JP4463219B2 - Flexible hose with coupler using cam arm hose coupler - Google Patents

Description

The present invention is fitted to the adapter that is attached to one end of the pipe, to the coupler with a flexible hose to use Hosukapu la cam arm type for connecting the flexible hose to the pipe and fixed by the operation of the cam arm.

Flexible hoses are used in areas where relative displacement or removal in the piping system is expected, such as in the middle between fixed piping and equipment, and cam arm hose couplers that can be attached and detached with a single touch are used at locations where flexible hoses are connected to fixed piping. used.
FIG. 5 is a perspective view showing an example of a very general cam arm type hose coupler, FIG. 6 is a sectional view of the cam arm 21 opened, FIG. 7 is a sectional view of the cam arm 21 closed, and 1 is a piping side. 2 is a coupler body, 21 is a cam arm, 22 is a pin which is the rotation center thereof, 23 is a gasket inserted between the adapter 1 and the coupler body 2, and 24 is a tip of the cam arm 21. Reference numeral 26 denotes a ring, 26 is an opening provided on both sides of the coupler body 2, and 3 a is a hose shank portion provided integrally with the coupler body 2.

  The cam arm coupler attaching / detaching mechanism will be briefly described. The base of the cam arm 21 is a cam. When the cam arm 21 is opened to the outside, the cam retracts from the opening 26. When the cam arm 21 is closed, the cam protrudes from the opening 26. 1 to the recess 11. With the cam arm 21 opened, the coupler main body 2 is fitted on the adapter 1 at the end of the pipe, and when the cam arm 21 is closed, the adapter 1 and the coupler main body 2 are connected. A gasket 23 is inserted between the coupler main body 2 and the adapter 1, and in a connected state, the airtightness is maintained by lightly crushing the gasket 23. Since a flexible hose made of rubber or the like is fitted to the hose shank portion 3a, the pipe and the hose are thereby connected. When removing, the cam arm 21 is opened and released immediately. In a place where vibration is large, the ring 24 is tied with a wire or the like to prevent it from coming off and wound around a hose.

FIG. 8 is a perspective view showing another example of a cam arm type hose coupler, FIG. 9 is a cross-sectional view, and the difference from the one shown in FIGS. 5 to 7 is that the hose shank 3 is separated from the coupler body 2 and is different. It is that you are. Since the hose can be rotated even when the coupler main body 2 is connected to the pipe, twisting and the like can be eliminated.
The procedure for attaching the hose coupler shown in FIGS. 8 and 9 to the tip of the hose will be described with reference to FIGS. FIG. 10 is an explanatory view showing the mounting operation. As can be seen from FIG. 9, the diameter of the tip spreading portion of the hose shank 3 is larger than the inner diameter of the portion of the coupler body 2 than the hose. It must be inserted in the direction of the arrow in FIG.

After the hose shank 3 is press-fitted into the coupler body 2 and fixed, the hose is fitted to the bamboo-like portion of the protruding hose shank 3. A caulking collar 51 is placed on the tip of the hose.
11 and 12 are explanatory diagrams showing the caulking work. When the hose 5 to which the coupler is attached is fixed to a caulking machine which is a kind of press machine, and the top end of the hose shank 3 is press-fitted in the direction of the arrow with the upper mold D1, the lower mold D2 which is divided into two is pushed up relatively in the direction of the arrow. Since the outer side is guided so as to be moved inward when it is lifted, the outer diameter of the caulking collar 51 is reduced, and the hose 5 is fixed to the hose shank 3. FIG. 12 is a cross-sectional view showing a state after fixing. In this operation, since the upper mold D1 attached to the hydraulic cylinder or the like has to enter the inside of the coupler body 2, there is a dimensional limitation. Moreover, in order to prevent loss etc., it is better to remove the cam arm 21 temporarily.

  13 is a cross-sectional view showing a cam arm type hose coupler in another state in which the cam arm 21 is opened, FIG. 14 is a cross-sectional view showing the cam arm 21 closed, and FIG. 15 is a partial view of the hose coupler in FIG. It is a perspective view cut and shown. Reference numeral 4 denotes a number of bearing balls inserted between the coupler body 2 and the hose shank 3, and 28 denotes a plug for closing a bearing ball insertion port provided on the outer surface of the coupler body 2.

In this hose coupler, the coupler body 2 and the hose shank 3 are separated as in the previous example, but a large number of bearing balls 4 are inserted between them to form a ball bearing. This not only allows the hose to rotate more freely than the one shown in FIGS. 8 and 9, but also provides new convenience for attaching the coupler 2 to the hose 5.
FIG. 16 is a cross-sectional view illustrating this, wherein 29 is a ball groove provided on the inner surface of the end portion of the coupler body 2, and 32 is a ball groove provided on the outer surface of the end portion of the hose shank 3. Since the outer diameter of the hose shank 3 is smaller than the inner diameter of the coupler body 2, both of them can freely enter and exit until the bearing ball 4 is inserted. That is, it is not necessary to pass the coupler body 2 through the hose 5 before fitting the hose shank 3 to the tip of the hose 5 as described above, and after the hose shank 3 is fitted to the tip of the hose 5, the coupler body 2 can be inserted. When the hose shank 3 is fitted to the tip of the hose 5 and the positions of the ball grooves 29 and 32 coincide with each other, the ball is filled from the insertion port to form a ball bearing, and the insertion port is closed with the plug 28 to complete the connection.

By the way, in the food industry, pharmaceutical industry, precision processing, etc., in piping systems that require a high degree of cleanliness for hygienic and quality control reasons, stainless steel pipes are used for fixed pipes, and flexible hoses are used for flexible hoses. In many cases, a fluorine resin coating is used on the inner surface to prevent contamination.
The lining extends to the hose shank portion at the tip and is opened and fixed in the radial direction at the tip. For this purpose, it is necessary to heat the fluororesin coating to about 350 ° C. and press it. This process cannot be performed unless the hose has the coupler body 2 attached to the hose. However, in the conventional hose coupler shown in FIGS. 5 to 12, the hose is already fixed to the hose shank. Since the main body is attached, it cannot be used for a hose with a fluororesin lining.

Similarly, in the case of a conventional hose coupler, if the hose is damaged, the coupler body 2 can be used again if the hose is replaced. However, if the coupler body is damaged, the hose must be removed. Since the coupler cannot be taken out, there is a problem that the entire coupler and hose must be replaced.
An object of the present invention is to realize a hose with a fluororesin lining by employing a hose coupler capable of lining the hose without being hindered by the coupler body.

The flexible hose with a coupler of the present invention is connected to an adapter attached to one end of a pipe at the end of a hose having a fluororesin lining on the inner surface, and is connected to and fixed to the pipe by operating a cam arm. A flexible hose with a coupler to which a hose coupler is attached,
The hose coupler is divided into a coupler main body coupled to the adapter, and a hose shank attached to one end of the hose and inserted inside the coupler main body, and a ball groove of the coupler main body and a ball groove of the hose shank; Are rotatably coupled to each other by filling a large number of bearing balls between them,
The hose is fitted to the outer periphery of the hose shank of the hose coupler at the end, and at the same time, the inner lining is fitted to the inner surface of the hose shank, and the tip is opened in the radial direction and overlapped with the tip of the hose shank. It is what.

  According to the present invention, the hose may be assembled to the coupler main body at the final stage, so that the hose can be freely processed, and a special hose such as a flexible hose with a fluororesin lining can be easily obtained. It has an excellent effect that it can be manufactured.

  In the present invention, the hose can be freely attached to and detached from the coupler body, so that the treatment at the end of the hose end of the fluororesin lining that must be performed with heat can be performed without hindering the coupler body. Also, replacement due to damage of the hose is easy.

Embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a cross-sectional view showing a cam arm type hose coupler according to an embodiment and a hose having the end attached thereto, and the respective reference numerals are the same as those described so far.
The hose coupler is divided into a coupler main body 2 fitted to an adapter on the piping side and a hose shank 3 attached to one end of the hose 5 and inserted inside the coupler main body 2. A large number of bearing balls 4 are filled between the ball grooves of the hose shank 3 so as to be rotatable together.

Further, the hose 5 is fitted into the outer bamboo shoot-like portion of the hose shank 3 of the hose coupler at the end and fixed by the caulking collar 51. Is opened in the radial direction and overlapped with the tip of the hose shank 3.
As described above, the bearing ball 4 is finally inserted and the coupler main body 2 and the hose shank 3 may be joined. Therefore, the hose 5 is attached to the hose shank 3 and the lining 52 is applied to the coupler main body 2. It can be done without any restrictions. Even after use, the coupler main body 2 and the hose shank 3 are easily separated by removing the bearing ball 4, so that if there is damage or the like, they can be replaced separately. If the outer diameter of the ball groove 32 on the hose shank 3 side is designed to be larger than the outer diameter of the gasket 23, the gasket 23 can be taken out to the hose shank 3 side without any risk of damage. It is convenient for.

  FIG. 2 is an explanatory view showing the operation of fixing the end of the hose 5 to the hose shank 3. The end of the hose 5 covered with the caulking collar 51 on the tip is fitted to the outer bamboo shoot-like portion of the hose shank 3, and the lower die D2 is arranged on the outside of the caulking collar 51, and the caulking machine such as a press machine is used. When the upper die D1 is pushed down from above, the lower die D2 is relatively pushed up and brought inward so that the outer diameter of the caulking collar 51 is reduced, and the hose 5 is fixed to the hose shank 3.

Unlike the case described above with reference to FIG. 11, the hose shank 3 is separated from the coupler body 2, so that the size of the upper die D <b> 1 is not restricted.
Next, the fluorine resin lining will be described. As shown in FIG. 3, a tube-like fluororesin 52 is inserted inside the hose 5 and fitted. The tip is slightly protruded from the hose shank 3. Since the fluororesin is thermoplastic, the tip portion is heated to about 350 ° C. to be softened, and the tip portion is crushed and expanded in the radial direction by the same processing as in FIG. Overlay the tip. As shown in FIG. 1, this widened portion becomes a contact surface with the gasket 23 and is connected to an adapter to form an airtight structure.

  When the processing on the hose side is completed, insertion into the coupler body 2 and insertion of the bearing ball 4 to form a hose coupler is the same as the conventional one described in FIG.

It is sectional drawing which shows the hose coupler of this invention Example. It is explanatory drawing which shows the operation | work which attaches a hose to a hose shank in this invention Example. It is explanatory drawing explaining the fluororesin lining in this invention Example. It is explanatory drawing explaining the fluororesin lining similarly in this invention Example. It is a perspective view which shows an example of a conventional general hose coupler. FIG. 6 is a perspective view of the hose coupler of FIG. 5. FIG. 6 is a perspective view of the hose coupler of FIG. 5. It is a perspective view which shows the other conventional example of a hose coupler. It is sectional drawing of the hose coupler of FIG. FIG. 10 is an explanatory diagram showing an operation of attaching the coupler to the hose in the hose coupler shown in FIGS. It is explanatory drawing which shows the crimping operation | work in the operation | work of FIG. It is explanatory drawing which similarly shows the crimping operation | work in the operation | work of FIG. It is sectional drawing which shows the other example of the conventional hose coupler. It is sectional drawing of the hose coupler similarly shown in FIG. FIG. 15 is a cut perspective view of the hose coupler of FIG. 14. FIG. 16 is a cross-sectional view illustrating a method for assembling the hose coupler shown in FIGS. 13 to 15.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Adapter 2 Coupler main body 3 Hose shank 3a Hose shank part 4 Bearing ball 5 Hose 11 (Adapter) recessed part 21 Cam arm 22 Pin 23 Gasket 24 Ring 26 Opening part 28 (Bearing ball insertion port) Plug 29, 32 Ball groove 51 Caulking Color 52 lining

Claims (1)

The end of the hose (5) having a lining (52) of the fluororesin on the inner surface, is connected to the adapter (1) attached to one end of the pipe, connecting said hose (5) to the pipe by the operation of the cam arm (21) A flexible hose with a coupler to which a cam arm type hose coupler to be fixed is attached ,
A coupling body (2) of the hose coupler is connected to the adapter (1), wherein attached to one end of the hose (5), the coupler body to a hose shank which is inserted inside the (2) (3) Divided and filled with a large number of bearing balls (4) between the ball grooves (29) of the coupler body (2) and the ball grooves (32) of the hose shank (3) so as to be rotatably connected to each other. Is,
The hose (5) is fitted to the outer periphery of the hose shank (3) of the hose coupler at the end, and at the same time, the inner lining (52) is fitted to the inner surface of the hose shank (3), and the tip is radially directed. It is opened and superimposed on the tip of the hose shank (3)
Flexible hose with coupler.

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