KR920003969B1 - Infusion method and device for mercury that is classified glass - Google Patents

Abstract

The injection device injects mercury into lamp tubes by adjusting both resilient force caused by spring and pressure of sealing gas. The device comprises a supplying means for sealing gas and exhaust means connected to glass tube (32b), a compression head (33) fixed with exhaust tube (21) connected to glass tube (32a), a cylinder (35) for receiving delivery bar (37) connected to exhaust chamber (32) in the lower part of a housing, and a groove (37a) with the rod for introducing mercury. The groove (37a) for mercury is selectively connected to drainage (43a) of storage tank (43) which is provided with cooling means and mercury compressing means in accordance with the position of delivery bar (37).

Description

Mercury injection method and apparatus therefor

1 is a cross-sectional view of a conventional mercury injector apparatus.

Figure 2 is a cross-sectional view of the mercury infusion device of the tube according to the invention.

3 is an enlarged cross-sectional view of the portion A shown in FIG.

* Explanation of symbols for main parts of the drawings

21: exhaust pipe 31: housing

32: exhaust chamber 33: compression head

34: three way valve 35: cylinder

36: solenoid 37: transfer rod

37a: mercury introduction groove 38: flange

42: stopper 43: mercury solution storage tank

The present invention relates to a method for injecting mercury into a tube and a device therefor, and more particularly, to a specific amount of mercury can be easily injected into a tube or tube used by injecting mercury such as a fluorescent lamp or a mercury lamp. It relates to a method and an apparatus.

Japanese Patent Laid-Open No. 56-26337 is disclosed as an apparatus for carrying out the mercury injecting method of the conventional mouthpiece shown in FIG.

A conventional tube mercury injector 1 as shown in FIG. 1 is located above the housing 2 and transported up and down by a solenoid 4 to a mercury liquid reservoir 3 in which mercury is stored. The rod 5 is provided, and a concave inlet 5a is formed on the outer circumferential surface of the end thereof so as to protrude into the exhaust space 7 communicating with the lead pipe 6 provided in the housing 2. One side of the outlet pipe 6 is equipped with an exhaust pipe 20 of the tube, and the other side thereof is connected to one side of the three-way valve 10 connected to the enclosed gas supply 8 and the suction pipe 9 of the exhaust system. have. In addition, the outlet pipe 6 and the exhaust space portion 7 adjacent to the three-way valve 10 are connected to the branch pipe 11 and a cooling device capable of cooling the enclosed gas in the enclosed gas supply pipe 8. (12) is provided.

The mercury injector 1 employing the conventional cooling method configured as described above applies the residue to the solenoid 4 to transfer the transfer rod 5 into the mercury liquid storage tank 3 to the concave inlet 5a at its end. After the mercury is filled, the solenoid 4 cuts the electric current so that the end of the transfer rod 5 is moved to the exhaust space 7 so that the mercury is filled in the concave portion 5a. Allow inflow At this time, the encapsulation gas is cooled to about -40 ° C. by the cooling device 12 of the encapsulation gas supply pipe 8, and is supplied to the exhaust space part 7 and the derivation pipe 6 to cool and solidify mercury. It is injected through the exhaust pipe 20 of the tube. In this way, the method of solidifying and injecting mercury has the advantage of greatly reducing the fluctuation of the amount of mercury injected, thereby injecting mercury with a prescribed value, but rapidly quenching the heated exhaust pipe 20 during the exhaust of the tube to crack the exhaust pipe 20. This occurred and there was a problem that can not control the amount of water injected.

Accordingly, the present invention provides a method of injecting mercury into a tube, which can easily inject mercury having a prescribed value according to the type of tube, and an apparatus suitable for implementing the same.

In order to achieve the above object, the present invention provides a method for injecting mercury into a tube, in the mercury injecting method of the tube, forming a mercury introduction groove provided with an elastic means on the bottom surface at the end of the transfer rod for moving along the cylinder The mercury is filled in the mercury introduction groove by the pressing force applied to the mercury liquid storage tank in which the mercury is stored, and the transfer rod is moved along the cylinder part with the mercury filled in the mercury introduction groove. It is characterized in that the mercury is injected into the tube by the pressure of the encapsulation gas flowing into the exhaust chamber and the elastic means installed on the bottom surface of the mercury introduction groove by introducing the exhaust chamber.

The mercury injector of the gas cylinder suitable for carrying out the mercury injecting method of the present invention described above forms an exhaust chamber in the lower part of the housing and forms a conductive tube communicating with it on both sides thereof. Mercury introduction groove which is connected to the compression head mounted on the exhaust pipe of the detention pipe, and the other side conduit pipe is connected to the enclosed gas supply means and the exhaust means. The transport rod is accommodated in the cylinder portion to be transported by a transport means, the mercury introduction groove of the transport rod accommodated in the cylinder portion and the discharge port of the mercury liquid storage tank provided with a mercury pressurizing means and a cooling means according to the position of the transport rod; It is characterized by selective communication.

Hereinafter, a preferred embodiment of the mercury injecting method and apparatus therein according to the present invention will be described in detail with reference to the accompanying drawings.

2 and 3 of the present invention, the tubular mercury injector 30 is provided with an exhaust chamber 32 provided under the housing 31, and is provided with a conductive tube so as to face each other on both sides of the exhaust chamber 32. 32a, 32b are provided, and one side of the conductive pipe 32a communicates with and is opposed to the compression head 33 on which the exhaust pipe 21 of the tube 20 is mounted. The vacuum valve 34 and the enclosed gas supply means 50 which are exhaust means are provided by the room valve 34. As shown in FIG. In addition, the housing 31 is provided with a cylinder 35 communicating with the exhaust chamber 32 vertically, and the transfer rod 37 reciprocated by the solenoid 36, which is a transfer means, is coupled to the housing 31 to slide. At the end of the transfer rod 37, a mercury introduction groove 37a having an elastic means is formed at its bottom surface. Herein, the elastic means provided in the mercury introduction groove 37a is inserted into the mercury introduction groove 37a with a flange 38, which is connected to one end of the rod 39 passing through the transfer rod 37, and the rod 39. The other end of) is connected to the stopper 42 and is located in the recess 41 extending in the longitudinal direction to the exhaust chamber 32 in the cylinder portion (35). Here, a spring 40 is provided between the bottom surface of the mercury introduction groove 37 and the flange 38 to provide an elastic force. In addition, a cylindrical mercury liquid storage tank 43 in which the pressurizing means 48 and the cooling means 49 are provided on the side of the housing 31 is provided so that the discharge port 43a communicates with the mercury introduction groove 37a. It is installed. At this time, the pressurizing means 48 is formed by sliding the piston 45, which is operated by the pneumatic cylinder 44 in the cylindrical mercury liquid storage tank 43, the cooling means 49 is a mercury liquid storage tank ( The cooling tube 43b on the coil is enclosed by 43 (not shown 46 and 47 are a hydraulic system and a hydraulic valve).

The mercury infusion apparatus of the mouthpiece according to the present invention configured as described above operates as follows.

As shown in FIG. 2 and FIG. 3, first, the three-way valve 34 is adjusted to connect the conduit pipe 32b communicating with the exhaust chamber 32 and the exhaust means (for example, a vacuum pump) to connect the compression head ( 33) to discharge the gas inside the tube 20 mounted on.

When the vacuum degree of the tube 20 and the exhaust chamber 32 reaches a predetermined value, the pneumatic cylinder 44 installed above the mercury liquid storage tank 43 is operated to be connected to the rod and inside the mercury liquid storage tank 43. The mercury in the mercury liquid reservoir 43 is pressurized by lowering the located piston 45. The mercury pressurized by the piston 45 of the pneumatic cylinder 44 flows into the mercury introduction groove 37a of the transfer rod 37 through the discharge port 43a of the mercury liquid storage tank 43 and is installed therein. That is, it is introduced while pressing the flange 38 elastically supported by the spring (40). In this state, the transfer rod 37 which is operated by supplying current to the solenoid 36 which is the transfer means of the transfer rod 37 moves along the cylinder portion 35 in communication with the exhaust chamber 32. . At this time, the mercury introduction groove 37a of the transfer rod 37 is filled by the mercury introduction groove 37 because it is sealed by the inner wall surface 35a of the cylinder portion 35 as the transfer rod 37 moves. The amount of mercury depleted will be constant.

When the transfer rod 37 moves along the cylinder 35 to expose an end portion of the transfer rod 37 in which the mercury introduction groove 37a is formed in the exhaust chamber 32, the transfer rod 37 is filled in the mercury introduction groove 37a. As shown in FIG. 3, mercury is poured into the exhaust pipe 20 installed in the conductive pipe 32a in the exhaust chamber 32 by the flange 38 elastically supported by the spring 40 forming the elastic means. do. At this time, the flange 38 is moved by a predetermined distance due to the elastic force, but is stopped by the stopper 42 connected to the rod so as not to go out of the mercury introduction groove 37a.

The mercury is introduced into the exhaust chamber 32 and the three-way valve 34 is operated to be connected to the enclosed gas supply means 50 so that the mercury is introduced into the exhaust chamber by the pressure of the enclosed gas and the elasticity of the flange 38. Allow the mercury supplied to (32) to be injected into the tube (20).

Here, when performing the exhaust operation by heating the tube 20 is installed in the mercury liquid storage tank 43 in order to prevent the mercury in the mercury liquid storage tank 43 is heated and evaporated by the heated tube 20. The mercury is cooled by the cooling means 49. The transport rod 37 into which the mercury is injected into the tube is moved to the maximum position, and when the gas pressure in the tube 20 reaches a predetermined pressure by the sealed gas supply means 50, the tube 20 The exhaust pipe 21 of the mercury is injected into the tube 20 and the gas filling operation is completed.

Thus, the present invention can adjust the amount of mercury injected into the tube by appropriately adjusting the pressing force of the piston of the mercury liquid storage tank and the elastic force of the flange, so that mercury can be injected into the tube of various specifications as well as a specified amount of mercury in the tube. Since it can be injected to improve the reliability of the device, there is an advantage that can reduce the production cost of the district because it is suitable for mass production.

Claims (2)

In the mercury injecting method of injecting a certain amount of mercury into the tube, the mercury introduction groove (37a) provided with an elastic means on the bottom surface formed on the lower end of the transfer rod 37 for moving along the cylinder portion of the mercury The mercury is filled in the mercury introduction groove 37a by the pressing force applied to the stored mercury liquid storage tank 43, and the transfer rod is filled with mercury in the mercury introduction groove 37a of the transfer rod 37. An elastic means and an exhaust chamber installed on the bottom surface of the mercury introduction groove 37a by moving the 37 along the cylinder portion 35 to flow into the exhaust chamber 32 in which the exhaust pipe 21 of the tube 20 is mounted. (32) mercury injection method for producing a tube characterized in that the mercury is injected into the tube 20 by the pressure of the enclosed gas flowing into. An exhaust chamber 32 is formed in the lower portion of the housing 31, and conductive pipes 32a and 32b are formed on both sides thereof, and the conductive pipe 32a of one side is mounted to the exhaust pipe 21 of the tube. Connected to the compression head 33 and the other side of the conductive pipe 32b is connected to the encapsulation gas supply means and the exhaust means, and the cylinder portion 35 communicating with the exhaust chamber 32 on the upper part of the housing 31. It is formed, the inside of the cylinder portion 35, the transfer rod 37 is transported by the transfer means installed in the housing 31, the end of the transfer rod 37 is formed from the end of the retracted from therein A mercury introduction groove 37a having a flange 38 elastically supported by a spring 40 and a rod 39 supported by the transfer rod 38 to support the flange 38 to be reciprocated for a predetermined depth is formed. The mercury introduction groove 37 of the transfer rod 37 accommodated in the cylinder portion 35 may be a mercury pressurizing means according to the position of the transfer rod 37. A mercury supply device for producing a tube, characterized in that the cooling means is provided to selectively communicate with the discharge port (43a) of the mercury liquid storage tank (43).

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