JP3245490B6 - Hanging door guide device - Google Patents

Description

[0001]
[Industrial applications]
The present invention relates to a traveling device in which a suspension door body is suspended and held on an upper rail via a runner so as to be able to travel, and a guide pin provided on a floor surface so as to be protruded and retractable by a magnetic force is formed on a lower end surface of the suspension door body. The present invention relates to a guide device for a suspension door which is inserted into a groove in a protruding state to perform a traveling guide, and more particularly to a technique for surely maintaining a state in which a guide pin protrudes from a floor surface.
[0002]
[Prior art]
Conventionally, as shown in Japanese Utility Model Laid-Open Publication No. 4-56883 shown in FIG. 8, a suspension door body 3 is suspended and held on an upper rail via a runner so as to be able to travel, and is provided on a floor surface so as to be able to protrude and retract by magnetic force. In a guide device for a sliding door in which a guide pin 4 is inserted into a running groove 5 formed on a lower end surface of the hanging door body 3 in a protruding state to perform a running guide, the guide pin 4 protruding from the floor surface is provided with a hanging door. The guide pin 4 is magnetically attached to a magnetic body X such as an iron plate provided along the main body 3 side, and is slidably held on the plate-like magnetic body X while the suspension door main body 3 is traveling. Thus, the projecting state of the guide pin 4 is maintained.
[0003]
[Problems to be solved by the invention]
However, in such a configuration, since the guide pins 4 are slidably held by the plate-shaped magnetic body X, the guides 4 are guided by the swing or vibration of the suspension door body 3 during running or stopping. The pin 4 comes off the magnetic body X, and the guide pin 4 easily descends below the floor surface by its own weight. Therefore, in the related art, the magnetic pin for maintaining the projecting state inside the guide pin 4 is conventionally used. Means Y are provided. As described above, the configuration of the magnetic attachment means Y inside the guide pin 4 is complicated, and the acting force for holding the guide pin 4 in a protruding state is weak. There was a problem. By the way, the magnetic attachment means Y is composed of a permanent magnet provided on the guide pin 4 side and a permanent magnet provided on the outer cylinder 12 on the fixed side.
[0004]
The present invention is intended to solve such a problem, and an object of the present invention is to mechanically hold a guide pin, and to reliably and strongly hold the guide pin in a protruding state while maintaining the guide pin in a protruding state. It is an object of the present invention to provide a suspension door guide device that can simplify the structure of the above.
[0005]
[Means for Solving the Problems]
In the guide device for a suspension door according to the present invention, the suspension door body 3 is suspended and held on the upper rail 1 via the runner 2 so as to run freely, and the guide pin 4 provided on the floor surface so as to protrude and retract by magnetic force is suspended. This is a guide device for a suspension door, which is inserted into the running groove 5 formed on the lower end surface of the door main body 3 in a protruding state and performs a running guide, wherein a locking groove 4a is formed on the outer peripheral surface of the upper end of the guide pin 4. , a pair of engaging guide pieces 1 3, 13 to slide freely engaged and disengaged locking groove 4a in Tsuto body 3 side in the intermediate portion of the length direction of the running grooves 5 are opposed, engaging the spacing of the guide 13, 13 pieces larger than the neck part forming the locking groove 4a, and is characterized in that formed by the small than the large diameter portion of the upper and lower engagement groove 4a.
[0006]
Further, a magnet 7 for suction is provided on the suspension door body 3, a magnet 6 is provided on an upper end of the guide pin 4, and the guide pin 4 is magnetized between the magnet 7 for suction and the locking guide pieces 13, 13. It is characterized in that an inclined guide 8 is provided so as to be attached and held and to be inclined upward as the distance from the attraction magnet 7 increases. Further, a magnet for suction 7 is provided on the hanging door body 3, a magnet 6 is provided on an upper end portion of the guide pin 4, and the bottom surface of the magnet for suction 7 is higher as it is farther from a side end of the hanging door body 3. It is characterized in that an inclined guide 8 formed obliquely is formed.
[0007]
[Action]
The guide pin 4 protruding from the floor surface is introduced and held between a pair of locking guide pieces 13 provided on the side of the hanging door body 3 in the locking groove 4a. Since the protruding guide pin 4 is mechanically held, the holding is performed securely and strongly, so that it does not drop unexpectedly. In addition, there is no need for a magnetic attachment means for projecting and holding the guide pin 4 such that a pair of permanent magnets are provided on the guide pin 4 side, and the configuration of the guide pin 4 is simplified.
[0008]
Further, the guide pin 4 sinking below the floor is magnetically attached and floated, and the guide pin 4 is gradually pulled up by the inclined guide 8 and introduced into the locking guide pieces 13. The guide pin 4 is satisfactorily introduced into the locking guide pieces 13, 13. Further, the guide pin 4 is gradually pulled up by the magnetic force by the attraction magnet 7 having a slanted bottom, and thus the inclined guide 8 for introducing the guide pin 4 into the locking guide pieces 13, 13 is formed. The structure is simplified by using the attraction magnet 7.
[0009]
【Example】
Runners 2, 2 are attached to the front and rear portions of the upper end of the hanging door body 3, and these runners 2 are inserted into the upper rail 1 having a U-shaped cross section provided with the traveling receiving pieces 10, 10 so as to be able to run freely. 3 is movably held on the upper rail 1. Guide pins 4 are provided on the floor 11 at appropriate intervals so as to be able to protrude and retreat by magnetic force. A rail 14 using a channel material is inserted into a concave portion at the lower end of the suspension door body 3, and the inside of the rail 14 is formed as a running groove 5. Attraction portions 7 are provided at front and rear portions of the traveling groove 5 of the suspension door body 3. Then, when the suspension door body 3 travels in the closing direction, the guide pin 4 sunk under the floor is magnetically attracted by the attraction magnet 7 and pulled up, and the guide pin 4 travels on the lower end face of the suspension door body 3. The rails 14 are slid into the grooves 5, and the slidable state is mechanically maintained by a pair of locking guide pieces 13, 13 formed on both sides of the rail body 14 so that the traveling guide can be performed.
[0010]
The guide pin 4 is inserted into the outer cylinder 12 embedded below the floor so as to be able to move up and down, and a magnet 6 is attached to the tip of the guide pin 4. The magnet 6 provided at the tip of the guide pin 4 has the other pole of the attracting magnet 7 having a different magnetic pole and the same polarity as the magnet 6 on the guide pin 4 side, and the guide pin 4 is retreated below the floor surface. The magnet portion 9 for repulsion is formed. On both sides of the attraction magnet 7, an inclined guide 8 formed of a magnetic material such as an iron plate is formed.
[0011]
A locking groove 4a is formed on the outer peripheral surface of the upper end of the guide pin 4, and a pair of locking guide pieces 13, 13 are slidably engaged in the locking groove 4a on the side of the hanging door body 3, and in the engaged state. The projecting state of the guide pin 4 can be maintained. When the suspension door body 3 travels in the closing direction, the guide pins 4 projecting unexpectedly from the floor surface are pressed down by the repulsion magnet portion 9 below the floor surface, and then pressed down below the floor surface. The guide pin 4 is magnetically attached to the attraction magnet 7 via the magnet 6 at the upper end of the guide pin 4 and is pulled up so as to be gradually raised. The guide pin 4 is mechanically held by being interposed therebetween, and the hanging door body 3 is guided and traveled by the guide pin 4. When the guide pin 4 reaches the end of the running groove 5, the guide pin 4 escapes from the locking guide pieces 13, 13, and the magnet 6 at the upper end of the guide pin 4 is magnetically attached to the inclined guide 8, and gradually. The guide pins 4 are pushed down by the descending inclined guides 8, and finally the guide pins 4 are completely pushed down into the outer cylinder 12 by the repulsion magnets 9.
[0012]
In such a case, when there is a risk that dust may enter between the guide pin 4 and the outer cylinder 12 and hinder the movement of the guide pin 4, the guide pin 4 is easily pulled out to easily remove the entered dust. It has been removed so that it can be maintained. Hereinafter, the configuration will be described in detail. The outer cylinder 12 is buried under the floor so as to be prevented from coming off via the locking projection 18 on the outer periphery. A flange 19 is formed around the upper end of the outer cylinder 12, and the insertion depth of the outer cylinder 12 is determined by bringing the flange 19 into contact with the floor surface 11. Inside the outer cylinder 12, a cylindrical intermediate spacer 16 that is sufficiently shorter than the outer cylinder 12 is inserted into a large-diameter portion 23 having an increased inner diameter so as to be freely inserted into and removed from the outer cylinder 12. The inside diameters are almost equal. The guide pin 4 is inserted into the intermediate spacer 16 and the outer cylinder 12 so as to be able to move up and down. At the upper end of the intermediate spacer 16, a flange 17 for pulling out extends around the periphery, and the flange 17 is overlapped with the flange 19 of the outer cylinder 12. Further, a pin 20 is fixed to the guide pin 4, and the pin 20 is inserted into a long hole 21 formed in the intermediate spacer 16. If dust is clogged between the outer cylinder 12 and the guide pin 4, a plate-shaped jig 22 is inserted between the flange 17 of the intermediate spacer 16 and the flange 19 of the outer cylinder 12 and lifted. Pull out upwards. In such a case, the lower end of the long hole 21 comes into contact with the pin 20 so that the guide pin 4 can be pulled out from the outer cylinder 12.
[0013]
In this manner, the outer cylinder 12 is buried under the floor, and the cylindrical intermediate spacer 16 which is sufficiently shorter than the outer cylinder 12 is inserted into the outer cylinder 12 so as to be freely inserted and removed. The guide pin 4 is inserted into the upper part of the intermediate spacer 16 so as to be able to move up and down, and a flange 17 for removal is extended at the upper end of the intermediate spacer 16 so that dust enters between the guide pin 4 and the outer cylinder 12 and guides. In the case where the movement of the pin 4 is obstructed, the intermediate spacer 16 is easily removed by inserting, for example, a plate-shaped removal jig 22 into the lower surface of the flange 17 of the intermediate spacer 16, and the intermediate spacer 16 is removed. By removing the guide pin, flexibility is provided between the guide pin 4 and the outer cylinder 12, and the guide pin 4 can be pulled out of the outer cylinder 12 to easily remove dust inside. The removal of the intermediate spacer 16 is performed by using the jig 22.
[0014]
A locking claw 29 is provided at the lower end of the intermediate spacer 16 so as to be elastically displaceable. The locking claw 29 is engaged with the recess 30 of the outer cylinder 12 so as to be freely disengaged, whereby the intermediate spacer 16 is unexpectedly raised. I don't want to do that. The locking claws 29 may not be provided. FIG. 6 is an exploded perspective view, in which flanges 18 are formed to face the locking guide pieces 13 at substantially the same level from a portion corresponding to an intermediate portion of the inclined guide 8, and the inclined guide 8 is made magnetic. The locking groove 4a of the fitted guide pin 4 is held between the pair of flanges 18, 18 so as to smoothly move to the locking guide pieces 13, 13. In such a case, an introduction guide is formed at the start ends of the flanges 18, 18 so that the distance between the start ends is increased so that the guide pins 4 can be held more easily. In such a case, the pair of flanges 18 may be inclined substantially parallel to the inclination guide 8.
[0015]
FIG. 7 shows another embodiment, in which the inclined guide 8 is inclined so that the bottom surface of the attraction magnet 7 provided on the hanging door main body 3 becomes higher as the distance from the side end of the hanging door main body 3 increases. A pair of locking guide pieces 13 are formed at the end of the inclined guide 8. Thus, the configuration of the inclined guide 8 is simplified by using the attraction magnet 7.
The shape and shape of the locking guide pieces 13 and 13 and the shape and shape of the inclined guide 8 can be variously changed.
[0017]
【The invention's effect】
The invention as described above, the locking groove is formed on the upper end portion outer peripheral surfaces of the guide pin, slidably engaged entering and leaving the locking groove in Tsuto body between portions in the length direction of the running groove A pair of locking guide pieces are provided to face each other, and the interval between the locking guide pieces is larger than the neck portion forming the locking groove, and smaller than the large diameter portion above and below the locking groove , The guide pin protruding from the floor surface is introduced and held between a pair of locking guide pieces provided on the hanging door body side in the locking groove, and the protruding guide pin is mechanically held, and the holding is performed. The guide pin can be reliably and powerfully provided, does not fall down unexpectedly, and does not require magnetic attachment means for holding the guide pin in a protruding manner such as providing a pair of permanent magnets on the guide pin side. Can be simplified.
[0018]
Further, a magnet for suction is provided on the suspension door body, and a magnet is provided on an upper end portion of the guide pin. The guide pin is magnetically held between the magnet for suction and the locking guide piece and is separated from the magnet for suction. Since the inclined guide is provided obliquely so as to be upward, the guide pin sinking below the floor is magnetically attached and floated, and the guide pin is gradually inclined by the inclined guide that is inclined. There is an advantage that the guide pin can be pulled up and introduced into the locking guide piece, and the guide pin can be satisfactorily introduced into the locking guide piece.
[0019]
Further, a magnet for suction is provided on the hanging door body, a magnet is provided on the upper end of the guide pin, and the bottom surface of the magnet for suction is inclined obliquely so as to be farther away from a side end of the hanging door body and inclined. Because the guide is formed, the guide pin is gradually pulled up by the magnetic force with the attraction magnet whose bottom is slanted, and the configuration for introducing the guide pin into the locking guide piece uses the attraction magnet. Has the advantage that it can be simplified.
[Brief description of the drawings]
FIGS. 1A and 1B are schematic explanatory views of one embodiment of the present invention, in which FIG. 1A is a schematic sectional view showing a state in which a guide pin reaches a starting end of a locking guide piece, and FIG. FIG. 3C is a cross-sectional view illustrating a locked state, FIG. 4C is a cross-sectional view illustrating a state where a guide pin is lowered below a floor surface, and FIG.
2 (a) is a sectional view, FIG. 2 (b) is a bottom view, FIG. 2 (c) is a right side view, and FIG. 2 (d) is a left side view.
3A and 3B show the same guide pin, wherein FIG. 3A is a front view and FIG. 3B is a cross-sectional view.
FIG. 4 is a cross-sectional view showing a state where the guide pin is pulled up together with an intermediate spacer.
5A is an exploded perspective view of a guide pin, FIG. 5B is a schematic sectional view, and FIG. 5C is a perspective view showing a locking guide piece.
FIG. 6 is an exploded perspective view of the same.
FIG. 7 is a schematic explanatory view of another embodiment of the above.
8A and 8B show a conventional example, in which FIG. 8A is a schematic cross-sectional view showing a state in which a guide pin reaches a starting end of a locking guide piece, and FIG. 8B is a cross-sectional view showing a state in which the guide pin is locked to the locking guide piece. FIG. 3C is a cross-sectional view showing a state where the guide pins are lowered below the floor surface.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Upper rail 2 Runner 3 Hanging door main body 4 Guide pin 4a Locking groove 6 Magnet 7 Attraction magnet 13 Locking guide piece

Claims (3)

The suspension door body is suspended and held on the upper rail via a runner so as to run freely, and a guide pin provided on the floor surface by magnetic force so as to be retractable is projected into a travel groove formed on a lower end surface of the suspension door body. a guide device Tsuto performing inserted and running guide state, the locking groove is formed in the upper end portion outer peripheral surfaces of the guide pin, engaging in Tsuto body side in the intermediate portion portion of the longitudinal running grooves groove in slidably disposed to face the pair of engaging guide pieces being separated engagement Nyu及 beauty, much larger than the neck portion to form the locking groove spacing of the engaging guide pieces, upper and lower locking grooves A guide device for a hanging door, wherein the guide device is made smaller than a large-diameter portion . A magnet for suction is provided on the suspension door body, and a magnet is provided on an upper end portion of the guide pin. Between the magnet for suction and the locking guide piece, the guide pin is magnetically held and the further away from the magnet for suction, the higher the distance. The guide device for a suspension door according to claim 1, further comprising an inclined guide which is inclined so as to be as follows. A magnet for suction is provided on the hanging door body, and a magnet is provided on the upper end of the guide pin. The inclined magnet is formed so that the bottom surface of the magnet for suction is inclined upward as the distance from the side end of the hanging door body increases. The guide device for a hanging door according to claim 1, wherein the guide device is provided.

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