KR940004299Y1 - Liquid inserter - Google Patents

Abstract

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Description

Liquid injector

Figure 1a is a cross-sectional configuration of the present invention, b is a liquid injection state of the present invention cross section.

2A is a cross-sectional configuration diagram of a conventional liquid injector, and b is a liquid injection state diagram of a conventional cross section a.

* Explanation of symbols for main parts of the drawings

1: housing 2: piston

3: opening and closing opening 4: air supply opening

5: liquid supply port 6: liquid injection port

8: space part 9: liquid inflow passage

The present invention relates to a liquid injector for effectively injecting all kinds of industrial and edible liquids, including liquid foods, drugs, and cosmetics into a container containing the same.

In general, liquid injectors have been recently developed to break away from the conventional method of injecting manually as an essential device of a continuous automatic injection system for easily and quickly injecting selected contents into a container. However, some of these problems are pointed out as pointed out below.

That is, FIG. 2 illustrates a cross-sectional configuration of a conventional liquid injector, and a piston which is installed with a spring 77 in the housing 11 in which the air supply unit 44, the liquid supply port 55, and the liquid injection port 66 are sequentially formed ( 22 is internally formed, and at the bottom of the piston 22 is formed integrally the opening and closing port 101, the annular groove 100 is concave, but the annular groove 100 is coincided with the one side liquid supply part 55, the opening and closing hole 33 The sealed packing 101 is blocking the inlet of the liquid inflow passage 99 inside the bottom of the housing 11 by the piston 22 which moves upward according to the elasticity of the spring 77.

In addition, the upper portion of the housing 11 is fixed to the upper end of the piston 22, the adjustment hole 102 is screwed from the outside of the housing 11 in order to secure a space 88 for the inflow of air It is controlled as much as possible.

Such a conventional configuration is such that the piston 22 moves downward while contracting the spring 77 by the pressure of the air flowing into the air supply 44, and at the same time, the opening and closing port 33 which blocked the inlet of the liquid inflow passage 99. As the packing 101 of the) opens the inlet of the liquid inflow passage 99, the liquid flowing into the liquid supply port 55 is vortexed along the outer surface of the opening and closing port 100 and the opening and closing port 33 of the opening and closing port 33. The liquid is filled through the liquid inflow passage 9 and the liquid inlet 66, and the liquid injection timing is a general sensor function that detects the movement of the piston 22 by the supply of air, thereby immediately supplying the liquid. To be done.

The problem exposed in such a conventional configuration is that the liquid supplied to the liquid supply port 55 has a long distance from the liquid supply port 55 to the liquid inlet port 66, and thus, as the supply time of the liquid becomes longer, A large amount of bubbles are generated in the process, in particular, is supplied by the enlarged structure of the center of the opening and closing hole 33 for effectively opening and closing the inlet groove 100 and the liquid inlet passage 99 configured for the smooth supply of liquid The liquid is a severe vortex phenomenon occurs on the outer surface of the ring groove 100 and the opening and closing 33 to further increase the generation of bubbles.

Since such bubbles are a factor that significantly reduces the quality of the contents, the correction is inevitably required. And in order to perform this as a structure to move to the lower side in the state in which the movement direction of the piston 22 is upward, in order to secure the space 88 for this, the pressure of the air must go crazy in the upward direction of the piston 22. As the upper position of the piston 22 is fixed to an appropriate point inside the housing 11 by using a separate adjusting device 102, an additional device is provided.

That is, the liquid injector requires a smooth operation and simple structure, in particular a structural device that can effectively inject the liquid without the generation of bubbles, the present invention is to solve this problem.

That is, the present invention has a housing (1) having an air supply port (4) and the liquid supply port (5) and the liquid inlet (6) in communication with the liquid inlet passage (9) and the opening and closing port (3) inside the housing (1) The piston (2) having a) is to be carried out with the spring (7) as in the prior art. However, the spring 7 of the present invention is constructed between the piston 2 and the upper inner wall of the upper housing 1 so as to push the piston 2 downward unlike the conventional structure. A space 8 which imparts air pressure for operation is also formed at the bottom of the piston 2.

In addition, the opening and closing port 3 directly seals the liquid inlet 6, and the liquid supply port 5 is also in direct communication with the liquid inlet passage 9. The liquid supply of the present invention is the supply of the liquid through the liquid supply part 5 immediately by the sensor that detects the movement of the piston (2) by the supply of air as usual, that is, the upper portion The air pressure introduced through the air supply part 4 of the piston pushes the piston 2 upwards toward the bottom space part 8 of the piston 2, where the piston 2 contracts the upper spring 7. As the liquid flows into the liquid supply unit 4 while moving upward, the liquid introduced into the liquid supply port 4 is opened from the liquid inlet passage 9 and the liquid inlet 6 so as to open the liquid inlet 6. It is filled into the container through the inflow passage 9 and the liquid inlet 6.

The feature of the present invention is to reverse the structure of the conventional piston moving from the upward direction, that is, to bring about a structural change that lifts from the downward direction to the upper direction is to be given a structural improvement accordingly.

The spring 7 of the present invention is in contact with the inner upper surface of the housing 1 to press the piston 2 downward, so that the opening and closing hole 3 is to close the liquid inlet 6 directly to the liquid as in the prior art Expansion of the opening and closing opening 3 for sealing the inflow passage 9 is excluded and at the same time, the liquid supply opening 5 may also be configured to communicate with the liquid inflow passage 9 as close as possible to the liquid inlet 6.

That is, the liquid flowing through the liquid supply port 5 of the present invention is a liquid inflow passage (3) without friction with these due to the ring groove 100 or the enlarged opening or closing hole 33 formed in the conventional opening and closing 33 ( As it is ejected directly from the liquid inlet (9), the vortex phenomenon of the liquid is eliminated and the distance between the liquid inlet (5) and the liquid inlet (6) is extremely short, so that the liquid progresses in a very short time. The occurrence of bubbles is significantly reduced.

On the other hand, according to the present invention, since the spring 7 is located above the piston 2 and the air pressure is supplied from the space 8 formed at the bottom of the piston 2 as described above, the piston 22 is conventionally used. Since it is not necessary to form the space portion 88 by using a separate control device 102 to form the air pressure in the upper part of the), it is possible to simplify the structural device of the liquid injector and thus to reduce the cost. .

As described above, the present invention provides a liquid inlet for continuously filling various liquid substances into a container, thereby significantly reducing the bubble of the liquid to further improve the quality of the product, and at the same time have the effect of providing a concise configuration. do.

Claims (1)

The air supply port 4, the liquid supply port 5, and the liquid inlet 6 in the housing (1) is formed in the ordinary in which the piston (2) having the opening and closing hole (3) in the spring 7 Thus, the spring 7 is coalesced at the top of the piston 2 so that the opening and closing hole 3 is directly sealed to the liquid inlet 6 so that the liquid supply port 5 is as close as possible to the liquid inlet 6. Liquid injector so as to be in communication with the liquid inflow passage (9).