CN106151177B - Industrial refrigerating plant with tube heater - Google Patents

Abstract

A kind of industrial refrigerating plant with tube heater of the present invention, it is characterized in that it includes a hydraulic oil transfer pipeline, from hydraulic oil oil inlet to being disposed with hydraulic oil transfer pipeline delivery pump between hydraulic oil oil outlet on the hydraulic oil transfer pipeline, radiator, tube heater and heat-exchanger rig, the side of radiator is provided with cooling fan, gas-liquid separator is disposed on the coolant outlet of the heat-exchanger rig to the cooling line cooled down between import, compressor, condenser, liquid storage device, device for drying and filtering, cooling line solenoid valve and throttling set, there are one cooling line by-passing valves to the cooling line between condenser and throttling set to setting between the cooling line between heat-exchanger rig for compressor.The present invention has reliability high, the advantages of being hardly damaged, ensure system stable operation.

Description

Industrial refrigerating plant with tube heater

Technical field

The present invention relates to a kind of industrial refrigerating plants with tube heater.

Background technology

It is well known that oil temperature in hydraulic system optimum temperature is between 35 ~ 55 degrees Celsius, taken the photograph once temperature increases to over 60 Family name's degree, the system of hydraulic system will significantly decline and its equipment fault continuously emerges, under causing the stability of equipment serious Drop, can not ensure machinery equipment normal operation.In especially season in full summer, high oil temperature or even machinery equipment can be caused usually to locate In shutdown status.For traditional industrial refrigerating plant in firm starting up, oil temperature is relatively low, influences system stable operation.

Invention content

The purpose of the present invention is to overcome the above shortcomings and to provide a kind of reliability height, are hardly damaged, and ensure that system stablizes fortune The capable industrial refrigerating plant with tube heater.

The object of the present invention is achieved like this：

A kind of industrial refrigerating plant with tube heater, it is characterised in that it includes a hydraulic oil transfer pipeline, should It is conveyed on hydraulic oil transfer pipeline from hydraulic oil oil inlet to hydraulic oil transfer pipeline is disposed between hydraulic oil oil outlet Pump, radiator, tube heater and heat-exchanger rig, the side of radiator are provided with cooling fan, the cooling of the heat-exchanger rig It is exported on the cooling line between cooling import and is disposed with gas-liquid separator, compressor, condenser, liquid storage device, drying Filter, cooling line solenoid valve and throttling set, compressor to the cooling line between condenser and throttling set are to changing There are one cooling line by-passing valves for setting between cooling line between thermal.The tube heater includes tube heater Cylinder is provided with the first liquid port arranged up and down and second liquid mouth, the main body of electric heating tube on tube heater cylinder Positioned at tube heater inner barrel center, the region in the tube heater cylinder on the outside of electric heating tube be provided with from First liquid port to second liquid mouth flow channel for liquids.

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, tubular structure of the accumulation of energy pipe for the closing of bottom opening rest part, accumulation of energy The bottom opening of pipe is connected with the first collecting tank and the second collecting tank.

Flow channel for liquids is spiral separating liquid piece or parallel separating liquid piece.

First liquid port and second liquid mouth are diagonally arranged on tube heater cylinder.

It is provided with lower flange at the top of tube heater cylinder, is provided with upper flange above the lower flange, on upper flange More electric heating tubes are installed with, the main body of electric heating tube is located at tube heater inner barrel center across lower flange.

Power protection box is covered with above the upper flange, the power interface of electric heating tube is located at the power supply above upper flange In protecting box.

Installation screw socket is provided on the side wall of the tube heater cylinder.

The tube heater cylinder body bottom is vertically provided with tube heater cylinder fixed screw, tube heater cylinder Fixed screw rotation is equipped with the crash roll retainer plate and crash roll arranged up and down, and crash roll retainer plate is close to tube heater cylinder Bottom, crash roll is in the crash roll retainer plate.

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 connect.

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

The present invention has reliability high, the advantages of being hardly damaged, ensure system stable operation.

Description of the drawings

Fig. 1 is the structural diagram of the present invention.

Fig. 2 is the structure diagram of tube heater.

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

Fig. 4 is the tube heater sectional view that flow channel for liquids selects spiral separating liquid piece.

Fig. 5 is the liquid flow graph for the tube heater that flow channel for liquids selects spiral separating liquid piece.

Fig. 6 is the tube heater sectional view that flow channel for liquids selects parallel separating liquid piece.

Fig. 7 is the liquid flow graph for the tube heater that flow channel for liquids selects parallel separating liquid piece.

Fig. 8 is the front view of the embodiment one of radiator.

Fig. 9 is the side view of the embodiment one of radiator.

Figure 10 is the explosive view of Fig. 9.

Figure 11 is the three-dimensional semi-cutaway of the embodiment one of radiator.

Figure 12 is the first collecting tank schematic internal view of the embodiment one of radiator.

Figure 13 is the front view of the embodiment two of radiator.

Figure 14 is the side view of the embodiment two of radiator.

Figure 15 is the explosive view of Figure 14.

Figure 16 is the three-dimensional semi-cutaway of the embodiment two of radiator.

Figure 17 is the first collecting tank schematic internal view of the embodiment two of radiator.

Figure 18 is the front view of the embodiment three of radiator.

Figure 19 is the side view of the embodiment three of radiator.

Figure 20 is the explosive view of Figure 19.

Figure 21 is the three-dimensional semi-cutaway of the embodiment three of radiator.

Figure 22 is the first collecting tank schematic internal view of the embodiment three of radiator.

Figure 23 is the front view of the example IV of radiator.

Figure 24 is the side view of the example IV of radiator.

Figure 25 is the explosive view of Figure 24.

Figure 26 is the three-dimensional semi-cutaway of the example IV of radiator.

Figure 27 is the first collecting tank schematic internal view of the example IV of radiator.

Wherein：

Hydraulic oil transfer pipeline 100, hydraulic oil transfer pipeline delivery pump 101, heat-exchanger rig 102, hydraulic oil transfer pipeline Temperature sensor 103

Cooling line 200, gas-liquid separator 201, compressor 202, condenser 203, liquid storage device 204, device for drying and filtering 205th, cooling line solenoid valve 206, throttling set 207, cooling line by-passing valve 208

Hydraulic oil bypass line 300, hydraulic oil by-passing valve 301

Tube heater 4, tube heater cylinder 401, the first liquid port 402, second liquid mouth 403, lower flange 404, Upper flange 405, electric heating tube 406, power protection box 407, installation screw socket 408, crash roll retainer plate 409, tube heater cylinder Body fixed screw 410, crash roll 411, spiral separating liquid piece 412, parallel separating liquid piece 413

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 27, a kind of industrial refrigerating plant with tube heater of the present invention, it includes a liquid Pressure oil transfer pipeline 100 is set gradually from hydraulic oil oil inlet between hydraulic oil oil outlet on the hydraulic oil transfer pipeline 100 There are hydraulic oil transfer pipeline delivery pump 101, radiator 5, tube heater 4 and heat-exchanger rig 102, the side setting of radiator 5 There is cooling fan, gas is disposed on the coolant outlet to the cooling line 200 cooled down between import of the heat-exchanger rig 102 Liquid/gas separator 201, compressor 202, condenser 203, liquid storage device 204, device for drying and filtering 205, cooling line solenoid valve 206 and Throttling set 207, wherein condenser 203 can be one, and condenser 203 can also be provided with multiple, pressure in parallel or in series Contracting machine 202 is to the cooling line 200 between condenser 203 and throttling set 207 to the cooling line between heat-exchanger rig 102 There are one cooling line by-passing valves 208 for setting between 200.

Hydraulic oil transfer pipeline temperature sensor 103, the heat-exchanger rig are provided on the hydraulic oil transfer pipeline 100 A hydraulic oil bypass line 300, the hydraulic oil bypass pipe have been arranged in parallel on the hydraulic oil transfer pipeline 100 at 102 both ends Hydraulic oil by-passing valve 301 is provided on road 300.When hydraulic oil transfer pipeline temperature sensor 103 detects that temperature is relatively low, hydraulic pressure Oil bypass valve 301 is opened, and hydraulic oil is directly flowed from hydraulic oil bypass line 300, hydraulic oil transfer pipeline temperature sensor 103 When detecting that temperature is higher, hydraulic oil by-passing valve 301 is closed, and hydraulic oil is not flowed from hydraulic oil bypass line 300.

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 board that block is vertically arranged, partition board 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 There are one fuel reserve tank temperature sensors 908 for 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 industrial refrigerating plant with tube heater：

Step 1: connection equipment heating source 900 and industrial refrigerating plant；

The hydraulic oil oil inlet and hydraulic oil oil outlet of the hydraulic oil transfer pipeline 100 of industrial refrigerating plant pass through liquid respectively Pressure oil 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 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；

900 initial operating stage of equipment heating source, hydraulic fluid temperature is low, and hydraulic oil is straight in the flowing of hydraulic oil transfer pipeline 100 It connects from hydraulic oil bypass line 300 and flows, hydraulic oil is cooled down without heat-exchanger rig 102；

The hydraulic fluid temperature that the operation a period of time of equipment heating device 901 can cause it internal also increases, therefore set The hydraulic fluid temperature of first fluid chamber that preparation thermal 901 is expelled in fuel reserve tank 902 also increases, and fuel reserve tank temperature passes Sensor 908 or hydraulic oil transfer pipeline temperature sensor 103 detect that the temperature of hydraulic oil reaches certain high temperature（It is taken the photograph more than 60 Family name's degree）, hydraulic oil by-passing valve 301 closes, and hydraulic oil is cooled down by heat-exchanger rig 102, cold on cooling line 200 at this time But pipeline electromagnetic valve 206 starts, and cooling line 200 starts operation, and cooling line 200 is defeated with hydraulic oil at heat-exchanger rig 102 The high temperature hydraulic oil in pipeline 100 is sent to carry out heat exchange, high temperature hydraulic oil is cooled down so that cooled down by heat-exchanger rig 102 Low temperature hydraulic oil by hydraulic oil transfer pipeline 100 be to be back to second fluid chamber of fuel reserve tank 902 again to continue to supply Equipment heating device 901.

The operation principle of wherein cooling line 200 is：

The high temperature and high pressure gas come out from compressor 202 becomes cryogenic high pressure gas liquid mixture after condenser 203, so Gas-liquid separation is carried out by liquid storage device 204 afterwards and form cryogenic high pressure liquid, then by device for drying and filtering 205 remove It is miscellaneous, low temperature and low pressure liquid then is formed by throttling set 207, low temperature and low pressure liquid is in heat-exchanger rig 102 by heat exchange shape Into low-temp low-pressure gas liquid mixture, low-temp low-pressure gas liquid mixture carries out gas-liquid separation by gas-liquid separator 201 and forms low temperature Low-pressure gas, then low temperature low pressure gas, which using compressor 202 compress, forms high temperature and high pressure gas, back and forth above-mentioned to follow Ring, so as to which cooling line 200 cools down the hydraulic oil of the hydraulic oil transfer pipeline 100 by heat-exchanger rig 102.It is wherein cold But the effect of the cooling line by-passing valve 208 in pipeline 200 is that pressure in cooling line 200 persistently increases and reaches certain value When, cooling line by-passing valve 208 opens progress pressure release and plays a protective role to cooling line 200；Cooling line solenoid valve 206 Effect is when cooling line 200 is inoperative, and the liquid for placing 206 front of cooling line solenoid valve flow to compressor 202 backward It is interior so that compressor 202 damages, and plays a protective role.

The tube heater 4 includes tube heater cylinder 401, and cloth up and down is provided on tube heater cylinder 401 The first liquid port 402 and second liquid mouth 403 put, first liquid port 402 and second liquid mouth 403 are heated in tubular type It is diagonally arranged on device cylinder 401, first liquid port 402 and second liquid mouth 403 one of them be inlet one be Liquid mouth, and can be with unrestricted choice.The top of tube heater cylinder 401 is provided with lower flange 404, on the lower flange 404 Side is provided with upper flange 405, and lower flange 404 and upper flange 405 are fixed by screws, are installed on upper flange 405 More electric heating tubes 406, the main body of electric heating tube 406 are located at 401 inside center of tube heater cylinder across lower flange 404, 405 top of upper flange is covered with power protection box 407, and the power interface of electric heating tube 406 is located at 405 top of upper flange In power protection box 407.Installation screw socket 408 is provided on the side wall of the tube heater cylinder 401, installation screw socket 408 is used In attachmentes such as installation heating protecting device, heating control apparatus, safe pressure protective devices.The tube heater cylinder 401 Bottom is vertically provided with tube heater cylinder fixed screw 410, and the rotation of tube heater cylinder fixed screw 410 is equipped with cloth up and down The crash roll retainer plate 409 and crash roll 411 put.Crash roll retainer plate 409 is close to the bottom of tube heater cylinder 401, Crash roll 411 is in crash roll retainer plate 409.Positioned at 406 outside of electric heating tube in the tube heater cylinder 401 Region is provided with the flow channel for liquids from the first liquid port 402 to second liquid mouth 403, and flow channel for liquids can select spiral liquid Splitter 412 selects parallel separating liquid piece 413.Wherein spiral separating liquid piece 412 be spiral chip architecture, parallel liquid Body splitter 413 is multiple horizontal chip architectures of dislocation arrangement.

The method of work of tube heater：

Equipment heating source initial operating stage, fluid temperature are less than 35 degrees Celsius, and cooling fan does not start, and tube heater opens Dynamic, between oil temperature is warming up to 35 ~ 55 degrees Celsius, then tube heater is closed, after equipment heating source runs a period of time, Temperature sensor detects that temperature then starts cooling fan higher than 60 degrees Celsius.

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 one,

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 two,

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 three,

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 set to 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.

Example IV,

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 protecting against shock accumulation of energy 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 raising of position, the air in compress energy storage pipe so that the pressure in accumulation of energy pipe also increases, 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 encounters, 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.

Claims (7)

1. a kind of industrial refrigerating plant with tube heater, it is characterised in that it includes a hydraulic oil transfer pipeline, the liquid On pressure oil transfer pipeline from hydraulic oil oil inlet to be disposed between hydraulic oil oil outlet hydraulic oil transfer pipeline delivery pump, Radiator, tube heater and heat-exchanger rig, the side of radiator are provided with cooling fan, the coolant outlet of the heat-exchanger rig Gas-liquid separator, compressor, condenser, liquid storage device, dry filter are disposed on to the cooling line between cooling import Device, cooling line solenoid valve and throttling set, compressor to the cooling line between condenser and throttling set are filled to exchanging heat There are one cooling line by-passing valves for setting between cooling line between putting；The tube heater includes tube heater cylinder (401), the first liquid port (402) arranged up and down and second liquid mouth are provided on tube heater cylinder (401) (403), the main body of electric heating tube (406) is located at tube heater cylinder (401) inside center, the tube heater cylinder (401) region on the outside of electric heating tube (406) is provided with from the first liquid port (402) to second liquid mouth (403) Flow channel for liquids；

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 ontology 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；

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 connect.

2. a kind of industrial refrigerating plant with tube heater according to claim 1, it is characterised in that flow channel for liquids is Spiral separating liquid piece (412) or parallel separating liquid piece (413).

A kind of 3. industrial refrigerating plant with tube heater according to claim 1, it is characterised in that first liquid Body mouth (402) and second liquid mouth (403) are diagonally arranged on tube heater cylinder (401).

A kind of 4. industrial refrigerating plant with tube heater according to claim 1, it is characterised in that tube heater Lower flange (404) is provided at the top of cylinder (401), upper flange (405), upper flange are provided with above the lower flange (404) (405) more electric heating tubes (406) are installed on, the main body of electric heating tube (406) passes through lower flange (404) positioned at tubular type Heater cylinder (401) inside center.

A kind of 5. industrial refrigerating plant with tube heater according to claim 4, it is characterised in that the upper flange (405) top is covered with power protection box (407), and the power interface of electric heating tube (406) is located at the electricity above upper flange (405) In source protection box (407).

6. a kind of industrial refrigerating plant with tube heater according to claim 1, it is characterised in that the tubular type adds Installation screw socket (408) is provided on the side wall of hot device cylinder (401).

7. a kind of industrial refrigerating plant with tube heater according to claim 1, it is characterised in that the tubular type adds Hot device cylinder (401) bottom is vertically provided with tube heater cylinder fixed screw (410), tube heater cylinder fixed screw (410) rotation is equipped with the crash roll retainer plate (409) arranged up and down and crash roll (411), and crash roll retainer plate (409) is close to pipe The bottom of formula heater cylinder (401), crash roll (411) is in crash roll retainer plate (409).