JP2005256421A - Separable feeding device and separable feeding device for sash - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a separable feeding device capable of securely bringing terminals into contact mutually without being affected by fluctuation of a closure position of a window sash for electricity feeding. <P>SOLUTION: This separable feeding device is constituted in such a way that a holder 24 energized to turn around a horizontal shaft and a vertical shaft in either of an electricity transmitting part A attached to a window frame and an electricity receiving part B attached to a sash frame and return to a steady position is provided, a terminal 25 is protrudedly provided in the other direction of the electricity transmitting part and the electricity receiving part in the holder, a funnel-like terminal receiving hole 13 opened in the direction opposing to the terminal of the holder is provided in the other of the electricity transmitting part and the electricity receiving part, and a terminal 14 is provided in a bottom part of the terminal receiving hole. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a separable power feeder for feeding power from a fixed part side to a movable part side that approaches and separates from the fixed part side. Further, the present invention relates to a sash separable power feeder for feeding power to heat generating means of a sash sliding door or sliding door using the separable power feeder.

By using a heat-generating glass with a heating element composed of a metal thin film that generates heat when energized, it prevents condensation of the glass and the generation of a cooling downdraft (cold draft) near the window. Or performing room heating. For example, see Patent Documents 1 to 5.
JP-A-10-101376 Japanese Patent Laid-Open No. 10-139492 JP-A-11-173028 JP 2000-191347 A JP 2002-32869 A

In order to generate heat in the heat generating glass, it is naturally necessary to supply power to the heating element. When the heat generating glass is fixed by fitting, the electrode of the heating element and the electrode of the energization control device connected to the power source can be easily connected by the conductive wire, and there is no problem. However, when the heat generating glass is used as a sliding door or sliding door (hereinafter referred to as a shoji), the shoji is opened and closed, so that the shoji is opened between the electrode of the heating element and the electrode of the energization control device. A separable power feeder (separable power feeder) is used that opens the circuit at times and closes the circuit when the sliding door is closed (see Patent Document 6).
JP 2002-309863 A

  This separable power feeder has a terminal electrically connected to the energization control device and attached to the vertical frame of the sash, and a terminal electrically connected to the electrode of the heat generating glass. The power receiving component is attached to the vertical shaft of the shoji, and when the shoji is closed, the power feeding component and the terminals of the power receiving component are in contact with each other so that energization is possible.

  However, the lower part of the shoji is slidably fitted to the lower rail of the sash lower frame via a door wheel, and the upper part is slidably fitted to the upper rail of the upper sash frame. Since a clearance is provided between the frame to ensure smooth sliding of the shoji, it can be swung within a range of several mm in the thickness direction of the shoji (inside and outside). Therefore, depending on how the force is applied to the shoji when closing the shoji or the wind pressure applied to the shoji, the position with respect to the vertical frame when the shoji reaches the closing position may change. Since an error may occur in the mounting position of the component, the terminal of the power receiving component does not always contact the terminal of the power supplying component correctly. Therefore, there is a problem that power is not supplied to the heating element even if the energization control device performs a power supply operation in the closed state of the shoji. Also, when the shoji is closed, the parts are likely to be damaged unless the terminals of the power receiving parts and the terminals of the power feeding parts can be contacted with a constant contact force.

The present invention has been made to solve the above problems. That is, the first problem of the present invention consists of a power supply component attached to the fixed side and a power reception component attached to the movable side, and can be energized when the terminal of the power supply component contacts the terminal of the power reception component. In the separable power feeder that is configured as described above, even if the position of the movable power receiving component approaches, or even if there is an error in the mounting position of both components, the terminal is not affected by this. It is to add a configuration in which comrades can reliably contact and supply power.
The second problem of the present invention consists of a power supply component attached to a sash frame and a power reception component attached to a shoji cage. When the shoji is closed, the terminal of the power supply component and the terminal of the power reception component can be energized. In the separable power feeder for supplying power to the heating element provided on the sash shoji heat-generating glass, even if the position when the shoji is closed fluctuates or there is an error in the mounting position This is to add a configuration in which the terminals can reliably contact each other and be supplied with power without being affected by the occurrence of the problem.

In order to solve the first problem, the invention of claim 1 includes a power supply component attached to the fixed portion and a power reception component attached to the movable portion, and is orthogonal to one of the power supply component and the power reception component. A holder that is pivotable about an axis and biased so as to return to a steady position is provided, and a terminal projects from the holder in the other direction of the power supply component and the power reception component, The other power receiving component is provided with a funnel-shaped terminal receiving hole that opens in a direction facing the terminal of the holder, and a terminal is provided at the bottom of the terminal receiving hole.
With the above configuration, when the power supply component and the power reception component are mounted on the fixed side and the movable side that is in contact with or separated from each other with the axis of the terminal of the holder facing the axis of the terminal receiving hole, the power reception component approaches the power supply component. If the axis of the holder terminal coincides with the axis of the terminal receiving hole, the two terminals normally contact each other without any obstruction. Even if the position when the power receiving component is approaching is displaced with respect to the power receiving component, or there is an error in the mounting position of both components, the holder is orthogonal when the tip of the terminal of the holder contacts the periphery of the terminal receiving hole. Since it rotates about two axes, the tip of the terminal is guided toward the bottom of the terminal receiving hole, and the terminal of the holder reliably contacts the terminal at the bottom of the terminal receiving hole.

In order to solve the first problem, the invention of claim 2 is capable of rotating around a horizontal axis and a vertical axis on one of a power supply component attached to a sash frame and a power reception component attached to a shoji frame. A holder biased so as to return to the steady position is provided, and a terminal is provided on the holder so as to project in the other direction of the power supply component and the power reception component, and the holder is provided on the other of the power supply component and the power reception component. A funnel-shaped terminal receiving hole that opens in a direction facing the other terminal is provided, and a terminal is provided at the bottom of the terminal receiving hole.
With the above configuration, when the power supply component and the power reception component are attached to the sash frame and the shoji cage with the axis of the holder terminal facing the axis of the terminal receiving hole, respectively, the holder terminal axis and the terminal receiving hole of the holder are closed when the shoji is closed. If the axis matches, both terminals will contact normally without any obstruction. Even if the closing position of the shoji is recognized to be displaced indoors or outdoors, or if an error occurs in the mounting position of the parts, the holder rotates around the horizontal or vertical axis when the tip of the holder terminal comes into contact with the periphery of the terminal receiving hole. In order to move, the tip of the terminal is guided toward the bottom of the terminal receiving hole, and the terminal of the holder comes into reliable contact with the terminal at the bottom of the terminal receiving hole.

  According to a third aspect of the present invention, in the separable power feeder according to the second aspect of the present invention, an attracting means that magnetically attracts the power supply component and the power reception component is provided. When this adsorbing means is provided, the attracting means magnetically adsorbs the power supply component and the power receiving component when the shoji is closed. For example, the attractive force between the shoji cage and the sash frame of the shoji locking device is reduced. Even in this case, the contact state between the terminals is maintained.

According to a fourth aspect of the present invention, in the separable power feeder according to the second or third aspect of the present invention, a terminal connected to the power supply component and the power reception component is connected to one of the power supply component and the power reception component. It is characterized in that a switch is provided that conducts when the contacts come into contact with each other and disconnects when the contacts between the terminals break.
With the above configuration, when both terminals come into contact with each other when the shoji is closed, the switch conducts and power feeding is started. Accordingly, it is possible to prevent a spark from occurring when the terminals are in contact with each other.

  According to the first aspect of the present invention, even when the approach position of the power receiving component to the power feeding component is displaced, or even if there is an error in the mounting position of both parts, the terminal of the holder when the power receiving component approaches the power feeding component. Because the tip of the holder contacts the periphery of the terminal receiving hole and the holder rotates about two axes, that is, the tip of the holder terminal is guided toward the bottom of the terminal receiving hole by swinging or kneading. Therefore, the terminal of the holder is surely in contact with the terminal at the bottom of the terminal receiving hole. Therefore, reliable power feeding is possible without being affected by the displacement of the approach position of the power receiving component or the error of the component mounting position.

  According to the invention of claim 2, even if the closing position of the shoji varies in the indoor / outdoor direction or an error occurs in the mounting position of the component, the tip of the holder terminal is positioned around the terminal receiving hole when the shoji is closed. Since the holder rotates around the horizontal axis or the vertical axis when contacted, the tip of the terminal is guided toward the bottom part of the terminal receiving hole, so that the terminal of the holder comes into contact with the terminal at the bottom part of the terminal receiving hole. . Therefore, it is possible to reliably supply power without being affected by the change in the closing position due to the installed state of the shoji screen or an external force or the error in the component mounting position.

  According to the invention of claim 3, since the attracting means for magnetically attracting when the power supply component and the power receiving component are close to each other is provided, for example, the attractive force between the shoji cage and the sash frame of the shoji locking device Even when the voltage drops, the contact state between the terminals is maintained. Therefore, the reliability of power supply is improved.

  According to the invention of claim 4, when one of the power supply component and the power reception component contacts the conductor connected to the terminal when the power supply component and the terminal of the power reception component contact each other, the contact between the terminals is cut off. Since a switch that cuts off when the door is closed is provided, the switches are brought into conduction after the both terminals are in contact with each other when the shoji is closed, and power feeding is started. Therefore, it is possible to prevent a spark from occurring when the terminals are in contact with each other.

Next, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a horizontal sectional view showing an example of a state of attachment of a separable power feeder according to the present invention to a sash, and FIG. 2 shows an example of a wiring state from a switchboard to the electrode of a heating element through the power feeder. FIG.
3 is a front view of the power supply component, FIG. 4 is also a front center longitudinal sectional view, FIG. 5 is a side view of the power reception component, FIG. 6 is a front view, FIG. 7 is a rear view, and FIG. -X sectional view, FIG. 9 is a YY sectional view of FIG.

  1 and 2 is a separable power feeder according to an embodiment of the present invention. The power supply component A attached to the vertical frame 2 of the sash frame F and the vertical frame 2 when the shoji D are closed. It consists of the power receiving component B attached to the vertical gutter 3 closely attached. One end is connected to a distribution board 4 connected to a power supply (not shown), and a conductor 5 wired inside the wall is inserted into the vertical frame 2, and the other end of the conductor is described later for the power supply component A. It is connected to a terminal (reference numeral 14 in FIG. 4). In addition, one end of a conducting wire (reference numeral 9 in FIG. 2) inserted into the shoji downpipe is connected to a terminal (reference numeral 25 in FIG. 5) described later of the power receiving component B, and the other end is connected to the heating glass 6 of the shoji. It is connected to the electrode of the heating element 7 that is carried. 8 is a controller provided in the middle of the conducting wire 5 so that it can be operated from the room. The exothermic glass 6 is known from the above-mentioned patent document as an example, and is a known one coated with a heating element such as a metal thin film that generates heat by resistance when the surface of the glass is energized.

  The power supply component A has a component body 11 formed of an insulating synthetic resin. The component main body 11 is provided with holes 12 through which screws for fixing the component main body to the vertical frame 2 are provided at the top and bottom, and is wide on the front side and narrowed on the back side at a position spaced vertically between the upper and lower holes. A funnel-shaped terminal receiving hole 13 is formed. A terminal 14 is provided at the bottom of each terminal receiving hole 13. The end of the conducting wire 5 is connected to this terminal. A permanent magnet 15 is embedded between the upper and lower terminals 14 of the component main body 11, and the end of the magnetic plate 16 that is in close contact with both magnetic poles protrudes from the upper and lower terminal receiving holes 13 to the front of the component main body 11. ing.

  The component body 11 is further provided with, for example, a proximity switch 17 having a make contact, and the other end of a conductor 18 having one end connected to the controller 8 is connected to both terminals of the proximity switch. The controller 8 sets one of the conditions for supplying power to the power supply component A through the conductor 5 that the proximity switch is closed.

  The power supply component A is fitted into a mounting hole (not shown) formed at a position slightly closer to the indoor side from the position where the closed shovel 3 of the closed shoji abuts the vertical frame 2, and the terminal receiving hole 13. Is fixed with a screw screwed through the hole 12 in a state in which is oriented in a direction parallel to the opening / closing movement direction of the shoji D.

  On the other hand, the power receiving component B has a component main body 21 formed of the same resin material as that of the power supply component A. This component main body 21 also has a hole 22 through which screws for fixing the component main body to the vertical rod 3 of the shoji are provided at the upper and lower sides, and a receiving portion (housing) 23 opened on the front side is provided between the upper and lower holes. Have. In the housing portion, the terminal holder 24 is held so as to be rotatable about the horizontal axis and the vertical axis (that is, capable of kneading) and to return to a fixed position, as will be described later. Yes.

  The terminal holder 24 has terminals 25 projecting to the front side (vertical frame side) with an interval equal to the interval between the terminal receiving holes 13 of the power supply component A on the upper and lower sides. In addition, an actuator 26 corresponding to the proximity switch 17 of the power supply component A is provided on the front surface of the terminal holder 24. The form of the actuator 26 differs depending on the type of the proximity switch 17. The illustrated example is merely an example in which a projection is formed so as to press and close the make contact of the proximity switch 17. When the proximity switch 17 is a magnet switch, the actuator 26 is composed of a magnet and does not need to protrude.

  Various known techniques can be used as a specific structure for holding the terminal holder 24 so as to be rotatable about the horizontal axis and the vertical axis and to return to a fixed position. To explain, the terminal holder 24 is inserted into the accommodating portion 23, and the inserted portion is provided with a pin 27 protruding in the opposite direction to each terminal 25, and one end of each pin is provided on the back wall of the accommodating portion 23. The contacted coil spring 28 is wound and locked, and the terminal holder 24 is urged in the front direction. In addition, a long hole 29 that is long in the urging direction of the coil spring 28 is provided in an intermediate portion of the terminal holder 24, and a shaft 210 fixed to the bottom of the component main body 21 is loosely inserted into the long hole. A coil spring 211 is wound, and the terminal holder 24 is urged toward the side surface of the housing portion by the coil spring. The shaft 210 has a function of preventing the terminal holder 24 from being pulled out of the housing portion 23 by the biasing force of the coil spring 28 of the terminal holder 24.

  Between the terminals 25 of the terminal holder 24, a magnetic plate 212 attracted by a magnet is attached toward the front side. The magnet of the power supply component A, the magnetic plate 16 and the magnetic metal plate 212 constitute magnetic attraction means.

  With the above-described configuration, when the power receiving component B is fixed to the interior side of the interior side at the same height as the power feeding component A of the vertical rod 3 of the shoji D with the screw, the terminal 25 has its axis aligned with the power feeding component. It is attached so as to coincide on the common horizontal line with the axis of the terminal receiving hole 13 of A. When a force in an oblique direction is applied to the tip of the terminal 25 with respect to the horizontal line, the terminal holder 24 is tilted in the direction in which the force is applied, and when the force is removed, the coil spring 28 and / or the coil spring 211 is used. It returns to the state before power was applied.

  Conductive wires 9 are connected to the inner ends of the terminal holders 24 of the terminals 25 of the power receiving component B, and the conductive wires penetrate through the shovel 3 of the shoji through holes 213 formed on the back side of the component main body 21. The heat generating glass 6 is connected to the electrode of the heating element fitted in the vertical glass fitting groove 3a.

  When the above-mentioned power supply component A and power reception component B are attached at appropriate positions as shown in FIG. 1 and the door D is closed, the mounting positions of the power supply component A and the power reception component B are accurate. If the closing position of the shoji is normal, the tip of the terminal 25 of the power receiving component B contacts the terminal 14 of the power supply component A without contacting the periphery of the terminal receiving hole 13. In addition, when there is an error in the attachment position of the power supply component A and the power reception component B, or when the closing position of the shoji is shifted from the normal position within a range that is usually likely to occur, about several millimeters, Contacts the periphery of the terminal receiving hole 13, and can be guided by this to contact the terminal 14 of the power supply component A. In either case, the proximity switch 17 is turned on by the actuator 26 when the terminal 14 of the power supply component A and the terminal 25 of the power reception component B approach each other. Accordingly, when the controller 8 is set to energize the heating element 7, the energization is started because the condition for turning on the proximity switch 17 is satisfied. Therefore, since electricity is applied after the terminals 14 and 25 are in contact, the occurrence of sparks when the terminals are in contact is prevented. Further, since the terminal holder 24 can slide in the contact direction of the terminal and is biased in the return direction by the coil spring, the terminal holder 24 can be contacted without applying an excessive force to the contact portion. ,

  Further, when the terminal 14 of the power supply component A and the terminal 25 of the power reception component B approach each other, the magnetic attracting means operates, so that the magnetic plate 212 of the terminal holder 24 is also magnetized by the power supply component A. Since it is adsorbed by being approached to the plate 16, even if wind pressure or other external force is applied to the shoji D and vibrates, the attracting force to the vertical frame of the shoji by the sash lock device is weak, so that the power supply component A Even if the power receiving component B is slightly separated, the terminal holder 24 is attracted to the power feeding component A by the magnetic attracting means, so that the electrical connection state of the terminals 14 and 25 is maintained.

  In the above, the case where the terminal holder is provided on the power receiving component B has been described. However, the terminal holder with the terminal facing the power receiving component B is provided on the power feeding component A side so as to be freely kneaded. Even if a receiving hole is formed and a terminal is provided at the bottom of the hole, the same effect as described above can be obtained.

  Above, a preferred embodiment used to supply power to a heat generating glass heating element provided on a sash shoji has been described, but the application of the present invention is not limited to this, the power supply component on the fixed side, It can be widely used when a power receiving component is attached to the movable side and power is supplied from the fixed side to the movable side.

The horizontal sectional view which shows an example of the attachment state with respect to the sash of the separable power feeder which concerns on this invention. The wiring diagram which shows an example of the wiring state from a switchboard to the electrode of the heat generating body of a heat generating glass through the same electric power feeder. FIG. Similarly front center longitudinal cross-sectional view. The side view of a receiving component. Similarly front view. Similarly rear view. XX sectional drawing of FIG. FIG. 6 is a sectional view taken along line YY in FIG. 5.

Explanation of symbols

F Sash frame 2 Vertical frame D Shoji 3 Vertical rod 1 Separable power feeder A Power supply component 13 Terminal receiving hole 14 Terminal 15, 16 Adsorption means 17 Proximity switch B Power receiving component 24 Terminal holder 25 Terminal 26 Actuator 27

Claims (4)

  It consists of a power supply component attached to the fixed part and a power reception part attached to the movable part, so as to be rotatable around two axes orthogonal to one of the power supply part and the power reception part, and to return to the steady position. An energized holder is provided, and a terminal projects from the holder in the other direction of the power receiving component and the power receiving component, and the other of the power receiving component and the power receiving component opens in a direction facing the terminal of the holder. A separable feeder comprising a funnel-shaped terminal receiving hole and a terminal provided at the bottom of the terminal receiving hole.   2. The separable power feeder according to claim 1, further comprising: an attracting unit that magnetically attracts the power supply component and the power reception component in proximity to each other.   In Claim 1 or 2, it is made to conduct | electrically_connect, when the terminals of a power supply component and a power receiving component contact the conducting wire connected to a terminal to one of a power supply component and a power receiving component, and the contact of terminals was disconnected. A separable power feeder, characterized in that it is provided with a switch that is sometimes disconnected.   It consists of a power supply component attached to the sash frame and a power reception component attached to the shoji cage, so that one of the power supply component and the power reception component can rotate about the horizontal axis and the vertical axis and return to the steady position. And a terminal is provided in the holder so as to project in the other direction of the power-receiving component and the power-receiving component, and the other of the power-supply component and the power-receiving component is opened in a direction facing the terminal of the holder. A sash separable power feeder, wherein a funnel-shaped terminal receiving hole is provided and a terminal is provided at the bottom of the terminal receiving hole.

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