501 and second collecting tank 502 of liquid bath so that different capabilities, each can be selected by the difference of fluid flow and impact force The different accumulation of energy pipe of kind.

Embodiment D,

Accumulation of energy pipe is external, and the inlet and liquid outlet of protecting against shock accumulation of energy radiator are located at the first collecting tank 501 and the second collection The side of liquid bath 502.

The method of work of radiator：

Equipment heating source initial operating stage, fluid temperature is relatively low, and cooling fan does not start, and liquid enters protecting against shock by inlet In first collecting tank of accumulation of energy radiator, the shunting liquid bath internal resistance of protecting against shock accumulation of energy radiator is smaller under normal circumstances or nothing Resistance, then liquid be introduced into the first collecting tank, then through shunting liquid bath during radiate, enter back into the second collection Liquid bath finally leaves protecting against shock accumulation of energy radiator from liquid outlet；It is larger in the shunting liquid bath internal resistance of protecting against shock accumulation of energy radiator When, since the pressure in accumulation of energy pipe at this time is smaller, some liquid is entered in accumulation of energy pipe, as liquid is in accumulation of energy intraluminal fluid The rise of position, the air in compress energy storage pipe so that the pressure in accumulation of energy pipe also raises, the pressure in final accumulation of energy pipe reach with Pressure at inlet is equal, and the liquid velocity at inlet slows down at this time, and the pressure at inlet also reduces therewith, with into Pressure at liquid mouth reduces, and into the liquid in accumulation of energy pipe since pressure is higher than at inlet, returns into the first collecting tank It is interior, it then radiates during by shunting liquid bath, enters back into the second collecting tank, finally leave protecting against shock from liquid outlet Accumulation of energy radiator.

Because the motility of air is good, substantially without hysteresis quality, air, which is run into, in protecting against shock accumulation of energy radiator impact The moment of power is just compressed and acts immediately, this action is completed in moment, will not there is hysteresis quality and use as mechanical damping Fatigue.

After a period of time is run in equipment heating source, temperature sensor detects that temperature then starts heat dissipation higher than 60 degrees Celsius Wind turbine.

Claims (3)

1. a kind of method of work of the tubing type industrial constant-temperature machine with protecting against shock accumulation of energy radiator, it is characterised in that：

Step 1: connection equipment heating source (900) and industrial constant-temperature machine；

The hydraulic oil oil inlet and hydraulic oil oil outlet of the hydraulic oil transfer pipeline (100) of industrial constant-temperature machine pass through hydraulic oil respectively Oil inlet hose connects the hydraulic oil drain line (904) and hydraulic oil in equipment heating source (900) with hydraulic oil oil outlet hose Oil return line (907)；

Step 2: after equipment heating source (900) bring into operation, the hydraulic oil of (902) second fluid chambers of fuel reserve tank is by storage Fuel tank oil outlet pipe (905) supply arrangement heat generating device (901), the hydraulic oil in equipment heating device (901) pass through fuel reserve tank Oil inlet pipe (903) drains into first fluid chamber of fuel reserve tank (902), and the hydraulic oil of first fluid chamber passes through liquid successively Pressure oil drain line (904), hydraulic oil oil inlet hose, hydraulic oil transfer pipeline (100), hydraulic oil oil outlet hose and liquid Pressure oil oil return line (907) is back to second fluid chamber of fuel reserve tank (902)；

During start, fuel reserve tank temperature sensor (908) or hydraulic oil transfer pipeline temperature sensor (103) first detect liquid temperature Degree opens heating mode when temperature is less than 35 DEG C, and refrigeration mode is opened when temperature is higher than 60 DEG C；

Industrial constant-temperature machine includes a hydraulic oil transfer pipeline (100), from hydraulic oil oil inlet on the hydraulic oil transfer pipeline (100) Mouthful to being disposed with hydraulic oil transfer pipeline delivery pump (101), radiator (5) and heat-exchanger rig between hydraulic oil oil outlet (102), the one side of radiator (5) is provided with cooling fan,

Hydraulic oil transfer pipeline temperature sensor is additionally provided on hydraulic oil transfer pipeline (100) wherein in front of radiator (5) (103), it is provided with hydraulic oil transfer pipeline on the hydraulic oil transfer pipeline (100) between radiator (5) and heat-exchanger rig (102) It is in parallel on the hydraulic oil transfer pipeline (100) at the first solenoid valve (104), radiator (5) front and the first solenoid valve (104) rear It is provided with a hydraulic oil conveying bypass (106) with hydraulic oil transfer pipeline second solenoid valve (105)；

The upper heat exchange connector of the heat-exchanger rig (102) is connected with heat exchanging pipe (200) between lower heat exchange connector, exchanges heat Be provided on pipeline (200) gas-liquid separator (201), compressor (202), condenser (203), heat exchanging pipe by-passing valve (204), Four-way valve (205), the first check valve (206), the first liquid storage device (207), the first device for drying and filtering (208), the first heat exchanging pipe Solenoid valve (209), first throttling device (210), the second check valve (211), the second liquid storage device (212), the second device for drying and filtering (213), the second heat exchanging pipe solenoid valve (214) and second throttling device (215), wherein four-way valve (205) be up and down Four ends are respectively provided with A mouthfuls, B mouthfuls, C mouthfuls and D mouthfuls, and E reversal valves are provided in four-way valve (205)；Heat exchanging pipe by-passing valve (204) It is connected between the import of compressor (202) and gas-liquid separator (201)；

Equipment heating source (900) includes equipment heating device (901) and fuel reserve tank (902), is set in the liquid reserve tank (902) There is one piece of partition plate being vertically arranged, partition plate will be respectively two fluid chambers in liquid reserve tank (902), and first fluid chamber is set There are the oil inlet of fuel reserve tank (902) and the oil discharge outlet of fuel reserve tank (902), second fluid chamber to be provided with fuel reserve tank (902) Oil outlet and fuel reserve tank (902) oil return opening, the oil discharge outlet of fuel reserve tank (902) and the oil outlet of fuel reserve tank (902) are equal Be provided with filter, be connected between the oil outlet of equipment heating device (901) and the oil inlet of fuel reserve tank (902) fuel reserve tank into Oil pipe line (903), the oil discharge outlet of fuel reserve tank (902) draw hydraulic oil drain line (904), equipment heating device (901) into Be connected with fuel reserve tank oil outlet pipe (905) between the oil outlet of hydraulic fluid port and fuel reserve tank (902), fuel reserve tank oil inlet pipe (903) or Fuel reserve tank oil-way circulation pump (906) is provided in person's fuel reserve tank oil outlet pipe (905), the oil return opening of fuel reserve tank (902) draws liquid Pressure oil oil return line (907), there are one fuel reserve tank temperature sensors for the interior setting of first fluid chamber of fuel reserve tank (902) (908)；

The hydraulic oil oil inlet and hydraulic oil oil outlet of the hydraulic oil transfer pipeline (100) are soft by hydraulic oil oil inlet respectively Pipe connects the hydraulic oil drain line (904) in equipment heating source (900) and hydraulic oil oil return line with hydraulic oil oil outlet hose (907)；

The radiator is protecting against shock accumulation of energy radiator, and the radiator includes radiator body and accumulation of energy pipe, the heat dissipation Device body includes the first collecting tank and the second collecting tank that left and right is vertically arranged, and is connected between the first collecting tank and the second collecting tank There are more shunting liquid baths of lateral arrangement, the accumulation of energy pipe is the tubular structure of bottom opening rest part closing, accumulation of energy pipe Bottom opening is connected with the first collecting tank and the second collecting tank；

Refrigeration mode：Heat-exchanger rig (102), gas-liquid separator (201), compressor (202), condenser are provided on refrigeration pipeline (203), four-way valve (205), the first check valve (206), the first liquid storage device (207), the first device for drying and filtering (208), first are changed Heat pipe way solenoid valve (209) and first throttling device (210)；

The operation principle of refrigeration pipeline：

Automatically controlled instruction of freezing requires compressor operating refrigerant sequence, and the first heat exchanging pipe solenoid valve (209) is opened, the second heat exchanger tube Way solenoid valve (214) is closed, four-way valve (205) power-off, and the E reversal valves in four-way valve (205) are closed；Compressor operating, compression Refrigerant high temperature and high pressure gas are successively by A mouthfuls of four-way valve, D mouthfuls of four-way valve, condenser, the first check valve, the first liquid storage device, the One device for drying and filtering, the first heat exchanging pipe solenoid valve, first throttling device, heat-exchanger rig, B mouthfuls of four-way valve, C mouthfuls of four-way valve, gas Compressor is back to after liquid/gas separator；Wherein：Condenser for cooling down the high-temperature high-pressure refrigerant gas of compression, use by the first liquid storage device Become low pressure refrigerant liquid for high pressure refrigerant liquid in separation refrigerant gas and liquid, first throttling device, exchange heat Device absorbs heat for low pressure refrigerant liquid evaporation and becomes low pressure refrigerant gas；

Heating mode：Heat-exchanger rig (102), gas-liquid separator (201), compressor (202), condenser are provided on heating pipeline (203), four-way valve (205), the second check valve (211), the second liquid storage device (212), the second device for drying and filtering (213), second are changed Heat pipe way solenoid valve (214) and second throttling device (215)；

Heat the operation principle of pipeline：

Heating automatically controlled instruction requires compressor operating to heat program, and the first heat exchanging pipe solenoid valve (209) is closed, the second heat exchanger tube Way solenoid valve (214) is opened, and four-way valve (205) is powered, and the E reversal valves in four-way valve (205) are opened；Compressor operating, compression Refrigerant high temperature and high pressure gas successively by A mouthfuls of four-way valve, B mouthfuls of four-way valve, heat-exchanger rig, the second check valve, the second liquid storage device, Second device for drying and filtering, the second heat exchanging pipe solenoid valve, second throttling device, condenser, D mouthfuls of four-way valve, C mouthfuls of four-way valve, gas Compressor is back to after liquid/gas separator；

Wherein：Heat-exchanger rig becomes higher pressure refrigerant gas, the second storage for high-temperature high-pressure refrigerant gas condensed absorbent heat For liquid device for separating refrigerant gas and liquid, second throttling device becomes low pressure refrigerant gas for higher pressure refrigerant gas Body；

The first solenoid valve of hydraulic oil transfer pipeline (104) and hydraulic oil transfer pipeline second solenoid valve (105) are in heat exchanging pipe (200) when heating and freeze, action is depending on environment temperature；

Refrigeration mode：When fluid temperature is higher than environment temperature, the first solenoid valve of hydraulic oil transfer pipeline (104) is opened, hydraulic oil Transfer pipeline second solenoid valve (105) is closed；When fluid temperature is lower than environment temperature, the first solenoid valve of hydraulic oil transfer pipeline (104) close, hydraulic oil transfer pipeline second solenoid valve (105) is opened；

Heating mode：When fluid temperature is higher than environment temperature, the first solenoid valve of hydraulic oil transfer pipeline (104) is closed, hydraulic oil Transfer pipeline second solenoid valve (105) is opened；When fluid temperature is lower than environment temperature, the first solenoid valve of hydraulic oil transfer pipeline (104) open, hydraulic oil transfer pipeline second solenoid valve (105) is closed.

2. a kind of method of work of tubing type industrial constant-temperature machine with protecting against shock accumulation of energy radiator according to claim 1, It is characterized in that the bottom side of first collecting tank and the second collecting tank is provided with sewage draining exit.

3. a kind of method of work of tubing type industrial constant-temperature machine with protecting against shock accumulation of energy radiator according to claim 1, It is characterized in that：

When the first, built in accumulation of energy pipe：

When the inlet and liquid outlet of protecting against shock accumulation of energy radiator are located at the top of the first collecting tank and the second collecting tank, will store Energy pipe is installed on the inside of the first collecting tank and the second collecting tank；

When the inlet and liquid outlet of protecting against shock accumulation of energy radiator are located at the side of the first collecting tank and the second collecting tank, will store Energy pipe is installed on the inside of the first collecting tank and the second collecting tank, if the height of accumulation of energy pipe is higher than inlet and the height of liquid outlet Degree, then need not do other processing, if the height of accumulation of energy pipe is less than the height of inlet and liquid outlet, at the top of accumulation of energy pipe Install distributing damper additional, distributing damper separates the shunting liquid bath of inlet and the corresponding height and position of liquid outlet；

2nd, when accumulation of energy pipe is external：

The bottom opening of accumulation of energy pipe is threadedly coupled with the connector of the first collecting tank and the bottom side of the second collecting tank, the storage The top of energy pipe is fixed by bolts with the installation side of the first collecting tank and the top side of the second collecting tank to be connected.