KR200485744Y1 - Tube holder and tube connecting apparatus - Google Patents

Abstract

The present invention relates to a tube holder and a tube connecting device using the tube holder. The tube holder 30 is used to firmly fix the tube 20 to the suction port 12 of the pressure sensor 10. [ A connection boss 14 protrudes from the outer surface of the suction port 12. The holder body 32 has a skeleton of the tube holder 30 and a connection hole 36 is formed at one side of the holder body 32 to which the connection boss 14 is inserted. The connection hole 36 is formed of an entrance portion 38, a rotation portion 40 and a hook portion 42 so that the connection boss 14 is hooked on the hook portion 42. A slope pressing rib 48 is formed to surround the inner surface of the receiving space 34 of the holder body 32. The inclined surface 50 is inclined downward in the direction of the connection hole 36 in the slope pressing rib 48. When the tube holder and the tube connecting device according to the present invention are used, the tube 20 can be fixed to the connecting portion so that the tube 20 can be firmly fixed to the connecting hole 12, and the tube holder 30 can be easily There is an advantage that it is not loosened at the connector 12.

Description

[0001] TUBE HOLDER AND TUBE HOLDER [0002]

The present invention relates to a tube holder and a tube connecting device using the tube holder, and more particularly, to a tube holder for connecting a tube to a connecting portion using a tube holder operated by a simple operation, and a tube connecting device using the tube holder.

For example, in order to measure pressure in a pressure sensor, the corresponding fluid must be delivered to the inside of the pressure sensor. To this end, a tube for delivering fluid to the suction portion of the pressure sensor is secured using a tube holder.

The tube holder is fixed to the suction part by tightly fixing the tube so that the fluid does not leak between the suction part and the tube. If a fluid leaks between the tube and the suction part, the pressure sensor will not be able to properly measure the pressure.

1 shows a state where a tube is connected to a suction part of a pressure sensor by using a conventional tube holder.

According to the drawing, the pressure sensor 1 is formed with a suction portion 3 protruding on one side. The fluid to be measured enters the inside of the pressure sensor 1 through the tube 5 through the suction unit 3. [ The tube 5 is generally made of a flexible synthetic resin material.

A tube holder (7) is used to fasten the tube (5) to the suction part (3). The tube holder 7 is brought into close contact with the outer surface of the tube 5 fitted to the suction portion 3 to closely contact the tube 5 with the suction portion 3. [

The tube holder 7 is made of a metal material having good elasticity, and the holder body 7 'forms a skeleton. The holder body 7 'is formed into a ring shape so that both end portions intersect with each other. In other words, a through hole 8 'is formed in the first end portion 8 so that the second end portion 9 passes through the through hole 8'. The first end portion 8 and the second end portion 9 intersect with each other and extend in different directions. When the operator simultaneously holds the first end portion 8 and the second end portion 9 and presses the holder body 7 ' Can be separated from the tube 5 with a larger diameter. Of course, in a state where the first end portion 8 and the second end portion 9 are not pressed normally, the inner diameter formed by the holder body 7 'is smaller than the outer diameter of the tube 5, So that the tube holder 7 is brought into close contact with the outer surface.

However, the above-described conventional techniques have the following problems.

The tube holder 7 has a strong force in the direction of bringing the tube 5 into close contact with the outer surface of the suction unit 3, but when the external force acts in the longitudinal direction of the tube 5, There is a problem that it is easily disturbed.

Since the first end portion 8 and the second end portion 9 are protruded and an external force can easily act on the first end portion 8 and the second end portion 9, There is a problem in that the state of being fixed by pressing on the body 3 can be released.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to solve the above-mentioned problems of the prior art, and to provide a tube holder for separating a tube for compressing a tube from a tube for holding a tube, will be.

Another object of the present invention is to prevent the tube holder from being separated by an external force in a state where the tube holder is mounted on the connection portion.

According to an aspect of the present invention, there is provided a tube holder for fixing a tube in a state where the tube is fitted to an outer surface of a connection portion, the tube holder having an insertion space through which the tube and the connection portion are positioned A connection hole having a holder body, a connection hole opened to the outer surface of the holder body to communicate with an external space of the holder body and having a hook for hooking the connection boss of the connection portion when the holder body is rotated, And a slope pressing rib that protrudes from the inner surface and presses the outer surface of the tube fitted to the connecting portion. The slope pressing rib has a sloping inclined surface inclined downward in the direction of the connecting hole, and the hook portion has the same radius as the connecting boss Or the length thereof in the longitudinal direction of the holder body is formed, and the connection boss is hooked on the hook portion If the tube is rotating in the circumferential direction of the tube and coming off the outer surface of the connecting portion is limited.

The connecting hole is formed to be open to one end of the holder body. The connecting hole is formed to extend from the end of the holder body in the longitudinal direction of the holder body. The connecting hole is connected to the approaching portion so that the holder body is rotated with respect to the connecting portion. A rotation part for guiding the connection boss, and a hook part connected to the rotation part and formed in parallel to the entrance part.

A reinforcing hood protruding from the outer surface of the holder body and recessed into the inner surface of the holder body is formed at a portion of the holder body formed with the entrance portion, and a connecting boss is introduced into the reinforcing hood at one side end of the holder body. An inlet is formed.

delete

delete

According to another aspect of the present invention, there is provided a connector including a connecting portion formed by protruding a connecting boss on an outer surface of a tube, the connecting portion being formed with a slope supporting rib which is in close contact with an inner surface of the tube, The insertion space in which the connection part is located is formed through the inside of the holder body and the hook for hooking the connection boss is provided and the connection hole is opened to the outer surface of the holder body so as to communicate with the outside, And a tube holder having a slope pressing rib protruding from the inner surface to press the outer surface of the tube fitted to the connecting portion, wherein the slope pressing rib is formed with a pressing slope downwardly inclined toward the connecting hole, A supporting slope is formed downward in the direction of the front end of the connecting portion, And the supporting boss is formed to have a length in the longitudinal direction of the holder body which is equal to or greater than the radius of the connection boss. When the connection boss is hooked on the hook, The withdrawing direction and the circumferential rotation of the tube are limited.

The connecting hole is formed to be open to one end of the holder body. The connecting hole is formed to extend from the end of the holder body in the longitudinal direction of the holder body. The connecting hole is connected to the approaching portion so that the holder body is rotated with respect to the connecting portion. A rotation part for guiding the connection boss, and a hook part connected to the rotation part and formed in parallel to the entrance part.

A reinforcing hood protruding from the outer surface of the holder body and recessed into the inner surface of the holder body is formed at a portion of the holder body formed with the entrance portion, and a connecting boss is introduced into the reinforcing hood at one side end of the holder body. An inlet is formed.

delete

delete

The following effects can be obtained in the tube holder and the tube connecting apparatus using the tube holder according to the present invention.

The tube holder of the present invention is formed by separately separating the connecting hole from the connecting portion and the slope pressing rib which is in close contact with the outer surface of the tube so that the connecting portion and the tube are in close contact with each other. So that it can be performed.

The connection hole formed in the tube holder of the present invention has a hook, so that the connection boss is hooked so that the tube holder is prevented from being operated in the longitudinal direction or the rotation direction of the tube holder arbitrarily by external force, .

In the present invention, since the tube holder and the tube are in close contact with each other, the slope pressing ribs formed on the inner surface of the tube holder and the pressing slopes of the slope supporting ribs formed on the outer surface of the connecting portion are opposed to each other, Is more firmly fixed between the tube holder and the connecting portion.

1 is a perspective view showing a state where a tube is attached to a pressure sensor using a tube holder according to a conventional technique;
FIG. 2 is a perspective view showing a tube mounted on a pressure sensor using a preferred embodiment of a tube holder according to the present invention. FIG.
3 is an exploded perspective view showing a configuration of a preferred embodiment of the tube connecting device according to the present invention;
4 is a cross-sectional view showing a configuration of the present embodiment;
5 is a perspective view showing a configuration of a tube holder of the present embodiment.
6 is a perspective view showing a configuration of a tube holder according to another embodiment of the present invention;

Hereinafter, preferred embodiments of a tube holder and a tube connecting device using the tube holder according to the present invention will be described in detail with reference to the accompanying drawings.

In the present specification, the design is described with reference to the fact that the tube 20 is mounted to the suction port 12 of the pressure sensor 10 by the tube holder 30. However, the present invention can be used to connect the tube 20 to a variety of connections other than the inlet 12 of the pressure sensor 10.

As shown in the drawings, in this embodiment, a tube 20 is mounted on a suction port 12 of a pressure sensor 10, and the suction port 12 is a cylindrical pipe. A connection boss 14 protrudes from the outer surface of the suction port 12. In the present embodiment, the connection boss 14 is formed in a cylindrical shape and two protruding portions are formed on the outer surface of the suction port 12 at intervals of 180 degrees. The connection boss 14 is not necessarily provided with two. In practice, there should be at least two. The interval between the connecting bosses 14 is preferably as constant as possible but need not be so.

A slope supporting rib 16 is formed which surrounds the outer surface of the tip end of the suction port 12. The slope supporting rib 16 is for fixing the tube 20 to be described below to the outer surface of the suction port 12 and is in close contact with the inner surface of the tube 20. The slope supporting rib (16) is formed with a supporting slope (18) so that the tip of the suction port (12) is inclined downward. In the present embodiment, the support slope 18 is formed on the opposite side to a vertical surface without inclined surfaces. However, this portion does not necessarily have to be a vertical surface but may also be a sloped surface.

The tube 20 is generally made of a flexible synthetic resin material. The tube 20 is a common hose. A predetermined fluid is transferred to the inside of the suction port 12 through the tube 20.

A tube holder 30 is used to connect the tube 20 to the inlet 12, i.e., the connection. The tube holder 30 is formed by a cylindrical holder body 32 having a skeleton as shown in the drawings. The inner diameter of the holder body 32 is equal to or slightly smaller than the outer diameter of the tube 20. Of course, the inner diameter is the smallest at the portion of the slope pressing rib 48 to be described below.

An insertion space (34) is formed in the holder body (32). The insertion space 34 is formed to be open to both ends of the holder body 32. The inlet (12) and the tube (20) are located in the insertion space (34).

A connection hole 36 is formed to open to the outer surface of the holder body 32. The connection holes 36 are formed on the outer surface of the holder body 32 at intervals of 180 degrees. The connection hole 36 is formed at a position corresponding to the connection boss 14 formed on the outer surface of the suction port 12. Therefore, in the present embodiment, two connection holes 36 are formed.

The connection hole (36) allows the insertion space (34) and the outside to communicate with each other through the outer surface of the holder body (32). The connection boss 14 is inserted into the connection hole 36 and is hooked. As shown in FIG. 3, the connecting hole 36 is formed to extend in the longitudinal direction of the holder body 32. The entrance portion 38 is a portion where the connection boss 14 enters the connection hole 36.

And is connected to the entrance portion 38 to form the rotation portion 40. The rotation unit 40 extends in a direction orthogonal to the longitudinal direction of the holder body 32 so that the holder body 32 rotates while guiding the connection boss 14.

The coupling hole (36) is formed with a hook (42) to be connected to the rotation part (40). The hooking portion 42 is formed in parallel with the entry portion 38 and is connected to the entry portion 38 through the rotation portion 40. The hooking portion 42 has a semicircular shape when viewed from the outer surface of the holder body 32 and has a depth equal to or greater than the radius of the connecting boss 14 . When the connection boss 14 is seated on the hook 42, the tube holder 30 is prevented from being operated in the longitudinal direction of the suction port 12 or in the direction in which the tube holder 30 is rotated with respect to the suction port 12 do.

Meanwhile, a reinforcing hood 44 is provided on the holder body 32 to form a portion of the entrance portion 38 of the connection hole 36. The reinforcing hood 44 protrudes from the outer surface of the holder body 32 and is inserted into the insertion space 34 so as not to interfere when the connection boss 14 is inserted into the insertion space 34. [ . Therefore, the portion of the reinforcing hood 44 protrudes from the outer surface of the holder body 32.

The reinforcing hood 44 forms an inlet 46 into which the connection boss 14 is inserted by the connection hole 36. [ The inlet (46) communicates with the entry (38). The entry portion 38 is formed at the front end of the reinforcing hood 44. The reinforcing hood 44 prevents the strength of the holder body 32 from becoming weak in forming the entrance portion 38 of the connection hole 36. That is, it is for reinforcing that the entrance portion 38 of the connection hole 36, that is, the entrance 46 is separated to the end portion of the holder body 32.

The slider pressing rib 48 is formed on the inner surface of the holder body 32. The slope pressing rib 48 is a portion of the inner surface of the holder body 32 which is located on the opposite side of the connecting hole 36 and which is pressed against the outer surface of the tube 20. The inclined surface 50 is inclined downward toward the connection hole 36 in the slope pressing rib 48. The pushing inclined surface 50 faces the supporting inclined surface 18 of the slope supporting rib 16 formed on the suction port 12. [ The opposite side of the slope pressing rib 48 on which the pressing slope 50 is formed may also be formed to be inclined downward.

6 shows another embodiment of the tube holder. Hereinafter, components equivalent to those of the above-described embodiments will be denoted by reference numerals of 100 units, and only the essential parts will be described for the sake of convenience.

The skeleton of the tube holder 130 of the present embodiment is formed by the holder body 132 and the entrance portion 138 of the connection hole 136 is extended to one end of the holder body 132. That is, the connection hole 136 is formed to one end of the holder body 132. In this case, if the thickness of the holder body 132 is relatively thin, the strength of one end of the holder body 132 formed with the entrance portion 138 of the connection hole 136 is relatively weakened. However, this can be overcome by setting the thickness of the holder body 132 itself to a predetermined value or more.

Hereinafter, a tube holder according to the present invention having the above-described configuration and a tube connecting device using the tube holder will be described in detail.

In order to connect the tube 20 to the connection portion of the pressure sensor 10, which is the inlet 12, first, the tube 20 is inserted into the inlet 12 in the present invention. That is, the outer surface of the suction port 12 is surrounded by the tube 20 so that the suction port 12 is inserted into one end of the tube 20. It is preferable that the tube 20 has a tip contact with the connection boss 14. At this time, the tube holder 30 is inserted into the tube 20 in advance. That is, the tube 20 passes through the insertion space 34 of the tube holder 30 and passes through the tube 20.

The tube holder 30 is moved along the tube 20 and connected to the suction port 12 while the tube 20 is inserted into the suction port 12 and the tube 20 is inserted into the suction port 12 As shown in Fig.

In detail, when the tube holder 30 moves toward the suction port 12, the connection boss 14 of the suction port 12 enters the connection hole 36 through the inlet 46 . That is, it passes through the inlet 46 and enters the entrance portion 38.

In the course of entering the entry portion 38, the tube holder 30 draws the tube 20 together. This is because the slope pressing rib 48 is in close contact with the outer surface of the tube 20.

When the connection boss 14 reaches the end of the entry portion 38 of the connection hole 36, the rotation portion 40 is encountered. When the rotation portion 40 is encountered, the advancement of the tube holder 30 is no longer possible Do. In this state, the tube holder 30 may be rotated with respect to the suction port 12.

When the tube holder 30 is rotated, the connection boss 14 is positioned at the entrance of the hook 42 connected to the opposite side of the rotation unit 40. The tube holder 30 is moved in the opposite direction to the initial entry direction so that the coupling boss 14 is positioned on the hooking portion 42. [ In this state, the connection boss 14 is engaged with the hooking part 42 and the tube holder 30 is inserted into the hooking part 42, The movement in the direction of withdrawal and the direction of rotation of the suction port 12 is limited. In particular, since the tube 20 itself has a certain degree of elasticity and is in close contact with the inner surface of the tube holder 30, the tube holder 30 can not be moved arbitrarily.

When the connection boss 14 passes through the rotation part 40 from the end of the entry part 38 and enters the hook part 42, the tube holder 30 is rotated and the tube holder 30 When the tube holder 30 is rotated so as to rotate in the direction of approximately 45 degrees instead of rotating in the longitudinal direction of the tube holder 30, the tube holder 30 is rotated toward the inlet 12 in the direction of 45 degrees It becomes relatively easy to connect.

4, when the connecting boss 14 is hooked on the hooking portion 42 of the connection hole 36, the tube 20 is inserted into the slope supporting rib 42 of the suction port 12, And more precisely between the supporting slope surface 16 and the slope pressing surface 50 of the tube holder 30 as shown in FIG. This is indicated by arrows A and A 'in Fig. Of course, the tube 20 is closely attached to the inner surface of the tube holder 30 by the slope supporting ribs 16. This is indicated by arrows B and B 'in Fig.

In order to separate the tube 20 from the inlet 12, the tube holder 30 may be separated from the inlet 12. To this end, the operation of mounting the tube holder 30 to the suction port 12 may be reversed. The tube holder 30 is operated so that the connection boss 14 is led out through the coupling part 42 of the connection hole 36, the rotation part 40 and the entrance part 38 to the entrance 46 do.

The scope of the present invention is not limited to the embodiments described above, but is defined by the claims, and those skilled in the art will be able to make various changes and modifications within the scope of the claims It is self-evident.

10: pressure sensor 12: inlet
14: connecting boss 16: slope supporting rib
18: support slope 20: tube
30: tube holder 32: holder body
34: insertion space 36: hanger ball
38: entry portion 40:
42: hook portion 44: reinforcing hood
46: inlet 48: slope depression rib
50:

Claims (10)

A tube holder for fixing a state in which a tube is fitted to an outer surface of a connection portion,
A holder body having an insertion space through which the tube and the connection part are positioned,
A connection hole which is opened to the outer surface of the holder body so as to communicate with the insertion space of the holder body and has a hook for hooking the connection boss of the connection portion when the holder body is rotated,
And a slope pressing rib protruding from the inner surface of the insertion space of the holder body to press the outer surface of the tube fitted to the connection portion,
Wherein the slanting depressed rib has a slanting inclined surface inclined downward toward the connection hole,
The hook portion has a length in the longitudinal direction of the holder body equal to or greater than the radius of the connection boss,
Wherein when the connection boss is hooked on the hook portion, the tube is restricted from rotating in a direction away from the outer surface of the connection portion and in a circumferential direction of the tube.
[2] The apparatus of claim 1, wherein the connection hole is formed to be open to one end of the holder body, wherein the connection hole extends in a longitudinal direction of the holder body at an end of the holder body, A rotation part for guiding the connection boss to be rotated with respect to the connection part; and the hook part connected to the rotation part and formed in parallel to the entrance part.
[3] The apparatus of claim 2, wherein a portion of the holder body formed with the entry portion is formed with a reinforcing hood protruding from the outer surface of the holder body and recessed into the inner surface of the holder body, A tube holder in which an inlet through which the connecting bosses enter is formed.
delete delete A connection part formed by protruding a connection boss on an outer surface of the tube, the connection part being formed with a slope supporting rib which is in close contact with an inner surface of the tube,
The insertion space in which the tube and the connection part are located is formed through the inside of the holder body and the hook for hooking the connection boss is provided and the connection hole opens to the outer surface of the holder body so as to communicate with the outside, And a slope pressing rib protruding from the inner surface of the insertion space of the insertion space and pressing the outer surface of the tube fitted to the connection portion,
Wherein the slanting depressed rib is formed with a downward slanting inclined surface in a downward slanting direction toward the connection hole and a slanting support slope is formed on the slanting support rib in a downward slanting direction in the direction of the connecting portion,
The hook portion has a length in the longitudinal direction of the holder body equal to or greater than the radius of the connection boss,
Wherein when the connection boss is hooked on the hook portion, the tube is restricted from rotating in a direction away from the outer surface of the connection portion and in a circumferential direction of the tube.
[7] The apparatus as claimed in claim 6, wherein the connection hole is opened to one end of the holder body, wherein the connection hole extends in a longitudinal direction of the holder body at an end of the holder body, And a hinge part connected to the rotation part and formed in parallel with the entrance part.
[8] The apparatus as claimed in claim 7, wherein a portion of the holder body formed with the entry portion is formed with a reinforcing hood protruding from the outer surface of the holder body and recessed into the inner surface of the holder body, A tube connection device in which an inlet through which the boss connecting boss enters is formed.
delete delete

Images