This application claims the benefit under 35 USC §119 of JP Patent Application JP 2014-054908 filed Mar. 18, 2014, the entire disclosure of which is incorporated herein by reference.
The present invention relates to protectors with sensors. When objects including fingers are disposed between openings of automobiles and opening/closing panels which move between at least two positions to open and close the openings of automobiles, the sensors of the protectors output corresponding signals for detecting the objects. The opening/closing panels include: doors such as sliding doors on wagons, station wagons or the like sliding frontward and rearward of the automobile bodies and back doors; and sun roofs.
A protector 10, 20 with a sensor is installed on an automobile including a wagon shown in
For example, the protector 10 with the sensor, extending in an upper and lower direction as shown in
As shown in
In a lower part of the protector 10 with the sensor, a channel part 13 having a substantially
C-shaped cross section is integrally molded with the inner-cabin side wall 11a side of the installation base member 11 for holding wire harness 90 joined with the pressure sensitive sensor 80. The installation base member 11 has a plurality of holding lips 14 formed inside and a core 15 having a substantially U-shaped cross section embedded therein for increasing rigidity. In addition, a decorative lip 16 is provided on the outer-cabin side wall 11b of the installation base member 11.
The sensor (pressure sensitive sensor) 80 has two core wires (electrode wires) 31, 32 extending in an upper and lower direction (longitudinal direction) embedded in rubber like elastic bodies (conductive parts) 34, 35 having conductivity with a space 33 therebetween, which are fixed in the hollow part 12. As the object is disposed between the sliding door 1 and the body side opening when the sliding door 1 is moved towards a closed position, the object makes contact with a part of the hollow part 12, and then the rubber like elastic bodies 34, 35 contact with each other and the two core wires 31, 32 short. Resultant change in electric signal is transmitted to a control unit 40 joined with leads 36, 36 which are connected with the two core wires 31, 32 in a lower side terminal part of the protector 10 with the sensor, and as a result, the objects are detected. The leads 36, 36 covered with insulator are tied by the wire harness 90. Top ends of the leads 36, 36, bared from covered parts 37, 37 are naked wires.
As shown in
Also, as shown in
In
Unfortunately, however, as shown in
Japanese examined Patent Publication No. 3334477 discloses that the space (opening) between the two conductive parts is long from side to side in cross section, which is substantially rectangular. Accordingly, the objects are detected only within a small angle, and the movable range of the part which bends is narrow.
Therefore, an object of the present invention is to provide the protectors with sensors excellent in capability of detecting the objects.
In order to achieve the above-mentioned object, according to one aspect of the invention, a protector with a sensor is provided, the protector with the sensor including: an installation base member (11) operatively coupled on a peripheral edge of an opening/closing panel which moves between at least two positions to open and close an opening of an automobile body or on a peripheral edge of said opening of the automobile body, the opening/closing panel including a door (1) and a sun roof (2) of an automobile; and a hollow part (52) unified with the installation base member (11), the hollow part (52) having a shape of a tube, the hollow part (52) having core wires (31, 32), two conductive parts (54, 55) and a space (53) provided therein, the two conductive parts (54, 55) having the core wires (31, 32) embedded therein respectively, the space (53) being positioned between the two conductive parts (54, 55); in which:
when an object is disposed between said opening/closing panel and said opening and makes contact with said hollow part (12) when said opening/closing panel is moved towards a closed position, a corresponding change in electric signal detects said object; and
in a terminal part, said core wires (31, 32) drawn out in a longitudinal direction are connected with two leads (36, 36), said two leads (36, 36) being joined with a control unit (40), wherein:
an outer peripheral surface of the hollow part (52) is an outer coat (52a) substantially having a horseshoe shaped cross section; both ends (52b, 52c) of the outer coat (52a) are connected with a right side and a left side of said installation base member (11) at a distance from each other; said two conductive parts (54, 55) include a conductive part (55) having a convex shape on a lower part of the hollow part and a conductive part (54) having a concave shape on an upper part of the hollow part, the lower part of the hollow part being a side of said installation base member (11), the upper part of the hollow part being a side of a top end of the hollow part; and said two conductive parts (54, 55) are shaped and positioned in a manner that said space (53) substantially has a V-shaped cross section, said space (53) substantially has a uniform width in cross section, an opening of the V-shaped cross section faces the side of said installation base member (11), and both ends (53a, 53b) of the V-shaped cross section are continuously provided on an inner surface of said outer coat (52a).
It is to be noted that the “change in electric signal” includes a change by short between the two core wires, and a change in capacitance.
In addition, according to an aspect of the present invention, lower parts (54a) of said conductive part (54) on the upper part of the hollow part are closer to said installation base member (11) than a tip (55a) of the conductive part (55) on the lower part of the hollow part.
In addition, according to an aspect of the present invention, said two conductive parts (54, 55) are shaped and positioned in a manner that the both ends (53a, 53b) of the V-shaped cross section of said space (53) are continuously provided on inner surfaces of both ends (52b, 52c) of said outer coat (52a).
In addition, according to an aspect of the present invention, said two conductive parts (54, 55) are shaped and positioned in a manner that at least a part of one end (53b) of the both ends (53a, 53b) of said V-shaped cross section of said space (53) is continuously provided directly on said installation base member (11).
In addition, according to an aspect of the present invention, the both ends (52b, 52c) of said outer coat (52a) broaden a thickness toward said installation base member (11), the both ends (52b, 52c) being connected with said installation base member (11).
In addition, according to an aspect of the present invention, said two conductive parts (54, 55) and said space (53) in said hollow part (52) as well as said hollow part (52) substantially have a bilateral-symmetrically shaped cross section and said core wires (31, 32) are on an axis (400) of symmetry.
In addition, according to an aspect of the present invention, said installation base member (11), said hollow part (52), said conductive parts (54, 55) and said core wires (31, 32) are integrally molded.
Symbols in parentheses show constituents or items corresponding to the drawings.
According to the present invention, the outer peripheral surface of the hollow part is the outer coat substantially having the horseshoe shaped cross section, and the conductive part having the concave shape on the upper part of the hollow part and the conductive part having the convex shape on the lower part of the hollow part are provided in the hollow part in the manner that the space between the two conductive parts substantially has the V-shaped cross section, the space substantially has the uniform width in cross section, the opening of the V-shaped cross section faces the side of the installation base member, and the both ends of the V-shaped cross section are continuously provided on the inner surface of the outer coat. Accordingly, as compared with a prior art (
In addition, the lower parts of the conductive part on the upper part of the hollow part are closer to the installation base member than the tip of the conductive part on the lower part of the hollow part. Accordingly, even slight bending easily touches the conductive parts to each other, thereby providing a protector with a sensor excellent in detecting capability.
In addition, the both ends of the V-shaped cross section of the space are continuously provided on inner surfaces of both ends of the outer coat. The structure enables miniaturization and lightening of the hollow part in the cross section. Also, the structure increases bending amount of the ends of the outer coat, thereby improving the detecting capability.
In addition, at least a part of one of the both ends of the space having the V-shaped cross section is continuously provided directly on the installation base member. The structure further increases the bending amount of the ends of the outer coat, thereby improving the detecting capability.
In addition, the both ends of the outer coat broaden the thickness toward the installation base member with which the both ends are connected. The structure prevents cracks by convex substances, automobile keys for example, in case they are caught on the both ends of the outer coat.
In addition, the two conductive parts and the space in the hollow part as well as the hollow part substantially have the bilateral-symmetrically shaped cross section and the core wires are on the axis of symmetry. Accordingly, in both terminal parts of the protector with sensor, shapes of inserts inserted in the space are simplified for mass production.
In addition, the installation base member, the hollow part, the conductive parts and the core wires are integrally molded. The structure enables to stably produce the protector with the sensor in a reduced time for operation.
The installation base members, the hollow parts, the conductive parts and the core wires of ordinary protectors with the sensors have not been integrally molded.
a),
Referring to the Drawings, a protector with a sensor according to an embodiment of the present invention will be described.
A protector 10 with a sensor of the embodiment of the present invention, which extends toward a front side of an automobile body is installed on a front end surface of a sliding door 1 of an automobile shown in
Both the present invention and the prior art include the structures of
As shown in
The installation base member 11 has a plurality of holding lips 14, 14 formed inside and a core 15 having a substantially U-shaped cross section embedded therein for increasing rigidity. In addition, a decorative lip 16 is provided on the outer-cabin side wall 1 lb of the installation base member 11.
The hollow part 52 is integrally molded with the connecting wall 11c of the installation base member 11. A top end of the hollow part 52 protrudes toward a front side of an automobile.
An outer peripheral surface of the hollow part 52 is an outer coat 52a substantially having a horseshoe shaped cross section. Both ends 52b, 52c of the outer coat 52a are connected with a right side and a left side (right side and left side of
The both ends 52b, 52c of the outer coat 52a broaden a thickness toward the connecting wall 11c of the installation base member 11. The structure prevents cracks by convex substances, automobile keys for example, in case they are caught on the both ends 52b, 52c of the outer coat 52a.
The rubber like elastic bodies 54, 55 having conductivity are conductive parts. The conductive parts include: a conductive part 55 having a convex shape on a lower part of the hollow part 52, which is a side of the installation base member 11 of the hollow part 52; and a conductive part 54 having a concave shape on an upper part of the hollow part 52, which is a side of a top end of the hollow part 52. The conductive part 54 having the concave shape on the upper part of the hollow part 52 has a core wire 31 embedded at a center thereof and the conductive part 55 having the convex shape on the lower part of the hollow part 52 has a core wire 32 embedded at a center thereof.
Positions in the hollow part 52 as well as shapes of the conductive part 54 on the upper part of the hollow part and the conductive part 55 on the lower part determine a shape of the space 53 in cross section between the two conductive parts 54, 55. In the present embodiment, the conductive part 55 on the lower part of the hollow part substantially has a ridge-shaped cross section, a base of which comes into contact with the connecting wall 11c of the installation base member 11. The conductive part 54 on the upper part of the hollow part substantially has a crescent-shaped cross section, both ends of which fall from the top end of the hollow part 52 in a manner to approach the connecting wall 11c of the installation base member 11.
As a result, the space 53 substantially has a V-shaped cross section and substantially has a uniform width (1.4 mm, in the present embodiment) in cross section, an opening of the V-shaped cross section faces the side of the installation base member 11, and both ends 53a, 53b of the V-shaped cross section are continuously provided on an inner surface of the outer coat 52a. In the present embodiment, the both ends 53a, 53b of the V-shaped cross section are continuously provided on inner surfaces of both ends 52b, 52c of the outer coat 52a (an inner-cabin side end 53a of the V-shaped cross section is continuously provided on the inner surface of an inner-cabin side end 52b of the outer coat 52a and an outer-cabin side end 53b of the V-shaped cross section is continuously provided on the inner surface of an outer-cabin side end 52c of the outer coat 52a). The conductive part 55 on the lower part of the hollow part is positioned inside the hollow part 52 and shaped in a manner that a part 53bP of the outer-cabin side end 53b of the V-shaped cross section is continuously provided directly on the connecting wall 11c of the installation base member 11.
In addition, the lower parts 54a of the conductive part 54 on the upper part of the hollow part are closer to the installation base member 11 than a tip 55a of the conductive part 55 on the lower part of the hollow part. Accordingly, even slight bending easily touches the two conductive parts 54, 55 to each other, and the two conductive parts 54, 55 do not pass each other on a point of contact.
In addition, an axis 400 of symmetry bilaterally divides the two conductive parts 54, 55 and the space 53 in the hollow part 52 as well as the hollow part 52 into two equal halves in a direction of an inner-cabin side and in a direction of an outer-cabin side. Also, the core wires 31, 32 are on the axis 400 of symmetry.
In the same manner as
The insert 25, 26 is made of polypropylene, polyethylene, polyethylene terephthalate, nylon, 6 nylon, 6-6 nylon or thermoplastic elastomer (TPE). Examples of the material of the insert 25, 26 also include flexible and non-conductive material such as olefin TPO or stylene TPS of TPE. The insert 25 includes an insertion part 25a, 26a on a side of one end and a protrusion part 25b, 26b on a side of another end.
The insertion part 25a, 26a has a V-shaped cross section which is substantially the same as or a little larger than the space 53 for being inserted in the space 53 of the hollow part 52 and tightly filling up the space 53, thereby preventing decline in sensor function caused by die molding material flowing in the space 53 during die molding.
The installation base member 11 and the hollow part 52 of the protector 10 with the sensor form an extrusion molded part made of a rubber like elastic body including: synthetic rubber such as EPDM; and thermoplastic elastomer such as TPO, TPS. The upper and lower side terminal parts of the protector 10 with the sensor are die molded for arranging an external shape thereof.
A body of a resistor 39 (electrical component) is stably positioned on an end part of the protrusion part 26b of the insert 26 which is used in the upper side terminal part of the protector 10 with the sensor. The two legs (leads) 39a, 39a of the resistor 39 are piled on the two core wires 31, 32 and the two legs (leads) 39a, 39a and the two core wires 31, 32 are connected by means of resistance welding or soft soldering. The core wires 31, 32 are drawn out toward an upside in the longitudinal direction from the hollow part 52. The insertion part 26a of the insert 26 fills up the space 53. Then, the protrusion part 26b of the insert 26, the wire connection parts 70, 70, and the body and the legs 39a, 39a of the resistor 39 are embedded in a die molded part by die molding the upper end of the protector 10 with the sensor, and are not exposed.
On both side surfaces of the protrusion part 25b of the insert 25 which is used in the lower side terminal part of the protector 10 with the sensor, the two leads 36, 36 are piled on the two core wires 31, 32 and the two leads 36, 36 and the two core wires 31, 32 are connected by means of resistance welding or soft soldering. The two leads 36, 36 as top ends are naked wires bared from covered parts 37. The two core wires 31, 32 are drawn out toward a downside in the longitudinal direction from the hollow part 52. The insertion part 25a of the insert 25 fills up the space 53. Then, the protrusion part 25b of the insert 25 and the wire connection parts 70, 70 are embedded in a die molded part by die molding a lower end of the protector 10 with the sensor and are not exposed. The two leads 36, 36 which are covered with insulator respectively are tied by the wire harness 90 and an outer circumferential surface of the two leads 36, 36 thus tied is coated by skin of the wire harness 90. On an end part of the wire harness 90, the two leads 36, 36 are drawn out from the covered parts 37, 37 which are drawn out from the end part of the wire harness 90, and are bared from the covered parts 37, 37. The wire harness 90 is joined with a control unit 40 in which the object is detected.
According to the protector 10 with the sensor, the outer peripheral surface of the hollow part 52 is the outer coat 52a substantially having the horseshoe shaped cross section, and the conductive part 54 having the concave shape on the upper part of the hollow part and the conductive part 55 having the convex shape on the lower part of the hollow part are provided in the manner that the space 53 between the two conductive parts 54, 55 substantially has the V-shaped cross section, the space 53 substantially has the uniform width in cross section, the opening of the V-shaped cross section faces the side of the installation base member 11, and the both ends 53a, 53b of the V-shaped cross section are continuously provided on the inner surface of the outer coat 52a. Accordingly, as compared with a prior art (
The structure enables detection of the objects over a wider range of about 120° including about 60° on the inner-cabin side (right direction in
The axis 400 of symmetry bilaterally divides the two conductive parts 54, 55 and the space 53 as well as the hollow part 52 into two equal halves in the direction of the inner-cabin side and in the direction of the outer-cabin side. Also, the core wires 31, 32 are on the axis 400 of symmetry. Accordingly, in both terminal parts of the protector with sensor, the shapes of the inserts 25, 26 inserted in the space are simplified for mass production.
In addition, the installation base member 11, the hollow part 52, the conductive parts 54, 55 and the core wires 31, 32 are integrally molded. The structure enables to stably produce the protector 10 with the sensor in a reduced time for operation.
The installation base members 11, the hollow parts 52, the conductive parts 54, 55 and the core wires 31, 32 of ordinary protectors 10 with the sensors have not been integrally molded.
In the present embodiment, the part 53bP of the outer-cabin side end 53b of the V-shaped cross section is continuously provided directly on the connecting wall 11c of the installation base member 11 for enlarging bending amount of the outer-cabin side end 52c of the outer coat 52a, thereby improving the detecting capability. But, as shown in
Also, in the present embodiment, the both ends 52b, 52c of the outer coat 52a forming the hollow part 52 broaden a thickness toward the connecting wall 11c of the installation base member 11. But, as shown in
In the present embodiment, the both ends 53a, 53b of the V-shaped cross section of the space 53 are continuously provided on the inner surfaces of the both ends 52b, 52c of the outer coat 52a forming the hollow part 52. But, as shown in
As compared with
While the present embodiment specifies an example that the installation base member 11, the hollow part 52 and the sensor 80 are integrally molded, the installation base member 11, the hollow part 52 and the sensor 80 may be separately molded so that the installation base member 11 and the hollow part 52 are fixed by adhesive or adhesive tape, and the sensor 80 is inserted in the hollow part 52 for unification. Alternatively, any two of the installation base member 11, the hollow part 52 and the sensor 80 may be integrally molded and a remaining member is separately molded.
In the present embodiment, the installation base member 11 has a plurality of holding lips 14 formed inside and a core 15 having a substantially U-shaped cross section embedded therein. But the installation base member 11 may have only one holding lip 14, 14 or may be without the core 15 embedded therein. Also, the installation base member 11 may have any shape as long as the installation base member 11 has a part thereof for fixing the hollow part 52 and the sensor 80 thereon, of which examples include the U-shaped cross section of the present embodiment. Methods of fixing the hollow part 52 and the sensor 80 on the sliding door 1 vary, including use of adhesive tape as well as gripping and fitting the hollow part 52 and the sensor 80.
The present embodiment specifies an example that the protector 10 with the sensor is installed on the sliding door 1 side of the automobile, which slides frontward and rearward. But the protector 10 with the sensor may be installed on the body side opening for detecting the object between the sliding door and the body side opening.
Also, the protector 10 with the sensor is applicable to a back door or a sun roof 2 (
Number | Date | Country | Kind |
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2014-054908 | Mar 2014 | JP | national |