KR101756464B1 - Pitting for Connecting Hose to Coolant Hole in Mold - Google Patents

Abstract

A fitting (1) for connecting a hose of a mold cooling water hole according to the present invention has a water passage (11) formed through the center of a longitudinal end face, and a hole (2 And a hose connection part 13 to which the hose 3 is coupled is formed on the other side of the main body 10; An O-ring 20 inserted into the hose connection part 13 and allowing the fitted hose 3 to maintain a watertight state; A sleeve 30 continuously inserted into the hose connection part 13 to the O-ring 20; And a plurality of fasteners 41 inserted into the sleeve 30 in the hose connection part 13 and supported by the sleeve 30 and annularly arranged. So that the hose 3 is prevented from being detached and the hose 3 is pulled out when an external force is applied and the fasteners 41 are opened, A tension retaining ring 40 for releasing the retaining ring 40; A guide drum 50 inserted into the hose connection part 13 in parallel to the tension mounting ring 40 and having a pair of guide slots 52 inclined along the outer circumferential surface 51; And in a state of being advanced, the tensioner mounting ring 40 is pressed so that the mounting screws 41 are pulled out of the main body 10 in a state of being inserted into the guide drum 50, The inserted hose 3 is allowed to be released from the hose 3 while being held in the resilient state by not allowing the retaining ring 40 to press the retaining ring 40 in the retracted state, And a pair of guide protrusions 61 that protrude from the outer circumference of the pressure tube portion 61 and slide along the guide slots 52 while being inserted into the corresponding guide slots 52. [ A slide protrusion (62), and a grip portion (63) formed so as to be able to be turned around the mouth of the pressure tube portion (61); .

Description

TECHNICAL FIELD [0001] The present invention relates to a fitting for a hose connection of a mold cooling water hole,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a fitting for connecting a hose of a mold cooling water hole, and more particularly, to a fitting capable of safely separating a hose as a fitting provided for connecting a hose to a cooling water hole formed in a mold.

As is well known, injection molding is a molding method in which a molten polymer is injected into a cavity of a mold and then cooled to produce a specific type of product. As is well known, the quality of an injection molded product depends on the injection speed, injection pressure, The temperature of the mold is determined by the temperature of the mold and the temperature of the mold. When the temperature of the mold is outside the proper temperature range during the injection process, the molding is defective and causes defects. Generally, a cooling water hole is formed in the mold, A suitable cooling system is provided to maintain the proper injection temperature.

The cooling water holes of the mold are formed in various arrangements in order to obtain the optimum cooling efficiency suited to the characteristics of the injection product, and the hoses are connected by using the fitting between the cooling water holes to form the whole cooling water line.

5 is a schematic view of a mold in which a cooling line is formed by connecting a hose to a cooling water hole with a fitting.

The mold 200 shown in Fig. 5 is an example in which a total of 48 cooling water holes 201 are formed on each of the front and rear sides. In order to construct a cooling line in the mold 200, adjacent cooling water holes 201 The fitting 203 is widely used for connecting and disconnecting the hose 202 to and from the connection between the cooling water hole 201 and the hose 202. In this case,

6 to 8 are a perspective view, an exploded perspective view, and a use state sectional view of a conventional fitting, respectively.

As shown in the drawing, the conventional fitting 203 is formed with a water passage 211 through the center of the longitudinal section, and has a hole connecting portion (not shown) formed at one side thereof with a screw 212a for fastening the screw 201a of the cooling water hole 201 And a hose connection portion 213 to which the hose 202 is connected is formed on the other side of the main body 210; An O-ring 220 inserted into the hose connection 213 and providing a watertight coupling between the hose 202 and the hose 202; A sleeve 230 inserted into the hose connection part 213 in succession to the O-ring 220; The hose 202 is supported by the sleeve 230 and includes a plurality of annularly arranged mounts 241 elastically pressing the periphery of the hose 202 fitted with the mounts 241 to force the insertion state of the hose 202 A tension retaining ring 240 for retaining the hose 202 and allowing the hose 202 to disengage (release) when the fixture 241 is opened by an external force; A guide drum 250 inserted into the hose connection part 231 in succession to the tension mounting ring 240; And the main body 210 is caulked so as not to be detached from the main body 210 and is inserted into the guide drum 250. In the advanced state, the tension lock ring 240 is pressurized to cause the fixture 241 to be opened, And an operation cap 260 having a pressurizing barrel 261 that pressurizes the stationary barrel 241 without being pressurized and a handle 262 formed like a flange around the mouth of the pressurizing barrel 261.

Such a conventional fitting 203 is configured such that when the hose 202 is held by the hand and the hose 202 is pushed into the opening of the operation cap 260 by the hand of the hose 202, The hose 202 is inserted deeply into the hose connecting portion 213 after passing through the stationary ring 240, the sleeve 230 and the O-ring 220. In this inserted state, the stationary portion 241 of the tension- So that the cooling water can be supplied to the cooling water hole 201 without leakage as the O-ring 220 maintains water tightness.

When the injection operation is completed and the hose 202 is to be removed from the fitting 203 by pushing the operation cap 260 inward (left in Fig. 8) with one hand, the pressure cylinder 261 The hose 202 is pulled out with the other hand in a state in which the mounting stand 241 is opened by pressing the tension mounting ring 240.

At this time, when the operation cap 260 is pushed in with one hand, the diagonal positions of the flange-shaped grip portion 262 must be pressed with a uniform force so that the mounts 241 of the tension mount ring 240 are uniformly spread The hose 202 can be safely and easily pulled out. However, in the actual operation site, it is often the case that the grip portion 262 is not pressed at a diagonal position, or even when the grip portion 262 is pressed at a diagonal position, In this case, as the mounts 241 of the tension mount ring 240 are unevenly spread, the hose is not easy to release or incomplete, so that the operator often forcibly removes the hose.

Such forced separation of the hose in the conventional fitting 203 can cause damage to the fitting 203 or the hose 202 as well as the cooling water remaining in the hose is scattered while the hose is forcibly detached from the fitting It is possible to contaminate the injection product, the worker, and the workplace. Particularly, when the cooling water is scattered by the mold and the cooling water flows into the mold, product failure and mold damage can be caused. , The additional cost and the time required for the injection operation are consumed.

6 to 8, the cooling water hole 201 and the hole connecting portion 212 are coupled by screws 201a and 212a. In this case, the hole connecting portion 212 are screwed, it is inconvenient to cut the corresponding screw 201a for each of the cooling water holes 201.

Conventional fittings are disclosed in Korean Patent No. 10-0329582 entitled 'Fitting for Connecting Fluid Supply Tube', Korean Patent No. 10-0545896 'One-Touch fitting for Hose Connection', and Korean Patent No. 10-1296670 ' And a joint for a mold cooling hole connector of Korean Patent No. 10-1034248 related to the present inventor is known as a conventional technique for solving the problem of a method of screwing the hole connection portion and the cooling water hole.

SUMMARY OF THE INVENTION An object of the present invention is to solve the above-mentioned problem of the fitting applied to connect the hose to the cooling water hole of the mold. When the hose is detached from the fitting while the operation cap is pressed, It is possible to prevent the phenomenon that the hose is not easily detached from the fitting, and as a result, the damage of the fitting and the hose which may be caused by the incomplete disconnection of the hose in the fitting The contamination of the injection product, the worker and the workplace due to scattering of the cooling water, and the prevention of the product failure and the mold damage due to the scattered cooling water flowing into the mold.

It is still another object of the present invention to solve the problem of forming a screw in a cooling water hole when a fitting is fitted to a cooling water hole of a metal mold and when a screw connection is used for coupling the cooling water hole with the hole connection portion of the fitting And to provide a fitting that can be easily coupled to the cooling water hole without forming a screw in the cooling water hole.

According to the present invention, there is provided a fitting for hose connection of a mold cooling water hole.

The fitting according to the present invention includes a body, an o-ring, a sleeve, a tension mount ring, a guide drum, and an operation cap.

The main body has a water passage passing through the center of the longitudinal section, a hole connecting part formed at one side thereof and a hose connecting part connected to the hose at the other side.

The O-ring is inserted into the hose connection portion so that the fitted hose is kept watertight.

The sleeve is inserted into the hose connection portion in succession to the O-ring, and supports the tension mount ring.

Wherein the tension mount ring includes a plurality of mounts which are inserted into the sleeve at the hose connection portion and are supported by the sleeves and are arranged in an annular shape, and when the mounts are not applied, the mounts are elastically broken The hose is elastically pressed around the inserted hose so as to prevent the hose from being detached, and allows the escape of the hose when an external force is applied and the stables are opened.

The guide drum is inserted into the hose connection portion in succession to the tension mount ring and is symmetrically formed with a pair of guide slots inclined along the outer circumferential surface.

The operating cap is caulked so as not to be detached from the main body while being inserted into the guide drum so as to be rotatable and retractable. The operating cap includes a pressure cylinder, a pair of slide protrusions, and a handle.

The pressing tube portion presses the tension locking ring in the advancing state to allow the insertion of the hose to be released by allowing the fixing screws to flare, and when the retracted state does not press the tension locking ring, So that the inserted hose is not released.

Each of the slide protrusions is protrudingly formed on an outer periphery of the pressurizing barrel and slidably moves along the guide slot while being inserted into the corresponding guide slot.

The handle portion may be formed by, for example, a flange shape around the inlet of the pressure tube portion and may be turned by hand.

The hole connecting portion may include a nipple portion, a moving member, a pressurizing ring, and an O-ring.

The nipple portion is protruded from the hose connection portion. The water passage is formed through the center of the longitudinal end surface. A screw is formed on the outer peripheral surface. A taper portion having a large diameter on the hose connection portion is formed on the hose connection portion side have.

Wherein the moving member is caulked so as not to be detached from the nipple portion in a state where a screw formed on the inner circumferential surface is threadedly engaged with the screw of the nipple portion and a taper portion having a small diameter on the side of the hose connecting portion is formed on the hose connecting portion side, The distance from the hose connection portion varies depending on the coupling depth of the screws.

The pressure ring is inserted into the nipple portion between the tapered portion of the hose connecting portion facing the tapered portion of the moving member and the tapered portion of the moving member.

The o-ring of the hole connection portion is inserted into the nipple portion, inserted between the taper portion of the pressure ring and the taper portion of the nipple portion, and between the taper portion of the moving member and the taper portion, And the space formed by the pressing ring.

One of the two O-rings of the hole connection portion may be replaced with a washer.

The fitting according to the present invention uniformly presses the mounts of the tension mount ring while the pressurizing barrel is advanced by the operation of rotating the operation cap rather than pressing the operation cap by hand, It is not easy to remove the hose from the hose connection by uneven pressure so that the fittings and the hose are damaged due to forcibly removing the hose, the contamination of the injection product, the worker and the workplace due to scattering of the cooling water, There is an effect that it is possible to prevent the defective product and the mold damage due to the inflow into the mold.

In the fitting according to the present invention, by screwing the coupling between the hole connecting portion and the hole, it is possible to easily insert the hole into the hole by simply turning the main body with a hand or a tool without troublesome operation of forming a screw in the cooling water hole of the mold. The fittings of the present invention can be combined and separated.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a perspective view of an exemplary fitting according to the present invention,
Figures 2 and 3 are exploded perspective views of exemplary fittings according to the present invention,
Figure 4 is a schematic cross-sectional view of the use of an exemplary fitting according to the present invention,
5 is a schematic view of a mold in which a cooling line is formed by connecting a hose to a cooling water hole with a fitting,
6 is a perspective view of a conventional fitting,
7 is an exploded perspective view of a conventional fitting,
8 is a schematic cross-sectional view showing a state of use of a conventional fitting.

Hereinafter, a fitting for connecting a hose of a mold cooling water hole according to the present invention will be described in detail with reference to the accompanying drawings. The following specific examples are intended to illustrate the present invention without limiting it.

In the following description, the fitting of the present invention is mainly described for use in connecting a hose to a cooling water hole of a metal mold. However, the fitting of the present invention is applicable to other technical fields similar to connecting a hose to a cooling water hole of a mold Application is also not excluded.

The fitting 1 according to the present invention is a fitting 1 applied to connect the hose 3 to various holes 2 such as the cooling water holes 2 of the mold M as shown in Figs. And includes a main body 10, an O-ring 20, a sleeve 30, a tension mount ring 40, a guide drum 50, and an operation cap 60.

The main body 10 is a member for forming a skeleton as a whole in the fitting 1 of the present invention. The main body 10 is provided with a water passage 11 through which cooling water passes, for example, horizontally along substantially the center of the longitudinal section, (Left side in FIGS. 1 and 2) is formed with a hole connecting portion 12 to be coupled to a hole (cooling water hole of a mold) 2 and a hose 3 is connected to the other side A hose connecting portion 13 is formed.

The first feature of the fitting 1 according to the present invention is that of the hose connection 13 to which the hose 3 is connected so that the hole connection 12 can be used to connect the fitting 1 of the invention to the mold M is not particularly limited as long as it can be connected to the same hole 2 as the cooling water hole 2 without leakage.

The hose connection portion 13 is formed with a water passage 11 along the center of the longitudinal section and the water passage 11 serves as a passage through which the cooling water of the metal mold passes, The sleeve 30, the tension mount ring 40, the guide drum 50, and the operation cap 60 are mounted. The hose connection portion 13 of the illustrated embodiment is formed in a substantially nut-like shape for use of a tool such as a spanner for screw connection with a moving member 120 described later, but is not limited thereto.

The o-ring (20) of the hose connection part (13) is inserted into the hose connection part (13). The O-ring 20 functions to keep the hose 3 inserted in the hose connecting portion 13 watertight without leakage. That is, when the hose 3 is inserted into the O-ring 20, the O-ring 20 is tightly fitted between the inner surface of the hose 3 and the hose connecting portion 13 to prevent leakage.

The sleeve 30 is an annular member continuously inserted into the hose connecting portion 13 to the O-ring 20 and is a supporting member for elastically deformably supporting a tension locking ring 40 to be described later.

The tension retainer ring 40 is inserted into the sleeve 30 in the hose connection portion 13 and is elastically deformably supported on the sleeve 30. [ As is known, the tension retaining ring 40 is widely used in fittings, and is referred to as various names such as a tension washer, a holding member, and a mount.

As shown in the drawing, the tension mount ring 40 has a plurality of mounts 41 arranged in an annular shape toward the center, and the mounts 41 are elastically held in a state in which the mounts 41 are not in an external force When the external force is applied, the mounts 41 are opened, and when the external force disappears, the mounts 41 are returned to the elastically collapsed state.

Therefore, when the hose 3 corresponding to the size of the tension retaining ring 40 is forcibly pushed through the jaw holes of the tension retaining ring 40, the lifted catches 41 are slightly opened to permit entry of the hose The hoses 41 are pressed by the elasticity of the hoses 41. When the external force is not applied to the hoses 41 in such a state, the hoses 41 are elastically broken while maintaining the inserted hoses 3 , The inserted hose 3 is not inadvertently released (escaped) from the hose connecting portion 13. As a result,

When an external force is applied to the tension retaining ring 40 and the fasteners 41 are opened in a state in which the hose 3 is not released by the tension retaining ring 40, the pressing force of the fasteners 41 against the hose 34 (Withdrawal) of the hose 3 from the hose connection part 13 is allowed.

The guide drum 50 is a drum-shaped member that is inserted into the hose connecting portion 13 in succession to the tension mounting ring 40. On the outer peripheral surface 51 of the guide drum 50, a pair of guide slots 52, which are gently inclined in the same pattern, are symmetrically formed. That is, each guide slot 52 has its one end leaning toward the operation cap 60 and the other end extending along the outer circumferential surface 51 at a slanting gentle slant toward the tension retaining ring 40, for example, in a range of approximately 60 degrees to 90 degrees And the operation of the guide slot 52 will be described together with the operation cap 60 below.

The operation cap 60 is inserted into the guide drum 50 so as to be rotatable and retractable and is mounted so as not to be detached from the hose connecting portion 13 by a widely known caulking method and is provided with a pressurizing cylinder portion 61, And includes a slide projection 62 and a handle 63.

The pressurizing cylinder portion 61 is a barrel-shaped portion that is inserted into the guide drum 50 so as to be rotatable and retractable.

The distal end portion of the pressing barrel 61 presses the tension locking ring 40 so that the locking bars 41 are opened and consequently the insertion of the tension barrel ring 40 into the tension locking ring 40 The hose 3 is allowed to depart (drop). On the other hand, in the state where the pressure tube portion 61 is retracted, the tensioning locking ring 40 is not pressed, whereby the fixing portions 41 are elastically held in the closed state, Is omitted).

The slide protrusions 62 protrude diagonally from the outer circumference of the pressure tube section 61. The slide protrusions 62 are inserted into the guide slots 52 in a state of being inserted into the corresponding guide slots 52, As shown in FIG.

The handle portion 63 is a handle portion formed in a flange shape, for example, so as to be hand-held and rotatable around the inlet of the pressure tube portion 61. [

According to the above-described interaction between the operation cap 60 and the guide drum 50, when the operator holds the handle 63 and rotates the operation cap 60 in one direction, the pressure cylinder 61 rotates, The protrusion 62 is slid in one direction along the guide slot 52. Since the operation cap 60 is coated on the hose connection portion 13 of the main body 10 and is fixed so as not to move back and forth, The drum 50 advances toward the tension lock ring 40. As a result, the stems 41 are opened and the hose 3 becomes easy to insert and remove.

Conversely, when the worker holds the handle 63 and rotates the operation cap 60 in the other direction, the slide projection 62 slides in the other direction along the guide slot 52 as the presser barrel 61 rotates At this time, since the operation cap 60 is caught by the hose connection portion 13 of the main body 10 and is fixed so as not to move back and forth, the guide drum 50 is retreated from the tension mounting ring 40, And the hoses 3 inserted into the hose connecting portion 13 are held firmly without being dislodged.

That is, according to the fitting 1 of the present invention, the operation of the operation cap 60 is not performed by hand, but by the operation of rotating in one direction, the pressure tubular portion 61 is advanced, So that it is not easy to remove the hose from the hose connecting portion 13 due to uneven pressurization of the mounting portions as in the conventional fittings, thereby preventing the above-mentioned problems caused by forcibly removing the hose. .

As described above, the conventional fitting 203 shown in Figs. 6 to 8 has a structure in which the cooling water hole 201 and the hole connecting portion 212 are coupled by fastening the screws 201a and 212a, respectively, It is not excluded to apply the hole connection portions of Figs. 6 to 8 as the hole connection portion 12 to be applied to the fitting 1 according to the present invention. It is not excluded that the hole connection portion applied to the 'joint' of the above-mentioned Japanese Patent No. 10-1034248 which does not need to form a screw in the cooling water hole is used as the hole connection portion 12 of the fitting 1 according to the present invention.

1 to 4, the nipple part 110, the moving member 120, the pressurizing ring 130, and the pressurizing ring 130 may be used as another hole connecting part 12 that can be applied to the fitting 1 according to the present invention. , And an O-ring (140).

The nipple part 110 is formed as a part of the main body 10 and protrudes from the hose connection part 13. The water flow path 11 is formed along the center of the longitudinal section and the screw 111 is formed on the outer peripheral surface have. The tapered portion 112 having a larger diameter on the side of the hose connecting portion 13 and a smaller diameter on the opposite side is formed on the side of the nipple portion 110 in contact with the hose connecting portion 13,

The moving member 120 is formed with a screw 121 on the inner circumferential surface thereof and the screw 121 of the moving member 120 is screwed to the screw 111 of the nipple portion 110. The moving member 120 is mounted on the nipple unit 110 without being detached by a widely known caulking method while being screwed to the nipple unit 110. The moving member 120 is formed with a tapered portion 122 on the side of the hose connecting portion 13 with a small diameter on the side of the hose connecting portion 13 and a large diameter on the opposite side. The distance between the moving member 120 and the hose connecting portion 13 varies according to the screwing depth of the screw 111 of the nipple portion 110 and the screw 121 of the moving member 120. [

The presser ring 130 is a ring-shaped member having a pressing action to be fitted into the nipple portion 110 between the tapered portion 112 of the hose connecting portion 13 and the tapered portion 122 of the moving member 120 Member. The width of the pressure ring 130 is set such that when the shifting member 120 is screwed to the hose connecting portion 13 with a certain distance therebetween, And extends between the tapered portions 122 of the hose connecting portion 13.

The O-ring 140 is inserted into the nipple part 110 and is inserted between the tapered part 122 of the pressing ring 130 and the moving member 120 and between the pressing ring 130 and the tapered part of the nipple part 110 112, respectively. The O-ring 140 keeps the water-tight state between the hole 2 and the hole connecting portion 12 inserted therein and the hole connecting portion 12 inserted into the hole 2 is held from the hole 2 And acts to prevent unintended withdrawal.

In order to more reliably prevent the hole connection portion 12 inserted into the hole 2 from being unintentionally separated from the hole 2, any one of the two O-rings 140 may be replaced with the washer 150 . 1 to 4, an O-ring 140 is inserted between the pressing ring 120 and the tapered portion 112 of the nipple portion 110, and the pressing ring 130 and the moving member 120 are inserted into the space between the pressing ring 120 and the tapered portion 112 of the nipple portion 110, A washer 150 is used instead of the O-ring 140 in the case of FIG.

In the illustrated embodiment, the O-ring 140 inserted between the pressurizing ring 130 and the tapered portion 112 of the nipple portion 110 is in contact with the tapered portion 112 of the nipple portion 110 and the cooling water hole 2, And the space S1 formed by the presser ring 130. [0064] Although not shown, when the O-ring 140 is inserted between the presser ring 130 and the tapered portion 122 of the movable member 120, the O-ring 140 moves the tapered portion 122 of the movable member 120 and the cooling water hole 2 and the space S2 formed by the presser ring 130. As shown in Fig.

The washer 150 replaced with the O-ring 140 in the illustrated embodiment is inserted into the space S2 defined by the tapered portion 122 of the moving member 120, the inner circumferential surface of the cooling water hole 2, and the pressing ring 130 It is surrounded. Although not shown, a washer 150 may be used instead of the O-ring 140 between the pressurizing ring 130 and the tapered portion 112 of the nipple portion 110. In this case, the washer 150 may be inserted into the nipple portion 110, And the space S1 formed by the inner peripheral surface of the cooling water hole 2 and the pressing ring 130. [

In the example of the illustrated hole connection portion 12 in which the O-ring 140 is inserted into the tapered portion 112 of the hose connection portion 13 and the washer 150 is inserted into the tapered portion 122 of the shifting member 120, The pressing ring 130 and the washer 150 are sequentially inserted into the nipple portion 110 and the screw 111 of the nipple portion 110 and the screw 121 of the moving member 120 are slightly screwed After the hole connecting portion 12 of the fitting 1 according to the present invention is inserted into the hole 2, the body 10 is rotated by the hand or a tool to move the moving member 120 to the nipple portion 110, The tapered portion 122 of the shifting member 120 pushes the washer 150 toward the hose connecting portion 13 and the washer 130 is pushed toward the hose connecting portion 13 when the shifting member 120 approaches the hose connecting portion 13, 150 push the pressing ring 130 toward the hose connecting portion 13 so that the O-ring 140 is inserted into the space S1 formed by the inner peripheral surface of the tapered portion 112 and the cooling water hole 2 and the pressing ring 130 In the enveloped state, the pressure ring 130 As a result, the O-ring 140 closes the gap between the nipple portion 110 and the cooling water hole 2 to maintain a watertight state in which the cooling water is not leaked. When the body 10 is further tightened, The fittings 1 of the present invention are firmly fixed to the inner wall of the cooling water hole 2 and are not inadvertently detached.

The operation of the nipple portion 110, the moving member 120, the pressurizing ring 130, the O-ring 140 and the washer 150 as described above is such that the O-rings 140 Is inserted and the washer 150 is inserted into the tapered portion 112 of the hose connecting portion 13.

When the two O-rings 140 are applied without replacing the washer 150, the two pressed O-rings 140 are pressed into the gap between the nipple portion 110 and the cooling water hole 2, The connection portion 12 is prevented from being inadvertently released from the hole 2.

1 to 4 is applied to the fitting 1 according to the present invention, the fitting of the present invention is tightly and tightly fitted to the hole 2 without forming a screw in the hole 2 Can be combined.

1: fitting 2 of the present invention: hole (cooling water hole of a mold)
3: Hose 10: Body
11: water passage 12: hole connection
13: Hose connection 20: O-ring
30: Sleeve 40: Tension mount ring
41: Mounting 50: Guide Drum
51: outer circumferential surface 52: guide slot
60: Operation cap 61:
62: slide projection 63: handle portion
110: Nipple part 111: Screw
112: tapered portion 120: moving member
121: screw 122: tapered portion
130: Pressurizing ring 140: O-ring
150: Washer

Claims (3)

And a hose connection part 13 is formed at the other side of the hole connection part 12 to which the hose 3 is coupled. (10);
An O-ring 20 inserted into the hose connection part 13 and allowing the fitted hose 3 to maintain a watertight state;
A sleeve 30 continuously inserted into the hose connection part 13 to the O-ring 20;
And a plurality of fasteners 41 inserted into the sleeve 30 in the hose connection part 13 and supported by the sleeve 30 and annularly arranged. So that the hose 3 is prevented from being detached and the hose 3 is pulled out when an external force is applied and the fasteners 41 are opened, A tension retaining ring 40 for releasing the retaining ring 40;
A guide drum 50 inserted into the hose connection part 13 in parallel to the tension mounting ring 40 and having a pair of guide slots 52 inclined along the outer circumferential surface 51; And
The tongue 41 is caulked so as not to be detached from the main body 10 while being inserted into the guide drum 50 such that the tongue 41 can be rotated and moved forward and backward, So that the inserted hose 3 is allowed to be released and in the retracted state, the tensioning ring 40 is not pressed, so that the mounting screws 41 are maintained in a resiliently resilient state, A pair of slides which are slidably moved along the guide slot 52 in a state of being inserted into the corresponding guide slot 52 while being protruded from the outer periphery of the pressurizing barrel 61, An operation cap (60) having a projection (62) and a handle portion (63) formed so as to be able to be turned around the entrance of the pressure tube portion (61);
And a hose connection fitting for the mold cooling water hole. The method according to claim 1,
The hole connection part (12)
And a screw 111 is formed on the outer circumferential surface of the water passage 11. The diameter of the hose connection part 13 is larger than the diameter of the hose connection part 13, A tapered portion 112 formed on the hose connection portion 13 side;
The screw 121 formed on the inner circumferential surface is caulked so as not to be detached from the nipple part 110 in a state where the screw 121 is screwed to the screw 111 of the nipple part 110, A moving member 120 having a tapered portion 122 formed at a side of the hose connecting portion 13 and having a varying distance from the hose connecting portion 13 in accordance with a depth of engagement of the screws 111 and 121;
A pressing ring 130 inserted into the nipple part 110 between the tapered part 112 of the hose connecting part 13 and the tapered part 122 of the moving member 120; And
The taper portion 112 of the nipple portion 110 and the taper portion 112 of the pressing ring 130 and the taper portion 112 of the moving member 120 are inserted into the nipple portion 110, And two o-rings 140 (S1, S2) which are respectively inserted between the inner circumferential surfaces of the tapered portions 112, 122 and the holes 2 and the spaces S1, S2 formed by the presser rings 130, );
And a hose connection fitting for the mold cooling water hole. 3. The method of claim 2,
Wherein one of the two O-rings (140) of the hole connection part (12) is replaced by a washer (150).

Images