CN203940220U - Multi-lay winding vacuum insulation gas cylinder pumped vacuum systems equipment - Google Patents
Multi-lay winding vacuum insulation gas cylinder pumped vacuum systems equipment Download PDFInfo
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- CN203940220U CN203940220U CN201420234017.9U CN201420234017U CN203940220U CN 203940220 U CN203940220 U CN 203940220U CN 201420234017 U CN201420234017 U CN 201420234017U CN 203940220 U CN203940220 U CN 203940220U
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Abstract
The utility model discloses multi-lay winding vacuum insulation gas cylinder pumped vacuum systems equipment, comprise oily diffusing vacuum unit, two circulating-heating rooms, nitrogen heating system, air circulation heating system and electrical control cabinets, the middle position of oil diffusing vacuum unit between left and right sides circulating-heating room, nitrogen heating system is for the hot nitrogen supply of the tank body interlayer in circulating-heating room, air circulation heating system is for the tank body heat supply in circulating-heating room, and electrical control cabinet is used for controlling whole pumped vacuum systems.The middle position of oil diffusing vacuum unit between left and right sides circulating-heating room, vacuum orifice is shortened apart from the pipeline distance of vacuum unit, optimize vacuum line, ensure the conformity of the vacuum quality of product, body both sides, room have many group external vacuum orifices, realized the vacuum port at heating room outside sealing-in vacuum insulation gas cylinder, processed piece toasts in heating room simultaneously, has avoided the impact of low-temperature sealing on bottle degree of vacuum.
Description
Technical field
The utility model relates to a kind of multi-lay winding vacuum insulation gas cylinder pumped vacuum systems equipment.
Background technique
The Dewar tank manufacturing enterprise of most is all the interlayer of taking out single Dewar tank with separate unit vacuum pump, and this method has following some shortcoming: the one, and inefficiency, Dewar tank is difficult to batch production; The 2nd, because Dewar tank needs repeated multiple times degree of vacuum of filling, taking out hot nitrogen and improve Dewar tank interlayer in process of production, so the operating time is oversize, operation is too complicated, easily causes the waste of resource, generally speaking causes unstable product quality.
LNG low temperature bottle is vacuumized, need in the situation that trying one's best high temperature, carry out vacuum orifice to seal, this just requires technologic promptness, and under high-temperature condition, operator cannot enter immediately in heating room and carry out vacuum orifice sealing, passing processing arrangement is to seal after drying room is cooling, and cooling have certain hour to wait for, and the impact of low-temperature sealing on bottle degree of vacuum.Therefore, need to provide a kind of new technological scheme to solve the problems referred to above.
Model utility content
For addressing the above problem, the utility model provides a kind of multi-lay winding vacuum insulation gas cylinder pumped vacuum systems equipment that can realize high-temperature vacuum sealing.
The technical solution adopted in the utility model is:
Multi-lay winding vacuum insulation gas cylinder pumped vacuum systems equipment, comprise oily diffusing vacuum unit, two circulating-heating rooms, nitrogen heating system, air circulation heating system and electrical control cabinets, the middle position of described oily diffusing vacuum unit between left and right sides circulating-heating room, described nitrogen heating system is for the hot nitrogen supply of the tank body interlayer in circulating-heating room, described air circulation heating system is for the tank body heat supply in circulating-heating room, and described electrical control cabinet is used for controlling whole pumped vacuum systems.
Described circulating-heating room comprises room body, body inner surface layer, described room is covered with heat insulation rock wool, the external sealed door that is provided with in described room, body both sides, described room evenly have many group external vacuum orifices, this vacuum orifice is relative with processed piece vacuum port in room body, body top, described room is provided with circulating fan, in the processed piece that this circulating fan is installed with room body inner top by pipeline, circulating-heating suction tude is communicated with, adjacent two processed pieces are provided with interior circulating-heating suction port, the external side roof part in described room has circulating-heating suction port in room, in the room that in this room, circulating-heating suction port is installed with room body inner top, circulating-heating suction tude is communicated with, described room body inner bottom part is provided with circulating-heating in room and goes out pipe, in this room, circulating-heating goes out circulating-heating air outlet in the room that has with the external side bottom in room of pipe and is communicated with, in described room body, be provided with multiple tracks for placing the transfer vehicle of processed piece.
Described room body inner bottom part is provided with the rail of multiple tracks transport transfer vehicle.
Described oily diffusing vacuum unit comprises oil diffusion pump and Roots pump, before described oil diffusion pump, dispose oil diffusion pump prime sliding vane rotary pump, before described Roots pump, dispose Roots pump prime sliding vane rotary pump, both sides, described oil diffusion pump upper end are connected with vacuum main line respectively, on the pipeline of both sides, described oil diffusion pump upper end, dewpoint meter is installed, uniform multiple vacuum branched pipes on described vacuum main line, described oil diffusion pump upper end one side is caught cold-trap with water vapor and is connected, described water vapor is caught cold-trap and is connected with Roots pump by pipeline, this pipeline side is connected to oil diffusion pump prime sliding vane rotary pump by another pipeline.
On described each vacuum branched pipe, vacuum solenoid is installed, described vacuum branched pipe is provided with many group vacuum orifices, this vacuum orifice docks with processed piece vacuum port in room body through external vacuum orifice by connecting vacuum pipe fitting, vacuum leak hunting solenoid valve is installed on described vacuum orifice, on described vacuum branched pipe, also has the hot nitrogen of nitrogen replacement and pour mouth.
Described water vapor is caught on the pipeline that cold-trap is connected with Roots pump gas charging valve is installed.
Described air circulation heating system comprises oven, gas burner system and cycling hot blower fan, described gas burner system is installed on oven side, described cycling hot blower fan top is communicated with offgas duct by pipeline, described offgas duct lower end is connected in heating furnace body, described offgas duct bottom one side connects air inlet transverse tube, described air inlet transverse tube lower end is connected in oven, described oven stretches out an outlet pipe outward, in the room of this outlet pipe and two circulating-heating roof portions, circulating-heating suction port is communicated with, described circulating air pusher side face is communicated with return line, in the room of this return line and two circulating-heating rooms bottoms, circulating-heating air outlet is communicated with.
Temperature transducer is all installed on described return-air duct and outlet pipe.
Described nitrogen heating system comprises nitrogen heating furnace, nitrogen burning machine and steam line, and described nitrogen burning machine is installed on nitrogen heating furnace side, and described nitrogen heating furnace top is communicated with two circulating-heating rooms by supply air line.
The beneficial effects of the utility model: the middle position of oily diffusing vacuum unit between left and right sides circulating-heating room, vacuum orifice is shortened apart from the pipeline distance of vacuum unit, optimize vacuum line, ensure the conformity of the vacuum quality of product, body both sides, room have many group external vacuum orifices, realize the vacuum port at heating room outside sealing-in processed piece (vacuum insulation gas cylinder), processed piece toasts in heating room simultaneously, avoid the impact of low-temperature sealing on bottle degree of vacuum, more the safety operation of hommization.
Brief description of the drawings
Fig. 1 is plan view of the present utility model.
Fig. 2 is side view of the present utility model.
Fig. 3 is rear view of the present utility model.
Fig. 4 is the structural representation in the utility model circulating-heating room.
Fig. 5 is the side view in Fig. 4 circulating-heating room.
Fig. 6 is the rear view in Fig. 4 circulating-heating room.
Fig. 7 is oily diffusing vacuum set structure schematic diagram of the present utility model.
Fig. 8 is oily diffusing vacuum unit side view of the present utility model.
Fig. 9 is oily diffusing vacuum unit plan view of the present utility model.
Figure 10 is air circulation heating system structural representation of the present utility model.
Figure 11 is the air circulation heating system side view of Figure 10.
Figure 12 is the air circulation heating system plan view of Figure 10
Wherein: 1, oily diffusing vacuum unit, 2, electrical control cabinet, 3, circulating-heating room, left side, 5, air circulation heating system, 6, nitrogen heating system, 7, circulating-heating room, right side,
11, vacuum orifice, 12, the hot nitrogen of nitrogen replacement pours mouth, 13, vacuum leak hunting solenoid valve, 14, vacuum solenoid, 15, vacuum main line, 16, vacuum branched pipe, 17, water vapor is caught cold-trap, and 18, gas charging valve, 19, Roots pump, 110, Roots pump prime sliding vane rotary pump, 111, oil diffusion pump prime sliding vane rotary pump, 112, dewpoint meter, 113, oil diffusion pump, 114, pipeline, 115, another pipeline
371, heat insulation rock wool, 372, Fang Ti, 373, circulating-heating suction tude in room, 374, processed piece, 375, circulating-heating suction tude in processed piece, 376, circulating fan, 377, sealed door, 378, circulating-heating suction port in room, 379, in room circulating-heating air outlet, 3710, transfer vehicle, 3711, in room, circulating-heating goes out pipe, and 3712, interior circulating-heating suction port, 3713, rail, 3714, external vacuum orifice
51, temperature transducer, 52, return line, 53, cycling hot blower fan, 54, gas burner system, 55, rock wool thermal baffle, 56, combustion chamber, 561, left side combustion chamber, 562, right side combustion chamber, 57, oven, 58, outlet pipe, 59, offgas duct, 510, dividing plate, 511, pipeline, 512, air inlet transverse tube, 513, eddy flow joint
61, nitrogen heating furnace, 62, nitrogen burning machine, 63, steam line.
Embodiment
In order to deepen understanding of the present utility model, below in conjunction with embodiment and accompanying drawing, the utility model is described in further detail, and this embodiment only, for explaining the utility model, does not form the restriction to protection domain of the present utility model.
As shown in Figures 1 to 3, multi-lay winding vacuum insulation gas cylinder pumped vacuum systems equipment of the present utility model, comprise oily diffusing vacuum unit 1, two circulating-heating rooms, nitrogen heating system 6, air circulation heating system 5 and electrical control cabinets 2, the middle position of oil diffusing vacuum unit 1 between left and right sides circulating-heating room 3,7, nitrogen heating system 6 is for the hot nitrogen supply of the tank body interlayer in circulating-heating room, air circulation heating system 5 is for the tank body heat supply in circulating-heating room, and electrical control cabinet 2 is for controlling whole pumped vacuum systems.
As shown in Figs. 4-6, circulating-heating room comprises room body 372, body 372 inner surface layers in room are covered with heat insulation rock wool 371, heat insulation rock wool 371 has good heat insulating effect, sealed door 377 is installed outside room body 372, sealed door 377 can ensure to heat temperature in room can be with ectocine, body 372 both sides in room evenly have many group external vacuum orifices 3714, the setting that can find out external vacuum orifice 3714 in Fig. 6 arranges according to processed piece 374, its external vacuum orifice 3714 is relative with interior processed piece 374 vacuum ports of room body 372, external vacuum orifice 3714 can be realized processed piece 374 is carried out sealing outside room, solve operator and cannot enter the difficult problem that in high hot house, true mouth degree seals.
Body 372 tops in room are provided with circulating fan 376, in the processed piece that this circulating fan 376 is installed with room body 372 inner tops by pipeline, circulating-heating suction tude 375 is communicated with, the processed piece 374 of room body 372 is under the atmosphere of heating pipe, heat up gradually, adjacent two processed pieces 374 are provided with interior circulating-heating suction port 3712, making processed piece 374(multi-lay winding vacuum insulation gas cylinder) inside carries out active cycle heating, solve the hot conductive form heating of original employing, the inequality of being heated, the problem that heating time is long.
Body 372 outside top in room have circulating-heating suction port 378 in room, in the room that in this room, circulating-heating suction port 378 is installed with room body 372 inner tops, circulating-heating suction tude 373 is communicated with, body 372 inner bottom parts in room are provided with circulating-heating in room and go out pipe 3711, in this room circulating-heating go out pipe 3711 rooms that have with room body 372 exterior bottom in circulating-heating air outlet 379 be communicated with, realized circulating-heating in room, inner air and outer air circulates.
In room body 372, be provided with multiple tracks for placing the transfer vehicle 3710 of processed piece 374, body 372 inner bottom parts in room are provided with the rail 3713 of multiple tracks transport transfer vehicle 3710.On transfer vehicle 3710, can place multiple vacuum insulation gas cylinders, operator are external in room enters rail 3713 by push-and-pull transfer vehicle 3710, easily vacuum insulation gas cylinder is sent in heating room, time saving and energy saving.
The room body 372 of mentioning in the application is steel structure.Whole room body structure is firm, easy accessibility.
As shown in Figs. 7-9, it comprises oil diffusion pump 113 and Roots pump 19 oil diffusing vacuum unit 1, before oil diffusion pump 113, dispose oil diffusion pump prime sliding vane rotary pump 111, before Roots pump 19, dispose Roots pump prime sliding vane rotary pump 110, oil diffusion pump 113 both sides, upper end are connected with vacuum main line 15 respectively, be compared to prior art, there are two vacuum main lines 15, can disposablely take out branched Dewar tank, and vacuum port is consistent apart from pipeline two lateral extents of vacuum unit, keep degree of vacuum consistent, on the pipeline of oil diffusion pump 113 both sides, upper end, dewpoint meter 112 is installed, dewpoint meter 112 can be implemented omnibearing monitoring to the workmanship of container interlayer vacuum-pumping, on vacuum main line 15, in uniform multiple vacuum branched pipe 16(Fig. 7, show 4 branches), oil diffusion pump 113 upper end one sides are caught cold-trap 17 with water vapor and are connected, it is the water vapour absorbing in pumped gas that water vapor is caught cold-trap 17 effects, the gas that guarantee enters vacuum pump is dried, prevent the pollution of pumping fluid in the pump housing, water vapor is caught cold-trap 17 and is connected with Roots pump 19 by pipeline 114, water vapor is caught on the pipeline 114 that cold-trap 17 is connected with Roots pump 19 gas charging valve 18 is installed, these pipeline 114 sides are connected to oil diffusion pump prime sliding vane rotary pump 111 by another pipeline 115.
On each vacuum branched pipe 16, vacuum solenoid 14 is installed, vacuum branched pipe 16 is provided with many group vacuum orifices 11, this vacuum orifice 11 docks with processed piece vacuum port in room body through external vacuum orifice 3714 by connecting vacuum pipe fitting, vacuum leak hunting solenoid valve 13 is installed on vacuum orifice 11, on vacuum branched pipe 16, also has the hot nitrogen of nitrogen replacement and pour mouth 12.Pour mouth 12 by the hot nitrogen of nitrogen replacement and fill the heated nitrogen that is not less than 100 DEG C in vacuum system pipeline, many bottles of Dewar tank interlayer vacuum-pumping systems complete the operation of a Dewar tank interlayer vacuum-pumping.
Oil diffusing vacuum unit 1 has been optimized vacuum line system, ensured the conformity of the vacuum quality of product, had two vacuum main lines 15, and vacuum port is consistent apart from pipeline two lateral extents of vacuum unit, reduce the resistance of pumped gas, thereby improved pumping speed and degree of vacuum.
The dewpoint meter that Switzerland's import is housed in LNG interlayer vacuum-pumping system is connected with industrial computer, communicating circuit by 485 is analyzed the air quality in interlayer and the needed qualitative data of container, and the workmanship of container interlayer vacuum-pumping is implemented to omnibearing monitoring.
As shown in Figure 10 to 12, air circulation heating system 5 comprises oven 57, gas burner system 54 and cycling hot blower fan 53, gas burner system 54 is installed on oven 57 sides, in oven 57, be provided with a left side, right combustion chamber 56, send into the air of certain wind speed and air quantity, light the mixture of air and fuel, formula combustion chamber 56 burns, left, between right combustion chamber 56, separate by dividing plate 510, cycling hot blower fan 53 tops are communicated with offgas duct 59 by pipeline 511, in cool air warm, some tail gas will reclaim, in offgas duct 59, be provided with eddy flow joint 513, waste gas is returned on eddy flow in eddy flow joint 513.
Offgas duct 59 lower ends are connected in oven 57 bodies, the air being preheated, enter in oven 57 bodies with offgas duct 59, offgas duct 59 bottom one sides connect air inlet transverse tube 512, air inlet transverse tube 512 lower ends are connected to right side combustion chamber 562, combustion chamber 561 tops, left side are communicated with outlet pipe 58 by pipeline 511, heated air by after right side combustion chamber 562 through left side combustion chamber 561, discharge from outlet pipe 58 again, in the room of this outlet pipe 58 and two circulating-heating roof portions, circulating-heating suction port is communicated with, cycling hot blower fan 53 sides are communicated with return line 52, in the room of this return line 52 and two circulating-heating rooms bottoms, circulating-heating air outlet is communicated with.
On the return-air duct 52 of this circulating heater and outlet pipe 58, temperature transducer 51 is all installed.Use the heat energy of industrial computer control gas burner system to discharge, system heating is realized to automatic control completely.In addition, on oven 57 shells, be equipped with rock wool thermal baffle 55.There is good thermal insulation function.Utilize the mode of combustion gas heating to heat system, distinguish original employing electric heating form, energy consumption is 30% of traditional electrical heat form; When exhaust emissions, system can be collected again to the thermal capacity of tail gas, ensures that heat utilization rate reaches maximization; Reasonably structure of furnace body, has ensured the thermal capacity in stove, meets constant system heating-up temperature.
Nitrogen heating system 6 comprises nitrogen heating furnace 61, nitrogen burning machine 62 and steam line 63, and nitrogen burning machine 62 is installed on nitrogen heating furnace 61 sides, and nitrogen heating furnace 61 tops are communicated with two circulating-heating rooms by supply air line 63.
The utility model has been put into the vacuum port sealing-in of vacuum insulation gas cylinder the outside in heating room, has avoided the impact of low-temperature sealing on bottle degree of vacuum, and the safety operation of hommization more, stretches out vacuum orifice outside drying room, ideally solves the problem vacuumizing; Active cycle heating has been realized in processed piece (multi-lay winding vacuum insulation gas cylinder) inside simultaneously, can allow the thermal capacity in bottle reach rapidly balance, is conducive to the operation of vacuum pumping technique.
Multi-lay winding vacuum insulation gas cylinder pumped vacuum systems equipment is made up of oily diffusing vacuum unit 1, two circulating-heating rooms, nitrogen heating system 6, air circulation heating system 5 and electrical control cabinets 2.First open water source, power supply, by blade Roots unit starting, tank body interlayer is taken out in advance, until degree of vacuum reaches in 100 handkerchiefs, nitrogen heating furnace 61 also starts intensification preheating simultaneously, gas-fired heater 57 igniting heating, in the time that the temperature of gas in gas-fired furnace furnace body rises to nearly 400 DEG C, ON cycle air heater 53 carries out air draught air-supply operation, until heated air circulation is to 250 DEG C of left and right of inlet temperature, 130 DEG C of outlet (return-air) temperature, and keep moving continuously always, tank body inner bag is done to heat, heated air circulation is constantly evaporated steam in tank body interlayer, steam and attached work on outer surface of liner are replaced thoroughly in gas molecule activation cooperation interlayer, in the time of temperature rise to 200 in nitrogen heating furnace 61 bodies of heater DEG C, open nitrogen fill valve, nitrogen is poured in tank body interlayer, nitrogen mouth input interlayer temperature is between 130 DEG C~155 DEG C, close the steam-operating flapper valve of blade unit front end simultaneously, and close blade unit, open nitrogen steam-operating flapper valve on pipeline, hot nitrogen rushes in suction tank interlayer, when in interlayer, degree of vacuum is similar to back a barometric pressure, stop rushing nitrogen (the whole nitrogen Ya Li≤0.15MPa that rushes), close and rush nitrogen valve, vexed a few hours (contained humidity according to substitution gas determines), open again blade vacuum unit, and open vacuum displacement pipe valve, by the nitrogen in interlayer, substitution gas and other gas mix extracts peel sandwich degree of vacuum 100 handkerchiefs out with the interior nitrogen that pours again.
Three cyclic permutations like this, until vacuum displacement by Switzerland's dewpoint meter 112 provide up to standard after interbedded gas volume data after, biography belongs to dry gas with the replaced gas of industrial computer interface display and proceeds to lower road flow process, above flow process, approximately need 4~5 day time, start and heat at first three hour oily diffusing vacuum unit 1 of replacement completion, close the each position of nitrogen replacement pipeline valve, open high vacuum valve, tank body interlayer is carried out to pumping high vacuum, start blade Roots unit on diffusion unit, system is evacuated in 10 handkerchiefs, open high threshold, oil diffusion pump 113 is started working and laminated vacuum is extracted into 5 × 10
-3handkerchief~9 × 10
-3(JB/T4783-2007, degree of vacuum Wei≤5 × 10 between handkerchief
-2) approximately need 24 hours, close high vacuum unit, close the gas heating circulatory system, sealed knot tank body vacuum tube plug or valve Jiong, add Hot swapping and vacuumize end.
Stove loads and unloads frock outside room, ensure operator's Security, operability and working environment, sealed knot gas cylinder under condition of high vacuum degree, guarantee that tank body quality has had guarantee, in adopting, heating combines with external heat, but instrument and apparatus power source is all in normality, implement in the space of normal temperature, operator are in normality, the working space work of normal temperature, quality inspection to container idiosome is tested under normal conditions, because (can only detect under normal conditions with helium mass spectrometer leak detector according to research, under negative pressure, under high pressure, all can produce erroneous judgement), therefore, the structure setting of whole pumped vacuum systems, insulated gas cylinder is heated, vacuum port sealed knot has favorable factor, thereby can obtain the product of high-quality.
Claims (9)
1. multi-lay winding vacuum insulation gas cylinder pumped vacuum systems equipment, it is characterized in that: comprise oily diffusing vacuum unit, two circulating-heating rooms, nitrogen heating system, air circulation heating system and electrical control cabinets, the middle position of described oily diffusing vacuum unit between left and right sides circulating-heating room, described nitrogen heating system is for the hot nitrogen supply of the tank body interlayer in circulating-heating room, described air circulation heating system is for the tank body heat supply in circulating-heating room, and described electrical control cabinet is used for controlling whole pumped vacuum systems.
2. multi-lay winding vacuum insulation gas cylinder pumped vacuum systems equipment according to claim 1, it is characterized in that: described circulating-heating room comprises room body, body inner surface layer, described room is covered with heat insulation rock wool, the external sealed door that is provided with in described room, body both sides, described room evenly have many group external vacuum orifices, this vacuum orifice is relative with processed piece vacuum port in room body, body top, described room is provided with circulating fan, in the processed piece that this circulating fan is installed with room body inner top by pipeline, circulating-heating suction tude is communicated with, adjacent two processed pieces are provided with interior circulating-heating suction port, the external side roof part in described room has circulating-heating suction port in room, in the room that in this room, circulating-heating suction port is installed with room body inner top, circulating-heating suction tude is communicated with, described room body inner bottom part is provided with circulating-heating in room and goes out pipe, in this room, circulating-heating goes out circulating-heating air outlet in the room that has with the external side bottom in room of pipe and is communicated with, in described room body, be provided with multiple tracks for placing the transfer vehicle of processed piece.
3. multi-lay winding vacuum insulation gas cylinder pumped vacuum systems equipment according to claim 2, is characterized in that: described room body inner bottom part is provided with the rail of multiple tracks transport transfer vehicle.
4. multi-lay winding vacuum insulation gas cylinder pumped vacuum systems equipment according to claim 1, it is characterized in that: described oily diffusing vacuum unit comprises oil diffusion pump and Roots pump, before described oil diffusion pump, dispose oil diffusion pump prime sliding vane rotary pump, before described Roots pump, dispose Roots pump prime sliding vane rotary pump, both sides, described oil diffusion pump upper end are connected with vacuum main line respectively, on the pipeline of both sides, described oil diffusion pump upper end, dewpoint meter is installed, uniform multiple vacuum branched pipes on described vacuum main line, described oil diffusion pump upper end one side is caught cold-trap with water vapor and is connected, described water vapor is caught cold-trap and is connected with Roots pump by pipeline, this pipeline side is connected to oil diffusion pump prime sliding vane rotary pump by another pipeline.
5. multi-lay winding vacuum insulation gas cylinder pumped vacuum systems equipment according to claim 4, it is characterized in that: on described each vacuum branched pipe, vacuum solenoid is installed, described vacuum branched pipe is provided with many group vacuum orifices, this vacuum orifice docks with processed piece vacuum port in room body through external vacuum orifice by connecting vacuum pipe fitting, vacuum leak hunting solenoid valve is installed on described vacuum orifice, on described vacuum branched pipe, also has the hot nitrogen of nitrogen replacement and pour mouth.
6. multi-lay winding vacuum insulation gas cylinder pumped vacuum systems according to claim 5 equipment, is characterized in that: described water vapor is caught on the pipeline that cold-trap is connected with Roots pump gas charging valve is installed.
7. multi-lay winding vacuum insulation gas cylinder pumped vacuum systems equipment according to claim 1, it is characterized in that: described air circulation heating system comprises oven, gas burner system and cycling hot blower fan, described gas burner system is installed on oven side, described cycling hot blower fan top is communicated with offgas duct by pipeline, described offgas duct lower end is connected in heating furnace body, described offgas duct bottom one side connects air inlet transverse tube, described air inlet transverse tube lower end is connected in oven, described oven stretches out an outlet pipe outward, in the room of this outlet pipe and two circulating-heating roof portions, circulating-heating suction port is communicated with, described circulating air pusher side face is communicated with return line, in the room of this return line and two circulating-heating rooms bottoms, circulating-heating air outlet is communicated with.
8. multi-lay winding vacuum insulation gas cylinder pumped vacuum systems equipment according to claim 7, is characterized in that: temperature transducer is all installed on described return-air duct and outlet pipe.
9. multi-lay winding vacuum insulation gas cylinder pumped vacuum systems equipment according to claim 1, it is characterized in that: described nitrogen heating system comprises nitrogen heating furnace, nitrogen burning machine and steam line, described nitrogen burning machine is installed on nitrogen heating furnace side, and described nitrogen heating furnace top is communicated with two circulating-heating rooms by supply air line.
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201420234017.9U CN203940220U (en) | 2014-05-09 | 2014-05-09 | Multi-lay winding vacuum insulation gas cylinder pumped vacuum systems equipment |
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201420234017.9U CN203940220U (en) | 2014-05-09 | 2014-05-09 | Multi-lay winding vacuum insulation gas cylinder pumped vacuum systems equipment |
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| CN203940220U true CN203940220U (en) | 2014-11-12 |
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Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN104033725A (en) * | 2014-05-09 | 2014-09-10 | 南通龙鹰真空成套设备科技有限公司 | Vacuumizing system equipment for multilayer-winded vacuum thermal-insulation gas cylinder |
-
2014
- 2014-05-09 CN CN201420234017.9U patent/CN203940220U/en active Active
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN104033725A (en) * | 2014-05-09 | 2014-09-10 | 南通龙鹰真空成套设备科技有限公司 | Vacuumizing system equipment for multilayer-winded vacuum thermal-insulation gas cylinder |
| CN104033725B (en) * | 2014-05-09 | 2016-01-27 | 南通龙鹰真空成套设备科技有限公司 | Multi-lay winding vacuum insulation gas cylinder pumped vacuum systems is equipped |
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Address after: 226100 Jiangsu city of Nantong Province Haimen Changle Industrial Zone (Group 38 Pingshan Ruyi Village) Patentee after: NANTONG LONGYING VACUUM TECHNOLOGY CO., LTD. Address before: 226100 Jiangsu city of Nantong Province Haimen Changle Industrial Zone (Group 38 Pingshan Ruyi Village) Patentee before: Nantong dragon hawk vacuum complete sets of equipment Science and Technology Ltd. |