KR101066602B1 - Syringe for injecting liquid crystal and Liquid crystal injector using thereof and Method of injecting liquid crystal - Google Patents

Abstract

The present invention relates to a liquid crystal injection syringe capable of precisely controlling the amount of liquid crystal injection by adjusting the volume of the plunger introduced into the syringe body, a liquid crystal injection device and a liquid crystal injection method using the same, A main body having an inner space filled therein; It includes a plunger which is introduced into or withdrawn from the inner space of the main body portion, and adjusts the injection amount of the liquid crystal by adjusting the volume of the portion drawn into the inner space of the main body portion.

Liquid crystal, dripping, syringe, plunger

Description

Syringe for injecting liquid crystal and liquid crystal injector using conjugate and method of injecting liquid crystal

The present invention relates to a syringe for liquid crystal injection, a liquid crystal injection apparatus and a liquid crystal injection method using the same, and more particularly, liquid crystal injection capable of precisely controlling the amount of liquid crystal injection by adjusting the volume of the plunger introduced into the syringe body. And a liquid crystal injection apparatus and a liquid crystal injection method using the same.

In general, a liquid crystal display device is a device that displays an image by using a birefringence phenomenon of the liquid crystal. Such a liquid crystal display includes a lower substrate on which a thin film transistor and a pixel electrode pattern are formed, an upper substrate on which a common electrode and a color filter are formed, and a liquid crystal layer provided between the lower substrate and the upper substrate. Such a liquid crystal display device displays an image by adjusting the amount of light passing through the color filter by varying the light transmittance of the liquid crystal according to voltages applied to both ends of the liquid crystal layer.

The lower substrate and the upper substrate are prepared for manufacturing the liquid crystal display. Subsequently, a liquid crystal is uniformly dropped on the entire surface of either one of the two substrates using a liquid crystal injection apparatus, and then the liquid crystal display is manufactured by bonding and sealing the lower substrate and the upper substrate.

At this time, it is very important to accurately control the amount of liquid crystal dropped on the substrate. That is, when the injection amount of the liquid crystal is small, there is a problem that bubbles are generated between the two substrates, and when the injection amount of the liquid crystal is large, there is a problem that staining occurs.

1 is a view showing a conventional liquid crystal injection syringe, a conventional liquid crystal injection syringe adopts a syringe pump method, that is, a syringe-like method. As shown in the drawing, a conventional syringe for liquid crystal injection has a syringe body 10 in which a liquid crystal is filled and a nozzle 11 through which liquid crystal is injected, and a head 21 in close contact with an inner wall of the syringe body 10. It consists of the piston 20. In general, the head 21 is provided with a sealing ring 23 to closely contact the inner wall of the syringe body 10 to move while scratching the inner wall. In this way, the injection of the liquid crystal is performed as the head 21 moves the liquid crystal in the direction of the nozzle 11 by moving the piston 20.

At this time, if the inner wall of the syringe body 10 forms a uniform surface and the head 21 is in close contact with the syringe body 10, the injection amount of the liquid crystal will be kept constant according to the movement of the head 21, but of the syringe body 10 When the inner wall of the syringe body 10 is processed into an uneven surface A due to a machining error during processing, or the sealing ring 23 provided on the inner wall or the head 21 of the syringe body 10 is worn according to the use of the syringe. Therefore, when a gap is generated between the inner wall of the syringe body 10 and the head 21, the liquid crystal is leaked from the syringe body 10 while not precisely controlling the injection amount of the liquid crystal.

The present invention has been made to solve the above problems, the liquid crystal injection amount by the volume by which the plunger is introduced by introducing a plunger that does not contact the inner wall of the main body into the inner space of the main body constituting the syringe when the liquid crystal is ejected The present invention provides a liquid crystal injection syringe and a liquid crystal injection device and a liquid crystal injection method using the same.

Syringe for liquid crystal injection according to the present invention and the main body having an internal space in which the liquid crystal is filled; It includes a plunger which is introduced into or withdrawn from the inner space of the main body portion, and adjusts the injection amount of the liquid crystal by adjusting the volume of the portion drawn into the inner space of the main body portion.

The main body unit and the inner space is formed, both ends are in communication with; A nozzle provided at one end of the main body; And a housing covering the other end of the main body, wherein the plunger penetrates into or out of the main body through the housing.

The housing is formed with a lead-in area for entering the other end of the main body to one side, a sealed area for sealing the other end of the main body to the other side, the inlet area is provided with at least one packing means in contact with the inner wall of the main body It is characterized by. At this time, the packing means is preferably an O-ring.

The housing is characterized in that the sealing means for wrapping the plunger is installed. At this time, the sealing means is preferably a rod seal.

The plunger is characterized in that the outer circumferential surface is not in contact with the inner wall of the main body portion, and the cross section is formed in a constant area.

The maximum volume of the region into which the plunger is drawn into the inner space of the main body is 50 to 95% of the inner space of the main body.

The liquid crystal injection apparatus according to the present invention adjusts the volume of the liquid crystal by adjusting the volume of the main body portion having an inner space in which the liquid crystal is filled, and the portion drawn into or out of the inner space of the main body portion and drawn into the inner space of the main body portion. A syringe unit including a plunger for adjusting; And a drive unit for controlling the movement of the plunger.

The main body of the syringe unit includes a nozzle for injecting liquid crystal, and includes a liquid crystal induction unit for inducing injection flow of the liquid crystal selectively connected to the nozzle, and a liquid crystal supply unit for supplying liquid crystal to the main body.

A flow path switching valve is connected to the nozzle, the liquid crystal induction unit includes a first flow path connected to the flow path switching valve, and a sub nozzle provided at an end of the first flow path, and the liquid crystal supply unit switches the flow path. A second flow path connected to the valve and a liquid crystal storage body provided at the end of the second flow path.

The drive unit is characterized in that the actuator is connected to the end of the plunger.

According to an aspect of the present invention, there is provided a method of injecting a liquid crystal using a syringe, the method comprising: filling a liquid crystal in a main body of a syringe; And introducing a plunger into the main body to eject liquid crystal from the main body by a volume in which the plunger is introduced into the main body.

In the step of injecting the liquid crystal, the volume of the plunger drawn into the main body portion and the amount of liquid crystal emitted from the main body portion is characterized in that the proportion.

According to the present invention, since the liquid crystal is injected in proportion to the degree to which the plunger is drawn into the main body, the liquid crystal can be precisely injected at all times regardless of the degree of close contact and wear of the main body and the plunger.

In addition, the contact between the main body and the plunger may be prevented, thereby preventing wear of the main body and the plunger, thereby preventing leakage of the liquid crystal filled in the main body, and preventing particle generation due to wear of the plunger.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the present invention in more detail. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various forms, and only the embodiments are intended to complete the disclosure of the present invention, and to those skilled in the art to fully understand the scope of the invention. It is provided to inform you. Like numbers refer to like elements in the figures.

2 is a view showing a syringe for liquid crystal injection according to the present invention, Figure 3 is a view showing the main portion of the syringe for liquid crystal injection according to the present invention, Figure 4 is a view showing a liquid crystal injection device according to the present invention.

Syringe for liquid crystal injection according to the present invention and the main body portion 100 having an inner space (S) filled with a liquid crystal as shown in the figure; It includes a plunger (200) for introducing or withdrawing into the inner space of the main body portion 100, the volume of the portion introduced into the inner space of the main body portion 100 to adjust the injection amount of the liquid crystal.

The main body 100 has the internal space S formed therein, the main body 110 having both ends communicating with each other, a nozzle 120 provided at one end of the main body 110, and the other end of the main body 110. It includes a housing 130 to cover the.

The main body 110 is a means for injecting a liquid crystal filled in the interior space (S) as the plunger 200 is drawn in, is manufactured in a cylindrical shape having an internal space. In this case, the body 110 may be made of various materials such as metal, plastic, or glass. Both ends of the inner space S of the main body 110 penetrate up and down. For example, the main body 110 is manufactured in the shape of a tube. That is, the inner space (S) of the main body 110 is produced in a linear shape extending from the upper side to the lower side of the main body 110. However, the shape of the internal space S of the main body 110 is not limited to the above-described embodiment because the plunger 200 does not directly contact the inner wall of the main body 110, and the liquid crystal is filled with the plunger 200. It may be manufactured in any shape as long as it can secure a space that can be pulled in and taken out.

The nozzle 120 is a means for forming a flow path through which the nozzle hole 121 is formed in communication with the inner space of the main body 110 is injected liquid crystal filled in the inner space (S) of the main body 110, It is installed at one end of the main body 110. In this case, the nozzle 120 may be manufactured in any shape as long as the nozzle hole 121, which is a channel through which liquid crystal is injected, is formed.

The housing 130 is provided at the other end of the main body 110 to cover the other end of the main body 110, the inlet area 131 is formed to be introduced into the other end of the main body 110 on one side, A sealing area 133 is formed to seal the other end of the main body 110 to the other side. Thus, the plunger 200 penetrates into or out of the body 130 through the housing 130.

In this case, the lead-in area 131 is provided with at least one packing means 135 in contact with the inner wall of the main body 110. At this time, the packing means 135 may be used O-ring (O-ring). Thus, the liquid crystal filled in the internal space S of the main body 110 is prevented from leaking by the packing means 135.

In addition, the housing 130 is provided with a sealing means 300 surrounding the plunger 200. At this time, the sealing means 300 wraps around the plunger 200 and prevents foreign matters from being worn by the operation of the plunger 200. The sealing means 300 may be a road seal (road seal), thereby maintaining the vertical coaxial of the plunger 200.

The plunger 200 is a means for injecting the liquid crystal filled in the internal space S of the main body 110 by a volume drawn into or out of the internal space of the main body 110 and drawn into the internal space. Without contacting the inner wall of 110, the cross section is formed in a constant area and shape. For example, the horizontal cross section may be manufactured in a rod shape having a circular shape. Of course, the horizontal cross-section is not limited to the above-mentioned circle may be provided in the form of a polygon or ellipse.

In particular, the maximum volume of the region into which the plunger 200 is drawn into the internal space S of the main body 110 may be 50 to 95% of the internal space S of the main body 110. The reason is that when the volume of the region into which the plunger 200 is drawn into the internal space S of the main body 110 is smaller than 50% of the internal space S of the main body 110, The cumulative maximum amount of the liquid crystal to be emitted is too small to reduce the work efficiency, the volume of the area where the plunger 200 is drawn into the internal space (S) of the main body 110 of the internal space (S) of the main body (110) In the case of greater than 95%, the cumulative maximum amount of the liquid crystal emitted by the introduction of the plunger 200 may be improved, but there is a problem that may cause the plunger 200 to come into contact with the main body 110.

In addition, a connection region 210 may be formed at an end of the plunger 200 in order to easily connect to the means for driving the plunger 200. For example, a connection hole 211 may be formed in the connection region 210.

Next, the liquid crystal injection apparatus using the above-mentioned liquid crystal injection syringe has a main body part 100 having an inner space S filled with liquid crystal as shown in FIG. 4, and an inner space of the main body part 100 ( A syringe unit (1000) including a plunger (200) which is inserted into or withdrawn from S) and adjusts the volume of the liquid crystal part by adjusting the volume of the portion drawn into the internal space of the main body unit (100); It includes a drive unit 400 for controlling the movement of the plunger 200. Further, the liquid crystal induction unit 600 for inducing the injection flow of the liquid crystal emitted from the syringe unit 1000 and the liquid crystal supply unit 700 for supplying the liquid crystal to the syringe unit 1000 are further provided. In this case, the liquid crystal induction unit 600 and the liquid crystal supply unit 700 are provided to be selectively connected to the syringe unit 1000.

The syringe unit 1000 is to use the above-described liquid crystal injection syringe, a duplicate description will be omitted.

The main body 100 of the syringe unit 1000 is provided with a nozzle 120 through which liquid crystal is injected. In addition, a flow path switching valve 500 is connected to the nozzle 120.

The liquid crystal induction unit 600 includes a first flow path 610 connected to the flow path switching valve 500 and a sub nozzle 620 provided at an end of the first flow path 610.

In addition, the liquid crystal supply unit 700 includes a second flow path 710 connected to the flow path switching valve 500, and a liquid crystal storage body 720 provided at an end of the second flow path 710.

Thus, the liquid crystal induction unit 600 and the liquid crystal supply unit 700 may be selectively connected to the syringe unit 1000 by the manipulation of the flow path switching valve 500.

The driving unit 400 moves the plunger 200 in the internal space S of the main body 110 to introduce the liquid crystal stored in the liquid crystal storage 720 into the internal space S of the main body 110 or The liquid crystal introduced into the internal space S of the main body 110 is injected through the nozzle 120 and the sub nozzle 620.

Any means may be used as long as the driving unit 400 can move the plunger 200 while controlling it as desired. For example, an actuator may be used as shown in the figure.

The actuator includes a connecting shaft 410 connected to the connection region of the plunger 200, a moving body 420 installed at at least one end of the connecting shaft 410, and a moving shaft 430 to which the moving body 420 is moved. ) And a driving motor 440 for driving the moving shaft 430 to move the connection shaft 410 integrally with the moving body 420. Of course, the present invention is not limited thereto, and the driving motor 440 may be directly connected to the connection region 210 of the plunger 200 to control the movement of the plunger 200. In this case, it is preferable that the driving motor uses a stepping motor. It is effective that the stepping motor is a hybrid stepping motor having a maximum resolution of 24000 steps when used in a micro step method. Of course, the present invention is not limited thereto, and motors having various structures capable of fine driving may be used. That is, a motor capable of moving the plunger 200 0.01 to 10 cm in the vertical direction may be used. At this time, the driving motor constantly moves the plunger 200 by a predetermined distance at predetermined intervals.

In the present exemplary embodiment, the plunger 200 is introduced into the internal space S of the main body 110 by approximately the desired distance through the driving unit 400, so that the main body is as large as the volume of the plunger 200 drawn into the internal space S. The liquid crystal in 110 is injected. Through this, the liquid crystal filled in the main body 110 may be ejected a plurality of times by a predetermined amount or by a user desired amount. This is because the internal space S of the main body 110 is limited, and the amount of the liquid crystal emitted is proportional to the volume of the plunger 200 drawn into the internal space S.

The method of inject | pouring liquid crystal using the liquid crystal injection apparatus comprised as mentioned above is demonstrated.

5A to 5C are views illustrating an operating state of the liquid crystal injection apparatus according to the present invention.

As shown in FIG. 5A, when the liquid crystal L is not filled in the main body 110 of the syringe unit 1000, the nozzle 120 and the liquid crystal supply unit of the syringe unit 1000 are flown by the flow path switching valve 500. The second flow path 710 of the 700 is connected, and the plunger 200 is maximally drawn into the internal space S of the main body 110.

In this state, the liquid crystal L is filled in the main body 110 of the syringe unit 1000. In the filling of the liquid crystal L, as shown in FIG. 5B, the driving motor 440 is operated in the reverse direction to draw the plunger 200 from the inner space S of the main body 110 of the syringe unit 1000. Then, the liquid crystal L moves to the main body 110 of the syringe unit 1000 through the second flow path 710 due to the internal pressure difference between the internal space S of the main body 110 and the liquid crystal storage 720. do.

If the liquid crystal L is filled in the main body 110 of the syringe unit 1000 in this manner, the liquid crystal L is injected. Injecting the liquid crystal L may operate the driving motor 440 in the forward direction as shown in FIG. 5C to introduce the plunger 200 into the internal space S of the main body 110 of the syringe unit 1000. . Then, the liquid crystal L filled in the internal space S of the main body 110 is proportional to the volume of the plunger 200 drawn into the internal space S of the main body 110 through the nozzle 120. The liquid crystal L, which is injected into the flow path 610 and is injected into the first flow path 610, is moved and dropped onto the substrate through the sub nozzle 620. In this case, the user may precisely adjust the injection amount of the liquid crystal L by adjusting the operation amount of the driving motor 440 to adjust the volume of the plunger 200 drawn into the internal space S of the main body 110. .

The present invention is not limited to the above-described embodiments, but may be implemented in various forms. That is, the above embodiments are provided to make the disclosure of the present invention complete and to fully inform those skilled in the art the scope of the present invention, and the scope of the present invention should be understood by the claims of the present application. .

1 is a view showing a conventional liquid crystal injection syringe,

2 is a view showing a syringe for liquid crystal injection according to the present invention,

3 is a view showing the main portion of the syringe for liquid crystal injection according to the present invention,

4 is a view showing a liquid crystal injection apparatus according to the present invention,

5A to 5C are views illustrating an operating state of the liquid crystal injection apparatus according to the present invention.

<Explanation of symbols for the main parts of the drawings>

100: main body 110: main body

130: housing 135: packing means

200: plunger 300: sealing means

400: drive unit 500: flow path switching valve

600: liquid crystal induction unit 700: liquid crystal supply unit

Claims (14)

A main body part formed of an inner space in which liquid crystal is filled and connected at both ends, a nozzle coupled to one end of the main body, and a housing coupled to the other end of the main body to cover the other end of the main body; A portion of the plunger penetrates through the housing and is brought into or out of the inner space of the main body while being in non-contact with the main body, and adjusts the volume of the portion drawn into the inner space of the main body to adjust the injection amount of the liquid crystal. The inner space of the main body is a syringe for liquid crystal injection is sealed by the nozzle and the housing. delete The method according to claim 1, The housing is formed with a lead-in area for entering the other end of the main body to one side, a sealed area for sealing the other end of the main body to the other side, At least one packing means is provided on the outer circumferential surface of the lead-in area in contact with the inner wall of the main body. Syringe for liquid crystal injection is provided on the inner circumferential surface of the sealed area is provided with a sealing means surrounding the plunger. The method of claim 3, The packing means is an O-ring syringe for liquid crystal injection. delete The method of claim 3, The sealing means is a syringe for liquid crystal injection which is a rod seal. The method according to claim 1, The plunger is a syringe for liquid crystal injection is formed with a constant cross section. The method according to claim 1 or 7, The maximum volume of the region into which the plunger is drawn into the inner space of the main body portion is 50 to 95% of the inner space of the main body portion syringe for liquid crystal injection. A main body having an inner space in which liquid crystal is filled and communicating at both ends thereof, a nozzle coupled to one end of the main body to provide a path in which the liquid crystal is filled into the inner space or a path in which the liquid crystal is ejected from the inner space, A main body part coupled to the other end and divided into a housing covering the other end of the main body; A syringe includes a plunger that is partially penetrated through the housing to be in contact with the main body while being brought into or out of the inner space of the main body, and adjusts the volume of the liquid crystal that is introduced into the inner space of the main body to adjust the injection amount of the liquid crystal. A unit; And a drive unit for controlling the movement of the plunger. The method according to claim 9, A liquid crystal induction unit for inducing an injection flow of liquid crystal emitted from the nozzle, and a liquid crystal supply unit for supplying liquid crystal to the main body through the nozzle; And the liquid crystal induction unit and the liquid crystal supply unit are selectively connected to the nozzle. The method according to claim 10, The nozzle is connected to the flow path switching valve, The liquid crystal induction unit includes a first flow path connected to the flow path switching valve, and a sub nozzle disposed at an end of the first flow path, And the liquid crystal supply unit includes a second flow path connected to the flow path switching valve and a liquid crystal storage body provided at an end of the second flow path. The method according to claim 9, And the drive unit is an actuator connected to an end of the plunger. In the method of injecting the liquid crystal using a syringe, Drawing a portion of the plunger introduced into the internal space of the main body constituting the syringe to fill the liquid crystal into the internal space of the main body by the volume of the plunger withdrawn from the main body; And injecting a portion of the plunger into the inner space of the main body to eject the liquid crystal from the main body by a volume into which the plunger enters the main body. 14. The method of claim 13, In the filling of the liquid crystal, the volume of the plunger withdrawn from the body portion and the amount of liquid crystal filled in the body portion are proportional to each other, In the step of injecting the liquid crystal, the volume of the plunger is drawn into the body portion and the amount of liquid crystal injected from the body portion is proportional to the liquid crystal injection method.

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