The present disclosure relates to an improvement in hose attaching structures for attaching a hose to a working apparatus.
Among the conventionally-known hose attaching structures for attaching a hose to a working apparatus, such as a water pump, is one which is designed to attach a hose to a water pump via a hose nipple. Examples of such a hose nipple includes one that is attached to a water pump using a claw, and one that is attached to a water pump through screw or threaded coupling engagement. One example of such a hose attaching structure is disclosed in Japanese Patent Application Laid-open Publication No. HEI-2-199295 (hereinafter referred to as “the relevant patent literature”).
In the hose attaching structure disclosed in the relevant patent literature, a hose is attached to a suction opening section formed in a horizontal direction of the water pump. The suction opening section of the water pump has a female threaded (i.e., internally-threaded) portion, and a hose nipple having the hose attached thereto has a male thread (i.e., externally-threaded) portion formed on one end portion thereof. The male threaded portion of the hose nipple is screwed into the female threaded portion of the suction opening of the water pump.
However, when the hose nipple, having the hose attached thereto, is to be screwed into the suction opening of the water pump, the hose nipple would tilt due to the weight of the hose, and thus it would be difficult to bring the male and female thread portions into appropriate meshing engagement with each other. Therefore, some improvement has to be made in order to threadedly couple the hose nipple, having the hose attached thereto, to the suction opening section of the water pump.
In view of the foregoing problems, it is preferable to provide an improved technique for readily threadedly couple a hose nipple, having a hose attached hereto, to a working apparatus without being adversely influenced by the weight of the hose.
In order to accomplish the above, one aspect of the present disclosure provides an improved hose attaching structure for attaching a hose to a working apparatus, which comprises: a hose nipple having the hose attached thereto; and an annular hose coupling connected to the hose nipple, the hose coupling having, on the inner peripheral surface thereof, a non-threaded portion and a female threaded portion to be screwed onto a male threaded portion formed on a distal end portion of a nozzle of the working apparatus, the non-threaded portion being located on a distal end portion of the inner peripheral surface of the hose coupling to be inserted over the nozzle and having such an inner diameter that the non-threaded portion is fittable over the male threaded portion of the nozzle. The hose nipple connected with the hose coupling is threadedly coupled to the nozzle through meshing engagement between the female threaded portion of the hose coupling and the male threaded portion of the nozzle.
Because the non-threaded portion is formed on a distal end portion of the inner peripheral surface of the hose coupling to be inserted over the nozzle and has such an inner diameter that the non-threaded portion is fittable over the male threaded portion of the nozzle, the non-threaded portion functions as a guide for appropriately positioning the hose coupling relative to the nozzle. Namely, the non-threaded portion guides the hose coupling in such a manner that the respective axes of the hose coupling and the nozzle are brought into alignment. Thus, the present disclosure can greatly facilitate positioning of the hose coupling relative to the nozzle, preventing mutual clinging or biting between the male and female threaded portions and thus permits appropriate meshing engagement and tightening between the male and female threaded portions without being influenced by the weight of the hose. As a result, the present disclosure can readily threadedly couple the hose nipple, coupled with the hose coupling and having the hose attached thereto, to the nozzle of the working apparatus.
In an embodiment, the non-threaded portion is located closer than the female threaded portion to the distal end of the hose coupling, and the inner diameter of the non-threaded portion is substantially equal to the outer diameter of the male threaded portion of the nozzle so that, when the female threaded portion and the male threaded portion are in meshing engagement with each other, the male threaded portion is covered with the non-threaded portion. Because the non-threaded portion of the hose coupling covers the male threaded portion of the nozzle, the male threaded portion and the female threaded portion can be protected from muddy water and dirt and dust that would otherwise enter through a proximal end portion of the male threaded portion.
The following will describe embodiments of the present invention, but it should be appreciated that the present invention is not limited to the described embodiments and various modifications of the invention are possible without departing from the basic principles. The scope of the present invention is therefore to be determined solely by the appended claims.
Certain preferred embodiments of the present invention will hereinafter be described in detail, by way of example only, with reference to the accompanying drawings, in which:
The engine 11 includes: a partition wall 13 of the cylinder block 12; a mechanical seal 15 provided in a support hole 14 of the partition wall 13; and a crankshaft 16 rotatably mounted on the mechanical seal 15. The crankshaft 16 has an end portion 17 projecting into the case 21, and a vane wheel 31 is connected to the end portion 17 of the crankshaft 16.
A volute 32 is disposed within the case 21, and the vane wheel 31 is covered with the volute 32. The case 21 has an opening portion 26 closed with the partition wall 13 and the volute 32 is provided on the partition wall 13, so that an in-case flow passage 33 is defined with the partition wall 13, the case 21 and the volute 32. The in-case flow passage 33 is formed in a substantially annular shape between the case 21 and the volute 32.
The case 21 includes: a suction-side wall section 27 opposed to the partition wall 13; a suction passage section 28 communicating with the suction opening section 22 formed in the suction-side wall section 27; and an annular peripheral wall section 29 formed along the edge of the suction-side wall section 27.
The suction nozzle 40 extends in a horizontal direction from the suction opening section 22 and has a male threaded portion 42 formed on its distal end portion.
Further, a hose nipple 52 having a hose 51 attached thereto is connectable to the suction nozzle 40 via a hose coupling 50 in a manner to be described in detail below. A seal member 34 is disposed on the distal end of the suction nozzle 40 in such a manner that it is sandwiched between the hose nipple 52 and the suction nozzle 40 when the hose nipple 52 is connected to the hose nipple 40 via the hose coupling 50.
The following describe principal sections of the embodiment. As shown in
Further, the hose coupling 50 has a handle section 59 such that the hose coupling 50 can be readily rotated by use of the handle section 59.
The non-threaded portion 56 of the hose coupling 50 is located closer than the female threaded portion 55 to the distal end of the hose coupling 50 to be inserted over the suction nozzle 40. Further, the taper portion 54 is located closer than the non-threaded portion 56 to the distal end of the hose coupling 50 to be inserted over the suction nozzle 40.
The taper portion 54 is formed continuously with the non-threaded portion 56 in such a manner that it becomes gradually wider (i.e., greater in inner diameter) from one end of the non-threaded portion 56 toward the distal end of the hose coupling 50. In
Further, in
Thus, when the hose coupling 50 is to be connected to the nozzle 40, first, the taper portion 54 functions as a first guide for aligning the center of the distal end portion of the nozzle 40 and the center of the distal end portion of the hose coupling 50. Then, the non-threaded portion 56 functions as a second guide for aligning the axis of the nozzle 40 and the axis of the hose coupling 50. In this way, the female threaded portion 55 of the hose coupling 50 can be tightened over the male threaded portion 42 of the nozzle 40 easily and accurately.
The following describe behavior of a conventionally-known example of a hose attaching structure. (a) of
The hose nipple 104 and the hose coupling 105 are subjected to force in a direction of arrow A due to the weight of the hose 103, so that they are slightly tilted relative to the nozzle 101. When the hose coupling 105 is to be inserted over the nozzle 101, the center of the distal end portion of the nozzle 101 and the center of the distal end portion of the hose coupling 105 are aligned with each other by the guide function of the taper portion 107, but the hose nipple 104 and the hose coupling 105 stay tilted relative to the nozzle 101. Thus, the female threaded portion 108 would undesirably cling to, or bite into, the male threaded portion 102, so that the female threaded portion 108 and the male threaded portion 102 cannot be brought into appropriate meshing easily.
(b) of
Next, a description will be given about behavior of the embodiment of the hose attaching structure. (a) of
(b) of
(c) of
The following summarizes the above-described embodiment of the hose attaching structure. As shown in
Further, because the non-threaded portion 56 of the hose coupling 51 covers an end portion of the male threaded portion 42 of the nozzle 40, the male and female threaded portions 42 and 55 can be protected from muddy water and dirt and dust.
Whereas the working apparatus to which is applied the embodiment of the hose attaching structure has been described above as a water pump, the working apparatus may be any other type of apparatus as long as the hose attaching structure has an annular hose coupling that is threadedly coupled to, or screwed onto, a nozzle of the working apparatus. Furthermore, whereas the embodiment of the hose attaching structure has been described above as applied to a suction nozzle, the present invention is not so limited, and it may be applied to a discharge nozzle. Further, whereas the embodiment of the hose attaching structure has been described above as applied to a nozzle extending in a horizontal direction, the present invention is not so limited, and it may be applied to a tilted nozzle or a nozzle extending in a vertical direction.
The hose attaching structure of the present disclosure is particularly well suited for attaching a hose to a nozzle of a water pump.
Number | Date | Country | Kind |
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2013-185051 | Sep 2013 | JP | national |