KR101622367B1 - Injection module for uniform distribution - Google Patents

Abstract

The present invention relates to an even distribution injection module which rapidly injects a filler into multiple tubes arranged in a matrix shape in a fixed quantity. The even distribution injection module includes: an upper head receiving the filler and distributing the filler into the module; and a lower head injecting the filler distributed by the upper head into an accommodation container through each nozzle. The upper head has an injection hole on the upper surface, and the lower surface of the upper head is formed as a pyramid-shaped inclined unit which is recessed to the inner side. The lower head has the upper surface of the pyramid-shaped inclined unit to correspond to the lower surface of the upper head. The lower head has a nozzle with the length which is inversely proportional in accordance with the distance from the injection hole. According to the present invention, the even distribution injection module can improve an assembly speed of a product by having the nozzle arranged at a same pattern as an arrangement pattern of the accommodation container and distributing and injecting the filler into the accommodation containers at the same time.

Description

Injection module for uniform distribution < RTI ID = 0.0 >

The present invention relates to a uniformly distributed infusion module that rapidly injects fillings into a plurality of tubes arranged in a matrix.

With the rapid advancement of clinical laboratory techniques, extensive blood tests, including serum biochemical tests, serum immuno tests, and hematology tests, have contributed significantly to the prevention of disease and early diagnosis. A blood test collects a certain amount of blood irrespective of the subject and type of the test, and keeps it in a certain container during storage, transportation and processing. The most common type of vessels used here is a blood collection vessel, and some blood vessels can be easily depressurized and sucked into the vessel by decompression.

There are various types of blood collection tubes according to their use and size, but each blood collection tube has a structure in which the inlet of a cylindrical tube having an upper opening is sealed with a rubber packing, and the outside of the rubber packing is covered with a cap. In addition, on the outer circumferential surface of the tube constituting the body of the blood collection tube, a label made of paper capable of recording the product and information related to blood collection is attached, and a filling material is selectively injected into the tube. Gel and liquid reagent for forming a gel can be a representative example.

As shown in FIG. 1, Korean Patent Registration No. 1375120 discloses a reagent dispensing device for dispensing a reagent in a blood vessel, which is driven to sequentially dispense reagents in odd-numbered rows and even-numbered columns while moving a nozzle unit through a nozzle driving unit have.

However, in Korean Patent No. 1375120, it takes a lot of time to perform a repeated process, resulting in a problem that productivity is lowered.

Korean Patent No. 1375120

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above conventional problems, and it is an object of the present invention to provide a nozzle arranged in the same pattern as the arranging pattern of the receptacle, And to provide an equal distribution infusion module that improves the speed.

In addition, the present invention is to provide an even distribution infusion module that can distribute an infusion agent injected from one injection port without an additional control valve in an equal amount, thereby ensuring stability with low facility cost and producing a product.

According to an aspect of the present invention, there is provided a method of manufacturing an ink jet recording head, including: an upper head for injecting an injecting agent into an inside of a module; and a lower head for injecting the injecting agent, Wherein the upper head is formed with an injection hole on its upper surface, the lower surface is formed by a sloped portion which is recessed inwardly of a pyramidal shape, and the lower head has a pyramidal inclined portion so that its upper surface corresponds to the lower surface of the upper head And a nozzle having a length inversely proportional to the distance from the injection hole is formed therein.

The upper head includes an upper head for injecting an injecting agent and distributing the injected agent to the inside of the module, and a lower head for injecting the injected agent dispensed from the upper head into the receiving container through respective nozzles. And the lower surface of the lower head is formed as a conical slope portion corresponding to the lower surface of the upper head and has a length inversely proportional to the distance from the injection hole in the lower surface Is formed.

Here, the slope of the inclined portion and the inclined portion are formed so that the injection pressure decrease amount of the injecting agent dispersed between the upper head lower surface and the upper head upper surface from the injection hole and the magnitude of the frictional force increased according to the nozzle length are the same, Respectively.

The length of the nozzle varies according to the inclination of the inclined portion.

Further, the nozzles are formed to have the same diameter, and the flow rates injected into the respective nozzles are formed to be the same.

The distance between the inclined portion and the inclined portion is the same on the entire upper surface of the upper head and the upper surface of the lower head.

Further, the distance between the inclined portion and the inclined portion increases as the distance from the injection hole increases.

The distance between the inclined portion and the inclined portion decreases as the distance from the injection hole increases.

The following effects can be expected in the uniform distribution injection module according to the present invention as described above.

The present invention has the effect of providing nozzles arranged in the same pattern as the arranging pattern of the accommodating container, and simultaneously dispensing the injecting agent into a plurality of accommodating containers to improve the assembling speed of the product.

In addition, according to the present invention, the injector injected from one injection port is distributed in an even amount without a separate control valve, thereby ensuring stability with low facility cost and producing products.

1 is a plan view showing a state in which a nozzle unit is moved for spraying or dispensing a reagent according to the prior art.
FIG. 2 is an exploded perspective view showing a specific embodiment of the even distribution infusion module according to the present invention. FIG.
3 is a cross-sectional view of an upper head constituting a specific embodiment of an even distribution infusion module according to the present invention.
FIG. 4 is a cross-sectional view of a lower head constituting a specific embodiment of the even distribution infusion module according to the present invention. FIG.
5 is a cross-sectional view showing another embodiment of the evenly distributed infusion module according to the present invention.
6 is a cross-sectional view showing another embodiment of the evenly distributed infusion module according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the uniform distribution injection module according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is an exploded perspective view showing a specific embodiment of the uniform dispensing injection module according to the present invention, FIG. 3 is a sectional view showing an upper head constituting a specific embodiment of the uniform dispensing injection module according to the present invention, FIG. 5 is a sectional view showing the main part showing another embodiment of the even distribution infusion module according to the present invention, and FIG. 6 is a sectional view showing the bottom part of the even distribution infusion module according to the present invention. Sectional view showing another embodiment of an even distribution infusion module according to the present invention.

First, the constitution of the uniform distribution injection module according to the present invention will be described with various embodiments.

As shown in FIG. 2, the uniform distribution injection module according to the present invention includes an upper head 100 for injecting an injection agent and distributing the injected agent into the module, And a lower head (200) for distributing the water to the container.

3, the upper head 100 is formed in the shape of a square box, and an injection hole 110 for injecting the injector into the module is formed on the upper part. Inside the upper head 100, a sloped surface 120 of a pyramid shape is formed. Further, the upper head 100 is provided on the bottom surface A fastening hole 130 is formed and fastened to the lower head 200.

The upper portion of the injection hole 110 is a portion where a pipe to which the injection liquid is supplied is fastened, and a lower portion of the injection hole 110 is a portion where the injection material injected through the injection hole 110 is injected into the module to be. In addition, the lower end surface of the injection hole 110 is formed to be narrow so that the spray pressure can be maintained constant.

The slope portion 120 forms a space between the inclined portions 220 of the lower head 200 to be described later. The inflowing agent moves along the space by the inflow pressure.

At this time, as the distance from the injection hole 110 formed at the center of the upper head 100 increases, the pressure applied to the injection agent decreases proportionally.

As shown in FIG. 4, the lower head 200 is formed with a sloped portion 220 of a pyramid shape corresponding to a lower surface of the upper head 100 at an upper portion thereof.

The lower head 200 has a nozzle 240 having a length inversely proportional to the distance from the injection hole 110. This is because the upper surface of the lower head 200 is formed as an inclined surface, Structure.

The lower head 220 is formed at its outer end with a fastener 230 to which a fastening member (not shown) for fastening the upper head 100 is coupled.

The embodiments of the rectangular head structure and the quadrangular pyramid-shaped slope portion 120 and the slope portion 220 described above correspond to the embodiment optimized for the arrangement in which the accommodation container is arranged in the form of a rectangular matrix.

Unlike the embodiment described above, the upper head and the lower head may be formed in a circular or polygonal shape.

In this case, the inclined portion 220 may be formed in a conical or polygonal shape corresponding to the shape of the upper / lower head.

Here, the shape of the conical slope 220 and the slope portion is advantageous in that it is possible to reduce the pressure of the injector exactly in proportion to the distance from the center portion since no corner portion is formed. In this case, It is necessary to arrange them in the form of a table.

Meanwhile, in the present invention, the distance between the slope 120 and the slope 220 is the same as the total internal area. However, if necessary, as shown in FIG. 5, the slope 220 The distance between the inclined portion 120 and the inclined portion 220 may be reduced as the distance from the injection hole 110 increases. As shown in FIG. 6, 220 may be increased as the distance from the injection hole 110 increases.

Hereinafter, the functions of the uniform dispensing module according to the present invention will be described in detail with reference to the drawings.

The injector flows into the injection hole 110 of the upper head 100 and moves in the space between the slope 120 and the slope 220 by the inflow pressure, Flows into the respective nozzles 240, moves along the nozzles 240, and is stored in the respective storage containers.

At this time, as the distance from the injection hole 110 increases, the sum of the cross sectional area of the space between the inclined portion 220 and the inclined portion 120 located at the same distance increases.

Therefore, the inflowing agent moves through a large area as the distance from the injection hole 110 increases, so that the pressure applied to the infusion agent decreases proportionally.

Meanwhile, the resistance (friction) force received by the injector when passing through the nozzle 240 varies with the inflow pressure of the infusion agent and the length of the nozzle 240, The resistance of the nozzle 240 is increased.

Accordingly, the injecting agent, which is moved through the nozzle formed at the outer portion of the module, flows into the nozzle at a relatively small inflow pressure when the nozzle is introduced, compared to the injecting agent moved through the nozzle formed at the central portion of the module, ), The difference between the resistance force and the inflow pressure is canceled, and as a result, the discharging speed of the final injecting agent is made equal.

The distance of the nozzle 240, the inclination of the slope 120 and the slope 220, the diameter of the nozzle 240, and the like are determined depending on the material of the injection module, the type of the injection agent, Of the total number of cases.

In addition, it is preferable that the nozzles 240 are formed to have the same diameter, so that the loss due to the frictional force depends on the nozzle length.

The pressure drop of the infusion agent flowing into the uniform distribution injection module according to the present invention is dependent on the inclination of the slope part 220. Basically, when the distance between the inclined portion 120 and the inclined portion 220 can not cause a satisfactory pressure loss due to a design or an inclination of the equipment, May be formed differently depending on the distance.

6, the space between the inclined portion 120 and the inclined portion 220 is spaced apart from the injection hole 110. In other words, when it is necessary to improve the inflow pressure loss of the injecting agent, It can be formed to be wider.

5, the space between the inclined portion 120 and the inclined portion 220 increases as the distance from the injection hole 110 increases, It may be formed to be narrowed.

The lower end of the nozzle 240 is preferably formed to have a relatively large diameter in order to improve the efficiency of insertion of the container and injection of the injectant.

The upper head 100 and the lower head 200 may be fastened to the fastening hole 130 of the upper head 100 and the fastening hole 230 of the lower head 200 by bolt- (Not shown) is inserted and fastened thereto.

It is to be understood that the invention is not limited to the disclosed embodiment, but is capable of many modifications and variations within the scope of the appended claims. It is self-evident.

The present invention relates to a uniform distribution injection module for rapidly injecting a filler into a plurality of tubes arranged in a matrix form, in which an injection agent injected from one injection port is distributed in an equal amount without a separate control valve It is possible to produce products by securing stability with low facility cost.

100: upper head 110: injection hole
120: beveled portion 130: fastening hole
200: lower head 220:
230: fastener 240: nozzle

Claims (8)

An upper head for injecting the infusion agent and dispensing the infusion agent into the module,
And a lower head for injecting the injected agent dispensed from the upper head into the container through respective nozzles,
Wherein the upper head comprises:
An injection hole is formed on the upper surface, and a lower surface is formed as a sloped portion which is recessed inwardly of a pyramid shape,
Wherein the lower head comprises:
The upper surface is formed as a ramp-shaped inclined portion so as to correspond to the lower surface of the upper head,
A nozzle having a length inversely proportional to a distance from the injection hole is formed inside the nozzle,
The slope of the slope portion and the slope portion,
The amount of injection pressure of the injecting agent dispersed between the upper head lower surface and the lower head upper surface from the injection hole is offset from the magnitude of the frictional force increased in accordance with the nozzle length,
The nozzle
The length is changed according to the inclination of the inclined portion, and the same diameter is formed so that the flow rates injected into the respective nozzles are the same:
The distance between the inclined portion and the inclined portion may be,
And is configured to decrease as it moves away from the injection hole:
A reduction amount of the inflow pressure generated from the central portion to the outside portion due to the inclination of the inclined portion, an increase amount of the inflow pressure generated from the central portion to the outside portion due to the reduction in the separation distance between the slope portion and the inclined portion, And the injector ejection speed of the nozzle ejection port is formed to be the same by the interaction of the weight reduction.

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