JP2013037898A - Receptacle with protection mechanism - Google Patents

Abstract

PROBLEM TO BE SOLVED: To solve a problem of an installation space by preventing a receptacle from being inserted/extracted with a plug unless the supply of electricity is intercepted by an opening/closing device and a switch.SOLUTION: A receptacle with a protection mechanism includes: a receptacle 33B in which a plug 39B to be attached to a tip end of a cable is inserted; a protection bracket 23 positioned at a position for preventing the insertion/extraction of the plug 39B into/from the receptacle 33B and a position for allowing the insertion/extraction of the plug 39B; a switch for detecting that the protection bracket 23 is at the position for preventing the insertion/extraction of the plug 39B; and an opening/closing device 43 which is energized by a signal of the switch when the switch detects that the protection bracket 23 is at the position for preventing the insertion/extraction of the plug 39B.

Description

  The present invention relates to a receptacle with a protection mechanism.

An accident such as an electric shock may occur when the receptacle (outlet) is inserted or removed in the energized state. In order to prevent such an electric shock accident, it is preferable to have a structure in which the plug cannot be inserted and removed unless the supply of electricity to the receptacle is interrupted.
Patent Document 1 discloses a technique of an outlet and an outlet with a cover for the purpose of preventing an electric shock. Patent Document 2 discloses a technology of an outdoor outlet that can prevent both theft and use both an electric vehicle and an electric device. Patent Document 3 discloses a technology of a safety mechanism in an outlet or the like that incorporates a switch that is energized only when the plug is crimped to the outlet.

A receptacle with a switch that can be operated by inserting a plug is commercially available as a receptacle in which a plug cannot be inserted and removed during energization. 20, FIG. 21, FIG. 22 and FIG. 23 show schematic configurations of the receptacle and the plug.
The receptacle 1 is provided with a rotary switch 2 and an opening / closing device 5. By rotating the rotary switch 2 to the ON / OFF position, the switching device 5 is mechanically operated via the rod 4, the gear 3, and the rod 6, and the switching device 5 is connected from the cable 11 that supplies the three-phase power. Via the cable 12, the supply of electricity to the current-carrying part fitting 13 and the interruption are switched. The rotary switch 2 and the gear 3 are connected by a rod 4 and both rotate in the same phase. Further, the rotation of the rotary switch 2 is transmitted to the opening / closing device 5 by the rod 6 connected to the gear 3.

When the plug 14 is not inserted into the receptacle 1 (see FIGS. 20 and 21), the slide portion 9 receiving the force in the direction pushed out by the spring 19 fits into the notch 18 in the inner diameter portion of the gear 8. Therefore, the gear 8 cannot rotate, and the gear 7, the gear 3, and the rotary switch 2 cannot rotate from the OFF position. That is, the energization to the energization part metal fitting 13 is interrupted.
When the plug 14 is inserted into the receptacle 1 (FIGS. 22 and 23), the projection 15 at the tip of the plug 14 pushes the slide 9 and the slide 9 is removed from the notch 18 of the gear 8. Rotation is possible.

At this time, when the rotary switch 2 is rotated to the ON position, the opening / closing device 5 operates, electricity is supplied to the energizing portion metal fitting 13, and the plug block portion 10 on the gear 8 is rotated along with the rotation of the gear 8. Fixes the protrusion 15 of the plug 14. As a result, the plug 14 cannot be removed from the receptacle 1. The electricity supplied to the current-carrying metal fitting 13 is transmitted to the cable 17 via the metal fitting 16 of the plug 14, and power is supplied to various devices (not shown) via the cable 17.
When the rotary switch 2 is rotated to the OFF position from this state, the opening / closing device 5 operates to cut off the energization to the energizing portion metal fitting 13 and, along with the rotation of the gear 8, the plug block portion 10 and the protruding portion. Therefore, the plug 14 can be pulled out.

JP 2011-70912 A JP 2011-8947 A JP-A-9-199234

  In the technique disclosed in Patent Document 1 described in the background art, there is a risk of electric shock due to water intrusion or insertion of a metal rod because the battery can reach the charging part from the opening. In the technique disclosed in Patent Document 2, electricity is supplied to an outlet by a switch and installed in a housing that prevents plug insertion / removal. However, the plug can be inserted / removed in an energized state, which is a problem. Further, the technique disclosed in Patent Document 3 has a problem that if the push-on switch is intentionally pressed, the power can be turned on without inserting a plug.

  Moreover, since the receptacle with a switch which can be operated by inserting the plug has a mechanism having an opening / closing device and a switch as described with reference to FIGS. 20 to 23, when installing the receptacle, A large space for switchgear and switches is required. For this reason, it may be difficult to secure a space for installing the receptacle. For example, in an injection molding machine, many peripheral devices such as a temperature controller (temperature control device), a conveyor, a dryer, and a take-out machine are installed in one machine. For this reason, it is very difficult to install a sufficient number of receptacles having switchgears and switches for these peripheral devices.

  Accordingly, an object of the present invention is to solve the problem of installation space, in view of the above-mentioned problems of the prior art, unless the receptacle is in a state where the supply of electricity is cut off by the switchgear and the switch. That is.

The invention according to claim 1 of the present application can be located in a receptacle into which a plug attached to the tip of a cable is inserted, a position that prevents the plug from being inserted into or removed from the receptacle, and a position in which the plug can be inserted or removed. A protective bracket, a switch that detects that the protective bracket is in a position that prevents the plug from being inserted or removed, and a switch that detects that the protective bracket is in a position that prevents the plug from being inserted or removed. And a switchgear that is energized in response to the signal (1).
The invention according to claim 2 is the protection mechanism according to claim 1, wherein the receptacle is a plurality of receptacles, and the number of the opening and closing devices is one or more and the number of opening and closing devices is smaller than the number of receptacles. It is an attached receptacle.
The invention according to claim 3 is characterized in that a lock device is provided for fixing the position of the bracket when the protective bracket is in a position that prevents the plug from being inserted or removed. It is a receptacle with a protection mechanism as described in above.
According to a fourth aspect of the present invention, an operating portion of the locking device is provided on the protective bracket, and the switch is a switch that detects that the locking device is locked by the operating portion, and the bracket is locked. The receptacle with a protective mechanism according to claim 3, wherein when the switch detects that the switch is in a closed state, the switchgear is energized by a signal from the switch.

The invention according to claim 5 is the receptacle with a protection mechanism according to any one of claims 1 to 4, wherein the switch is a waterproof switch.
The invention according to claim 6 is provided with an interlocking member that interlocks with the protective bracket, the switch is a switch that detects the position of the motion member, the switch is provided inside the box, and the state of the interlocking member is determined by the switch. The receptacle with a protective mechanism according to any one of claims 1 to 3, wherein the switch detects that the bracket is in a position that prevents the plug from being inserted or removed.
According to a seventh aspect of the present invention, there is provided a moving member that interlocks with the protective bracket, and the locking device locks the protective bracket by locking the interlocking member when the protective bracket is in a position that prevents the plug from being inserted or removed. The switch is a switch for detecting that the bracket is in a locked state. The switch is provided inside the box, and the switch detects that the protective bracket is in a locked state. The receptacle with a protective mechanism according to claim 4.
The invention according to claim 8 is a receptacle plug set with a protection mechanism comprising a plug attached to the tip of a cable for supplying power to a power supply target and the receptacle with a protection mechanism according to any one of claims 1 to 7. is there.

  According to the present invention, according to the first aspect of the present invention, the opening / closing device and the receptacle can be separately installed by preventing the plug from being inserted / removed unless the electrical supply is cut off by the opening / closing device and the switch. Can solve space problems. Further, according to the second aspect, since only a smaller number of opening / closing devices than the number of receptacles are used, the installation space can be reduced accordingly.

It is a figure explaining the receptacle provided with the protection device of the 1st structure which is an embodiment of the present invention, and the protection bracket of the 1st structure. It is a figure explaining the state which inserted and fixed the plug to the receptacle shown in FIG. FIG. 3 is a diagram for explaining that the plug is moved from a state in which the plug is inserted and fixed to the receptacle shown in FIG. 2. It is DD sectional drawing of FIG. It is the figure which looked at FIG. 4 in the H direction. It is a figure explaining operation | movement of the protection apparatus which has a control apparatus. It is a figure explaining operation | movement of the protection apparatus which does not have a control apparatus. It is a figure explaining embodiment provided with a plurality of opening and closing devices. It is sectional drawing of the protection apparatus of the 2nd structure used for embodiment of this invention. It is the figure which looked at FIG. 9 in I direction. It is a figure explaining operation | movement of the cam of the protection apparatus of the 2nd structure shown by FIG. 9, FIG. It is a front view of the protection apparatus of the 3rd structure used for the embodiment of the present invention. It is JJ sectional drawing of FIG. It is a figure explaining the protection bracket of the 2nd structure used for the embodiment of the present invention. It is EE sectional drawing of FIG. It is a figure explaining the protection bracket of the 3rd structure used for the embodiment of the present invention. It is the figure which looked at FIG. 16 in the G direction. It is a figure explaining the protection bracket of the 4th structure of this invention. It is the figure which looked at FIG. 18 to the F direction. It is a figure explaining the state before inserting a plug in a receptacle with the combination of the receptacle and plug which is a prior art. It is AA sectional drawing of FIG. It is a figure explaining the state after plug insertion from the state before insertion of FIG. It is BB sectional drawing of FIG.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
In the embodiment of the present invention, when a protective bracket that restricts plugging / unplugging, an opening / closing device that is independent of the receptacle, and when the protective bracket is in a position that prevents the plugging / unplugging, a signal flows to the control circuit of the switching device, The problem of installation space is solved by providing a switch that closes.
The embodiment of the present invention will be described with reference to FIGS. FIG. 1 is a diagram for explaining a receptacle having a first structure protective device and a first structure protective bracket according to an embodiment of the present invention. FIG. 2 is a view for explaining a state in which the plug is inserted and fixed to the receptacle shown in FIG. FIG. 3 is a view for explaining that the plug is moved from the state in which the plug is inserted and fixed to the receptacle shown in FIG. 2 and 3 are views of the receptacle 33B and the plug 39B in the CC cross section of FIG.

As shown in FIG. 1, the ends of the receptacles 33 </ b> A and 33 </ b> B are fixed to the plate 21 using screws (screws) 34. Since the same applies to the receptacles 33A and 33B, the receptacle 33B will be described as an example. The receptacle 33B is provided with a receptacle cover 36B that can rotate around a rotation shaft 37B (see FIG. 2). When the plug 39B is not inserted into the receptacle 33B, the receptacle cover 36B rotates about the rotation shaft 37B, covers the insertion port of the receptacle 33B into which the plug 39B is inserted, and protects the insertion port. Reference numerals 36A ₁ and 36B ₁ represent spaces for sticking the seals on which the model numbers of the receptacles 33A and 33B are printed on the receptacle covers 36A and 36B.
As shown in FIG. 2, the receptacles 33A and 33B are provided with a protection mechanism. The protective mechanism includes a protective bracket 23, an opening / closing device 43, and a switch 26 for turning on / off the opening / closing device 43. The protection device 20 includes a protection bracket 23 and a switch for turning on / off the opening / closing device 43. The receptacles 33A and 33B are connected to a power source via the circuit breaker 42 and the switchgear 43. A control circuit for controlling opening / closing of the opening / closing device 43 is not shown.

  The protective bracket 23 is a member for preventing inadvertent insertion / removal of the plugs 39A, 39B with respect to the receptacles 33A, 33B. The protective bracket 23 is assembled to the base 22 using hinges 24 and 24. The protective bracket 23 can be rotated within a predetermined angle range around the rotation shafts 35 and 35 of the hinges 24 and 24. As the hinges 24, 24, various types on the market can be used. In place of the hinges 24, 24, fixing by screws may be used, but from the viewpoint of workability, a torque hinge is desirable. The torque hinge is a hinge that can maintain an arbitrary angle. By using the torque hinge as the hinges 24, 24, it is possible to prevent the protective bracket 23 from vibrating and even if the protective bracket 23 is forgotten to be locked. It is possible to prevent the protective bracket 23 from operating unexpectedly. Although the receptacle 33A and the receptacle 33B are illustrated, the invention is not limited to two receptacles, and one or three or more receptacles may be used. The same applies to the other embodiments.

  When the protective bracket 23 is in the position shown in FIG. 2 (that is, the posture parallel to the connecting direction of the plug 39B to the receptacle 33B), the outer surface of the receptacle cover 36B interferes with the protective bracket 23 and counterclockwise on the paper surface. Cannot rotate in the direction. Therefore, the plug 39B cannot be pulled out from the receptacle 33B, and the plug 39B cannot be inserted into the receptacle 33B. On the other hand, when the protective bracket 23 is in the position shown in FIG. 3 (that is, the posture not parallel to the connecting direction of the plug to the receptacle 33B), the receptacle cover 36B can be rotated around the rotation shaft 37. Therefore, the plug 39B can be pulled out, and the plug 39B can be inserted.

  The receptacle cover 36B is pushed from the protective bracket 23 in the clockwise direction on the paper surface, or the receptacle cover 36B itself is configured to apply a clockwise torque on the paper surface, as shown in FIG. Once the plug 39B is inserted into the receptacle 33B, the protrusion 38B provided on the receptacle cover 36B interferes with the protrusion 40B provided on the plug 33B, and the plug 39B cannot be pulled out. Therefore, in order to pull out the plug 39B, the protective bracket 23 is rotated by hand pulling counterclockwise on the paper surface or the like, and the tip of the receptacle cover 36B is pulled by hand. It must be rotated counterclockwise around 37 on the page.

Next, referring to FIGS. 4 and 5, a switch for closing a switch when a signal flows to the control circuit of the switch 43 when the protective bracket 23 is in a position that prevents the plugs 39 </ b> A and 39 </ b> B from being inserted and removed. To do. 4 is a sectional view taken along the line DD of FIG. 1, and FIG. 5 is a view of FIG. 4 viewed in the H direction.
A switch 26 is attached to the base 22 via a switch bracket 25. When the protective bracket 23 is in a state that prevents the plugs 39 </ b> A and 39 </ b> B from being inserted and removed (when the protective bracket 23 is in the posture shown in FIG. 2), the switch tip 59 is placed on the inner surface of the protective bracket 23. As a result of the contact, the switch tip 59 is pushed inward of the switch 26, and the switch 26 is turned on. As a result, a signal flows to the control circuit including the control device 63 that controls the switching device 43 through the cables 64 and 65, and the switching device 43 is closed. Then, electricity supplied from the main power supply is supplied from the circuit breaker 42 to the receptacles 33A and 33B via the switchgear 43 and the cables 44A and 44B. As shown in FIG. 4, by incorporating the control device 63 into the control circuit, electricity to the receptacles 33A and 33B can be supplied even if the state of the protective bracket 23 is a position that prevents the plugs 39A and 39B from being inserted and removed. Can be blocked. A control circuit including the control device 63 and a control circuit not including the control device 63 will be described later with reference to FIGS.

As shown in FIG. 5, when the protective bracket 23 is moved to a position that prevents the plugs 39 </ b> A and 39 </ b> B from being inserted and removed, the cushion 28 stops the protective bracket 23 at a position that prevents the plugs 39 </ b> A and 39 </ b> B from being inserted and removed. A cylinder lock receiver 60 is assembled to the switch bracket 25, and the rotating bracket 61 of the cylinder lock 30 is rotated until the cam portion 62 engages with the cylinder lock receiver 60, thereby fixing the protective bracket 23 from rotating. Is done.
As shown in FIG. 4, the cables 64 and 65 wired to the switch 26 pass through the cord lock 32 fixed to the base 22 and are wired to the opening / closing device 43 and the control device 63 in the plate 21. A space between the base 22 and the plate 21 is sealed with a sealing material 58 to be waterproof. Therefore, when the holes 57 are formed in the plate 21 and the protection device 20 is attached to the plate 21 with the screws 31, the plugs 39A and 39B can always be cut off from energizing the receptacles 33A and 33B.
When water is applied to the switch bracket 25 which is one element constituting the protective device 20, the switch 26 may malfunction and energize when the plugs 39A and 39B are inserted and removed. In that case, waterproofing can be added to the protection device 20 by making the switch 26 waterproof.

Here, a control circuit for controlling the opening / closing of the opening / closing device 43 will be described with reference to FIGS. FIG. 6 is a diagram for explaining the operation of the protection device having the control device. FIG. 7 is a diagram for explaining the operation of the protection device having no control device. The three-phase AC main power supply is electrically connected to the receptacles 33A and 33B via the circuit breaker 42 and the switching device 43. The circuit breaker 42 is a device for turning on / off the main power source at a large source and is not related to the present invention, so that the description thereof is omitted. The opening / closing device 43 is controlled to open / close by a control circuit including the switch 26.
As shown in FIG. 6, the control circuit may include the control device 63 and the control circuit 63 may not include the control device 63 as shown in FIG. When the control device 63 receives an alarm signal from a host control device that controls a machine tool or the like (not shown), the control device 63 turns off the signal flowing through the control circuit and cuts off the supply of electricity to the receptacle 33A and the receptacle 33B. As described above, even when the state of the protective bracket 23 is a position that prevents the plugs 39A and 39B from being inserted and removed, the electricity to the receptacles 33A and 33B can be cut off, and the security and safety of the device are improved. .
6 and 7, the structure is such that one opening / closing device is provided for a plurality of receptacles, but a plurality of opening / closing devices may be provided as shown in FIG. In particular, when a plurality of receptacles are electrically connected to at least one switchgear, a reduction in installation space can be expected due to the small number of switchgears. In FIG. 8, the opening / closing device 43 is electrically connected to the receptacles 33A and 33B, and the opening / closing device 43A is electrically connected to the receptacles 33C and 33D. The opening / closing devices 43 and 43 </ b> A are controlled to be opened and closed by a control circuit including the switch 26.

Next, a configuration for preventing the switch 26 from being damaged will be described with reference to FIGS. 9, 10, and 11. FIG. 9 is a cross-sectional view of the protective device having the second structure used in the embodiment of the present invention. FIG. 10 is a diagram when FIG. 9 is viewed in the I direction.
In the fixing method of the protective bracket 23 described with reference to FIGS. 4 and 5, since the inner surface of the protective bracket 23 directly collides with the switch tip 59, when the protective bracket 23 is strongly closed, the shock is switched to the switch. 26 may directly lead to damage to the switch 26.
Therefore, the switch 26 is turned on and off by the protection device having the second structure that is driven by the cam portion 62 of the cylinder lock 30 (FIGS. 9, 10, and 11). In this embodiment, the inner surface of the protective bracket 23 does not directly contact the switch front end portion 59. Therefore, even if the protective bracket 23 is tightly closed, the switch tip 59 is not pushed beyond the movable range, and no direct impact is applied.

  When the protective bracket 23 is rotated in the closing direction and the cushion 28 is in a position that prevents the plugs 33 </ b> A and 33 </ b> B from being inserted and removed, the rotating portion 61 of the cylinder lock 30 is rotated. 62 passes through the hole 67 of the switch bracket 66, and the protective bracket 23 is fixed by the switch bracket 66 and the cam portion 62.

At the same time, the cam portion 62 pushes the switch tip portion 59, and electricity is supplied to the receptacles 33A and 33B. Since the position of the cam portion 62 in the height direction is restricted by the hole 67, it is possible to prevent the switch tip portion 59 from being pushed in beyond the possible operation range.
If the protective bracket 23 is not in a state that prevents the plug from being inserted or removed, even if the rotating portion 61 of the cylinder lock 30 is rotated, the switch tip portion 59 cannot be pushed in, so electricity is not supplied to the receptacles 33A and 33B. The switch distal end 59 is protected from an impact when the protective bracket 23 is closed while the operation range is limited by the hole 67 of the switch bracket 66.

FIG. 12 is a front view of the protective device having the third structure used in the embodiment of the present invention, and FIG. 13 is a sectional view taken along line JJ in FIG. In the protection device having the second structure shown in FIGS. 9 and 10, there is a possibility that the switch 26 can be operated by inserting an object through the hole 67. Therefore, in this embodiment, a structure that cannot interfere with the switch 26 is described below. The protective bracket 69 is fixed to the rod 70, and the protective bracket 69 and the rod 70 rotate with the same phase. A cam 72 is fixed to the rod 70 and rotates in the same phase as the rod 70.
On the other hand, a cylinder lock 73 is attached to the bracket 71, and the rotating portion 74 of the cylinder lock rotates in the same phase as the cam 75 attached to the cylinder lock 73. When the protective bracket 69 is in a position that prevents the plugs 39A and 39B from being inserted and removed, the cam 75 does not interfere with the cam 72 and can rotate. When the rotating portion 74 of the cylinder lock is rotated 90 degrees counterclockwise, the cam 75 pushes the switch 76, and electricity is supplied to the receptacle.

At the position of the cam 75 where the switch 76 operates, the cam 72 and the cam 75 interfere and the protective bracket 69 cannot be moved. When the rotating part 74 of the cylinder lock is rotated and returned to the original position, the switch 76 is returned halfway and the supply of electricity to the receptacles 33A and 33B is cut off. When the rotating portion of the cylinder lock is further returned, the cam 72 and the cam 75 do not interfere with each other, and the protective bracket 69 can be rotated.
By sealing the hole of the bracket 71 through which the rod 70 is passed with the sealing material 82, the waterproof property of the present protective device can be obtained. In this structure, the cam 72 and the cam 75 are interlocked. However, the cam 72 and the cam 75 may be made independent, the switch 76 is operated by the cam 72 and monitored, and the protective bracket 69 is fixed by the cylinder lock 73 and the cam 75.

  In this embodiment, the cylinder lock 30 corresponds to the lock device of claim 3. However, a fastener, a latch lock, a coin lock, a cam lock, a handle lock, or the like may be used as long as the protective bracket can be fixed. As the switchgear, a contactor, a relay, or the like can be used.

  The protective bracket used in the present invention is not limited to the configuration of the protective bracket 23 described with reference to FIGS. Now, other aspects of the protective bracket will be described. The protective bracket of the first structure is the protective bracket 23 (see FIGS. 2 and 3) having a structure for restricting the operation of the holding structure (receptacle covers 36A and 36B) of the plugs 39A and 39B. The protective brackets of the structure are protective brackets 46 and 55 (see FIGS. 15, 14, 16, and 17) configured to restrict the operation of the plugs 39A and 39B so that the plugs 39A and 39B cannot be pulled out. The protective bracket of the fourth structure is a protective bracket 52 (see FIGS. 18 and 19) having a structure that prevents rotation and holding of the plug.

  FIG. 14 is a diagram illustrating a protective bracket having a second structure used in the embodiment of the present invention. 15 is a cross-sectional view taken along line EE in FIG. The protective bracket 46 is a member for preventing inadvertent insertion / removal of the plugs 39A, 39B with respect to the receptacles 33A, 33B. The protective bracket 46 has a substantially L-shape, and hinges 47, 47 are fixed to one end of the protective bracket 46 by screws. The other end is provided with two semicircular cutouts so as not to interfere with the side surfaces of the plugs 39A and 39B when the plugs 39A and 39B are inserted into the receptacles 33A and 33B.

The protective bracket 46 is assembled to the base 22 using hinges 47, 47, and can be rotated within a predetermined angle range with the rotation shafts 48, 48 as rotation centers. As the hinges 47, 47, various types on the market can be used. Although fixing by screwing may be used instead of the hinges 47, 47, it is desirable to use a torque hinge from the viewpoint of workability. The torque hinge is a hinge that can maintain an arbitrary angle, and torque hinges are used as the hinges 47 and 47.
As shown in FIG. 14, when the plug 39B is inserted into the receptacle 33B, the protrusion 40B of the plug 39B and the protrusion 38B of the receptacle cover 36B are engaged. After the plug 39B is inserted into the receptacle 33B, the protective bracket 46 is rotated counterclockwise around the rotation axis 48 on the paper surface so that the plug 39B is not removed by the protective bracket 46. By using torque hinges as the hinges 47, 47, the hinges 47, 47 can maintain the posture in the state shown in FIG.

FIG. 16 is a diagram illustrating a protective bracket having a third structure used in the embodiment of the present invention. FIG. 17 is a diagram when FIG. 16 is viewed from the G direction. Unlike the protective bracket 46 of the second structure, the protective bracket 55 of the third structure is configured to be disposed above the plugs 50A and 50B. As shown in FIGS. 16 and 17, the plugs 50A and 50B are not attached to the receptacle covers 36A and 36B as shown in FIGS. For this reason, the protective bracket 55 having the third structure can be disposed above the plugs 50A and 50B.
The protective bracket 55 is a member for preventing inadvertent insertion / removal of the plugs 50A, 50B with respect to the receptacles 49A, 49B. The protective bracket 55 has a substantially L-shaped cross section, and hinges 53 and 53 are fixed to one end of the protective bracket 55 by screws. The other end is provided with two elongated semicircular cutouts so as not to interfere with the side surfaces of the cables 51A and 51B when the plugs 50A and 50B are inserted into the receptacles 49A and 49B.

The protective bracket 55 is assembled to the base 22 using hinges 53, 53, and can be rotated within a predetermined angle range with the rotation shafts 54, 54 as rotation centers. As the hinges 53, 53, various types on the market can be used. Although fixing by screwing may be used instead of the hinges 53, 53, it is desirable to use a torque hinge from the viewpoint of workability. The torque hinge is a hinge that can maintain an arbitrary angle, and a torque hinge is used as the hinges 53 and 53.
As shown in FIG. 17, when the plugs 50A and 50B are inserted into the receptacles 49A and 49B, the protective bracket 55 is rotated clockwise on the paper surface around the rotation shaft 54, and the plugs 50A and 50B are rotated by the protective bracket 55. So that it does not come off. By using torque hinges as the hinges 53, 53, the hinges 53, 53 can maintain the posture in the state shown in FIG.

FIG. 18 is a view for explaining the protective bracket of the fourth structure of the present invention. FIG. 19 is a view of FIG. 18 viewed from the F direction. The protective bracket 52 having the fourth structure is a protective bracket having a structure that prevents the rotation and operation of the plugs 50A and 50B.
The protective bracket 52 is a member for preventing inadvertent insertion / removal of the plugs 50A, 50B with respect to the receptacles 49A, 49B. The protective bracket 52 has a substantially box shape, and hinges 53 and 53 are fixed to the upper side surface end portion with screws. In addition, the side surface of the protective bracket 52 that faces the surface into which the plugs 50A and 50B are inserted has two elongated shapes so as not to interfere with the side surfaces of the cables 51A and 51B when the plugs 50A and 50B are inserted into the receptacles 49A and 49B. A semi-circular cutout is provided.
The protective bracket 52 is assembled to the base 22 using hinges 53, 53, and can be rotated within a predetermined angle range with the rotation shafts 54, 54 as rotation centers. As the hinges 53, 53, various types on the market can be used. Although fixing by screwing may be used instead of the hinges 53, 53, it is desirable to use a torque hinge from the viewpoint of workability. The torque hinge is a hinge that can maintain an arbitrary angle, and a torque hinge is used as the hinges 53 and 53.

  As shown in FIG. 19, when the plugs 50A and 50B are inserted into the receptacles 49A and 49B, the plugs 50A and 50B are inserted into the receptacle 49B, and then the protective bracket 52 is rotated clockwise on the paper surface with the rotation shaft 54 as the center. The plug 50A, 50B is prevented from being pulled out by the protective bracket 52. By using torque hinges as the hinges 53, 53, the hinges 53, 53 can maintain the posture in the state shown in FIG.

DESCRIPTION OF SYMBOLS 1 Receptacle 2 Rotary switch 3 Gear 4 Rod 5 Opening and closing device 6 Rod 7 Gear 8 Gear 9 Slide part 10 Plug lock part 11 Cable 12 Cable 13 Current-carrying metal fitting 14 Plug 15 Protruding part 16 Metal fitting 17 Cable 18 Notch 19 Spring 20 Protection Device 21 plate
22 Base 23 Protective bracket 24 Hinge 25 Switch bracket 26 Switch 27 Screw 28 Cushion 29 Switch cover 30 Cylinder lock 31 Screw 32 Cord lock 33A, 33B, 33C, 33D Receptacle 34 Screw 35 Hinge rotation shaft 36 Receptacle cover 37 Rotation shaft 38 Projection Portion 39A, 39B Plug 40 Projection 41 Packing 42, 42A Circuit breaker 43, 43A Open / close device 44A, 44B Cable 45A, 45B Cable connection 46 Protection bracket 47 Hinge 48 Rotating shaft 49 Receptacle 50A, 50B Plug 51A, 51B Cable 52 Protection Bracket 53 Hinge 54 Rotating shaft 55 Protective bracket 56 Screw 57 Hole 58 Seal material 59 Switch tip 60 Linda lock holder 61 Rotating part 62 Cam part 63 Control device 64 Cable 65 Cable 66 Switch bracket 67 Hole 68 Guide 69 Protective bracket 70 Rod 71 Bracket 72 Cam 73 Cylinder lock 74 Rotating part 75 Cam 76 Switch 76 Switch bracket 78 Cable 79 Hole 80 Screw 81 Seal material 82 Seal material

The invention according to claim 1 of the present application is a receptacle plug attached to the end of the cable is inserted, it said receptacle comprises: a position that prevents the insertion and removal of the plug from the receptacle, capable of insertion and removal of the plug position A protective bracket that can be positioned at a position, a switch that detects that the protective bracket is at a position that prevents the plug from being inserted or removed, and the switch is at a position at which the protective bracket prevents the plug from being inserted or removed. An opening / closing device that is energized by a signal that is output when detected, and when the opening / closing device is energized, current is supplied to the receptacle from the power source via the opening / closing device, It is a receptacle with a protection mechanism characterized by this.
The invention according to claim 2 is characterized in that the number of the switching devices is one or more, and the number of the receptacles is larger than the number of the switching devices . It is.
The invention according to claim 3 is characterized in that a lock device is provided for fixing the position of the bracket when the protective bracket is in a position that prevents the plug from being inserted or removed. It is a receptacle with a protection mechanism as described in above.
According to a fourth aspect of the present invention, an operation portion of the lock device is provided on the protective bracket, and the switch detects that the lock device is locked by the operation portion , whereby the protective bracket is connected to the plug. The receptacle with a protective mechanism according to claim 3, wherein the receptacle is in a position that prevents insertion / removal, and the switchgear is energized by a detection signal of the detection switch. .

The invention according to claim 5 is the receptacle with a protection mechanism according to any one of claims 1 to 4, wherein the switch is a waterproof switch.
The invention according to claim 6, a bracket that prevents operating the detection switch externally provided, provided the interlocking member interlocked with said protective bracket, wherein the switch is a switch for detecting a position of the interlocking member, communicating by detecting the state of the rotary members in the switch, to any one of claims 1 to 3, characterized in that the protective bracket is adapted to detect that it is in a position that prevents the insertion and removal of the plug It is a receptacle with a protection mechanism of description.
The invention according to claim 7 is provided with a bracket that prevents the detection switch from operating from the outside, an interlocking member that interlocks with the protective bracket, and the locking device at a position where the protective bracket prevents the plug from being inserted or removed. The protection bracket is locked by locking the interlocking member at a certain time, and the detection switch detects that the interlocking member is locked by the locking device, so that the protection bracket is The receptacle with a protective mechanism according to claim 4, wherein the receptacle is a position that prevents the plug from being inserted or removed .
The invention according to claim 8 is a receptacle plug set with a protection mechanism comprising a plug attached to the tip of a cable for supplying power to a power supply target and the receptacle with a protection mechanism according to any one of claims 1 to 7. is there.

As shown in FIG. 1, the ends of the receptacles 33 </ b> A and 33 </ b> B are fixed to the plate 21 using screws (screws) 34. Since the same applies to the receptacles 33A and 33B, the receptacle 33B will be described as an example. The receptacle 33B is provided with a receptacle cover 36B that can rotate around a rotation shaft 37B (see FIG. 2). When the plug 39B is not inserted into the receptacle 33B, the receptacle cover 36B rotates about the rotation shaft 37B, covers the insertion port of the receptacle 33B into which the plug 39B is inserted, and protects the insertion port. Reference numerals 36A ₁ and 36B ₁ represent spaces for sticking the seals on which the model numbers of the receptacles 33A and 33B are printed on the receptacle covers 36A and 36B.
As shown in FIG. 2, the receptacles 33A and 33B are provided with a protection mechanism. The protection mechanism includes a protection bracket 23 and a protection device 20. The protection device 20 includes an opening / closing device 43 and a switch 26 for turning on / off the opening / closing device 43. The receptacles 33A and 33B are connected to a power source via the circuit breaker 42 and the switchgear 43. A control circuit for controlling opening / closing of the opening / closing device 43 is not shown.

As shown in FIG. 5, when the protective bracket 23 is moved to a position that prevents the plugs 39 </ b> A and 39 </ b> B from being inserted and removed, the cushion 28 stops the protective bracket 23 at a position that prevents the plugs 39 </ b> A and 39 </ b> B from being inserted and removed. A cylinder lock receiver 60 is assembled to the switch bracket 25, and the rotating bracket 61 of the cylinder lock 30 is rotated until the cam portion 62 engages with the cylinder lock receiver 60, thereby fixing the protective bracket 23 from rotating. Is done.
As shown in FIG. 4, the cables 64 and 65 wired to the switch 26 pass through the cord lock 32 fixed to the base 22 and are wired to the opening / closing device 43 and the control device 63 in the plate 21. A space between the base 22 and the plate 21 is sealed with a sealing material 58 to be waterproof. Therefore, by processing a hole 57 in the plate 21, the base 22 of the protection device 20 and the protective bracket 23 is attached by attaching the Plate 21 with a screw 31, always receptacle 33A is when connecting or disconnecting the plug 39A, the 39B , 33B can be cut off.
When water is applied to the switch bracket 25 which is one element constituting the protective device 20, the switch 26 may malfunction and energize when the plugs 39A and 39B are inserted and removed. In that case, waterproofing can be added to the protection device 20 by making the switch 26 waterproof.

FIG. 12 is a front view of the protective device having the third structure used in the embodiment of the present invention, and FIG. 13 is a sectional view taken along line JJ in FIG. In the protection device having the second structure shown in FIGS. 9 and 10, there is a possibility that the switch 26 can be operated by inserting an object through the hole 67. Therefore, in this embodiment, a structure that cannot interfere with the switch 26 is described below. The protective bracket 69 is fixed to the rod 70, and the protective bracket 69 and the rod 70 rotate with the same phase. A cam 72 is fixed to the rod 70 and rotates in the same phase as the rod 70.
On the other hand, a switch 76 is attached to the bracket 71 via a switch bracket 77, and the bracket 71 prevents the switch 76 from being operated from the outside. A cylinder lock 73 is attached to the bracket 71, and the rotating portion 74 of the cylinder lock rotates in the same phase as the cam 75 attached to the cylinder lock 73. When the protective bracket 69 is in a position that prevents the plugs 39A and 39B from being inserted and removed, the cam 75 does not interfere with the cam 72 and can rotate. When the rotating portion 74 of the cylinder lock is rotated 90 degrees counterclockwise, the cam 75 pushes the switch 76, and electricity is supplied to the receptacle.

Claims (8)

A receptacle into which a plug attached to the tip of the cable is inserted;
A position that prevents the plug from being inserted and removed from the receptacle, and a protective bracket that can be positioned at a position where the plug can be inserted and removed;
A switch that detects that the protective bracket is in a position that prevents insertion and removal of the plug;
An opening / closing device that is energized by a signal from the switch when the switch detects that the protective bracket is in a position that prevents the plug from being inserted or removed;
A receptacle with a protective mechanism, characterized by comprising:   The receptacle with a protective mechanism according to claim 1, wherein the receptacle is a plurality of receptacles, and the number of the switching devices is one or more and the number of the switching devices is smaller than the number of receptacles.   The receptacle with a protection mechanism according to claim 1 or 2, further comprising a lock device that fixes a position of the bracket when the protection bracket is in a position that prevents the plug from being inserted or removed.   The protective bracket is provided with an operating portion of the locking device, and the switch is a switch that detects that the locking device is locked by the operating portion, and the switch indicates that the bracket is locked. The receptacle with a protective mechanism according to claim 3, wherein when the switch is detected, the switchgear is energized by a signal from the switch.   The said switch is a waterproof switch, The receptacle with a protection mechanism as described in any one of Claims 1-4 characterized by the above-mentioned.   An interlocking member that interlocks with the protective bracket is provided, and the switch is a switch that detects the position of the moving member, and the bracket is provided by detecting the state of the interlocking member with the switch by providing the switch inside the box. The receptacle with a protective mechanism according to any one of claims 1 to 3, wherein the switch detects that the plug is in a position that prevents the plug from being inserted or removed. A moving member that interlocks with the protective bracket is provided, and the locking device locks the protective bracket by locking the interlocking member when the protective bracket is in a position that prevents the plug from being inserted or removed,
The switch is a switch that detects that the bracket is in a locked state, the switch is provided inside a box, and the switch detects that the protective bracket is in a locked state. The receptacle with a protection mechanism according to claim 4. A plug attached to the tip of a cable for supplying power to the power supply target;
A receptacle / plug set with a protective mechanism comprising the set of receptacles with a protective device according to claim 1.

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