JP3696764B2 - Hose clamp - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a hose clamp for fastening a rubber hose or the like to an end of a connection pipe, and more particularly to an improvement of a holderless type hose clamp that can maintain its expanded state without using a holder.
[0002]
[Prior art]
As this type of conventional hose clamp, for example, there is one shown in Japanese Patent Laid-Open No. 10-61855.
The conventional hose clamp is not specifically shown, but includes a clamping ring bent in a C-shape with a metal strip and a pair of standing up in the radial direction intersecting from both ends of the clamping ring. One grip has an arch-shaped wide opening with a guide groove opening established on the tightening ring side, and the other grip moves in the guide groove. An engagement piece that has a narrow width that can be formed, and that forms a locking piece extending inwardly on the side edge of one grip, and is detachably locked to the locking piece on the side edge of the other grip. It is the structure which forms.
[0003]
For this reason, when using a conventional hose clamp, when a pair of grips are gripped by a pliers and approached in the circumferential direction, the engaging piece of the other grip wraps around the back side of the locking piece of one grip. Since the clamping ring is held in an expanded state, the hose is inserted into the clamping ring and the hose is fitted to the end of the connection pipe. When the other grip is gripped by the pliers and approached in the width direction, the engaging piece of the other grip slides out of the locking piece of one grip, and the locked state therebetween is released. The fastening ring is automatically reduced in diameter by its own restoring force, and the hose can be fastened and fixed to the connecting pipe.
[0004]
[Problems to be solved by the invention]
Therefore, under the conventional hose clamp, the diameter of the tightening ring can be obtained without using the holder that has been used so far, and if the engagement state of the engagement piece with respect to the engagement piece is released, Although it has an advantage that the diameter of the fastening ring can be automatically reduced, on the other hand, when the engagement state of the engagement piece with respect to the engagement piece is released, the diameter of the fastening ring is rapidly reduced on the hose. Therefore, the possibility of the hose tightening posture becoming unsatisfactory or the hose tightening position being distorted due to the reaction was sufficiently considered.
[0005]
[Means for Solving the Problems]
The present invention was developed in order to effectively solve the problems of the conventional hose clamp. The invention according to claim 1 is a C-shaped fastening ring and the fastening ring. It consists of a pair of grips that intersect from both ends of the ring and stand up in the radial direction, and one grip has an opening of a guide groove opened on the tightening ring side and exhibits an arch-like wide dimension, The other grip has a narrow dimension that can move in the guide groove. When the tightening ring is reduced in diameter in a free state, the hose can be tightened. When the pair of grips are brought close to each other, the grip is tightened. In the hose clamp for expanding the diameter of the ring, the groove edge of the guide groove close to one grip is provided with a locking portion for releasably locking the other grip, and the groove edge of the guide groove continuing from the locking portion The other grip When a pair of grips are further approached in the circumferential direction from the state in which the other grip is locked to the locking portion, the other grip is provided. Has a structure in which it moves in a direction away from the locking portion according to the taper shape of the guiding portion, and thereafter, the fastening ring is reduced in diameter without the other grip contacting the locking portion.
[0006]
According to a second aspect of the present invention, on the premise of the first aspect, a bent portion along the concave shape of the inner edge of the locking portion is formed on the side edge of the other grip, or the entire width direction of the other grip is formed. The structure which forms the hollow part from which depth changes along the concave shape of the inner edge of a latching | locking part was employ | adopted.
[0007]
The invention described in claim 3 is based on the premise of claims 1 and 2 and has a structure in which a step higher than the general thickness of the tightening ring is given to the continuous locking portion and the guiding portion by a thickness greater than that of the fastening ring. Adopted.
[0008]
The invention described in claim 4 is composed of a C-shaped clamping ring and a pair of grips that stand up in the radial direction crossing from both ends of the clamping ring. It has a guide groove opening on the side of the attached ring and has an arch-like wide dimension, and the other grip has a narrow dimension that can move in the guide groove so that the tightening ring is in a free state. When the diameter is reduced, the hose can be tightened, and when a pair of grips are brought close to each other, a hose clamp that expands the diameter of the fastening ring is provided with a locking portion at the groove edge near one grip of the guide groove. An engaging portion for releasably engaging with the engaging portion is provided at the fastening ring portion near the other grip, and the opening direction of the guide groove of the one grip having the other grip on the outer edge of the engaging portion Tapered invitation to guide When the pair of grips are further moved in the circumferential direction from the state where the engaging portion is locked to the locking portion, the other grip moves while being shifted laterally according to the taper shape of the guiding portion. The joint portion moves in a direction away from the locking portion, and thereafter, the configuration is adopted in which the diameter of the tightening ring is reduced without the engaging portion contacting the locking portion.
[0009]
The invention according to claim 5 is based on the premise of claim 4 and adopts a configuration in which a lateral shift prevention piece projects from the tip of the locking portion.
[0010]
The invention described in claim 6 is based on the assumptions of claims 4 to 5 and adopts a configuration in which the locking portion is provided with a step higher than the general surface of the tightening ring by the plate thickness.
[0011]
Therefore, in the first aspect of the invention, when the pair of grips are gripped by the pliers and approached in the circumferential direction, and the other grip is locked to the locking part, the diameter of the tightening ring is increased. In this state, when the pair of grips are gripped by the pliers and further approached in the circumferential direction, the other grip is detached from the locking portion and is guided by the guide portion toward the opening direction of the guide groove. After that, conversely, if the grip of the pliers is gradually loosened, the diameter of the fastening ring can be reduced slowly. Therefore, unlike the conventional case, there is no fear that the hose tightening posture or the hose tightening position may be distorted due to the rapid diameter reduction of the tightening ring.
[0012]
In addition to this, in the invention according to the second aspect, there is no fear that the other grip is laterally displaced and disengaged from the locking portion under the expanded diameter state of the tightening ring. In the invention according to claim 3, in addition to this, when the fastening ring is expanded or contracted by the step provided to the locking portion and the guiding portion, the grip of one grip and the other grip Since the base portions do not interfere with each other, smooth expansion or contraction of the tightening ring can be ensured.
[0013]
In the invention of claim 4, when the pair of grips are gripped by the pliers and approached in the circumferential direction, and the engaging portion is locked to the locking portion, the diameter-enlarged state of the tightening ring is obtained, In this state, when the pair of grips are gripped by the pliers and further approached in the circumferential direction, the other grip is guided by the guide portion in the opening direction of the guide groove, and the engaging portion is disengaged from the locking portion. If the grip of the pliers is gradually loosened, the fastening ring can be gradually reduced in diameter. Therefore, there is no need to worry about the hose tightening posture or the hose tightening position being unsatisfactory due to the rapid reduction of the diameter of the tightening ring as in the prior art.
[0014]
In addition to this, there is no fear that the engaging portion is laterally displaced and disengaged from the locking portion under the expanded diameter state of the tightening ring. In the invention of claim 6, in addition to this, when the fastening ring is expanded or contracted by the step provided to the locking portion, the base portions of one grip and the other grip are Since interference does not occur, smooth expansion or contraction of the tightening ring can be ensured.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the present invention will be described in detail with reference to each preferred embodiment. First, the hose clamp according to the first embodiment is a C-shaped metal strip as shown in FIGS. And a pair of grips 2A and 2B that intersect from both ends of the tightening ring 1 and stand in the radial direction. One grip 2A is located on the tightening ring 1 side. The opening 2a of the guide groove 3 to be opened has an arch-like wide dimension, and the other grip 2B has a narrow dimension that can move in the guide groove 3 so that the fastening ring 1 is contracted in a free state. It is assumed that the hose can be tightened when the diameter is increased, and the diameter of the tightening ring 1 is increased when the pair of grips 2A and 2B are brought close to each other.
[0016]
And in 1st embodiment, the convex latching | locking part 4 which latches the side edge of the other grip 2B so that engagement / disengagement is provided in the groove edge near one grip 2A of the said guide groove 3 is provided. In addition, a tapered guide portion 5 for guiding the other grip 2B in the direction of the opening 3a of the guide groove 3 is provided at the groove edge of the guide groove 3 continuing from the lock portion 4, and the continuous lock portion 4 and the guide are guided. As shown in the drawing, the step 5 is positively provided with a step 6 that is one step higher than the general surface of the tightening ring 1 by its plate thickness. A tapered portion 7 is also provided on the outer edge of the locking portion 4. Further, the positional relationship between the locking portion 4 and the guiding portion 5 described above is based on the side edge of the other grip 2B in the free state, and the front end of the locking portion 4 is located outside the reference side edge. The peripheral edge of the guiding portion 5 is set so as to protrude on the same line or the inner side of the reference side edge.
[0017]
Therefore, when the pair of grips 2A and 2B are gripped by the pliers and are brought close to each other in the circumferential direction, the other grip 2B moves while being in sliding contact with the tapered portion 7 of the locking portion 4, so When the grips 2A and 2B are slightly shifted in the width direction, the side edge of the other grip 2B is locked to the locking portion 4, thereby holding the tightening ring 1 in the expanded diameter state. In such a state, when the pair of grips 2A and 2B are gripped by the pliers and further approached in the circumferential direction, the other grip 2B is disengaged from the locking portion 4, and this time, the tapered guide Since the guide 5 is guided in the direction of the opening 3a while being displaced laterally by the portion 5, the other grip 2B comes into contact with the locking portion 4 if the grip of the pliers is gradually loosened. Without guide groove 3 Because gradually moved, thereby clamping ring 1 it is possible to shrink slowly.
[0018]
Therefore, when the hose (not shown) is fastened and fixed to the end of the connection pipe (not shown) using the hose clamp having such a configuration, first, the pair of grips 2A and 2B are attached to the pliers ( 3), the side edges of the other grip 2B are guided to the tapered portion 7 and locked to the convex locking portion 4 as shown in FIG. Thus, the tightening ring 1 is held in the expanded diameter state.
[0019]
Then, after that, a hose is inserted into the tightening ring 1 in the expanded diameter state, the hose is fitted into the end of the connection pipe, and the pair of grips 2A and 2B in the approaching state are gripped by the pliers. When further approaching in the circumferential direction, as shown in FIG. 4, the other grip 2 </ b> B is automatically disengaged from the locking portion 4, guided to the guide portion 5, and shifted laterally toward the opening 3 a of the guide groove 3. On the contrary, if the grip of the pliers is gradually loosened, the other grip 2B is gradually brought into the guide groove 3 without coming into contact with the locking portion 4 as shown in FIG. It moves and it becomes possible to reduce the diameter of the fastening ring 1 slowly. Accordingly, as in the prior art, there is no fear of the hose tightening posture being inferior or the hose tightening position being out of order due to the rapid diameter reduction of the tightening ring 1.
[0020]
When the diameter of the tightening ring 1 is increased, the other grip 2B is locked to the locking portion 4 by using the restoring force of the tightening ring 1, so that it is temporarily shifted and locked. Although there is no fear of coming off from the portion 4, when it is necessary to prevent lateral displacement more reliably, for example, as shown in FIG. 6, the inner edge of the locking portion 4 is formed in a concave shape on the side edge of the other grip 2B. A bent portion 8 is formed, or, as shown in FIG. 7, a recessed portion 9 whose depth changes along the concave shape of the inner edge of the locking portion 4 is formed in the entire width direction of the other grip 2B. Then, if the bent portion 8 or the recessed portion 9 of the other grip 2B is configured to overlap the locking portion 4, the lateral displacement of the other grip 2B can be more reliably prevented, so the other grip There is no worry that 2B will come off from the locking portion 4.
[0021]
Further, in the first embodiment, even when the diameter of the tightening ring 1 is increased due to the positively provided step 6 equal to or greater than the plate thickness between the continuous locking portion 4 and the guiding portion 5. Even when the diameter is reduced, the base portions of the pair of grips 2A and 2B do not interfere with each other, so that a smooth diameter expansion or diameter reduction of the tightening ring 1 can be ensured. The positional relationship between the engaging portion 4 and the guiding portion 5 is such that the engaging portion 4 is located on the right side in the figure with respect to the reference side edge when the side edge of the other grip 2B in the free state is used as a reference. Since the guide portion 5 is located on the same line as the reference side edge or on the left side in the figure, the smooth expansion or contraction of the tightening ring 1 can be ensured also from this point.
[0022]
Next, the hose clamp according to the second embodiment will be described. The second embodiment basically follows the first embodiment, but the difference is that FIG. As shown in FIG. 4, a locking portion 4 whose tip protrudes in the opposite direction from the opening 3a is extended at the groove edge near one grip 2A of the guide groove 3, while the fastening ring 1 portion near the other grip 2B In addition, an engagement portion 10 that is detachably engaged with the distal end of the engagement portion 4 is provided, and the other grip 2B is guided to the outer edge of the engagement portion 4 in the direction of the opening 3a of the guide groove 3. The guide portion 5 is provided.
[0023]
Therefore, under the second embodiment, the pair of grips 2A and 2B are gripped by the pliers and approached in the circumferential direction, and at this point, the pair of grips 2A and 2B are slightly shifted in the width direction. Then, as shown in FIG. 9, the engaging portion 10 is locked to the tip of the locking portion 4, so that the tightening ring 1 is held in an expanded state.
[0024]
In such a state, when the pair of grips 2A and 2B are gripped by the pliers and further approached in the circumferential direction, the other grip 2B is provided on the outer edge of the locking portion 4 as shown in FIG. Accordingly, the engaging portion 10 is disengaged from the locking portion 4 as shown in FIG. Thus, after the pair of grips 2A and 2B are completely approached, this time, if the grip of the pliers is gradually loosened, the engaging portion 10 comes into contact with the locking portion 4 as shown in FIG. Without this, the other grip 2B gradually moves in the guide groove 3, and the diameter of the fastening ring 1 can be slowly reduced.
[0025]
Therefore, even in the second embodiment, it is possible to slowly reduce the diameter of the tightening ring 1, so that the hose tightening posture can be achieved with the rapid diameter reduction of the tightening ring 1 as in the prior art. Therefore, there is no need to worry about the failure of the hose or the hose tightening position. Further, in the second embodiment, since the lateral displacement prevention piece 11 is projected at the tip of the locking portion 4, there is a concern that the engaging portion 10 may be laterally displaced from the locking portion 4 and come off. Not at all.
[0026]
In the second embodiment, the engaging portion 10 near the other grip 2B is simply cut and raised, but as shown in FIG. It is possible to bend the portion further in the lateral direction, and when the stepped portion 6 is added to the locking portion 4, the side wall of the guide groove 3 provided with the locking portion 4 is generally simply Although it is one step higher than the surface, as shown in FIG. 13B, it is also possible to maintain the side wall at the same height as the general surface and to provide a step 6 at a portion continuous with the groove edge. . In particular, in this case, since the tightening area of the tightening ring 1 with respect to the outer peripheral surface of the hose can be increased, a more secure tightening and fixing state can be obtained.
[0027]
【The invention's effect】
As described above, according to the present invention, by adopting the above configuration, under the first aspect, when a pair of grips are gripped by a plier and approached in the circumferential direction, and the other grip is locked to the locking portion, the tightening is performed. In this state, when the pair of grips are gripped by the pliers and further approached in the circumferential direction, the other grip is released from the locking portion and the guide portion opens the guide groove. Since it is guided in the direction, the fastening ring can be gradually reduced in diameter by gradually loosening the grip of the pliers. Therefore, unlike the conventional case, there is no fear that the hose tightening posture or the hose tightening position may be distorted due to the rapid diameter reduction of the tightening ring.
[0028]
Under the second aspect, in addition to this, there is no fear that the other grip will be laterally displaced and disengaged from the locking portion under the expanded diameter state of the tightening ring. Under the third aspect, in addition to this, the bases of one grip and the other grip interfere with each other when the fastening ring is expanded or contracted by the step provided to the locking portion and the guide portion. Therefore, smooth expansion or contraction of the tightening ring can be ensured.
[0029]
Under claim 4, when a pair of grips are gripped by a pliers and are brought close to each other in the circumferential direction, and the engaging portion is locked to the locking portion, an expanded state of the tightening ring is obtained. When the pair of grips are gripped by the pliers and further approached in the circumferential direction, the other grip is guided by the guide part in the opening direction of the guide groove, and the engaging part is released from the locking part. If the grip is gradually loosened, the diameter of the fastening ring can be reduced slowly. Therefore, there is no need to worry about the hose tightening posture or the hose tightening position being unsatisfactory due to the rapid reduction of the diameter of the tightening ring as in the prior art.
[0030]
Under the fifth aspect, in addition to this, there is no fear that the engaging portion is laterally displaced and disengaged from the locking portion under the expanded diameter state of the tightening ring. Under the sixth aspect, in addition to this, when the fastening ring is enlarged or reduced in diameter due to the step provided to the locking portion, the bases of one grip and the other grip may interfere with each other. Therefore, smooth expansion or contraction of the tightening ring can be ensured.
[Brief description of the drawings]
FIG. 1 is a perspective view showing a hose clamp according to a first embodiment of the present invention.
FIG. 2 is a front view of the same.
FIG. 3 is a plan view showing a state in which the diameter of the tightening ring is expanded.
FIG. 4 is a plan view showing a state in which the other grip is detached from the locking portion.
FIG. 5 is a plan view showing a state in which the diameter of the tightening ring is reduced.
6A is a perspective view of a main part showing another example of the other grip, and FIG. 6B is a plan view showing a state of being locked to the locking part.
FIG. 7A is a perspective view of a main part showing another example of the other grip, and FIG. 7B is a plan view showing a state of being locked to the locking part.
FIG. 8 is a perspective view showing a hose clamp according to a second embodiment.
FIG. 9 is a plan view showing a state where the diameter of the fastening ring is expanded.
FIG. 10 is a plan view showing a state in which the other grip is guided to the guide portion.
FIG. 11 is a plan view showing a state in which the engaging portion is disengaged from the locking portion.
FIG. 12 is a plan view showing a state in which the diameter of the tightening ring is reduced.
13A is a main part perspective view showing another example of the engaging part, and FIG. 13B is a main part perspective view showing another example of the step.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Clamping ring 2A One grip 2B The other grip 3 Guide groove 3a Guide groove opening 4 Locking part 5 Guide part 6 Step 7 Tapered part 8 Bending part (lateral deviation prevention means)
9 Indentation (side shift prevention means)
10 Engagement portion 11 Horizontal displacement prevention piece (lateral displacement prevention means)

Claims (6)

  A clamping ring bent in a C-shape and a pair of grips standing in the radial direction intersecting from both ends of the clamping ring, and one grip is a guide established on the clamping ring side It has a groove opening and has an arch-shaped wide dimension, and the other grip has a narrow dimension that can move in the guide groove. When the diameter of the tightening ring is reduced in the free state, the hose is tightened. When a pair of grips are brought close to each other, in a hose clamp that expands the diameter of the tightening ring, the other grip is locked to the groove edge near the one grip of the guide groove so as to be detachable And a tapered guiding portion that guides the other grip toward the opening direction of the guide groove of the one grip at the groove edge of the guide groove that continues from the locking portion. Locked to the part When the pair of grips is further brought closer to the circumferential direction from the state, the other grip moves in a direction away from the locking portion according to the taper shape of the guide portion, and thereafter, the other grip does not contact the locking portion. A hose clamp characterized in that the fastening ring has a reduced diameter.   Form a bent portion along the concave shape of the inner edge of the locking portion on the side edge of the other grip, or the depth along the concave shape of the inner edge of the locking portion in the entire width direction of the other grip. The hose clamp according to claim 1, wherein a hollow portion that changes is formed.   The hose clamp according to any one of claims 1 to 2, wherein a step that is higher than the general surface of the tightening ring by a thickness equal to or greater than the plate thickness is provided to the continuous locking portion and the guide portion.   A clamping ring bent in a C-shape and a pair of grips standing in the radial direction intersecting from both ends of the clamping ring, and one grip is a guide established on the clamping ring side It has a groove opening and has an arch-shaped wide dimension, and the other grip has a narrow dimension that can move in the guide groove. When the diameter of the tightening ring is reduced in the free state, the hose is tightened. When a pair of grips are brought close to each other, a hose clamp that expands the tightening ring is provided with a locking portion at the groove edge near one grip of the guide groove and tightened near the other grip. A taper-shaped guide portion that has an engagement portion that removably engages with the engagement portion on the ring portion, and that guides the other grip toward the opening direction of the guide groove of the one grip on the outer edge of the lock portion. And the engaging part is When the pair of grips are further moved in the circumferential direction from the state of being locked to the locking portion, the other grip moves while being shifted laterally according to the taper shape of the guiding portion, and the engaging portion is released from the locking portion. The hose clamp is characterized in that the diameter of the tightening ring is reduced without the engagement portion coming into contact with the locking portion.   5. The hose clamp according to claim 4, wherein a lateral displacement prevention piece is protruded from the tip of the locking portion.   The hose clamp according to any one of claims 4 to 5, wherein a level difference higher than the general thickness of the tightening ring is provided to the locking portion by a thickness greater than the plate thickness.

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