KR200459858Y1 - Coupler for transporting fluid - Google Patents

Abstract

According to the present invention, the tip of the sleeve 240 positioned at the tip of the plug 200 stops against the sleeve catching jaw 113 located in the socket case head 110a of the socket case 110, and then stops. The plug case head (210a) surrounding the 240 is entered into the plug case head groove (110b) of the inlet of the socket case head (110a) so that the front end stops against the plug case engaging jaw (114) at the same time (240) A passage 121 of the hose holder 120 by causing the plug pin 230 located at the inner center to move the socket pin 130 blocking the second passage 112 of the socket case 110. 122 and passages 111 and 112 of the socket case 110 and passages 240b of the sleeve 240 and passages 211 of the plug case 210 and passages 221 and 222 of the hose holder 220. To a fluid transfer coupler in which the fluid is stably supplied and supplied by opening to be.

Description

Coupler for Fluid Transfer {COUPLER FOR TRANSPORTING FLUID}

The present invention relates to a coupler for fluid transfer, and in particular, the tip end of the sleeve positioned at the plug tip end stops against the sleeve catching jaw located inside the socket case head of the socket case, and then the plug case head surrounding the sleeve The plug case head is inserted into the plug case head groove of the socket case head inlet so that the tip end of the socket case head stops and the plug pin located at the center of the sleeve is blocking the second passage of the socket case. The present invention relates to a fluid transfer coupler for stably feeding and supplying a fluid by moving a pin to open a passage of a socket case and a passage of a sleeve.

In general, a fluid transfer coupler is composed of a socket (female) and a plug (male), and the fluid is transferred by allowing the plug to enter and engage the socket.

In Korea Utility Model Application No. 2009-0000531 (filed Jan. 15, 2009, published on Jul. 23, 2010), a first opening / closing cover having an accommodating groove at its tip is elastically located in the first connecting pipe by a spring. And a second opening / closing cover having a protrusion at the front end is elastically positioned in the second connecting pipe by a spring, and the front end protrusion of the second opening / closing cover is inserted into the front end receiving groove of the first opening / closing cover, respectively. A fluid connection device is disclosed in which a passage is opened by compressing a.

In the fluid connection device disclosed in Korean Utility Model Application No. 2009-0000531 as described above, the first and second opening and closing covers come into contact with each other when the second connection pipe does not sufficiently enter the first connection pipe. When is opened, there is a problem that the fluid in the hose is temporarily leaked to the outside.

In addition, there is a problem that the projection of the second opening and closing cover may be an eccentricity which is abutted at the entrance without being inserted into the receiving groove of the first opening and closing cover.

The present invention is to improve the above problems, the object of the present invention is to provide a fluid transfer coupler to ensure a stable supply of fluid.

The fluid transfer coupler of the present invention is a fluid transfer coupler in which a plug enters and is coupled to a socket so that fluid is transferred. A socket pin having a cone-shaped head at a distal end is disposed by a spring horizontally in an inner center of the socket case. A socket elastically installed and opening and closing a passage of the socket case by packing the head flange; A plug pin having a cone-shaped socket pin head groove at a distal end is installed at the inner center of the sleeve and the inner center of the plug case located inside the distal end of the plug case, and the sleeve is elastically installed by a spring. A plug for opening and closing the passage of the sleeve; The plug sleeve of the plug enters the inlet of the socket to move the socket pin and simultaneously move the sleeve to open the passage of the socket case and the passage of the sleeve so that fluid is transferred. It is characterized in that.

The socket may include a socket case in which the plug case head groove, the plug case catching jaw, the sleeve catching jaw, the second passage, the first passage, and the screw portion are formed in the same center from the inlet of the socket case head; A hose holder having a screw portion formed on the outer circumferential surface, a case connecting tube having a second passage formed on the inner circumferential surface, a center tube having a first passage formed on the inner circumferential surface, and a hose connecting tube connected to the hose; A socket pin having a stem head and a packing groove formed at the tip of the stem, first and second packings installed at the center of the packing groove, and a socket pin head having a cone-shaped head at the tip; A stem spacer and a stem head spacer, which are elastically supported by a spring and are respectively installed on the stem and stem head outer circumferential surface of the socket pin; The socket pin is horizontally installed in the first passage of the socket case, and the second packing allows the first passage to be opened and closed.

In addition, the plug and the plug case is formed sequentially from the inlet of the plug case head O ring groove, the passage, the sealing surface, the screw portion forming the same center; A hose holder on the outer circumferential surface of the case connecting tube having a first passage formed on the inner circumferential surface, a center tube having a second passage formed on the inner circumferential surface, and a hose connecting tube connected to the hose; A plug pin having a cone-shaped socket pin head groove and a flange formed at the tip of the stem; A cylindrical sleeve installed on an inner circumferential surface of the plug case head and caught by the flange; It is elastically supported with a sleeve by a spring, and consists of a stem spacer installed on the stem outer peripheral surface of the plug pin, the plug pin is installed horizontally in the passage of the plug case, characterized in that the inlet of the sleeve to open and close It is done.

In addition, the socket and the plug is characterized in that the coupling is maintained by the fastening nut.

In addition, the socket is horizontally fixed to the bracket of the holder which is moved forward and backward by the fastening lever, and the plug is fixed horizontally to the bracket to be fixed while facing the bracket, the socket and the plug is adjacent to the same axis It is characterized in that the position.

According to the present invention, the sleeve 240 first comes into contact with the sleeve catching jaw 113 and stops, and the plug case head 210a is brought into contact with the plug case catching jaw 114 to stop and at the same time the inner center of the sleeve 240 is stopped. The plug pin 230 positioned in the socket pin 130 is moved to open the passage of the socket case 110 and the passage of the plug case 210, so that the fluid is more stably transported and supplied. will be.

1 is an exploded perspective view of the present invention,
2 is a cross-sectional view of the inventive socket,
3 is a cross-sectional view of the plug of the present invention,
4 is a cross-sectional perspective view of the inventive socket case;
5 is a cross-sectional perspective view of the hose holder coupled to the socket case according to the present invention,
Figure 6 is a cross-sectional perspective view of the socket pin of the present invention,
7 is a cross-sectional perspective view of the socket pin head of the present invention;
8 is a front view of the stem spacer of the present invention,
9 is a front view of the stem head spacer of the present invention,
10 is a cross-sectional perspective view of the inventive plug case;
11 is a cross-sectional perspective view of the hose holder coupled to the plug case according to the present invention,
12 is a perspective view of a plug pin of the present invention,
13 is a cross-sectional perspective view of the sleeve of the present invention,
14 is a front view of the stem spacer of the present invention,
15 is a cross-sectional view of a socket and a plug in a separated state according to the present invention;
16 is a cross-sectional view of a state in which the plug enters the inlet of the socket in the state of FIG. 15;
17 is a cross-sectional view of the socket pin head groove of the plug pin is coupled to the head of the socket pin head in the state of FIG.
18 is a cross-sectional view of the socket pin is moved by the plug pin in the state of Figure 17,
19 is a partial cross-sectional view of a socket and a plug according to the present invention,
20 is a cross-sectional view of the socket and plug according to the present invention coupled to the fastening lever;
21 is a partial cross-sectional view of the socket and the plug in the state of FIG. 20.

Next, the present invention will be described based on the drawings.

1 shows a coupler for fluid transfer according to the present invention, the coupler body C for fluid transfer consists of a socket 100 and a plug 200, and the plug 200 is the socket 100. By entering and engaging in, all the passages inside the socket 100 and the plug 200 are opened so that fluid is transferred from the socket 100 to the plug 200 or from the plug 200 to the socket 100. .

The socket 100 is coupled to the hose holder 120, the hose 120a is coupled to the rear of the socket case 110 (the side facing the plug 200 in the front) as shown in Figure 2, A socket pin 130 having a socket pin head 140 coupled to a front end thereof is coupled to an inner center of the socket case 110. The socket case 110, a hose holder 120, a socket pin 130, and a socket The pin head 140 forms the same center.

In the above, the socket pin 130 is located in the inner center of the socket case 110 by the stem spacer 150 and the stem head spacer 160, while the stem spacer 150 and the stem head spacer 160 Between the spring 131a is interposed so that the socket pin 130 is elastically located at the inner center of the socket case 110.

The socket case 110 is formed of a circular cylinder as shown in Figure 4, the screw portion 116 is formed on the inner peripheral surface of the rear, the socket case head 110a having a plug case head groove 110b is formed in the front .

The cover tube 118 is formed stepwise adjacent to the rear of the screw portion 116, the sealing member coupling surface 117 is formed on the surface bordering the cover tube 118 and the screw portion 116.

The plug case catching jaw 114, the O-ring groove 115, the sleeve catching jaw 113, the second passage 112, and the first passage 111 are sequentially formed inside the plug case head groove 110b. O ring 115a is coupled to the O-ring groove 115, and the second passage 112 is formed to have a narrower diameter than the first passage 111, and the sleeve catching jaw 113 is It is formed around the second passage 112.

In the above, the plug case head groove 110b, the plug case catching jaw 114, the O-ring groove 115, the sleeve catching jaw 113, and the second passage 112 form the same center as the socket case 110. It is formed in a circle.

The hose holder 120 is formed while forming the same center as the center tube 123, the case connecting pipe 124, the hose connecting pipe 125 as shown in Figure 5, the front of the center pipe 123 is connected to the case Pipe 124, the hose connecting pipe 125 is formed on the rear of the center pipe 123, the first passage 121 is formed horizontally in the inner center of the center pipe 123, the case connection A second passage 122 is formed at the inner center of the tube 124 to communicate with the first passage 121 horizontally.

In the above, the first passage 121 is formed while forming the same diameter as the inner diameter of the hose 120a coupled to the hose connecting pipe 125, the second passage 122 is the first passage 121 It is formed while forming a larger diameter.

The center tube 123 is integrally formed while forming the same center as the first tube 123a, the second tube 123b, and the sealing recombination surface 123c, and the hose connecting tube 125 includes the hose 120a. Inserted and coupled, a screw portion (124b) is formed on the outer circumferential surface of the case connecting pipe (124).

In the above, the stem spacer coupling surface (124a) is formed on the inlet edge surface of the case connecting pipe (124).

The screw portion 124b of the case connecting pipe 124 of the hose holder 120 is coupled to the screw portion 116 of the socket case 110, so that the hose holder 120 is located behind the socket case 110. Combined,

The sealing member 117a is interposed between the sealing member coupling surface 117 bordering the cover tube 118 and the threaded portion 116 and the sealing member coupling surface 123c of the center tube 123.

As shown in FIG. 6, the socket pin 130 is integrally formed at the rear of the stem head 132 while forming the same center, and a packing groove 135 is formed at the front of the stem head 132. , A screw groove 134 is formed in the center.

A guide cylinder 133 is formed around the inlet of the screw groove 134, and the packing groove 135 is formed to be stepped while the first packing groove 135a and the second packing groove 135b form the same center. do.

As shown in FIG. 7, the socket pin head 140 has a cone-shaped head 141 protruding from the front of the head flange 142, and a screw rod 144 corresponding to the screw groove 134 is formed at the rear of the socket pin head 140. The second and first packings 145b and 145a are sequentially coupled to the rear surface of the head flange 142. The head flange 142, the head and the screw rod 144 are formed while forming the same center. Meanwhile, the first and second packings 145a and 145b are also combined while forming the same center.

In the above, the socket pin head 140 is integrated by the screw rod 144 is coupled to the screw groove 134 of the socket pin 130, the first packing (145a) of the socket pin head 140 Is inserted into the first packing groove 135a of the packing groove 135 and the second packing 145b is inserted into the second packing groove 135b, respectively.

The socket pin 130 to which the socket pin head 140 is coupled is positioned horizontally at the inner center of the socket case 110, so that the socket pin head 140 faces the plug case head groove 110b. The stem 131 is positioned in the first passage 111 of the socket case 110 while the rear end is positioned in the center of the second passage 122 of the hose holder 120, and the second packing 145b ) Blocks the second passage 112 of the socket case 110.

In the above, the stem 131 of the socket pin head 140 penetrates the stem hole 152 of the stem spacer 150 as shown in FIG. 8, and the stem head 132 is a stem head spacer as shown in FIG. 9. It penetrates through the stem head hole 162 of 160.

The stem spacer 150 is located on the stem spacer coupling surface 124a of the case connecting pipe 124, and the stem head spacer 160 is located on the back of the packing groove 135 of the socket pin 130. The spring 131a is interposed between the stem spacer 150 and the stem head spacer 160.

The stem spacer 150 has a connecting rib 153 integrally radially around the body 151 through which the stem hole 152 penetrates, and a ring 154 is integrated with each connecting rib 153. A passage 155 is formed in each space between the connecting ribs 153.

The stem head spacer 160 has a wing 163 integrally radially around the body 161 through which the stem head hole 162 passes.

In the above, the diameter of the stem spacer 150 and the stem head spacer 160 is equal to or slightly smaller than the diameter of the inner circumferential surface of the first passage 111 of the socket case 110, the elasticity of the spring (131a) Interval is maintained.

The socket 100 is configured such that the hose holder 120 is coupled to the hose 120a is coupled to the rear of the socket case 110, the socket pin 130 is coupled to the socket pin head 140 in the inner center The stem spacers 150 and the stem head spacers 160 are positioned at the stem 131 and the stem head 132 of the socket pin 130, while the stem spacer 150 and the stem head spacer 160 are positioned. The spring 131a is interposed between them.

Therefore, the second passage 112 formed in the socket case 110 is blocked or opened by the second packing 145b of the socket pin head 140. The socket pin 130 is connected to the plug pin 230 to be described later. Is operated.

The plug 200 is coupled to the hose holder 220, the hose 220a is coupled to the rear of the plug case 210 (the side facing the socket 100 on the front side), as shown in Figure 3, A sleeve 240 enclosing the plug pin 230 at the front end is coupled to the inner center, and the plug case 210, the hose holder 220, the plug pin 230, and the sleeve 240 form the same center. .

In the above, the plug pin 230 is located at the inner center of the sleeve 240 and the plug case 210 by the sleeve 240 and the stem spacer 250, while the sleeve 240 and the stem spacer 250 The spring 231a is interposed between the sleeve 240 and the plug pin 230 to be elastically positioned at the inner center of the plug case 210.

The plug case 210 is formed in a circular cylinder, as shown in Figure 10, the screw portion 214 is formed on the inner peripheral surface of the rear, the plug case head 210a is formed on the front, the screw portion 214 to the rear Adjacent to the cover pipe 215 is formed stepwise.

An O-ring groove 213 and a passage 211 are sequentially formed inside the plug case head 210a. The O-ring groove 213 is coupled with an O-ring 213a, and the passage of the passage 211 is stopped. The portion is formed with a sealing recombination surface 212 stepwise.

In the above, the plug case head 210a, the O-ring groove 213, the passage 211, the sealing recombination surface 212, the screw portion 214, the cover tube 215 is formed in a circular shape while forming the same center.

The hose holder 120 is formed while the center tube 223, the case connecting pipe 224, the hose connecting pipe 225 forms the same center as shown in Figure 11, the front of the center pipe 223 is connected to the case The pipe 224, the hose connecting pipe 225 is formed on the rear of the center pipe 223, the second passage 222 is formed horizontally in the inner center of the center pipe 223, the case connection A first passage 221 communicating horizontally with the second passage 222 is formed at an inner center of the tube 224.

In the above, the second passage 222 is formed while forming the same diameter as the inner diameter of the hose 220a coupled to the hose connecting pipe 225, the first passage 221 is the second passage 122 It is formed while forming a larger diameter.

The hose 220a is inserted into and coupled to the hose connecting tube 225, and a threaded portion 224b is formed on an outer circumferential surface of the case connecting tube 224, and a sealing material is formed on an inlet edge of the case connecting tube 224. 224a is combined.

The screw portion 214 of the case connecting tube 224 of the hose holder 220 is coupled to the screw portion 214 of the plug case 210 so that the hose holder 220 is located behind the plug case 210. Combined.

As shown in FIG. 12, the plug pin 230 is integrated with the plug pin head 232 at the front of the stem 231. The plug pin head 232 has a cone-shaped expansion part 232a and a flange 232b. ) Is continuous, and a cone-shaped socket pin head groove 232c is integrally formed inside the expansion pipe 232a.

As shown in FIG. 13, the sleeve 240 is formed of a cylindrical body in which a passage 240b is formed at the center thereof, and a sealing material 240a is coupled to the front side thereof.

The plug pin 230 has a stem spacer 250 coupled to the rear as shown in FIG. 14, and the stem 231 is inserted into the stem hole 252 formed at the center of the stem spacer 250.

The stem spacer 250 is formed of a circular cylinder. A passage 251 is formed radially around the stem hole 252, and a sputtering surface 253 is formed around the passage 251.

In the above, the plug pin 230 is positioned horizontally in the inner center of the sleeve 240, the front of the sleeve 240 is caught on the rear surface of the flange 232b of the sleeve 240 The stem 231 of the plug pin 230 is inserted into the stem head hole 162 of the stem spacer 250 so as to be horizontally positioned at the inner center of the plug case 210.

Accordingly, the slot pin head groove 232c of the stem 231 faces the socket pin head 140 of the socket 100, and the sleeve 240 and the flange 232b of the stem 231 have a plug case ( The passage 211 of the 210 and the first and second passages 221 and 222 of the hose holder 220 are blocked.

The stem spacer 250 is positioned inside the plug case 210, and the front surface of the stem spacer 250 is caught by the sealing reattachment surface 212, and is disposed between the sleeve 240 and the stem spacer 250. The spring 231a is interposed.

In the above, the diameter of the stem spacer 250 is equal to or slightly smaller than the diameter of the inner circumferential surface of the passage 211 of the plug case 210, without moving inside the passage 211 by the sealing recombination surface 212 Will be located.

The plug 200 is configured such that the hose holder 220 is coupled to the hose 220a is coupled to the rear of the plug case 210, the plug pin (232b) adjacent to the sleeve 240 in the inner center ( 230 is positioned, and a spring 231a is interposed between the sleeve 240 and the stem spacer 250.

Accordingly, a passage 211 formed in the plug case 210 by the sleeve 240 and the flange 232b of the stem 231 is blocked or opened, and the plug pin 230 pushes the socket pin 130. The passage of the socket 100 and the plug 200 is opened.

19 shows a fluid transfer coupler according to another embodiment of the present invention, which allows the male thread portion 110c to be formed at the outer periphery of the distal end of the socket case 110 and the female thread portion at the inlet inner circumferential surface thereof. When the fastening nut 300 having the 310 is installed in the plug case 210 so that the plug 200 enters the socket 100 and the fluid is transferred, the socket by the fastening nut 300. The plug 200 is to be prevented from being separated at 100.

In the above, the fastening nut 300 is formed in a cup shape, the female thread portion 310 is formed on the inner circumferential surface of the inlet, the hole 311 is formed on the opposite side of the inlet, the periphery of the hole 311 Hanging jaw 312 is formed.

Therefore, the fastening nut 300 is located on the outer circumferential surface of the plug case 210 of the plug 200, so that the locking ring jaw 312 is caught by the annular protrusion 210c integrally formed on the outer circumferential surface of the plug case 210. do.

20 and 21 show another embodiment of the fluid transfer coupler according to the present invention, the fluid transfer coupler forms a "L" shape, while the holder (before, backward to the fastening lever 400) The socket 100 is horizontally fixed to the bracket 432 of the 430 and the plug 200 is horizontally fixed to the bracket 420 facing the bracket 432 so that the socket 100 is fastened to the bracket 432. When the fluid is transferred by allowing the plug 200 to enter into the socket 100 by being moved forward and backward by the lever 400, the plug 200 in the socket 100 by the fastening lever 400. ) Is to be prevented from departure.

In the above, the holder rail 431 is formed horizontally in the lower portion of the holder 430, the guide rail 421 which is located on the upper portion of the holder rail 431 in the lower portion of the bracket 420 is horizontally The fastening lever 400 is formed with a guide passage 411 forming an arc.

A pin 412 is formed on the sidewall of the holder 430 to move along the guide passage 411, and a central axis 410 is formed on the sidewall of the bracket 420 as a center of the fastening lever 400. ) Is built up.

The present invention constituted in this way,

a) When the socket 100 and the plug 200 are waited in a state adjacent to the same axis as shown in FIG. 15 and then the plug 200 is inserted into the socket 100 as shown in FIG.

b) the tip of the sleeve 240 located at the tip of the plug 200 is stopped by abutting against the sleeve catching jaw 113 located inside the socket case head 110a of the socket case 110, and at this time, the sleeve The outer circumferential surface of the sleeve 240 is blocked by the tip sealing material 240a of the 240 and the O-ring 115a of the O-ring groove 115.)

c) Subsequently, as shown in FIG. 17, the head 141 of the socket pin head 140 is inserted into the socket pin head groove 232c of the plug pin 230.

d) Then, the plug case head 210a surrounding the sleeve 240 enters the plug case head groove 110b at the inlet of the socket case head 110a, as shown in FIG. The plug pin 230 positioned at the inner center of the sleeve 240 at the same time as the abutment stops moves the socket pin 130 blocking the second passage 112 of the socket case 110 to move the hose holder 120. ) Passages 121 and 122 and passages 111 and 112 of the socket case 110 and passages 240b of the sleeve 240 and passages 211 and the hose holder 220 of the plug case 210. By opening the passages 221 and 222 of the

e) The path through which the fluid is transported is the hose 120a-the first and second passages 121 and 122 of the hose holder 120-each passage 155 of the stem spacer 150-the socket case 110. The first passage 111 of the socket head 110 between each wing 163 of the stem head spacer 160, the second passage 112 of the socket case 110 was blocked by the second packing (145b) of the socket pin head 140 -Space created at the inlet of the sleeve 240 as the plug pin 230 is advanced-passages 240b of the sleeve 240-respective passages 251 of the stem spacer 250-the first and the hose holder 220 The second passages 221 and 222 are to be conveyed via the hose 220a.

f) In the above, the socket pin 130 which is moved by the plug pin 230 is moved with the stem head spacer 160 to be located between the stem head spacer 160 and the stem spacer 150 (131a) ),

g) After the tip of the sleeve 240 comes into contact with the sleeve engaging jaw 113 of the socket case 110 and stops, the plug case head 210a is plug case engaging jaw 114 of the plug case head groove 110b. When stopped in contact with the plug 200 is blocked further entry into the socket 100, compressing the spring 231a by the distance that the plug case head 210a is moved to the plug case engaging jaw 114.

h) When the fluid transfer supply is completed in the above state, the front end portion of the plug 200 may be separated in the socket 100, and at the same time, the springs 131a and 231a are restored and the socket pins 130 are restored. The second packing 145b of the socket case 110 to block the second passage 112, the front end of the sleeve 240 is blocked on the back of the flange 232b of the plug pin 230, the fluid was transferred Is located inside the first passage 111 of the socket case 110 and inside the passage 211 of the plug case 210.

In the above, the spring 231a is positioned between the sleeve 240 and the spring engaging surface 253 of the stem space 250.

100: socket 110: socket case
110a: Socket case head 110b: Plug case head groove
110c: male thread 111: first passage
112: second passage 113: sleeve engaging jaw
114: plug case engaging jaw 115: O-ring groove
115a: O-ring 116: thread
117 sealing member bonding surface 117a sealing member
118: cover tube 120: hose holder
120a: hose 121: first passage
122: second passage 123: central tube
123a: Hall 1 123b: Hall 2
123c: sealing recombination surface 124: case connector
124a: stem spacer coupling surface 124b: screw portion
125: hose connector 130: socket pin
131: stem 131a, 231a: spring
132: stem head 133: guide cylinder
134: thread groove 135: packing groove
135a: first packing groove 135b: second packing groove
140: socket pin head 141: head
142: head flange 144: screw rod
145a: first packing 145b: second packing
150: stem spacer 151: body
152: stem hole 153: connecting rib
154 ring 155 passage
160: stem head spacer 161: body
162: stem head hole 163: wing
200: plug 210: plug case
210a: plug case head 210c: annular protrusion
211 passage 212 sealing recombination surface
213: O ring groove 213a: O ring
214: screw portion 215: cover tube
220: hose holder 220a: hose
221: first passage 222: second passage
223: center tube 224: case connector
224a: Sealing material 224b: Threaded portion
225: hose connector 230: plug pin
231 stem 232 plug pin head
232a: Expansion pipe 232b: Flange
232c: Socket pin head groove 240: Sleeve
240a: sealing material 240b: passage
250: stem spacer 251: passage
252: stem hole 253: spring engaging surface
300: tightening nut 310: female thread
311 Hole 312: Hanging Jaw
400: tightening lever 410: central axis
411: guide passage 412: pin
420,432: Bracket 421: Guide rail
430: holder 431: holder rail

Claims (5)

A fluid transfer coupler in which a plug enters and engages a socket, whereby a fluid is transferred.
A socket pin 130 having a cone-shaped head 141 at its distal end is elastically installed horizontally at the inner center of the socket case 110 by a spring 131a and by a packing 145b of the head flange 142. A socket 100 through which the passage 112 of the socket case 110 is opened and closed;
The plug pin 230 having a cone-shaped socket pin head groove 232c at the tip end is installed at the inner center of the sleeve 240 and the inner center of the plug case 210 located inside the tip of the plug case 210. A plug 200 in which the sleeve 240 is elastically installed by the spring 231a and the passage 240b of the sleeve 240 is opened and closed by the plug pin 230; ≪ / RTI >
The sleeve 240 and the plug pin 230 of the plug 200 enter the inlet of the socket 100 to move the socket pin 130 and simultaneously move the sleeve 240 so that the passage of the socket case 110 is moved. Passage 112b of sleeve 112 and sleeve 240 to be opened to allow fluid to be transferred,
The socket 100 has a plug case head groove 110b, a plug case catching jaw 114, a sleeve catching jaw 113, a second passage 112, and a first passage 111 from an inlet of the socket case head 110a. ), The socket part 110 is formed in a sequential manner while the threaded portion 116 forms the same center; The outer circumferential surface of the screw portion 124b, the inner circumferential surface of the case connecting pipe 124, the second passage 122 is formed, the inner circumferential surface of the first tube 121, the central tube 123, the hose 120a is connected Hose connecting pipe 125 and the hose holder 120 is formed sequentially while forming the same center; A stem head 132 and a packing groove 135 are formed at the front end of the stem 131, and first and second packings 145a and 146b are installed at the center of the packing groove 135, and a cone shape is formed at the front end of the stem 131. A socket pin 130 to which a socket pin head 140 having a head 141 is coupled; It is elastically supported by a spring (131a), and consists of a stem spacer 150, the stem head spacer 160, which are respectively installed on the stem 131 and the stem head 132 outer peripheral surface of the socket pin 130; The socket pin 130 is horizontally installed in the first passage 111 of the socket case 110, the second packing (146b) fluid transfer coupler, characterized in that the first passage 111 to open and close. The method of claim 1,
The plug 200 is a plug case 210 formed sequentially from the inlet of the plug case head 210a while the O-ring groove 213, the passage 211, the sealing reattachment surface 212, and the screw portion 214 form the same center. )Wow; A screw connecting portion 224b is formed on the outer circumferential surface of the case connecting pipe 224 having the first passage 221 formed therein, a central tube 223 having the second passage 222 formed on the inner circumferential surface thereof, and a hose 220a being connected thereto. A hose holder 220 having a connection pipe 225 formed in the same center and sequentially; A plug pin 230 having a cone-shaped socket pin head groove 232c and a flange 232b formed at the distal end of the stem 231; A cylindrical sleeve 240 installed on the inner circumferential surface of the plug case head 210a and caught by the flange 232b; It is composed of a stem spacer 250 that is elastically supported by the sleeve 240 by the spring 231a and installed on the outer circumferential surface of the stem 231 of the plug pin 230, and the plug pin 230 is the plug case 210. Is installed horizontally in the passage (211) of the fluid transfer coupler, characterized in that the inlet of the sleeve 240 is opened and closed. The method according to claim 1 or 2,
The socket 100 and the plug 200 is a coupler for fluid transfer, characterized in that the coupling is maintained by the fastening nut (300). The method according to claim 1 or 2,
The socket 100 is horizontally fixed to the bracket 432 of the holder 430 moved forward and backward by the fastening lever 400, the plug 200 is fixed to the bracket facing the bracket 432 Fixed to 420 horizontally, the coupler for fluid transfer, characterized in that the socket 100 and the plug 200 is located adjacent to the same axis. delete

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