JP2011046112A - Sealing pump-up device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a sealing pump-up device capable of reliably preventing repair liquid from leaking out to an external part by regulating rotation of a bottle after the opening. <P>SOLUTION: The sealing device 10 includes: an injection unit 20 which connects and fixes a mouth part 18B of a repair liquid bottle 18 thereto and has a gas-liquid supply pipe 50 connected by a joint hose 54 to be connected to a tire 100; an opening device 60 which is inserted to the injection unit 20, opens the mouth part 18B, at the same time, performs sealing between the repair liquid bottle 18 and the injection unit 20 and feeds compression air to the repair liquid bottle 18 through an air passage 92; and guide walls 102 to 105 and a side wall 16A which come into contact with an outer edge of a base stand 36 and regulate a relative rotation with respect to the opening device 60 of the injection unit 20 by inserting the base stand 36 of the injection unit 20 having a non-circular outer edge as viewed from the insertion direction in the case of the insertion of the opening device 60, whereby the rotation of the repair liquid bottle 18 after the opening is regulated and the leakage of the sealing agent 32 to an external part can be reliably prevented. <P>COPYRIGHT: (C)2011,JPO&amp;INPIT

Description

  The present invention provides a sealing agent for sealing a puncture hole of a punctured pneumatic tire into the pneumatic tire, and supplying compressed air into the pneumatic tire to increase the internal pressure of the pneumatic tire. The present invention relates to a pump-up device.

  In recent years, when a pneumatic tire (hereinafter simply referred to as “tire”) is punctured, the tire puncture hole is repaired with a sealing agent without replacing the tire and wheel, and the tire internal pressure is pumped to a specified pressure. Sealing / pump-up devices are widely used.

  As this type of sealing / pump-up device, a sealing device described in Patent Document 1 is known. In patent document 1, the external thread part provided in the neck part of the storage container which accommodated the sealing agent was screwed into the internal thread part provided in the joint part of the sealing agent extraction unit, and the storage container and the sealing agent extraction unit were It comes to connect. Here, when the external thread part of the storage container is screwed into the internal thread part of the sealant extraction unit by a predetermined amount, the seal that seals the opening of the neck part of the storage container by the chamfered part of the inner pipe part provided inside the joint part The membrane is pierced (opened) and the sealant in the storage container flows out into the sealant extraction unit. And gas is sent into the sealing agent extraction unit from the gas supply source, and the sealing agent is supplied to the tire through the outflow pipe connected to the tire by the gas pressure.

JP 2007-176181 A

  However, in the sealing device of Patent Document 1, since the external thread portion of the storage container is screwed into the internal thread portion of the sealant extraction unit, the screw is loosened by the gas pressure supplied into the storage container, or the storage container is rotated accidentally. It is conceivable that the sealant leaks out from the screwed part due to factors such as loosening the screw and screwing the storage container into the sealant extraction unit from the beginning.

On the other hand, as shown in FIG. 10, the opening member 128 is inserted into the insertion hole 126 of the injection unit 124 to which the repair liquid bottle 122 containing the repair liquid 121 is connected and fixed to the screw-type sealing device as in Patent Document 1. An insertion-type (plug-in) type sealing device 120 has been devised that opens (breaks) the sealing member 130 that seals the outlet of the repair liquid bottle 122 at the tip of the opening member 128.
The opening member 128 of the plug-in type sealing device 120 is provided with an O-ring 132 for sealing between the injection unit 124 and the opening member 128, and the opening member 128 inserted into the insertion hole 126. In order to prevent slipping out, a first support 134 having a claw 134A hooked on a first groove 124A formed on the outer wall of the injection unit 124 and a claw 136A hooked on a second groove 124B formed on the inner wall of the injection unit 124 are provided. The 2nd support | pillar 136 which has is provided.
In the case of such a plug-in type sealing device 120, once the opening member 128 is inserted into the insertion hole 126 of the injection unit 124, the claw 134A and the claw 136A are caught in the first groove 124A and the second groove 124B, respectively. Since the movement of the opening member 128 through the insertion hole 126 is regulated, even if the injection unit 124 rotates relative to the opening member 128, the screw-type sealing device as in Patent Document 1 is used. In comparison, it is considered that the possibility that the repair liquid 121 leaks from between the opening member 128 and the injection unit 124 is low.
However, the sealing device is required to reliably prevent the repair liquid from leaking outside.

  In view of the above facts, an object of the present invention is to provide a sealing / pump-up device that restricts rotation of a bottle after opening and reliably prevents the repair liquid from leaking outside.

  The sealing / pump-up device according to claim 1 is an injection unit in which a mouth of a bottle containing repair liquid is connected and fixed, and one end is connected to the other end of a piping member connected to a tire, and the injection unit And opening the sealing member that closes the mouth and sealing between the injection unit and sending the compressed air to the bottle through the air passage formed therein, and inserting the opening member, A non-circular portion whose outer edge is non-circular when viewed from the insertion direction of the opening member of the injection unit is inserted, and relative rotation of the injection unit with respect to the opening member is controlled by contacting the outer edge of the non-circular portion. A rotation restricting portion.

  According to the sealing and pump-up device of the first aspect, when the opening member is inserted into the injection unit, the sealing member that closes the mouth is opened. At this time, the non-circular portion of the injection unit is inserted into the rotation restricting portion. When the seal member is opened, compressed air is sent into the bottle through the air passage of the opening member, and the repair liquid flows from the bottle into the injection unit through the mouth by the pressure of the compressed air. At this time, since the opening member seals between the injection unit, the repair liquid is prevented from leaking outside. And the repair liquid and compressed air which flowed into the injection | pouring unit are sent to a tire through the piping member connected to the tire.

  Here, since the non-circular portion provided in the injection unit is inserted into the rotation restricting portion, the injection restricting unit that is rotated relative to the unsealing member is the rotation restricting portion. And contact with the outer edge of the non-circular portion. Thereby, the rotation of the bottle after opening is restricted, and the repair liquid is surely prevented from leaking to the outside from between the injection unit and the opening member.

  The sealing / pump-up device according to claim 2 is the sealing / pump-up device according to claim 1, wherein when the non-circular portion is inserted into the rotation restricting portion, the connection portion of the injection unit with the piping member is The shape of the non-circular portion and the shape of the rotation restricting portion are set so as to be arranged at a predetermined position when viewed from the insertion direction.

  According to the sealing / pump-up device of the second aspect, when the non-circular portion is inserted into the rotation restricting portion, the connecting portion of the injection unit is disposed at a predetermined position when viewed from the insertion direction. That is, since the direction of the connecting portion of the injection unit is determined, the extending direction of the piping member is also determined, and the piping member can be easily handled.

  The sealing / pump-up device according to claim 3 is the sealing / pump-up device according to claim 2, wherein the non-circular portion is provided closer to the distal end side in the insertion direction than the connection portion, and viewed from the insertion direction. A part of the projection protrudes so as to cover the connection portion.

  According to the sealing / pump-up device of claim 3, when the opening member is inserted into the injection unit, the protruding portion of the non-circular portion prevents the connection portion of the injection unit from hitting another member. It is possible to prevent a decrease in durability.

  The sealing / pump-up device according to claim 4 is the sealing / pump-up device according to any one of claims 1 to 3, wherein the opening member and the injection member are opened before the opening member opens the sealing member. The unit is sealed.

  According to the sealing / pump-up device of claim 4, since the gap between the opening member and the injection unit is sealed before the opening member opens the sealing member, the leakage of the repair liquid is effectively prevented.

  As described above, the sealing / pump-up device of the present invention can reliably prevent the repair liquid from leaking outside by regulating the rotation of the bottle after opening.

1 is a perspective view of a sealing device according to a first embodiment of the present invention. It is a perspective view which shows the use condition of the sealing apparatus of the 1st Embodiment of this invention. It is an expansion perspective view which shows the principal part of the sealing apparatus of the 1st Embodiment of this invention. It is an enlarged plan view which shows the principal part of the sealing apparatus of the 1st Embodiment of this invention. It is the sectional view on the AA line of FIG. 3 which shows the state before the opening apparatus of the sealing apparatus of the 1st Embodiment of this invention is inserted in a repair liquid bottle and an injection | pouring unit. It is the sectional view on the AA line of FIG. 3 which shows the state by which the opening apparatus of the sealing apparatus of the 1st Embodiment of this invention was inserted in the repair liquid bottle and the injection | pouring unit. It is the BB sectional drawing of FIG. 3 which shows the state by which the opening apparatus of the sealing apparatus of the 1st Embodiment of this invention was inserted in the repair liquid bottle and the injection | pouring unit. It is an expansion perspective view which shows the state before the opening apparatus of the sealing apparatus of the 1st Embodiment of this invention is inserted in an injection | pouring unit. It is an expansion perspective view which shows the state by which the opening apparatus of the sealing apparatus of the 1st Embodiment of this invention was inserted in the injection | pouring unit. It is a sectional side view of the opening device, repair liquid bottle, and injection | pouring unit which shows the state by which the opening apparatus of the conventional sealing apparatus was inserted in the repair liquid bottle and the injection | pouring unit.

[First Embodiment]
A sealing / pump-up device according to a first embodiment of the present invention will be described with reference to FIGS.

(overall structure)
As shown in FIGS. 1 and 2, a sealing / pump-up device 10 (hereinafter simply referred to as “sealing device”) is a pneumatic tire 100 (hereinafter simply referred to as “tire”) that is mounted on a vehicle such as an automobile. )), The puncture hole of the tire 100 is repaired with the sealing agent 32 (an example of a repair liquid) without replacing the tire and the wheel, and the internal pressure of the tire 100 is repressurized to the specified pressure (pump up). It is a device for doing.

  Further, the sealing device 10 includes a box-shaped casing 16, a compressor unit 12 that is contained in the casing 16 and generates compressed air, and a repair liquid bottle 18 that contains a sealing agent 32 for repairing a puncture hole of the tire 100. (An example of a bottle), an injection unit 20 to which the mouth portion 18B of the repair liquid bottle 18 is connected and fixed, and an opening device 60 that is inserted into the opening jig insertion hole 44 of the injection unit 20 to open the repair liquid bottle 18 ( An example of an opening member), an air hose 86 that connects the opening device 60 and the compressor unit 12, and a joint hose 54 that connects the injection unit 20 and the tire 100. In the sealing device 10 of the present embodiment, a liquid agent unit 70 (a unit in which the repair liquid bottle 18 and the injection unit 20 are connected and fixed) and the housing 16 are separately stored, and the sealing device When using 10, as shown in FIG. 2, each member is connected to a predetermined part.

(Casing)
As shown in FIG. 1, a compressor chamber 74 in which the compressor unit 12 is housed is provided inside the housing 16, and the compressor unit 12 is provided on the ceiling plate 80 disposed above the compressor chamber 74. The power switch 82 is provided.

  An area other than the compressor chamber 74 in the housing 16 is a storage chamber 76 that can be opened and closed by a lid 78. The storage chamber 76 measures the pressure of compressed air generated by the opening device 60 connected to the air hose 86 connected to the compressor unit 12, the power cable 14 connected to the compressor unit 12, and the compressor unit 12. A pressure gauge 84 and the like are accommodated.

  Here, the unsealing device 60 is housed in guide walls 102 to 105 (an example of a rotation restricting portion), which will be described later, standing from the bottom surface of the housing 16 and a housing portion 106 formed inside the side wall 16A.

  Note that a manual (not shown) is attached to the back surface of the lid 78 in which the operating procedure of the sealing device 10 and precautions for use are described. When the sealing device 10 is used, the lid 78 is opened so that the user can easily see the manual.

(Compressor unit)
As shown in FIG. 1, the compressor unit 12 includes an air compressor, a drive motor for the air compressor, a drive circuit for the drive motor, and the like (not shown). The compressor unit 12 is connected to a power cable 14 housed in the housing chamber 76, and a plug 15 that can be inserted into a socket of a cigarette lighter installed in the vehicle is provided at the tip of the power cable 14. It has been.

  By inserting the plug 15 into the socket of the cigarette lighter, power can be supplied from the battery mounted on the vehicle to the drive circuit. When the power switch 82 is turned on, power is supplied to the drive circuit. It has become. The compressed air generated by the air compressor is supplied to the opening device 60 through an air hose 86 extending to the outside of the compressor unit 12.

(Repair liquid bottle)
As shown in FIGS. 1 and 5, the repair liquid bottle 18 has a substantially rectangular parallelepiped shape, and a sealing agent 32 is accommodated therein. The sealing agent 32 is accommodated in a larger amount than the prescribed amount corresponding to the type, size, etc. of the tire 100 (see FIG. 2) to be repaired by the sealing device 10.

  A joint hose (an example of a piping member) 54 to be described later is wound around the both ends of the repair liquid bottle 18 in the width direction along the longitudinal direction (height direction) of the repair liquid bottle 18. Further, a cylindrical mouth portion 18B having a diameter smaller than that of the bottle main body 18A is formed at the lower end portion of the repair liquid bottle 18, and the inner peripheral surface of the mouth portion 18B becomes an opening 19 so that the repair liquid bottle 18 is formed. The sealing agent 32 is allowed to flow out from.

  A film-like aluminum seal (seal member) 26 is provided in the opening 19, thereby closing the opening 19 and sealing the repair liquid bottle 18. In addition, an annular stepped portion 24 projecting outward is formed at an intermediate portion of the outer peripheral surface of the mouth portion 18B, and an injection unit 20 described later can be brought into contact therewith.

(Injection unit)
As shown in FIG. 5, the injection unit 20 includes a unit main body portion 34 formed in a substantially bottomed cylindrical shape having an open upper end side, and a plate-like pedestal 36 projecting outward from the lower end portion of the unit main body portion 34. (An example of a non-circular portion).

  The mouth portion 18B of the repair liquid bottle 18 can be inserted into the unit main body portion 34 of the injection unit 20, and repair is performed with the upper end portion of the unit main body portion 34 being in contact with the stepped portion 24 of the mouth portion 18B. The injection unit 20 is connected and fixed to the mouth portion 18 </ b> B of the liquid bottle 18. The repair liquid bottle 18 to which the injection unit 20 is connected and fixed in this manner is hereinafter referred to as a liquid agent unit 70.

  On the shaft core side of the unit main body 34, a substantially cylindrical inner peripheral cylindrical portion 42 is formed on a concentric circle of the unit main body 34. The inside of the inner peripheral cylindrical portion 42 is a circular opening section jig insertion hole 44 that passes through between the lower end surface of the injection unit 20 and the upper end surface of the inner peripheral cylindrical portion 42 along the axis.

  An annular partition plate 35 is provided between the outer peripheral surface on the upper end side of the inner peripheral cylindrical portion 42 and the inner peripheral surface of the unit main body 34. When the unit main body 34 is fixed to the mouth 18B, A pressurized liquid supply chamber 40 is formed between the inner peripheral surface of the unit main body 34, the partition plate 35, and the aluminum seal 26. The pressurized liquid supply chamber 40 communicates with the interior of the repair liquid bottle 18 when the aluminum seal 26 is broken (opened) by the opening device 60. That is, when the aluminum seal 26 is broken and the opening 19 is opened, the sealing agent 32 that has flowed out from the opening 19 flows into the pressurized liquid supply chamber 40.

  A cylindrical gas-liquid supply pipe 50 communicating with the pressurized liquid supply chamber 40 protrudes from the outer peripheral surface of the unit main body 34. A nipple 52 is connected to the tip of the gas-liquid supply pipe 50, and the other end of the joint hose 54 is connected via the nipple 52.

  As shown in FIG. 2, a valve adapter 56 that can be connected to a tire valve (not shown) of the tire 100 is provided at one end of the joint hose 54. As described above, the joint hose 54 is wound around the surface of the repair liquid bottle 18 when not in use, but when used, the joint hose 54 is detached from the surface of the repair liquid bottle 18 and the valve adapter 56 is attached to the tire 100. Connect to the tire valve.

(Opening device)
As shown in FIGS. 5 and 6, the opening device 60 includes a rod-like insertion portion 62 inserted into the opening jig insertion hole 44 and a substantially rectangular parallelepiped shape formed at the proximal end portion of the insertion portion 62 (FIG. 3). The base portion 66 is fixed to the bottom surface of the housing 16 by, for example, a screw 88 or the like. A connection pipe 90 that can connect the other end of the air hose 86 described above is provided on the side surface of the base portion 66, and the air hose 86 is connected to the connection pipe 90.

  Further, the opening device 60 is formed with an air passage 92 that passes from the connecting pipe 90 through the base portion 66 and penetrates the insertion portion 62. The distal end portion 64 of the insertion portion 62 has a shape that can easily break through the aluminum seal 26 (in this embodiment, a substantially conical shape), and an insertion groove 67 is formed on the outer peripheral surface of the insertion portion 62. An O-ring 68 is inserted into the insertion groove 67.

  On the other hand, in the vicinity of both ends of the base portion 66, there are provided first support columns 94 that are elastically deformable and rise vertically from the upper surface of the base portion 66. A triangular first claw 94 </ b> A is integrally formed on the side surface on the insertion portion 62 side on the distal end side of the first support column 94.

  Further, on the insertion portion 62 side of the first support column 94, a second support column 96 that rises perpendicularly from the upper surface of the base portion 66 and has a height lower than that of the first support column 94 is provided. A triangular second claw 96 </ b> A is integrally formed on the side surface of the second support column 96 on the front end side and the first support column 94 side.

  The arrangement interval of the first struts 94 is wider than the length in the width direction of the pedestal 36 provided at the lower end (opposite side of the repair liquid bottle 18) of the liquid agent unit 70, and between the first claws 94A, It is narrower than the length in the width direction. For this reason, the first claw 94 </ b> A is caught on the edge of the pedestal 36.

  Specifically, when the insertion portion 62 of the opening device 60 is inserted into the opening jig insertion hole 44, the first claw 94A is elastically deformed outward when the first claw 94A crosses the edge in the width direction of the base 36, and the first claw 94A. When the first claw 94A passes through the edge in the width direction of the pedestal 36, the first struts 94 at both ends are elastically restored and restored.

  As a result, the first claw 94A is caught on the edge of the pedestal 36 in the width direction. Note that the tip of the insertion portion 62 does not reach the aluminum seal 26 at a position where the first claw 94A passes through the edge of the pedestal 36 in the width direction. That is, the aluminum seal 26 is not pierced.

  On the other hand, an annular recess 38 that is recessed from the pedestal 36 to the partition plate 35 is provided outside the opening jig insertion hole 44 of the injection unit 20. A through hole 39 penetrating from the annular recess 38 toward the outer peripheral surface of the unit main body 34 is formed.

  The second support column 96 of the base portion 66 can be inserted into the annular recess 38 provided in the injection unit 20, and when the second support column 96 is inserted into the annular recess 38, the second claw 96 </ b> A is formed at the edge of the through hole 39. Locked. Thus, at the position where the second claw 96 </ b> A has passed through the annular recess 38, the aluminum seal 26 is pierced by the distal end portion 64 of the insertion portion 62, and the distal end portion 64 enters the repair liquid bottle 18.

  In the present embodiment, at least the base portion 66 of the unsealing device 60 has the same color as the injection unit 20, and the housing 16 side has a different color from the injection unit 20. Thereby, the visibility of the accommodating part 106 formed between the guide walls 102-105 which inserts the base 36 of the injection | pouring unit 20 improves.

(Main part configuration)
Next, the configuration of the main part of the sealing / pump-up device according to this embodiment will be described.
As shown in FIG. 8, the pedestal 36 of the injection unit 20 has a substantially rectangular shape with an outer edge formed in an arc shape (hereinafter referred to as an arc portion 36 </ b> A) when viewed from below (in the insertion direction of the opening device 60). The shape is a non-circular shape (FIG. 4 shows a plan view seen from above). The arc portion 36A is formed on the joint hose 54 side of the pedestal 36. In addition, the pedestal 36 protrudes so that a part of the outer edge of the arc portion 36A covers the gas-liquid supply pipe 50 (an example of the connection portion) when viewed from the insertion direction (hereinafter referred to as a protruding portion 36B).

  On the other hand, as shown in FIG. 8, the opening device 60 is housed in a housing portion 106 that is surrounded by guide walls 102 to 105 and a side wall 16 </ b> A that are erected from the bottom wall of the housing 16. Here, as shown in FIG. 9, the base portion 66 of the opening device 60 has an outer edge substantially the same as the outer edge of the base 36 of the injection unit 20 when viewed from above (in plan view). That is, the base portion 66 has an arc portion 66A corresponding to the arc portion 36A of the pedestal 36, and a protruding portion 66B corresponding to the protruding portion 36B of the arc portion 36A. Thus, by making the outer edge of the pedestal 36 and the outer edge of the base portion 66 substantially the same shape, the visibility of the housing portion 106 described above is further improved.

Moreover, the guide walls 102-105 are arrange | positioned along the outer edge of the base part 66 of the opening apparatus 60, as FIG. 8 shows. For this reason, if the base 36 of the injection | pouring unit 20 is inserted in the accommodating part 106 formed inside guide wall 102-105 and the side wall 16A, the base 36 will be surrounded by the guide walls 102-106 (refer FIG. 9).
In this embodiment, the guide walls 102 to 105 are formed higher than the insertion portion 62 of the opening device 60, but the height of the guide walls 102 to 105 may be lower than the insertion portion 62.

  The guide wall 102 and the guide wall 103 are disposed along the outer edge of the arc portion 66 </ b> A of the base portion 66, and a protruding portion 66 </ b> B enters between the guide wall 102 and the guide wall 103. On the other hand, the guide wall 104 and the guide wall 105 protrude from the side wall 16 </ b> A in a state orthogonal to the side wall 16 </ b> A of the housing 16.

  Further, from both sides of the guide wall 102 and the guide wall 103, the reinforcing piece 108 and the reinforcing piece 110 projecting outward from the arc surface 102 A of the guide wall 102 and the arc surface 103 A of the guide wall 103 are the bottom surface of the housing 16. The guide walls 102 and 104 are reinforced. The reinforcing pieces 108 are connected to the partition wall 75 of the casing 16 and the side wall 16B facing the partition wall 75, respectively, and further reinforce the guide wall 102 and the guide wall 103.

On the other hand, the guide wall 104 is connected to two reinforcing ribs 107 projecting from the side wall 16B in a state orthogonal to the side wall 16B of the housing 16, and the guide wall 105 is connected to the side wall 16A of the housing 16. Two branch pieces 109A provided on the reinforcing rib 109 protruding from the side wall 16A in a state orthogonal to the side wall 16A and extending in parallel with the side wall 16A are connected to each other.
These reinforcing pieces 108 and 110 and the reinforcing ribs 107 and 109 are connected to the guide walls 102 to 105, whereby the guide walls 102 to 105 are further reinforced.

  When the insertion part 62 of the opening device 60 is inserted into the injection unit 20 of the repair liquid bottle 18, the injection unit 20 is guided by the guide walls 102 to 105. When the insertion portion 62 is inserted into the opening jig insertion hole 44, the pedestal 36 is also inserted into the accommodating portion 106, and the outer edge of the pedestal 36 is surrounded by the guide walls 102 to 106 (see FIG. 9). When the injection unit 20 rotates relative to the device 60, any one of the guide walls 102 to 105 and the side wall 16A comes into contact with the outer edge of the pedestal 36, and the rotation is restricted. In the present embodiment, when the injection unit 20 rotates relative to the opening device 60, the insertion portion 62 serves as a rotation axis. Further, since the guide walls 102 to 105 are reinforced, the guide walls 102 to 105 are prevented from falling when the unsealing device 60 and the injection unit 20 are rotated relative to each other.

  Further, as shown in FIG. 5, a taper 118 that is inclined from the upper side to the lower side in the height direction of the guide walls 102 to 105 is formed on the inner side (accommodating portion 106 side) of the front end surfaces of the guide walls 102 to 105. Each is provided. By providing such a taper 118 inside the front end surfaces of the guide walls 102 to 105, the injection unit 20 can be easily guided.

  On the other hand, the length of the insertion portion 62 is longer than the dimension from the lower end of the opening jig insertion hole 44 to the aluminum seal 26. Thus, when the entire insertion portion 62 of the opening device 60 is inserted into the opening jig insertion hole 44, the distal end portion 64 of the insertion portion 62 breaks through the aluminum seal 26 and is disposed above the aluminum seal 26. It will be.

Further, the distance (H ₁ ) from the position of the distal end portion of the insertion portion 62 to the O-ring 68 is larger than the distance (H ₂ ) from the lower surface of the pedestal 36 provided at the lower end portion of the liquid agent unit 70 to the aluminum seal 26. I try to shorten it. In other words, before the distal end portion 64 of the insertion portion 62 breaks through the aluminum seal 26, the gap between the insertion portion 62 and the opening jig insertion hole 44 is sealed with the O-ring 68 to reliably prevent the sealing agent 32 from leaking. Like to do.

  Further, rectangular cutouts 112 and 114 are formed on the opposite side of the arcuate portions 36A and 36B of the pedestal 36, and the reinforcing ribs 115 and 116 provided so as to protrude from the side wall 16A of the housing 16 are provided with the cutouts. It can be inserted into the notches 112 and 114.

(Operation of sealing and pump-up device)
Next, an operation procedure for repairing the punctured tire 100 using the sealing device 10 of the present embodiment will be described.
As shown in FIG. 2, when the tire 100 is punctured, the user takes out the housing 16 from the storage space of the vehicle so that the power switch 82 and the pressure gauge (not shown) face upward. The housing 16 is placed on the road surface and the cover 78 is opened to open the storage chamber 76.

  At this time, since the manual is attached to the back surface of the lid 78 that is opened, the user can work while sequentially checking the manual.

  Next, the user takes out the liquid agent unit 70 stored separately from the casing 16 from the storage space of the vehicle. A joint hose 54 is connected in advance to the gas-liquid supply pipe 50 of the injection unit 20 of the liquid agent unit 70, and is wound around the surface of the repair liquid bottle 18. The joint hose 54 is removed from the surface of the repair liquid bottle 18, and the valve adapter 56 of the joint hose 54 is connected to a tire valve (not shown) of the tire 100.

  Further, the user takes out the power cable 14 stored in the storage chamber 76 from the storage chamber 76, inserts the plug 15 into a socket (not shown) of a cigarette lighter installed in the vehicle, and starts the engine of the vehicle. Thereby, electric power can be supplied from the vehicle battery (DC 12 V) to the drive circuit of the compressor unit 12.

  Next, as shown in FIG. 5, the injection unit 20 is attached to the opening device 60 with the injection unit 20 facing downward (details will be described later). As a result, as shown in FIGS. 6 and 7, the entire insertion portion 62 is inserted into the opening jig insertion hole 44, and the aluminum seal 26 is pierced (opened) by the distal end portion 64.

  Further, as shown in FIG. 5, when the injection unit 20 is to be attached to the opening device 60, when the first claw 94A exceeds the edge in the width direction of the pedestal 36, the first claw is elastically deformed outward. When the first claw 94A passes through the edge of the pedestal 36 in the width direction, the first struts return to their original positions. As a result, the first claw 94 </ b> A is caught on the edge in the width direction of the base 36.

  Further, the second claw 96A is inserted into the annular recess 38 of the injection unit 20 and caught on the edge of the annular recess 38, the aluminum seal 26 is pierced by the distal end portion 64 of the insertion portion 62, and the distal end portion 64 is repaired. The state of having entered the bottle 18 is maintained.

  At this time, the O-ring 68 provided in the insertion portion 62 contacts the inner surface of the opening jig insertion hole 44 to seal the opening jig insertion hole 44. Thereby, it is suppressed that the fluid leaks outside from the opening jig insertion hole 44.

  When the aluminum seal 26 is pierced, the sealing agent 32 in the repair liquid bottle 18 flows out to the pressurized liquid supply chamber 40 through the hole 28 formed in the aluminum seal 26. When the power switch 82 shown in FIG. 1 is turned on and the compressor unit 12 is operated, the compressed air generated by the compressor unit 12 is supplied into the repair liquid bottle 18 through the air passage 92. When the compressed air is supplied into the repair liquid bottle 18, as shown in FIGS. 6 and 7, the compressed air floats upward in the repair liquid bottle 18, and the sealing agent 32 in the repair liquid bottle 18 A space (air layer G) is formed above.

  The sealing agent 32 pressurized by the air pressure from the air layer G is pushed out into the pressurized liquid supply chamber 40 through the hole 28 formed in the aluminum seal 26. Then, the sealing agent 32 in the pressurized liquid supply chamber 40 is supplied into the pneumatic tire 100 through the joint hose 54 shown in FIG.

  Thereafter, when all the sealing agent 32 is supplied from the pressurized liquid supply chamber 40 and the joint hose 54 to the tire 100, the compressed air is supplied to the tire via the repair liquid bottle 18, the pressurized liquid supply chamber 40, and the joint hose 54. 100 is supplied.

  Next, when it is confirmed by the pressure gauge 84 that the internal pressure of the tire 100 has reached the specified pressure, the user stops the compressor unit 12 and removes the valve adapter 56 from the tire valve (not shown).

  Then, the user travels preliminarily for a certain distance (for example, 10 km) using the tire 100 into which the sealing agent 32 is injected within a certain time after the completion of the inflation of the tire 100. As a result, the sealing agent 32 is uniformly diffused inside the tire 100, and the sealing agent 32 is filled in the puncture hole, thereby closing the puncture hole.

  After the preliminary run is completed, the user re-measures the internal pressure of the tire 100, reconnects the valve adapter 56 of the joint hose 54 to the tire valve as necessary, and restarts the compressor unit 12 to bring the tire 100 into the specified internal pressure. Pressurize until. Thereby, the puncture repair of the tire 100 is completed, and the tire 100 can be used to travel at a certain speed or less (for example, 80 km / h or less) within a certain distance range.

Next, the operation and effect of the sealing device 10 of the first embodiment will be described.
The injection unit 20 in which the insertion part 62 of the unsealing device 60 is inserted and the aluminum seal 26 is opened has the base 36 inserted in the accommodating part 106 between the guide walls 102 to 105 and the side wall 16A. 20 relative to the unsealing device 60 is regulated by contact between the guide walls 102 to 105 and the side wall 16 </ b> A and the outer edge of the pedestal 36. Thereby, since rotation of the repair liquid bottle 18 after opening the aluminum seal 26 is restricted, sliding between the O-ring 68 and the opening jig insertion hole 44 is suppressed. As a result, the sealing agent 32 is reliably prevented from leaking from between the insertion portion 62 and the opening jig insertion hole 44. Furthermore, since the pedestal 36 is surrounded by the guide walls 102 to 105 and the side wall 16A, movement in the lateral direction (direction perpendicular to the vertical direction) is also suppressed. Since the base 36, the guide walls 102 to 105, and the side wall 16A of the injection unit 20 are used without providing another member or the like for the rotation restriction of the injection unit 20, the rotation restriction structure is simplified.

  On the other hand, when the insertion part 62 of the opening device 60 is inserted into the opening jig insertion hole 44 of the injection unit 20, the gas-liquid supply pipe 50 of the injection unit 20 hits the guide walls 102 to 105 and other members. Since 36B prevents, the fall of durability of the gas-liquid supply pipe | tube 50 can be suppressed. In addition, by projecting the projecting portion 36B further, the other ends of the gas-liquid supply pipe 50 and the joint hose 54 can be protected.

  Further, since the shape of the pedestal 36 and the base portion 66 is substantially the same shape, when the pedestal 36 is inserted into the accommodating portion 106, the positions of the protruding portion 36B of the pedestal 36 and the protruding portion 66B of the base portion 66 are aligned. In the state, the injection unit 20 is inserted into the accommodating portion 106. Thereby, since the direction of the gas-liquid supply pipe 50 of the injection unit 20 is determined, the extending direction of the joint hose 54 is also determined, and the handling of the joint hose 54 is facilitated.

Furthermore, as shown in FIG. 5, the distance (H ₁ ) from the position of the distal end portion of the insertion portion 62 to the O-ring 68 is set from the lower surface of the base 36 provided at the lower end portion of the liquid agent unit 70 to the aluminum seal 26. by be shorter than the distance (H _2), before the tip 64 of the insertion portion 62 breaks through the aluminum seal 26, between the insertion portion 62 and the opening jig insertion hole 44 by O-ring 68 seals Like to do.

  For example, the front end portion 64 of the insertion portion 62 breaks through the aluminum seal 26 before the space between the outer peripheral surface of the insertion portion 62 and the inner peripheral surface of the opening jig insertion hole 44 of the injection unit 20 is sealed with the O-ring 68. As a result, the sealing agent 32 in the repair liquid bottle 18 leaks from the gap between the insertion portion 62 and the opening jig insertion hole 44. For this reason, before the front-end | tip part 64 of the insertion part 62 pierces the aluminum seal 26, between the insertion part 62 and the opening jig insertion hole 44 is sealed with the O-ring 68, the leakage of the sealing agent 32 is effectively performed. Can be suppressed.

  Here, the guide walls 102 to 105 are provided. However, the guide walls 102 to 105 are not necessarily walls because it is sufficient that the rotation of the liquid agent unit 70 can be restricted. Furthermore, the guide wall may be annular. In this case, in order to avoid interference with the connection pipe 90 or the gas-liquid supply pipe 50 at the place where the connection pipe 90 or the gas-liquid supply pipe 50 is connected, a notch or the like is formed to make the connection pipe 90 or the gas-liquid supply pipe 50 more It is necessary to reduce the height.

  In addition, the guide walls 102 and 103 are formed in an arc shape so that the outer peripheral surface of the injection unit 20 can be brought into surface contact. It is not necessary and may be a line contact.

  Furthermore, in the above-described embodiment, the outer edge of the pedestal 36 has a substantially rectangular shape with one side being arcuate when viewed from the insertion direction, but the present invention is not limited to this configuration, and the outer edge of the pedestal 36 is Any shape may be used as long as the rotation of the injection unit 20 can be regulated.

  The embodiments of the present invention have been described above with reference to the embodiments. However, these embodiments are merely examples, and various modifications can be made without departing from the scope of the invention. It goes without saying that the scope of rights of the present invention is not limited to these embodiments.

10 Sealing device (Sealing / pump-up device)
12 Compressor unit 16 Housing 16A Side wall (rotation restricting portion)
18 Repair liquid bottle 18B Mouth part 20 Injection unit 26 Aluminum seal (seal member)
32 Sealing agent (repair solution)
36 pedestal (non-circular part)
54 Joint hose (pipe member)
56 Gas-liquid supply pipe (connection part)
60 opening device (opening member)
70 Liquid unit 92 Air passage 100 Tire 102 Guide wall (rotation restricting portion)
103 Guide wall (rotation restriction part)
104 Guide wall (rotation restriction part)
105 Guide wall (rotation restriction part)

Claims (4)

An injection unit in which the mouth of the bottle containing the repair liquid is connected and fixed, and the other end of the piping member connected to the tire at one end is connected;
An opening member that is inserted into the injection unit and seals between the injection unit and the sealing member that closes the mouth, and sends compressed air to the bottle through an air passage formed inside;
When the opening member is inserted, a non-circular portion whose outer edge is non-circular when viewed from the insertion direction of the opening member of the injection unit is inserted, and relative rotation of the injection unit with respect to the opening member is performed on the non-circular portion. A rotation restricting portion that contacts and regulates the outer edge;
Sealing and pump-up device.   The shape of the non-circular portion is arranged such that when the non-circular portion is inserted into the rotation restricting portion, the connection portion of the injection unit with the piping member is disposed at a predetermined position when viewed from the insertion direction. The sealing / pump-up device according to claim 1, wherein the shape of the rotation restricting portion is set.   The sealing / non-circular portion according to claim 2, wherein the non-circular portion is provided closer to the distal end side in the insertion direction than the connection portion, and a part of an outer edge protrudes so as to cover the connection portion when viewed from the insertion direction. Pump up device.   The sealing / pump-up device according to any one of claims 1 to 3, wherein a gap between the opening member and the injection unit is sealed before the opening member opens the sealing member.

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