KR200372421Y1 - Vacuum chamber for capping vacuum blood collecting tube - Google Patents

Abstract

The present invention relates to a vacuum chamber for vacuum capillary capping, by applying a vacuum pressure in a state in which a plurality of vacuum capillaries are accommodated inside the chamber body, so that the inside of the plurality of vacuum capillaries can be maintained at a uniform vacuum level within a short time. By configuring the cap of each vacuum tube to be capped at a uniform pressure, it is possible to improve the workability and productivity by forming the vacuum and capping of the caps for a plurality of vacuum tubes in one operation. In order to improve the quality of the product.

Vacuum chamber for capillary vacuum capping according to the present invention is a chamber body of a predetermined shape in which the left and right sides, the upper and lower surfaces and the rear surface is sealed, the front of the door is provided with a predetermined volume of space is formed; An air discharge pipe installed at one wall of the chamber body in communication with the inside of the chamber body, connected to an external vacuum pump, and controlled to be opened and closed by a valve; An air inlet pipe installed in communication with the inside of the chamber body at the other wall of the chamber body and controlled to be opened and closed by a valve and allowing external air to flow into the chamber body; A cylinder having a predetermined size installed outside the upper surface of the chamber body and operated by pneumatic pressure (or hydraulic pressure); A piston rod, one end of which is accommodated in the cylinder, and the other end of which is accommodated in the chamber body, the piston rod being moved up and down in the chamber body depending on whether pneumatic pressure is applied; A pressing plate capping the cap of the vacuum blood vessel while being lifted and operated together with the piston rod in a state coupled to the end of the piston rod positioned inside the chamber body; A plurality of guide rods installed vertically at an internal predetermined position of the chamber main body to linearly move the pressing plate in a state of being fitted to an edge of the pressing plate; A pressure gauge installed in communication with the inside of the vacuum chamber at an upper surface of the chamber body to indicate a pressure inside the chamber body during operation; It is formed to a predetermined size on one side wall of the chamber body, it is controlled by a separate stopper and includes a through hole of a predetermined size to allow the rapid introduction of external air after operation.

Description

Vacuum chamber for vacuum blood vessel capping {VACUUM CHAMBER FOR CAPPING VACUUM BLOOD COLLECTING TUBE}

The present invention relates to a vacuum chamber for vacuum capillary capping, and more particularly, to apply a vacuum pressure in a state in which a plurality of vacuum capillaries are stored in the chamber, so that the inside of the plurality of vacuum capillaries is uniform in a vacuum degree. It can be maintained, and the cap of each vacuum tube can be capped at a uniform pressure, so that the vacuum forming and capping of the caps can be performed for a plurality of vacuum tubes in one operation. The present invention relates to a new vacuum chamber for capillary capping that can significantly improve performance and improve product quality.

In general, a vacuum blood vessel is for directly collecting blood from a blood vessel of a patient or a subject for a blood test. The blood collection vessel is configured to maintain a vacuum state inside the blood collection body. The blood is drawn in a way that is sucked into, it is widely used in hospitals and the like.

On the other hand, there are various types of such vacuum blood vessels according to the use and size, and the inside of each vacuum blood vessel should be maintained at an appropriate degree of vacuum.

In this way, in order to vacuum the inside of the vacuum collection tube, the opening of the upper end of the collection tube body is conventionally closed with a lid, and the piston of the syringe is moved outward with the needle of the syringe inserted into the interior of the collection tube body through the lid. Pull out the air inside.

However, this conventional method has a problem that the work is very cumbersome and the productivity is greatly reduced since the needle of the syringe has to be drawn out in order to keep the inside of the blood vessel body in a vacuum state. have.

In addition, there is a problem that the quality of the product is degraded because the degree of vacuum inside the vacuum vessel is different depending on the skill of the operator.

The present invention is to solve such a conventional problem, the purpose is to apply a vacuum pressure in a state in which a large number of vacuum blood vessels are accommodated inside the chamber body to maintain a uniform vacuum inside a plurality of vacuum blood vessels within a short time It is designed to be able to cap the caps of each vacuum tube with a uniform pressure, so that the vacuum forming and capping of the caps of a plurality of vacuum tubes can be performed in one operation, thereby remarkable workability and productivity. It is to provide a new vacuum chamber for capillary capping that can improve the quality and greatly improve the quality of the product.

1 is a perspective view showing a vacuum chamber for vacuum capillary capping according to the present invention,

Figure 2 is an exploded perspective view showing a vacuum capillary capping using the vacuum chamber capping vacuum chamber according to the present invention,

Figure 3 is a cross-sectional view showing the inside of the vacuum chamber for capillary vacuum capping according to the present invention,

4 is a cross-sectional view showing an operating state of the vacuum chamber for capillary capping according to an embodiment of the present invention,

5 is a cross-sectional view showing the operating state of the vacuum chamber capping vacuum chamber according to another embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

11: blood collection holder 12b: lid

13 chamber main body 16 air discharge pipe

17: air inlet pipe 18: cylinder

19: piston rod 20: pressing plate

25: base plate 26: the second cylinder

27: 2nd piston rod.

In order to achieve the above object, the present invention is a chamber body of a predetermined shape in which the left and right sides and the upper and lower surfaces and the rear surface is sealed, the front of the door is provided with a predetermined volume of space portion is formed therein; An air discharge pipe installed at one wall of the chamber body in communication with the inside of the chamber body, connected to an external vacuum pump, and controlled to be opened and closed by a valve; An air inlet pipe installed in communication with the inside of the chamber body at the other wall of the chamber body and controlled to be opened and closed by a valve and allowing external air to flow into the chamber body; A cylinder having a predetermined size installed outside the upper surface of the chamber body and operated by pneumatic pressure (or hydraulic pressure); A piston rod, one end of which is accommodated in the cylinder, and the other end of which is accommodated in the chamber body, the piston rod being moved up and down in the chamber body depending on whether pneumatic pressure is applied; A pressing plate capping the cap of the vacuum blood vessel while being lifted and operated together with the piston rod in a state coupled to the end of the piston rod positioned inside the chamber body; A plurality of guide rods installed vertically at an internal predetermined position of the chamber main body to linearly move the pressing plate in a state of being fitted to an edge of the pressing plate; A pressure gauge installed in communication with the inside of the vacuum chamber at an upper surface of the chamber body to indicate a pressure inside the chamber body during operation; It is formed to a predetermined size on one side wall of the chamber body, it is controlled by a separate stopper and includes a through hole of a predetermined size to allow the rapid introduction of external air after operation.

In the present invention, the lower side of the chamber body is installed with the support plate having the same size as the pressing plate is inserted into the guide rod, and the second cylinder is installed outside the bottom of the chamber body, and the bottom of the support plate is the bottom surface of the chamber body. It is coupled to the upper end of the second piston rod fitted into the chamber through the body has a feature configured to operate.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention.

1 is a perspective view showing a vacuum chamber capping vacuum chamber according to the present invention, Figure 2 is an exploded perspective view showing a vacuum tube capping using a vacuum chamber for vacuum blood vessel capping according to the present invention.

In addition, Figure 3 is a cross-sectional view showing the inside of the vacuum chamber capping vacuum chamber according to the present invention, Figure 4 is a cross-sectional view showing the operating state of the vacuum chamber capping vacuum chamber according to an embodiment of the present invention.

5 is a cross-sectional view showing an operating state of the vacuum chamber capping vacuum chamber according to another embodiment of the present invention.

Referring to this, the vacuum chamber capping vacuum chamber 10 according to the present invention is to maintain a uniform vacuum inside the plurality of vacuum blood vessels within a short time, and the lid of each vacuum tube with a uniform pressure It is configured to be capped.

To this end, in the vacuum chamber capping vacuum chamber 10 according to the present invention chamber chamber 13 having an internal space of a size that can accommodate a plurality of vacuum blood vessels 12 fitted to the blood vessel holder (11) Is prepared.

Each vacuum collection tube 12 is composed of a collection tube body 12a and the lid 12b, when the cap 12b is accommodated in the inner space of the chamber body 13 for capping operation, the lid 12b is not completely closed. The gap between the blood collection body 12a and the lid 12b may be maintained in a closed state such that a gap can be formed.

The left and right sides and the upper and lower surfaces and the rear surface of the chamber body 13 is sealed, the front door 14 is configured to be installed.

On one wall of the chamber main body 13, the air discharge pipe 16, which is opened and closed by the valve 15 in a state of being connected to an external vacuum pump (not shown), communicates with the internal space of the chamber main body 13 Is installed.

In addition, on the other wall surface of the chamber body 13, the outside air can be introduced into the interior space of the chamber body 13, the air inlet pipe 17 is opened and controlled by the valve 15 'chamber body It is installed in communication with the internal space of (13).

In the present invention, the cylinder 18 having a predetermined size vertically operated by pneumatic (or hydraulic) is installed vertically outside the upper surface of the chamber body 13, and the piston rod 19 accommodated inside the cylinder 18. The outer end of the) is located in the inner space of the chamber body 13 is configured to move up and down inside the chamber body 13 depending on whether pneumatic or hydraulic pressure is applied.

At the end of the piston rod 19 located inside the chamber main body 13, the pressing plate 20 which presses and caps the cap 12b of the vacuum blood vessel 12 while being lifted and operated with the piston rod 19 is provided. Combined.

On the other hand, in the predetermined position of the vacuum chamber 13, a plurality of guide rods 21 for vertically raising and lowering operation of the pressing plate 20 in the state fitted to the edge of the pressing plate 20 is installed vertically.

On the upper surface of the chamber body 13, a pressure gauge 22 indicating a pressure inside the chamber body during operation is installed in communication with the inner space of the chamber body 13, and on one side wall of the chamber body 13 Opening and closing control by a separate stopper 23 is formed through hole 24 having a predetermined diameter to allow the outside air to flow into the chamber body 13 in a short time after operation.

On the other hand, as shown in Figure 5 as another embodiment of the present invention, the support plate 25 of the same size as the pressing plate 20 is installed in the lower state inside the chamber body 13 is fitted to the guide rod 21 do.

A second cylinder 26 is installed outside the bottom surface of the chamber body 13, and the bottom surface of the support plate 25 of the second piston rod 27 inserted into the chamber body through the bottom surface of the chamber body 13. It is coupled to the upper end and configured to operate.

The operation of the present invention made as described above is as follows.

1 to 5, the blood vessel holder 11 in which a plurality of vacuum blood vessels 12 are inserted into an inner space of the chamber body 13 by opening the door 14 formed on the front surface of the chamber body 13. Push it in.

At this time, the lid 12b constituting the vacuum tube 12 is not completely closed in the blood collection body 12a, and a gap can be formed between the blood collection body 12a and the lid 12b. To be closed.

In this way, when the blood vessel holder 11 is accommodated in the chamber body 13, the door 14 is closed and sealed, and when the external vacuum pump is operated while the valve 15 on the air discharge pipe 16 is opened, As the air inside the chamber body 13 escapes through the air discharge pipe 16, the inside of the chamber body 13 and the inside of the blood collection tube body 12a are in a vacuum state.

In this process, when the valve 15 'on the air inlet pipe 17 is properly opened and closed to allow external air to flow into the chamber body 13, the degree of vacuum in the chamber body 13 can be adjusted.

The pressure inside the chamber body 13 can be confirmed through the pressure gauge 22.

When the vacuum pressure displayed on the pressure gauge 22 reaches the desired value, the valve 15 on the air discharge pipe 16 and the valve 15 'on the air inlet pipe 17 are closed and the driving of the vacuum pump is stopped. Let's do it.

At the same time, when the cylinder 18 is operated, as shown in FIG. 4, the piston rod 19 is vertically lowered along the guide rod 21 in the chamber body 13 to cover the upper portion of the blood collection body body 12a. By pressing (12b) to close completely, the capping action of the vacuum blood vessel 12 is completed.

In this way, the valve 15 'on the air inlet pipe 17 is completely opened and the through-hole 24 is blocked in the state in which the vacuum formation on the blood collection body 12a and the capping action of the lid 12b are completed. Opening the stopper 23, the outside air is introduced into the chamber body 13 is maintained at the same air pressure as the outside air pressure.

In this state, the door 14 is opened and the blood vessel holder 11 is taken out to complete the work.

On the other hand, in another embodiment of the present invention, the support plate 25 which is operated by the action of the second piston rod 27 of the second cylinder 26 is installed on the bottom surface of the chamber body 13, in this case a plurality of The blood collection tube holder 11, which the vacuum collection tube 12 holds, is placed on the support plate 25, and is operated as described above in this state to vacuum the inside of the blood collection tube body 12a. .

Then, when the cylinder 18 and the second cylinder 26 on the chamber body 13 is operated at the same time, as shown in FIG. 5, the supporting plate ( 25) is raised and the pressing plate 20 is lowered by the lowering action of the upper piston rod 19 while pressing the lid 12b constituting the vacuum blood vessel 12 to close the blood vessel body 12a. Accordingly, the capping work for the vacuum blood vessel 12 is made.

Applying the present invention, it is possible to maintain a uniform vacuum degree for a plurality of vacuum blood vessels at a time, and has the advantage of greatly improving workability and productivity because it caps the cap by pressing at a uniform pressure, the product Since the quality of the product is uniform, the confidence in the product can be increased.

Claims (2)

A chamber body having a predetermined shape in which the left and right sides, the upper and lower surfaces, and the rear surface are sealed and a front portion of the door is provided with a predetermined volume of space therein; An air discharge pipe installed at one wall of the chamber body in communication with the inside of the chamber body, connected to an external vacuum pump, and controlled to be opened and closed by a valve; An air inlet pipe installed in communication with the inside of the chamber body at the other wall of the chamber body and controlled to be opened and closed by a valve and allowing external air to flow into the chamber body; A cylinder having a predetermined size installed outside the upper surface of the chamber body and operated by pneumatic pressure (or hydraulic pressure); A piston rod, one end of which is received inside the cylinder and the other end of which is received inside of the chamber body, and is moved up and down in the chamber body depending on whether pneumatic pressure is applied; A pressing plate capping the cap of the vacuum blood vessel while being lifted and operated together with the piston rod in a state coupled to the end of the piston rod positioned inside the chamber body; A plurality of guide rods installed vertically at an internal predetermined position of the chamber main body to linearly move the pressing plate in a state of being fitted to an edge of the pressing plate; A pressure gauge installed in communication with the inside of the vacuum chamber at an upper surface of the chamber body to indicate a pressure inside the chamber body during operation; It is formed in a predetermined size on one side wall surface of the chamber body, the opening and closing control by a separate stopper and vacuum for blood vessel capping, characterized in that it comprises a through hole of a predetermined size to allow the rapid introduction of external air after operation chamber. The method of claim 1, A support plate of the same size as the pressing plate is installed in the lower side of the chamber body in a state where the guide rod is fitted, and a second cylinder is installed outside the bottom of the chamber body, and the bottom of the support plate is connected to the chamber body through the bottom of the chamber body. Vacuum chamber for capillary capping, characterized in that coupled to the upper end of the second piston rod fitted inwardly configured to operate.