KR101039503B1 - A connector for refrigerant pipe - Google Patents

Abstract

PURPOSE: A coolant pipe connector is provided to effectively prevent the separation of coolant pipes from the connector and degradation of a grab ring. CONSTITUTION: A coolant pipe connector comprises a connection body(10) formed with a flow path(11), male threads(14), and a coupling groove(12), a grab ring(20) which is fitted to an end of a coolant pipe(1) and has a plurality of grab blades(21) protruding toward the end of the coolant pipe, a fastening clip(30) which is fitted to the end of the coolant pipe and inserted in the coupling groove and has an annular protrusion(33) and a tapered surface(32), and a fixing cap(40) which is coupled to the male threads of the connection body.

Description

Refrigerant pipe connector {A connector for refrigerant pipe}

The present invention relates to a refrigerant pipe connector, and more specifically, a metal pipe or a synthetic resin coated pipe as well as a synthetic resin pipe is more rigidly connected without damage, while improving airtightness and preventing leakage, and the pipe is easily prevented from being detached. It is about a connector.

In general, an air conditioner is a device for evaporating a refrigerant at room temperature, absorbing heat from the surrounding atmosphere, and releasing the absorbed heat to another system to cool the surrounding atmosphere. Such air conditioners generally comprise a compressor, a condenser, an evaporator, a capillary tube, and the like.

The air conditioner includes an integrated type and a separate type, among which a separate type air conditioner includes an indoor unit installed in an indoor unit provided with an evaporator and a blower fan, and an outdoor unit installed in an outdoor unit equipped with a compressor and a condenser. Since the separate air conditioner is spaced apart from the indoor unit and the outdoor unit, the indoor unit and the outdoor unit are connected to the refrigerant tube to circulate the refrigerant therebetween.

1 illustrates a connection structure of a refrigerant pipe connecting the indoor unit and an outdoor unit. One side of the refrigerant pipe 1 of the outdoor unit includes a connection body 4 having a thread formed on an outer circumferential surface thereof, and a refrigerant pipe of the indoor unit. (3) by inserting the coupling nut 5, the coupling nut 5 is screwed to the connecting body 4 to connect the refrigerant pipes (1, 2) to each other. At this time, one end of the connecting body 4 is welded to the refrigerant pipe 1 on the outdoor unit side, and one side of the refrigerant pipe 2 on the indoor unit side forms a trumpet-shaped expansion tube 3. And, as shown, the front end of the connecting body 4 is to press the inner peripheral surface of the expansion pipe (3).

However, the connection structure of the refrigerant pipes 1 and 2 has a problem that the work is very troublesome and takes a long time because the connection body 4 must be welded to the refrigerant pipe 1. In addition, the welding part is frequently damaged due to the vibration of the outdoor unit, such that the refrigerant leaks, thereby degrading the performance of the air conditioner and increasing the maintenance cost. In addition, since the expansion pipe 3 is formed to be formed in the refrigerant pipe 2 on the indoor unit side, manufacturing is more cumbersome and costly to mold. In addition, the extension portion 3 of the refrigerant pipe 2 is simply inserted into a portion of the front end of the connection body 4 and the inner peripheral surface of the coupling nut 5, and the connection body 4 is connected to the refrigerant pipes 1 and 2. Since it is not directly pressurized, there is a problem that the refrigerant pipe (1, 2) is not firmly coupled to the connector, in particular, when the weld is broken, the connecting body (4) can be separated from the connection of the refrigerant pipe (1) There is a problem that the connection of the refrigerant pipe (1, 2) is broken. Moreover, since only the expansion part 3 of the refrigerant pipe 2 is coupled with the connector, there is a problem in that the engagement area is considerably small and the airtightness is lowered.

On the other hand, there is a problem that the refrigerant may leak depending on the front end of the connecting body 4, the inner surface of the coupling nut (5) and the degree of processing of the expansion portion (3) of the refrigerant pipe (2), due to the leakage of the refrigerant The efficiency of cooling is lowered, and the threads of the coupling body 4 and the coupling nut 5 are damaged by tightening the coupling body 4 and the coupling nut 5 with more torque than necessary to prevent leakage of the refrigerant. It also provided the cause of the poor connection of the pipes (1, 2).

The present invention is to solve the problems as described above, the object of the present invention is that in addition to the metal tube and the synthetic resin coating pipe synthetic resin tube can be more firmly connected without being damaged, the airtightness is improved, so that the tube is not easily separated It is to provide a refrigerant pipe joint more tightly coupled to further improve the airtightness.

According to a feature of the invention, in the refrigerant pipe connector for connecting the refrigerant pipe (1) used in the air conditioner,

A flow path 11 is formed along the front and rear direction, and a male screw portion 14 is formed on the outer circumferential surface, and one or both end surfaces have a diameter larger than the diameter of the flow path 11 and the inner circumferential surface is reduced in diameter toward the inside. A connecting body 10 having a coupling groove 12 formed therein;

A grab ring 20 fitted to an outer circumferential surface of the end portion of the coolant pipe 1 and protruded inwardly so that a plurality of grab blades 21 face toward the end of the coolant pipe 1;

It is injected into the synthetic resin and the rear end surface is inserted into the coupling groove 12 to be inserted into the outer peripheral surface of the end of the refrigerant pipe 1 so as to contact the grabbing ring 20, the front end of the annular projection step (33) The protruding and formed on the outer circumferential surface is a fastening clip 30 having a tapered surface 32 having a shape corresponding to the inner circumferential surface of the coupling groove 12 of the connection body 10; And

A locking jaw 42 having one end hooked to the rear end surface of the fastening clip 30 is formed, and a fixing cap having a female thread part 41 screwed to the male thread part 14 of the connection body 10 at the other end thereof. 40;

When the fastening clip 30 is inserted into the coupling groove 12 of the connecting body 10, the end of the refrigerant pipe 1 is fastened while the annular projection jaw 33 is caught on the reduced inner circumferential surface of the coupling groove 12. Protrudes forward of the clip 30 is in close contact with the bottom surface 13 of the coupling groove 12, the fixed cap 40 is screwed into the connecting body 10 is inserted into the coupling groove 12 The annular projection portion 33 of the fastening clip 30 is provided with a refrigerant pipe connector, characterized in that to pressurize the refrigerant pipe (1) radially inward while the diameter is reduced by the elastic deformation.

According to another feature of the invention, the rear end surface of the fastening clip 30 is provided with a refrigerant pipe connector characterized in that the seating groove 35 is formed on which the grab blade 21 of the grab ring 20 is seated. .

According to another feature of the invention, between the grab ring 20 and the fixed cap 40 is further provided with a spring washer 50 that is fitted to the refrigerant pipe (1), the grab by the spring washer 50 Refrigerant pipe connector is provided, characterized in that the ring 20 is in close contact with the fastening clip (30).

According to another feature of the invention, the refrigerant pipe (1) is made of soft synthetic resin or metal, the flange portion 61 is formed on one end of the refrigerant pipe (1) is formed on the end of the refrigerant pipe A coolant pipe connector is provided, wherein the auxiliary pipe body 60 having a diameter of the outer circumferential surface corresponding to the diameter of the inner circumferential surface of (1) is fitted to the inner circumferential surface of the end of the coolant pipe 1.

As described above, according to the present invention, the tapered surface 32 is formed on the outer circumferential surface and the annular projection jaw 33 is formed at the front end to eject the fastening clip 30 fitted to the refrigerant pipe 1 by synthetic resin, Insert the fastening clip 30 into the coupling groove 12 is reduced in diameter toward the inner side formed in the body 10, the fastening clip (30) by screwing the fixing cap 40 to the connecting body (10) The diameter of the annular projection projection 33 is reduced as the elastically deformed portion has an effect of connecting the refrigerant pipe 1 more firmly by pressurizing the refrigerant pipe (1). Furthermore, the tip of the fastening clip 30 is caught on the inner circumferential surface of the coupling groove 12, so that the protruding end portion 1a of the refrigerant pipe 1 is in close contact with the bottom surface of the coupling groove 12 so that the airtightness is further improved. have. In addition, the grab ring 21 is disposed at the rear end of the fastening clip 30 so that the grab blade 21 faces the end of the coolant pipe 1, so that the coolant pipe 1 is easily detached from the connector even by an external force. There is no effect. At this time, a seating groove 35 in which the grab blade 21 of the grab ring 20 is seated is formed on the rear end surface of the fastening clip 30, even if the fixing cap 40 is screwed to the connection body 10. Since the shape of the grab blade 21 is maintained as it is, the coolant pipe 1 is more effectively prevented from being separated from the connector by an external force.

On the other hand, the spring washer 50 is provided between the grab ring 20 and the fixing cap 40, the grab ring 20 is in close contact with the rear end surface of the fastening clip 30 of the grab ring 20 The lowering of the function is more effectively prevented, and of course, the fixing cap 40 is prevented from being released from the connecting body 10 even by vibration of a device such as an air conditioner. And, by inserting the auxiliary pipe 60 to the end of the refrigerant pipe (1) made of a soft metal, such as a soft synthetic resin or aluminum, and connecting the connector in the same manner as described above, in addition to the metal tube, the synthetic resin tube is also crushed, etc. It can be connected firmly and effectively without damage.

1 is a side cross-sectional view showing an example of a conventional refrigerant pipe connector
Figure 2 is an exploded perspective view showing an embodiment of the refrigerant pipe connector according to the present invention
3 to 5 is a process diagram of connecting the refrigerant pipe to the connector of the embodiment
Figure 6 is a coupling state showing another embodiment of the refrigerant pipe connector according to the present invention

The objects, features and advantages of the present invention described above will become more apparent from the following detailed description. Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

Figure 2 is an exploded perspective view showing a preferred embodiment of the refrigerant pipe connector according to the present invention, Figures 3 to 5 is a side cross-sectional view showing a coupling process of the embodiment.

As shown, the refrigerant pipe connector according to an embodiment of the present invention connects the refrigerant pipe (1) used in the air conditioner, the flow path 11 is formed along the front and rear direction and the male screw portion 14 on the outer peripheral surface A connection body 10 having a coupling groove 12 having a diameter larger than the diameter of the flow path 11 and having an inner circumferential surface thereof reduced inwardly on one or both end surfaces thereof; A grab ring 20 fitted to an outer circumferential surface of the end portion of the coolant pipe 1 and protruded inwardly so that a plurality of grab blades 21 face toward the end of the coolant pipe 1; It is injected into the synthetic resin and the rear end is inserted into the coupling groove 12 to be inserted into the outer peripheral surface of the end of the refrigerant pipe 1 so as to contact the grabbing ring 20, the end of the annular projection jaw 33 in the radially outer side A fastening clip 30 formed on the outer circumferential surface thereof and having a tapered surface 32 having a shape corresponding to the inner circumferential surface of the coupling groove 12 of the connection body 10; And a locking jaw 42 having one end hooked to the rear end surface of the fastening clip 30 and a female thread part 41 screwed to the male thread part 14 of the connection body 10 at the other end. Cap 40; is configured to include.

The connecting body 10 has a cylindrical shape and has a flow path 11 formed therein in the front and rear directions to interconnect the refrigerant pipe 1 of the outdoor unit and the indoor unit. In addition, one end surface or both end surfaces of the connection body 10 are formed with a coupling groove 12 having a larger diameter (expanded in diameter) than the diameter of the flow path 11. At this time, the inner circumferential surface of the coupling groove 12 is formed in a shape that is reduced in diameter toward the inner side, the bottom surface 13 of the coupling groove 12 is in communication with the flow path 11 to form a step. In addition, the male thread portion 14 is formed on the outer circumferential surface of one end or both ends of the connecting body 10, in this embodiment is shown that the male thread portion 14 and the coupling groove 12 is formed at both ends will be described accordingly. .

The grab ring 20 is a ring body that is fitted to the refrigerant pipe 1, the inner peripheral surface of the plurality of grab blades 21 are projected inwardly spaced apart a predetermined interval, the grab blades 21 are bent in the same direction, When the coolant pipe 1 is fitted, the grab blade 21 is slightly bent in a state of being grounded with the coolant pipe 1. Then, when the coolant pipe 1 is pulled in the opposite direction to the insertion direction while the coolant pipe 1 is fitted to the grabbing ring 21, the grab blades 21 dig an outer circumferential surface of the coolant pipe 1 by an elastic restoring force. Since it is pressurized while lifting, the refrigerant pipe 1 cannot be removed from the grabbing ring 20.

The fastening clip 30 is injected into a synthetic resin so that the upper surface of the cone is cut parallel to the lower surface, the hollow portion 31 is formed inside the refrigerant pipe 1 is inserted along the longitudinal direction. . At this time, the outer circumferential surface of the fastening clip 30 forms a tapered surface 32 whose diameter decreases toward the distal end portion. And, at the tip of the fastening clip 30 is formed an annular projection jaw 33 protruding outward in the radial direction. In addition, the outer circumferential surface of the fastening clip 30 is formed with a stepped jaw (34) is engaged with the inlet circumferential surface of the coupling groove 12 of the connection body (10). On the other hand, the rear end surface of the fastening clip 30 is in surface contact with the grab ring 20, the hollow portion 31 as the center so that the grab blade 21 of the grab ring 20 is seated in the center of the rear end surface. The mounting groove 35 is formed in a forward direction toward the direction.

The fixing cap 40 is a tubular shape that is fitted to the outer peripheral surface of the connecting body 10 and the refrigerant pipe 1, the locking jaw 42 is protruded radially inward at one end, and the connecting body at the other inner peripheral surface. A female screw portion 41 which is screwed with the male screw portion 14 of (10) is formed. At this time, the fixing cap 40 is fitted to the refrigerant pipe 1, and the end of the refrigerant pipe 1 is inserted into the other end portion where the locking jaw 42 is formed. Then, the locking jaw 42 of the fixing cap 40 is caught on the rear end surface of the fastening clip (30).

On the other hand, the spring washer 50 is fitted to the refrigerant pipe 1 to be disposed between the grab ring 20 and the fixed cap 40. Therefore, when the fixing cap 40 is coupled to the connecting body 10, the spring washer 50 is pressed toward the grabbing ring 20 by the locking jaw 42 of the fixing cap 40, and the grabbing ring 20. It serves to be in close contact with the rear end surface of the fastening clip (30). At this time, the grab blade 21 of the grab ring 20 is seated in the mounting groove 35 of the fastening clip (30). Accordingly, even though the refrigerant pipe 1 is more firmly coupled to the connector so that the refrigerant pipe 1 is vibrated according to the operation of the device connected thereto, the fixing cap 40 to be described later is connected to the connection body 10 by the vibration. Since it is prevented from being released, there is an advantage that the refrigerant pipe 1 is not easily separated from the connector.

 The process of connecting the refrigerant pipe by using the refrigerant pipe connector according to the embodiment configured as described above will be described with reference to FIGS. 2 to 5.

First, as shown in FIG. 2, the fixing cap 30, the spring washer 50, the grabbing ring 20, and the fastening clip 23 are sequentially inserted into the outer circumferential surface of the refrigerant pipe 1, the fastening clip 30. The refrigerant pipe 1 is inserted into the rear end portion, and the front end portion is positioned at the end side of the refrigerant pipe 1. In addition, the grab edge 21 of the grab ring 20 is positioned to face the end of the refrigerant pipe (1), that is to be seated in the seating groove 35 formed on the rear end surface of the fastening clip (30). And, as shown in Figure 3, the end of the refrigerant pipe (1) in which the fixed cap 40, the spring washer 50, the grab ring 20 and the fastening clip 30 is fitted as described above of the connection body 10 Push into the coupling groove (12). At this time, the inner circumferential surface of the coupling groove 12 of the connecting body 10 has a shape that is reduced in diameter, so that the annular projection jaw 33 provided at the tip of the coupling clip 30 has an inner circumferential surface of the coupling groove 12. Since it is preferentially caught, as shown in FIG. 4, when the operator pushes the refrigerant pipe 1 further, the end of the refrigerant pipe 1 protrudes forward than the fastening clip 30 to form the protruding end 1a. do. At this time, the protruding end 1a is not completely in contact with the bottom surface of the coupling groove 12 of the connection body 10.

And, as shown in Figure 5, when the female screw portion 33 of the fixing cap 40 is coupled to the male screw portion 14 of the connecting body 10, the fastening clip 30 is the coupling groove of the connecting body (10) 12 is pressed toward the inner surface of the coupling groove 12 and at the same time radially pressurized inwards, the stress is concentrated on the annular projection jaw 33 of the fastening clip 30 injected into the synthetic resin the annular projection ( The inner circumferential surface of the fastening clip 30 corresponding to 33 is reduced in diameter due to elastic deformation, thereby pressing the outer circumferential surface of the refrigerant pipe 1. This state is shown to be exaggerated somewhat in the enlarged portion of Figure 5, the portion reduced in the inner circumferential surface of the fastening clip 30 is called the unevenness (33a), which is pressed by the unevenness (2) to form a somewhat groove When the part is called the groove 2, unlike the pressurization of the entire outer circumferential surface of the refrigerant pipe 1 only with the same pressure, some degree of fitting of the unevenness 33a and the groove 2 also acts together. The pipe (1) has the advantage of being more firmly coupled to the connector.

In addition, since the fastening clip 30 is pressed toward the coupling groove 12 by the fixing cap 40 as well as the radially inward direction, the protrusion of the refrigerant pipe 1 pressurized by the fastening clip 30. End 1a is completely in contact with the bottom surface 13 of the coupling groove 12, there is an advantage that the coupling portion of the refrigerant pipe 1 and the connector is kept more airtight. Then, the spring washer 50 is pressed by the locking jaw 42 of the fixing cap 40 to press the grabbing ring 20 in contact with the rear end surface of the fastening clip 30. Accordingly, while the torsion of the spring washer 50 is extended to become a complete ring body, the grab ring 20 is more closely attached to the rear end surface of the fastening clip 30 so that the grab ring 20 is more firmly fixed.

On the other hand, Figure 6 shows another embodiment of the refrigerant pipe connector according to the present invention, is a side cross-sectional view of the refrigerant pipe (1) connected by using the connector. As shown, the coolant tube 1 in the present embodiment is made of a thin and relatively hard metal, such as soft synthetic resin or aluminum, and thus, when pressurized by the fastening clip 30, the coolant tube 1 This crushing causes the bond to not be firm. In this embodiment, the flange 61 is provided at one end with an auxiliary pipe 60 having a predetermined length formed to protrude radially outward to connect the refrigerant pipe 1. At this time, the connection body 10, the fastening clip 30, the grab ring 20, the spring washer 50 and the fixing cap 40 in the present embodiment are all the same as in the previous embodiment.

On the other hand, the length of the auxiliary pipe 60 is preferably formed longer than the length of the fastening clip (30). In addition, the diameter of the outer circumferential surface of the auxiliary pipe body 60 is preferably manufactured to correspond to the diameter of the inner circumferential surface of the refrigerant pipe 1, whereby the auxiliary pipe body 60 is forcibly fitted inside the refrigerant pipe (1). . Therefore, the fastening clip 30 is inserted into the coupling groove 12 of the connecting body 10 and is pressed radially inward, so that the fastening clip 30 presses the refrigerant pipe 1 while the diameter is reduced by elastic deformation. Even if the refrigerant pipe 1 is not crushed by the auxiliary pipe 60, the refrigerant pipe 1 is effectively pressurized by the fastening clip 30 as in the previous embodiment, so that the refrigerant pipe 1 is slightly connected to the connector. It has the advantage of being more tightly coupled.

 The present invention described above is not limited to the above-described embodiment and the accompanying drawings, and various substitutions, modifications, and changes are possible within the scope without departing from the technical spirit of the present invention. It will be evident to those who have knowledge of.

Claims (4)

In the refrigerant pipe connector for connecting the refrigerant pipe (1) used in the air conditioner, the flow path 11 is formed along the front and rear direction, the male thread portion 14 is formed on the outer peripheral surface, the flow path ( A connecting body 10 having a coupling groove 12 having a diameter larger than that of the diameter 11 and whose inner circumferential surface is reduced in diameter toward the inside thereof;
A grab ring 20 fitted to an outer circumferential surface of the end portion of the coolant pipe 1 and protruded inwardly so that a plurality of grab blades 21 face toward the end of the coolant pipe 1;
It is injected into the synthetic resin and the rear end surface is inserted into the coupling groove 12 to be inserted into the outer peripheral surface of the end of the refrigerant pipe 1 so as to contact the grabbing ring 20, the front end of the annular projection step (33) The protruding and formed on the outer circumferential surface is a fastening clip 30 having a tapered surface 32 having a shape corresponding to the inner circumferential surface of the coupling groove 12 of the connection body 10; And
A locking jaw 42 having one end hooked to the rear end surface of the fastening clip 30 is formed, and a fixing cap having a female thread part 41 screwed to the male thread part 14 of the connection body 10 at the other end thereof. 40;
When the fastening clip 30 is inserted into the coupling groove 12 of the connecting body 10, the end of the refrigerant pipe 1 is fastened while the annular projection jaw 33 is caught on the reduced inner circumferential surface of the coupling groove 12. Protrudes forward of the clip 30 is in close contact with the bottom surface 13 of the coupling groove 12, the fixed cap 40 is screwed into the connecting body 10 is inserted into the coupling groove 12 Refrigerant pipe connector, characterized in that for pressing the refrigerant pipe (1) radially inward while the annular projection (33) of the fastening clip 30 is reduced by the elastic deformation.
The refrigerant pipe connector according to claim 1, wherein the rear end surface of the fastening clip (30) is provided with a seating groove (35) on which the grab blade (21) of the grab ring (20) is seated.
According to claim 1 or 2, Between the grab ring 20 and the fixed cap 40 is further provided with a spring washer 50 is fitted to the refrigerant pipe (1), by the spring washer 50 Refrigerant pipe connector, characterized in that the grabbing ring 20 is in close contact with the fastening clip (30).
The coolant pipe (1) according to claim 1 or 2, wherein the coolant pipe (1) is made of soft synthetic resin or metal, and a flange portion (61) is formed at one end to be caught on the end face of the coolant pipe (1). A refrigerant pipe connector characterized in that the auxiliary pipe (60) having a diameter of the outer peripheral surface corresponding to the diameter of the inner peripheral surface of the pipe (1) is fitted to the inner peripheral surface of the end of the refrigerant pipe (1).

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