CN110579510A - Vacuum test device suitable for liquid helium dewar - Google Patents

Abstract

The invention provides a vacuum test device suitable for a liquid helium dewar, which comprises a buckle, the liquid helium dewar, a pendant, a vacuum test tank, a chuck, an exhaust tube and a KF joint, wherein the buckle can fix the chuck at the opening of the liquid helium dewar, the pendant and the vacuum test tank are arranged in the liquid helium dewar, two ends of the vacuum test tank are respectively connected with the exhaust tube and the pendant, the other end of the exhaust tube extends out of the liquid helium dewar through the opening, and the other end of the exhaust tube is connected with the KF joint.

Description

Vacuum test device suitable for liquid helium dewar

Technical Field

The invention relates to the technical field of low-temperature vacuum experiments, in particular to a vacuum test device suitable for a liquid helium dewar.

Background

In order to measure electrical properties such as electrical resistance of a material or structure in the temperature region of liquid helium, experiments in a vacuum chamber in liquid helium are required. A liquid helium thermostat may provide temperature conditions for the experiment. However, for small experimental configurations, a small amount of liquid helium is required. If the liquid helium thermostat is adopted, firstly, the liquid helium in the liquid helium dewar needs to be output to cool the liquid helium thermostat and store liquid helium with a certain liquid level, the residual liquid helium at the bottom of the liquid helium thermostat after the experiment is finished cannot return to the liquid helium dewar for recycling, in the process, a large amount of liquid helium is changed into helium gas for recycling or evacuation, and the experiment cost is high.

Disclosure of Invention

In view of the above, there is a need to provide a vacuum testing apparatus suitable for a liquid helium dewar, which can reduce the consumption of liquid helium and avoid leakage of helium gas.

In order to achieve the purpose, the invention adopts the following technical scheme:

The utility model provides a vacuum test device suitable for liquid helium dewar, includes buckle, liquid helium dewar, pendant, vacuum experiment jar, chuck, exhaust tube and KF joint, the buckle can with the chuck is fixed in the opening part of liquid helium dewar, the pendant reaches the vacuum experiment jar set up in the liquid helium dewar, the both ends of vacuum experiment jar are connected with respectively the exhaust tube reaches the pendant, the other end of exhaust tube passes through the opening extends the liquid helium dewar, the other end of exhaust tube is connected with the KF connects.

In some preferred embodiments, the vacuum experimental tank comprises a tank body, a tank bottom arranged at the bottom of the tank body, a tank opening formed in the tank body, a tank cover arranged on the tank opening in a covering mode, and a channel pipe penetrating through the tank cover and extending into the tank opening, wherein the tank body is a long circular pipe, the tank bottom is in a stepped truncated cone shape, the diameter of a small cylinder of the tank bottom is smaller than the inner diameter of the tank body, and the small cylinder is partially inserted into the tank body; the big cylinder diameter of tank bottoms is greater than the internal diameter of can body, the jar mouth is the cylinder annular structure of center offered the through-hole, the jar mouth is close to the ladder has been seted up to the one end of can body, the jar mouth with the can body passes through the ladder is connected, the opposite side of jar mouth distributes along the circumference has flange screw thread blind hole, be equipped with the ring channel between through-hole and the flange screw thread blind hole, can be used to place low temperature sealing material in the ring channel, low temperature sealing material is plumbous or indium or almag.

In some preferred embodiments, the center of the tank cover is provided with three through holes, the suction pipe penetrates into the larger through hole, the outer diameter of the channel pipe is smaller than the hole diameter of the remaining two through holes of the tank cover, and the channel pipe is connected with the remaining two through holes.

In some preferred embodiments, the contact corners of the suction pipe and the channel pipe with the through hole are bonded by welding or low-temperature glue.

In some preferred embodiments, the exhaust tube is divided into an upper portion and a lower portion, wherein the lower portion of the tube is made of nonmagnetic material, the upper portion of the tube is made of stainless steel tube with the same diameter, and the nonmagnetic material is brass.

In some preferred embodiments, a side sealing male joint, a side sealing female joint sleeved on the side sealing male joint and a side sealing rubber ring arranged between the side sealing male joint and the side sealing female joint are arranged along the pumping pipe and outside the liquid helium dewar.

In some preferred embodiments, the male joint of the side seal comprises a threaded section, a hexagonal section and a light pipe section which are connected in sequence, the inner hole diameters of the threaded section, the hexagonal section and the light pipe section are all larger than the outer diameter of the exhaust tube, threads are arranged on the periphery of the threaded section, the end face of the light pipe section is fixedly connected with the chuck, and the light pipe section is a corrugated pipe;

The side sealing female joint is provided with a threaded section matched with the threaded section of the side sealing male joint and a unthreaded hole section matched with the exhaust pipe, the outer diameters of the threaded section and the unthreaded hole section are the same, and the aperture of the unthreaded hole section is larger than the outer diameter of the exhaust pipe;

The side sealing rubber ring is annular, the upper portion of the side sealing rubber ring is in contact with the unthreaded hole section of the side sealing female joint, the lower portion of the side sealing rubber ring is in contact with the thread section of the side sealing male joint, and the inner edge of the side sealing rubber ring is tightly attached to the exhaust tube.

In some preferred embodiments, the pendant is a metal ball, and the metal ball is connected to the vacuum experiment tank through a metal chain.

in some preferred embodiments, the chuck is further provided with a rubber ring.

The invention adopts the technical scheme that the method has the advantages that:

according to the vacuum test device suitable for the liquid helium dewar, the experimental structure is placed in the vacuum experimental tank, and then the vacuum experimental tank is placed in the liquid helium dewar, so that the consumption of liquid helium is greatly reduced compared with a liquid helium thermostat.

In addition, the vacuum test device suitable for the liquid helium dewar provided by the invention avoids leakage of helium gas by using sealing structures such as side sealing and the like, so that most of helium gas enters the helium gas recovery device.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a vacuum test device suitable for a liquid helium dewar provided by the invention.

Fig. 2 is a schematic structural diagram of the vacuum experimental tank provided by the invention.

Fig. 3 is a schematic structural diagram of a can opening provided by the invention.

FIG. 4 is a schematic view of a can lid according to the present invention.

Fig. 5 is a cross-sectional view of the vacuum testing apparatus suitable for the liquid helium dewar according to the present invention.

FIG. 6 is a schematic structural view of a side seal male connector provided in the present invention.

Fig. 7 is a schematic structural view of the side sealing female joint provided by the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, the vacuum testing apparatus for liquid helium dewar provided by the present invention includes: the vacuum experiment apparatus comprises a buckle 110, a liquid helium dewar 120, a pendant 130, a vacuum experiment tank 140, a chuck 150, a pumping tube 160 and a KF joint 170, wherein the buckle 110 can fix the chuck 150 at an opening 121 of the liquid helium dewar 120, the pendant 130 and the vacuum experiment tank 140 are arranged in the liquid helium dewar 120, two ends of the vacuum experiment tank 140 are respectively connected with the pumping tube 160 and the pendant 130, the other end of the pumping tube 160 extends out of the liquid helium dewar 120 through the opening 121, and the other end of the pumping tube 160 is connected with the KF joint 170.

According to the vacuum test device suitable for the liquid helium dewar, the experimental structure is placed in the vacuum experimental tank, and then the vacuum experimental tank is placed in the liquid helium dewar, so that the consumption of liquid helium is greatly reduced compared with a liquid helium thermostat.

referring to fig. 2, the structural schematic diagram of the vacuum experimental tank 140 provided by the present invention includes a tank body 141, a tank bottom 142 disposed at the bottom of the tank body 141, a tank opening 143 opened on the tank body 141, a tank cover 144 covering the tank opening 143, and a channel pipe 145 extending through the tank cover 144 into the tank opening 143. It is understood that the can bottom 142 and the can body 141 can be made separately and then welded or low temperature glued together or can be formed integrally.

It should be noted that brass may be used for vacuum test pot 140 when it is desired that the pot not be magnetic.

Specifically, the can body 141 is a long circular tube, the can bottom 142 is in a shape of a stepped circular truncated cone, wherein the diameter of a small cylinder of the can bottom 142 is smaller than the inner diameter of the can body 141, and the small cylinder is partially inserted into the can body 141; the large cylindrical diameter of the can bottom 142 is larger than the inner diameter of the can body 141. It is understood that the diameter of vacuum experimental tank 140 is no greater than the diameter of opening 121 of liquid helium dewar 120.

Referring to fig. 3, for the structural schematic diagram of the can opening provided by the present invention, the can opening 143 is a cylindrical ring structure with a through hole 1431 at the center, a step 1432 is formed at one end of the can opening 143 close to the can body 141, the can opening 143 is connected with the can body 141 through the step 1432, flange threaded blind holes 1433 are circumferentially distributed at the other side of the can opening 143, an annular groove 1434 is formed between the through hole 1431 and the flange threaded blind hole 1433, a low temperature sealing material can be placed in the annular groove 1434, and the low temperature sealing material is lead, indium, or an aluminum magnesium alloy.

Referring to fig. 4, a schematic structural diagram of a tank cover according to the present invention is provided, in which the tank cover 144 has the same outer diameter as the tank opening 143, and has a matched flange hole arrangement and size, three through holes are formed in the center of the tank cover 144, and the exhaust tube 160 penetrates through the larger through hole 1441 of the through holes and is welded or bonded by low temperature glue at the contact corner.

The channel tube 145 is a thin-walled tube, the outer diameter of the channel tube 145 is smaller than the diameters of the two remaining through holes 1442 of the tank cover 144, the channel tube 145 is connected with the two remaining through holes 1442, the contact corners are welded or bonded by low-temperature glue, and the chuck 150 is provided with two holes corresponding to the two through holes 1442 connected with the channel tube 145. It will be appreciated that the channel tube 145 configuration is actually a signal line transmission configuration and may be replaced with a low temperature connector.

Further, the exhaust tube 160 is divided into an upper portion and a lower portion, wherein the lower portion is made of a non-magnetic material, the upper portion is made of a stainless steel tube with the same diameter, and the non-magnetic material is brass.

It can be understood that, because the exhaust tube 160 is divided into an upper part and a lower part, the lower part is made of nonmagnetic materials such as brass, the upper part is made of stainless steel tubes with the same diameter, the outer diameter of the stainless steel tubes changes little, the stainless steel tubes are smooth, no pit mark exists, heat conduction can be reduced, the two parts are welded, polishing is carried out after welding, the diameter of the parts is the same as that of the parts which are not welded, and the welded joint has no leakage.

Referring to fig. 5, which is a cross-sectional view of the vacuum testing apparatus for liquid helium dewar according to the present invention, a side sealing male joint 170, a side sealing female joint 180 sleeved on the side sealing male joint 170, and a side sealing rubber ring 190 disposed between the side sealing male joint 170 and the side sealing female joint 180 are disposed along the pumping tube 160 and outside the liquid helium dewar 120, and the chuck 150 is further provided with a rubber ring 200.

Referring to fig. 6, the side seal male joint 170 includes a threaded section 171, a hexagonal section 172 and a light pipe section 173, which are connected in sequence, inner diameters of the threaded section 171, the hexagonal section 172 and the light pipe section 173 are all larger than an outer diameter of the exhaust tube 160, an inner diameter of the threaded section 171 is threaded on an outer circumference thereof and is larger than an outer diameter of the exhaust tube 160, the hexagonal section 172 is in a shape of a hexagonal stretched cylinder, the light pipe section 173 is fixedly connected with the chuck 150, and the light pipe section 173 is a corrugated pipe.

It will be appreciated that the internal bore diameters of the threaded section 171, the hexagonal section 172 and the light pipe section 173 are all larger than the outer diameter of the pump tube 160, i.e., the pump tube 160 can slide freely within the internal bore of the side seal male coupling 170; light pipe segment 173 is securely and tightly secured (welded or bonded) to chuck 150 such that helium cannot pass through the gap.

referring to fig. 7, the side sealing female connector 180 includes a threaded section 181 configured to be engaged with the threaded section 171 of the side sealing male connector 170 and a smooth hole section 182 configured to be engaged with the exhaust tube 160, the threaded section 181 and the smooth hole section 182 have the same outer diameter, and the diameter of the smooth hole section 182 is larger than the outer diameter of the exhaust tube 160.

The side sealing rubber ring 190 is annular, the upper part of the side sealing rubber ring 190 is in contact with the unthreaded hole section 182 of the side sealing female joint 180, the lower part of the side sealing rubber ring 190 is in contact with the threaded section 171 of the side sealing male joint 170, and the inner edge of the side sealing rubber ring 190 is tightly attached to the exhaust tube 160 so as to ensure that helium cannot pass through a gap between the side sealing rubber ring 190 and the exhaust tube 160.

It is understood that when the side seal female joint 180 and the side seal male joint 170 are not tightened, the suction pipe 160 can slide freely in the side seal rubber ring 190; when the side sealing female joint 180 and the side sealing male joint 170 are screwed, the air exhaust pipe 160 is tightly held by the side sealing rubber ring 190, and the generated friction force is several times of the sum of the gravity of the pendant, the vacuum experiment tank, the air exhaust pipe and the like.

Referring to fig. 1 again, the KF connector 170 is connected to an external valve (not shown), the valve is connected to a vacuum pump (not shown), the pendant 130 is a metal ball, and the metal ball is connected to the vacuum experiment tank 140 through a metal chain.

The invention provides an installation method of a vacuum test device suitable for a liquid helium dewar, which comprises the following steps:

1. Bonding or welding the three parts of the can bottom 142, the can body 141 and the can opening 143 together; the chuck 150 and the side sealing male connector 170 are bonded or welded together, the passage tube 145, the exhaust tube 160 and the can cover 144 are bonded or welded together, and the adhesion or welding vacuum tightness is checked everywhere with helium gas.

2. The wires are passed through the passage tube 145 and the through holes in the chuck 150, and the experimental lines are installed in the cavity formed by the can bottom 142, the can body 141 and the can mouth 143 and connected to the line connectors.

3. The gap between the lead and the channel tube 145 and the gap between the lead and the through hole of the chuck 150 are filled with low temperature glue, sealing material (such as lead, indium, etc.) is filled in the sealing groove of the tank opening 143, and then the tank cover 144 and the flange of the tank opening 143 are connected together. And helium gas was used to check the adhesion or weld vacuum tightness everywhere.

4. The suction pipe 160 is sequentially provided with a chuck 150, a side seal male joint 170, a side seal rubber ring 190 and a side seal female joint 180, and the KF joint 170 and the suction pipe 160 are bonded or welded. KF connects 170 and connects the valve (not shown), and then connects the vacuum pump (not shown), utilizes the vacuum pump to bleed, reaches the required vacuum degree after, closes the valve, closes the vacuum pump. The adhesion or weld vacuum tightness was checked everywhere with helium gas.

5. Wiping the pendant 130 with alcohol, wiping the pendant dry, screwing the side sealing female joint 180, taking down the liquid helium dewar 120 access piece of the dewar, and throwing the pendant 130 into the dewar rapidly to cause the liquid helium to volatilize.

It will be appreciated that the rubber ring 200, chuck 150, and clasp 110 are completely installed before the volatilized liquid helium caused by the pendant 130 completely exits the liquid helium tank.

6. The side sealing female joint 180 is unscrewed so that the exhaust tube 160 can slide with respect to the chuck 150 and the side sealing rubber ring 190, the position of the vacuum test pot 140 is adjusted, and the side sealing female joint 180 is tightened so that the exhaust tube 160 is locked with respect to the chuck 150 and the side sealing rubber ring 190.

it can be understood that in the installation process, the leakage of helium is avoided by utilizing sealing structures such as side seals, and most of helium enters the helium recovery device.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

Of course, the positive electrode material of the vacuum test apparatus for liquid helium dewar of the present invention may have various changes and modifications, and is not limited to the specific structure of the above embodiment. In conclusion, the scope of the present invention should include those changes or substitutions and modifications which are obvious to those of ordinary skill in the art.

Claims (9)

1. The utility model provides a vacuum test device suitable for liquid helium dewar, its characterized in that, connects including buckle, liquid helium dewar, pendant, vacuum experiment jar, chuck, exhaust tube and KF, the buckle can with the chuck is fixed in the opening part of liquid helium dewar, the pendant reaches the vacuum experiment jar set up in the liquid helium dewar, the both ends of vacuum experiment jar are connected with respectively the exhaust tube reaches the pendant, the other end of exhaust tube passes through the opening extends the liquid helium dewar, the other end of exhaust tube is connected with the KF connects.

2. The vacuum testing apparatus suitable for the liquid helium dewar according to claim 1, wherein the vacuum testing tank comprises a tank body, a tank bottom arranged at the bottom of the tank body, a tank opening arranged on the tank body, a tank cover arranged on the tank opening, and a channel pipe penetrating the tank cover and extending into the tank opening, the tank body is a long circular pipe, the tank bottom is in a shape of a stepped circular truncated cone, wherein the diameter of a small cylinder at the tank bottom is smaller than the inner diameter of the tank body, and the small cylinder is partially inserted into the tank body; the big cylinder diameter of tank bottoms is greater than the internal diameter of can body, the jar mouth is the cylinder annular structure of center offered the through-hole, the jar mouth is close to the ladder has been seted up to the one end of can body, the jar mouth with the can body passes through the ladder is connected, the opposite side of the ladder of jar mouth has flange screw thread blind hole along the circumference distribution, be equipped with the ring channel between through-hole and the flange screw thread blind hole, can be used to place low temperature sealing material in the ring channel, low temperature sealing material is plumbum or indium or almag.

3. The vacuum testing apparatus for a liquid helium dewar according to claim 2, wherein the canister lid has three through holes formed at a central position thereof, the pumping tube penetrates into a larger one of the through holes, the outer diameter of the passage tube is smaller than the diameter of the remaining two through holes of the canister lid, and the passage tube is connected to the remaining two through holes.

4. The vacuum testing apparatus for a liquid helium dewar according to claim 3, wherein the pumping tube and the passage tube are bonded to the contact corner of the through hole by welding or low temperature glue.

5. the vacuum testing apparatus for a liquid helium dewar according to claim 1, wherein the pumping tube is divided into an upper portion and a lower portion, wherein the lower portion is made of nonmagnetic material, the upper portion is made of stainless steel tube with the same diameter, and the nonmagnetic material is brass.

6. The vacuum testing apparatus for a liquid helium dewar according to claim 1, wherein a side sealing male joint, a side sealing female joint sleeved on the side sealing male joint and a side sealing rubber ring arranged between the side sealing male joint and the side sealing female joint are arranged along the pumping tube and outside the liquid helium dewar.

7. The vacuum test device suitable for the liquid helium dewar of claim 6, wherein the male joint of the side sealing member comprises a threaded section, a hexagonal section and a light pipe section which are connected in sequence, the inner hole diameters of the threaded section, the hexagonal section and the light pipe section are all larger than the outer diameter of the pumping pipe, the periphery of the threaded section is provided with threads, the end of the light pipe section is fixedly connected with the chuck, and the light pipe section is a corrugated pipe;

The side sealing female joint is provided with a threaded section matched with the threaded section of the side sealing male joint and a unthreaded hole section matched with the exhaust pipe, the external diameters of the threaded section and the unthreaded hole section are the same, and the aperture of the unthreaded hole section is larger than the external diameter of the exhaust pipe;

The side sealing rubber ring is annular, the upper portion of the side sealing rubber ring is in contact with the unthreaded hole section of the side sealing female joint, the lower portion of the side sealing rubber ring is in contact with the thread section of the side sealing male joint, and the inner edge of the side sealing rubber ring is tightly attached to the exhaust tube.

8. The vacuum testing apparatus for a liquid helium dewar as claimed in claim 1, wherein the pendant is a metal ball, and the metal ball is connected to the vacuum test tank by a metal chain.

9. The vacuum testing apparatus for a liquid helium dewar as claimed in claim 1, wherein a rubber ring is further provided on the chuck.