JP3574886B2 - Delay switch - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a delay switch for delaying a load operation.
[0002]
[Prior art]
A delay switch of this type is known, for example, for operating a ventilation fan and a lighting load of a toilet (see Japanese Patent Application Laid-Open No. 61-55825). This conventional delay switch has a control function of turning on the ventilation fan and the lighting load by operating a handle as an operation unit, turning off the lighting load by operating the next operation handle, and turning off the ventilation fan after a predetermined time. is there.
[0003]
[Problems to be solved by the invention]
By the way, in the above-mentioned conventional configuration, the structure of the delay unit for determining the predetermined time is complicated and the manufacturing cost is high, the operation feeling is poor because the gear of the delay unit is interlocked with the operation of the steering wheel, There were problems such as noise.
[0004]
The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a delay switch which is low in cost, has high reliability of delay operation, and has low noise.
[0005]
[Means for Solving the Problems]
According to a first aspect of the present invention, there is provided an operation section, a suction cup which moves in conjunction with a setting operation of the operation section, a card which cooperates with the suction cup to open and close a switch mechanism, and The sucked body sucks and holds the sucked suction cup, a return spring that urges the sucker in a direction away from the sucked body, a terminal to which the switch mechanism is electrically connected, and a state where the sucker is sucked to the sucked body. Air permeable member disposed in an air flow path communicating with an internal space formed between the suction cup and the object to be suckedAnd a cushion member disposed on a surface opposite to a surface on which the suction cup of the object to be sucked is sucked.When the set is released by the operation unit, there is a delay time until the suction cup is separated from the suction target due to the balance between the suction force of the suction cup to the suction target and the spring force of the return spring. The delay time is determined by the balance between the suction force of the suction cup to the suction target and the spring force of the return spring, eliminating the need for conventional gears, making the configuration simpler and more reliable than conventional delay switches with delay units. High cost, low cost, and low noise. Further, by providing the air permeable member, the delay time can be adjusted by changing the material and size of the air permeable member.. Further, by providing the cushion member, it is possible to reduce the impact when the suction cup is attached to and detached from the object to be sucked. Also,The operation of the operation unit is smooth because there is no need for the conventional gear.
[0006]
Claim2The invention of claimOneIn the present invention, since the suction cup is formed of rubber, the cost and size of the suction cup can be easily reduced.
Claim3The invention of claimOneIn the present invention, since the suction cup is made of silicon rubber, it is easy to reduce the cost and size of the suction cup.
Claim4The invention of claimOneIn the present invention, the suction cup has a shape in which the suction surface side for adsorbing to the object to be adsorbed is open, and a flat portion is formed on the inner peripheral bottom surface. After that, the flat portion can be sucked, and the amount of suction of the suction cup to be sucked to the to-be-adsorbed body during the setting operation can be stabilized and a substantially constant suction force can be obtained, so that the delay time can be made substantially constant.
[0007]
Claim5The invention of claimOneIn the present invention, since a part of the air circulation path is formed in the suction cup and the air permeable member is disposed inside the suction cup, it is not necessary to secure a space for separately arranging the transmission member.
Claim6The invention of claimOneIn the invention, the suction cup is, The suction cup moves in the opposite direction to the objectSince the stopper for regulating the range is formed, the movement of the suction cup can be stopped by the stopper.
[0008]
Claim7The invention of claimOneIn the present invention, since the suction cup is provided with a parting line in a portion other than the suction surface, a stable suction state with the object to be sucked can be obtained.
Claim8The invention of claim 1 to claim 17The present invention is characterized in that the object to be adsorbed is formed of a metal. For example, when the object to be adsorbed is formed of SUS, the corrosion resistance can be improved.
[0009]
Claim9The invention of claim 1 to claim 18In the invention of the above, since the suctioned body is coated with a low friction coefficient on the surface to which the suction cup is adsorbed, the friction when the suction cup separates from the suctioned body can be reduced, and the delay time can be stabilized. Can be.
Claim10The invention of claim 1 to claim 17In the present invention, since the object to be adsorbed is formed of a resin, the delay time can be adjusted by changing the material of the resin.
[0010]
Claim11The invention of claim2Or claim10In the invention described in the above, since the air passing hole is formed outside the region where the suction cup is adsorbed, the air in the space formed outside the suction cup can be circulated through the air passing hole.
Claim12The invention of claimOneIn the invention, A return spring is arranged on the front side and the rear sideIs provided with an element case for storing at least a suction cup and an object to be sucked, the element case and the object to be sucked.Is the elasticity of the cushion memberSince they are connected via members, foreign matter such as dust and dirt can be prevented from entering between the suction cup and the object to be sucked by the element case, and when the suction cup is detached from the object to be sucked. Can mitigate the impact of
[0011]
ClaimThirteenThe invention of claim12In the present invention, since a lid is provided to be coupled to the rear surface of the element case, it is possible to unitize a delay element including a suction cup, an object to be sucked, a card, a return spring, an element case, and the like.
Claim14The invention of claimOneIn the present invention, since the cushion member is provided on the rear surface of the object to be sucked, an impact when the suction cup is detached from the object to be sucked can be reduced.
[0012]
ClaimFifteenThe invention of claim14In the present invention, the cushion member is formed of a coil spring, so that the cost of the cushion member can be reduced.
Claim16The invention of claim5According to the invention, since the air permeable member is formed of the ceramic porous body, the delay time can be adjusted by changing the size and the hole diameter of the air permeable member. Further, since the temperature dependence of the air permeability coefficient is smaller than that of the non-porous material, the fluctuation of the delay time due to the temperature change of the use environment can be reduced, and the delay time can be made more accurate.
[0013]
Claim17The invention of claim5According to the invention, since the air permeable member is formed of the alumina ceramic porous body, the delay time can be adjusted by changing the size and the hole diameter of the air permeable member. Further, since the temperature dependence of the air permeability coefficient is smaller than that of the non-porous material, the fluctuation of the delay time due to the temperature change of the use environment can be reduced, and the delay time can be made more accurate.
[0014]
Claim18The invention of claim16Or claims17The present invention is characterized in that the pore diameter of the porous body is approximately 0.01 μm to approximately 1 μm.
Claim19The invention of claim5According to the invention, since the end face of the air permeable member is chamfered, it becomes easy to insert the air permeable member into the suction cup.
Claim20The invention of claim5According to the invention, since the air permeable member is formed in a columnar shape, it is easy to press the air permeable member into the suction cup.
[0015]
Claim21The invention of claim20In the present invention, since the outer periphery of the air permeable member is sealed by the rubber tube, the delay time can be adjusted with higher accuracy, and the air permeable member can be protected by the rubber tube.
Claim22The invention of claim21In the present invention, since a plurality of air permeable members are provided and the air permeable members are arranged in a substantially straight line, the delay time is lengthened by increasing the number of air permeable members and lengthening the linear distance between the air permeable members. In addition, since the length of one air permeable member can be reduced as compared with the case where the linear distance is lengthened by one air permeable member, the air permeable member is less likely to be damaged.
[0016]
Claim23The invention of claim5In the invention of the above, the suction cup is formed with a tapered portion for preventing the end face of the air permeable member from coming into close contact, so that the suction cup can be prevented from coming into close contact with the end face of the air permeable member, and the air permeable member The delay time can be adjusted with high accuracy by the cross-sectional area of the end face of the slab.
Claim24The invention of claimOneIn the present invention, since the return spring is constituted by a coil spring, the cost of the return spring can be reduced.
[0017]
Claim25The invention of claim24According to the invention, since the end surface of the coil spring is polished, the contact state with another member on the end surface is stabilized.
Claim26The invention of claim24In the present invention, since the coil spring is formed of SUS, the corrosion resistance of the coil spring can be improved.
[0018]
Claim27The invention of claim12Or claimsThirteenIn the present invention, the element case is formed with the spring receiving portion for receiving one end of the return spring, so that the element case can receive one end of the return spring.
Claim28The invention of claimOneIn the present invention, the card is formed with the concave spring receiving portion for receiving one end of the return spring, so that the card can receive one end of the return spring.
[0019]
Claim29The invention of claimOneIn the present invention, at least a part of the card is integrally formed with the suction cup, so that the assembling operation is facilitated.
Claim30The invention of claimOneIn the present invention, the card is composed of a card portion and a shaft portion, the shape of the card portion is substantially U-shaped, and both leg pieces of the card portion are provided.On the frame with guide grooves to guide both leg piecesSince the guide is more guided, the card can be moved stably.
[0020]
Claim31The invention of claimOneIn the present invention, since the card is formed of a flame-retardant thermoplastic material, safety can be improved.
Claim32The invention of claimOneIn the present invention, the card is constituted by the card portion and the shaft portion, and the card portion and the shaft portion are formed as separate members, so that the shape of the card can be easily controlled.
[0021]
Claim33The invention of claim32According to the invention, the card portion and the shaft portion are fixed by thermocompression bonding, so that the card portion and the shaft portion can be securely connected.
Claim34The invention of claimOneIn the present invention, the card has an air intake for taking air into an internal space formed between the suction cup and the object to be sucked in a state where the suction cup is adsorbed to the object to be adsorbed. The delay time can be adjusted by changing the size and shape of the mouth.
[0022]
Claim35The invention of claim34According to the invention, the card is provided with a dustproof filter member between the internal space and the air intake, so that foreign matter such as dust or dirt enters between the suction cup and the adsorbed body. Can be prevented, and the delay time can be made substantially constant.
Claim36The invention of claimOneIn the invention, linked to the setting operation of the operation unitArm that rotates and moves the card, The force of the setting operation can be transmitted to the card via the arm, and the card can be driven stably.
[0023]
Claim37The invention of claim36According to the invention, since the operating portion is provided with a plurality of arm pressing portions for pressing the arm, the operating force of the operating portion can be more stably transmitted to the arm.
Claim38The invention of claim36Or claims37In the invention of the above, since the arm is formed in a shape that allows the card to be pushed to the end of the stroke of the card during the stroke of the operation unit at the time of the setting operation of the operation unit, the sucker is surely substantially attached to the attracted object at the time of the setting operation. Since the suction can be performed with a constant force, the delay time can be made substantially constant.
[0024]
Claim39The invention of claimOneIn the present invention, since the operation unit is a wave type that is raised and lowered to open and close the switch mechanism, it is possible to configure a wave type switch having a delay time when the set is released.
Claim40The invention of claim36Or claims37In the present invention, since the arm has a plurality of pressing portions for pressing the card, the card can be driven more stably.
[0025]
BEST MODE FOR CARRYING OUT THE INVENTION
(Embodiment 1)
Hereinafter, an embodiment of the present invention will be described with reference to FIGS.
As shown in FIGS. 1 to 4, the case 1 of the delay switch according to the present embodiment is formed by connecting a synthetic resin body 10 and a synthetic resin cover with a pair of substantially U-shaped assembly frames 40. It is formed.
[0026]
As shown in FIG. 4, shoulders 80b project from both ends of the cover 80, and a recess 80c into which the leg 40d of the assembly frame 40 is fitted is formed on the side surface of each shoulder 80b. On the other hand, on the front end side of the body 10, a concave portion 18 is formed at a portion corresponding to the concave portion 80c, into which the leg piece 40d of the assembly frame 40 is fitted. Therefore, when the cover 80 is coupled to the body 10, the assembly frame 40 is fitted from the front side of each shoulder 80b of the cover 80 (the leg 40d of the assembly frame 40 is fitted to the recess 80c of the cover 80 and the recess 80c of the body 10). 18), and the substantially V-shaped hooking claws 40a formed at the distal ends of the two leg pieces 40d of the assembly frame 40 are engaged with the step portions 15 formed on the side surfaces of the body 10, respectively. And the body 10 are fixed by the assembly frame 40.
[0027]
Here, the case 1 is formed in a size of one wiring device that can be mounted on a mounting frame of a large-sized continuous wiring device standardized by the JIS standard up to three pieces. A pair of engaging claws 40 b capable of engaging with the provided mounting holes are provided to project from both ends of the assembly frame 40. Further, each assembly frame 40 is provided with a locking hole 40c in which a locking claw of the mounting frame is locked when mounted on a metal mounting frame. That is, the dimensions of the case 1 are set so that up to three cases 1 can be attached to the mounting frame for the embedded wiring device so that the front surface of the case 1 is exposed from the opening window of the mounting frame. It is formed in a size corresponding to one embedded wiring device having a unit size.
[0028]
The cover 80 has an opening 81 for accommodating the handle 90 such that a part of the handle 90 for operation protrudes from the front surface of the case 1. Is formed with a concave portion 82 with which a convex portion 95 protruding from is engaged. Therefore, when the handle 90 is housed in the opening 81, the protrusions 95 on both sides of the handle 90 are inserted into and engaged with the recesses 82 of the cover 80, so that the recesses 82 of the cover 80 serve as pivot points of the handle 90. .
[0029]
On the other hand, a pair of substantially triangular guide pieces 90a (see FIGS. 1 (b), 2 (b), 3 and 4) protrude from the side end of the rear surface of the handle 90. Is provided with a pair of substantially triangular arm pressing pieces 90b (see FIGS. 1 (b) and 2 (b)) projecting rearward from the rear surface of the handle 90 at a position inside the guide piece 90a. Here, the distal ends of the pair of arm pressing pieces 90b engage and disengage with curved portions 50a respectively formed on the front sides of both leg pieces of the substantially U-shaped arm 50 described later. A transparent name cover 93 is fitted to the front of the handle 90. Note that a name sheet 94 is sandwiched between the name cover 93 and the handle 90.
[0030]
A light-transmitting window 91 is formed on the front surface of the handle 90, and a light-transmitting member 92 formed of a material having a light-transmitting property is attached to the light-transmitting window 91. The name sheet 94 is provided with a hole 94 a at a position facing the light transmitting window 91 of the handle 90.
A recess 97 (see FIGS. 1B and 2B) into which one end of the coil spring 96 is fitted is formed on the rear surface of the handle 90, and the other end of the coil spring 96 is an oscillator 73. Are received by the spring support portion 75. The oscillating body 73 is tilted in the direction opposite to the tilt direction of the handle 90 by the action of the coil spring 96. At the end point of the swing of the handle 90, the coil spring 96 is bent in a rectangular shape or an inverted rectangular shape. The restoring force of the spring 96 returning to a straight state ensures that the handle 90 is fixed at that position. That is, the handle 90 is of a wave type that rises and falls with respect to the front surface of the case 1.
[0031]
As shown in FIG. 4, the body 10 has a delay element housing 12 formed substantially at the center, and terminal housings 13 and 14 formed on both sides of the delay element housing 12. The delay element 20 is accommodated in the delay element accommodating section 12, and a terminal 60 described later is accommodated in the terminal accommodating section 14.₁, 60₂Are stored in the terminal storage portion 13.₃, 60₄Is stored. At the front end of the body 10, a bearing portion 55 is provided protruding from both sides of the base end 50b of the arm 50 (see FIG. 5) and to which the rotating shaft 51 is mounted. Here, a groove 55a for rotatably holding the rotating shaft 51 is formed in the bearing portion 55, and the arm 50 is rotatable.
[0032]
Hereinafter, the delay element 20 will be described.
As shown in FIGS. 6 and 7, the delay element 20 has a substantially U-shaped card portion 26 and a guide groove 21b (a rib 21a shown in FIG. 7) for guiding both leg pieces of the card portion 26 when the card portion 26 moves. A frame 21 having a groove between the ribs 21a '), a SUS return spring 27 made of a coil spring for urging the card portion 26 forward (upward in FIG. 6), and silicon rubber. A suction cup 23 that can be elastically bent, a rectangular plate-shaped SUS adsorption target 24 to which a suction surface 43 (see FIG. 8) of a suction section 23b of the suction cup 23 is adsorbed, and a rear surface An element case 22 having an open box shape, in which the suction cup 23 and the to-be-adsorbed body 24 are stored, and an outer shape whose center is open and which is coupled to a rear opening of the element case 22 is substantially rectangular and has an open center. Dust-proof filter 25 and adsorbed And a cushion member 28 made of a coil spring whose one end is fitted into the annular formed at substantially the center of the rear surface 24 spring receiving grooves 24a (see FIG. 7).
[0033]
In this embodiment, since the suction cups 23 are formed of silicon rubber, the cost of the suction cups 23 can be reduced, the shape of the suction cups 23 can be easily controlled, and the size of the suction cups 23 can be reduced. The material of the suction cup 23 is not limited to silicon rubber, and for example, rubber, vinyl chloride, fluorine rubber, EPDM, NBR, or the like may be used. Further, as shown in FIG. 8, the suction cup 23 is provided with a parting line 47 indicated by a broken line in a portion other than the suction surface 43, so that a stable suction state with the object 24 can be obtained.
[0034]
As shown in FIG. 9, a cylindrical shaft portion 23d constituting the card 6 together with the above-mentioned card portion 26 is integrally provided on the suction cup 23 from the bottom surface of the suction cup main body 23a. The shaft portion 23d has a pair of rod-shaped fixing portions 23e substantially parallel to the longitudinal direction formed on the outer periphery. To couple the shaft portion 23d to the card portion 26, the shaft portion 23d is attached to the front surface of the element case 22. The leading ends of both fixing portions 23e are inserted into the insertion holes 26d formed on both sides of the card member portion 26c at the base end portion 26f of the card portion 26, and are subjected to thermocompression. (See FIG. 3). The suction cup 23 has a flange 23c formed at the front end of the suction cup main body 23a, and the flange 23c is fixed to the element case 22. Further, since the suction portion 23b has a shape in which the suction portion 23b is opened on the suction surface 43 side and a flat flat portion 23j (see FIG. 9) is formed on the inner peripheral bottom surface, the suction portion 23 is directed toward the object 24 to be sucked. The pushing amount when pushed into is stabilized. The stopper 23k (see FIGS. 1 (b) and 2 (b)) which is biased by the suction cup 23 moves the suction cup 23 in the opposite direction to the to-be-adsorbed body 24 around the insertion hole 22e of the element case 22. Is regulated by contact with
[0035]
In the present embodiment, the card 6 is constituted by the card section 26 and the shaft section 23d. Therefore, the shape of the suction cup 23 changes according to the movement of the card 6 (see FIGS. 1B and 2B). In addition, since the card part 26 is formed of a flame-retardant thermoplastic material (for example, PBT or the like), safety against heat, fire, and the like can be improved.
[0036]
By the way, at the rear of the base end portion 26f of the card portion 26, an air passage is formed between the internal space 23f of the shaft portion 23d and the outside of the card 6 in a state where the card portion 26 and the shaft portion 23d are connected. An air intake 26e formed by a notch is formed. In the suction cup 23, a ventilation hole 23g communicating with the internal space 23f of the shaft portion 23d is formed on the inner peripheral bottom surface of the suction portion 23b, and between the internal space of the suction portion 23b and the air intake 26e. Are connected. Here, in the present embodiment, an air permeable member 32 (see FIG. 1B) made of, for example, a ceramic porous body (for example, an alumina ceramic porous body) is disposed in the internal space 23f of the shaft portion 23d. Further, a dustproof filter 31 is provided in front of the air permeable member 32. Here, the air permeable member 32 has a columnar shape as shown in FIG. 10, and a member whose outer periphery is sealed by a rubber tube 33 as shown in FIG. 11 is disposed in the internal space 23 f of the shaft portion 23 d by press fitting or the like. (See FIG. 1B). In addition, if a plurality of air permeable members 32 (two air permeable members 32 in the example shown in FIG. 12) are arranged in a straight line and the outer periphery thereof is sealed with a rubber tube 33, a delay time described later can be lengthened. Is also possible. In this embodiment, as shown in FIG. 13, a tapered surface 23h is formed on the surface of the suction cup 23 where the ventilation hole 23g is formed so that the end surface of the air permeable member 32 does not come into close contact. Further, the shape of the air permeable member 32 may be columnar as shown in FIG. 14. In this case, if the chamfered portion 32a is formed by chamfering the end surface, the shaft portion 23d can be formed into the internal space 23f. Press-fitting also becomes easy. The pore diameter of the porous body constituting the air permeable member 32 is desirably about 0.01 μm to about 1 μm.
[0037]
As shown in FIG. 6, a spring receiving groove 22b into which one end of a return spring 27 is fitted around the insertion hole 22e is formed on the front surface of the element case 22. On the other hand, a pair of substantially concave spring receiving grooves 26b (see FIGS. 7 and 9) are formed on the rear surface of the base end 26f of the card portion 26 so that the other end of the return spring 27 is held. Has become. Since the end face of the return spring 27 is polished, the contact state in each of the spring receiving groove 22b and the spring receiving groove 26b is stabilized.
[0038]
The to-be-adsorbed body 24 is made of, for example, a metal (for example, SUS), and is urged forward (upward in FIG. 1B) by the spring force of the cushion member 28, and the inner peripheral wall of the element case 22. The movement in the front-rear direction (the vertical direction in FIGS. 1 (b) and 2 (b)) between the movement-restricting step 22c (see FIG. 1 (b)) formed in It is possible. In the present embodiment, as shown in FIG. 15, the suctioned body 24 has a coating layer 24b (for example, a Teflon coating layer) having a low coefficient of friction formed on the surface facing the suction cup 23. The friction when the 23 is separated from the to-be-adsorbed body 24 can be reduced, and the delay time described later can be stabilized. In addition, since the air passing holes 9 are formed outside the region where the suction cups 23 are adsorbed, the air to be adsorbed 24 is prevented from flowing due to a volume change in the element case 22 caused by the movement of the adsorption section 23b. This can be performed through the air passage hole 9. In addition, the to-be-adsorbed body 24 is not limited to metal, but may be formed of a resin (for example, a Teflon resin or a polyacetal resin).
[0039]
The delay element 20 is provided between the air intake port 26e and the interior of the shaft portion 23d in a space formed between the suction portion 23b and the suction target 24 in a state where the suction portion 23b is suctioned by the suction target 24. The air that enters the space 23f enters through the vent hole 23g of the suction cup 23 through the dustproof filter 31 and the air permeable member 32. Therefore, when the card pressing portion 52 at the tip of both legs of the arm 50 (see FIG. 16) is separated from the pressed portion 26a at the tip of both legs of the card portion 26, the suction force of the suction portion 23b to the suction target 24 is reduced. The suction force gradually decreases, and the suction force becomes weaker than the restoring force of the return spring 27, so that the suction cup 23 separates from the suction target 24.
[0040]
That is, the distal end of the arm pressing piece 90b moves along the inner peripheral surface of the curved portion 50a of the arm 50 so as to be detached from the curved portion 50a, and the card pressing portion 52 of the arm 50 is pressed by the pressed portion of the card portion 26. The card 6 moves forward (upward in FIG. 2 (b)) with a delay of a predetermined time (hereinafter, referred to as a delay time) from the time when the card 6 has left the card 26a. Therefore, the delay time can be adjusted by changing the air permeability of the air permeable member 32, the material of the suction cup 23, the material of the to-be-adsorbed body 24, and the like.
[0041]
Here, the arm 50 is formed into a shape having a curved portion 50a on both leg pieces as shown in FIG. Thus, the card 6 constituting the delay element 20 can be pushed to the end of the stroke of the card 6. Therefore, at the time of the OFF operation, the suction cup 23 can be surely adsorbed to the adsorption target 24 with a substantially constant force. The shape of the arm 50 is not limited to the shape shown in FIG. 16. For example, as shown in FIG. 18, the thickness of the card pressing portion 52 at the tip of both legs is reduced so that the card pressing portion 52 has elasticity. It may be.
[0042]
In the present embodiment, the air permeable member 32 is formed of a porous body such as a ceramic porous body, and the temperature dependence of the air permeability coefficient is small. It is possible to make the delay time highly accurate.
By the way, in the present embodiment, the suction portion 23b is separated from the outside of the element case 22 by the suction cup body 23a, and a dustproof filter 31 (air filter) is provided in front of the air permeable member 32. Therefore, it is possible to prevent foreign matter such as dust from entering between the adsorbing portion 23b and the to-be-adsorbed body 24, stabilize the adsorbing state between the adsorbing portion 23b and the to-be-adsorbed body 24, and make the delay time substantially constant. can do. Here, the dustproof filter 31 is formed of a foamable material such as foamed polyester or a fibrous material, so that the shape of the filter 31 can be easily controlled, and the size and cost of the filter 31 can be reduced.
[0043]
The frame body 21 is made of, for example, a flame-retardant thermoplastic material. As shown in FIG. 5, positioning projections 21 c, 21 d, 21 c ′ for the body 10 are integrally formed on both side surfaces from the front end to the rear end. Is established. On the other hand, in the body 10, as shown in FIG. 4, positioning grooves 16a, 16b, 16a 'for guiding the positioning protrusions 21c, 21d, 21c' are formed on the inner surface of the delay element housing 12. .
[0044]
The frame 21 has the guide grooves 21b formed on its inner surface to guide the two legs of the card 26 slidably as described above. When the delay element 20 is assembled, both the legs of the card 26 are formed. The pressed portions 26a, 26a at the tips protrude from the front surface of the frame 21. In the present embodiment, by forming the frame body 21 with, for example, a thermosetting resin, the terminal 60 is formed.₁~ 60₄Is less likely to be transmitted to the other components of the delay element 20. Also, in the present embodiment, the presence of the frame 21 allows the terminal 60₁~ 60₄The force from the side is less likely to be applied to the other components, and the operation is highly reliable.
[0045]
By the way, the above-mentioned terminal 60 formed of a quick-connecting terminal is provided in the above-mentioned terminal housing portion 14.₁, 60₂(See FIG. 4). Here, the terminal 60₁Is composed of a terminal plate 63a and a locking spring 61. The locking spring 61 is provided between the terminal plate 63a and the locking spring 61.₁It has a locking piece 61b that bites into the electric wire inserted into the electric wire (see FIG. 2 (c)) to prevent it from coming off, and a contact piece 61a that elastically contacts the electric wire. Therefore, the wire insertion port 17₁When the electric wire is inserted between the locking spring 61 and the terminal plate 63a through the locking piece 61b side, the electric wire is sandwiched between the terminal plate 63a by the spring force of the contact piece 61a and the locking piece 61b, and When the lock pieces 61b bite into the electric wire, the electric wire cannot be pulled out. Similarly, terminal 60₂Is composed of a terminal plate 63b and a locking spring 61,₂The electric wire inserted into (see FIG. 2 (c)) is sandwiched between the contact strip 61a and the terminal strip 63a by the spring force of the locking strip 61b. Further, a release button 62 a is provided in the terminal storage section 14 so as to straddle both the locking springs 61. The release button 62a is in contact with the lock piece 61b of the both lock springs 61, and the part where the release button 62a is in contact with the lock piece 61b is an electric wire between the lock pieces 61b, 61b and the terminal plates 63a, 63b. Is displaced from the part that holds An operation hole 19 (see FIGS. 2B and 2C) is formed in the rear wall of the body 10 at a position corresponding to the release button 62a. By pressing the release button 62a, the lock pieces 61b, 61b biting into the electric wire are bent from the electric wire in the press-contact releasing direction so that the electric wire can be pulled out.
[0046]
On the other hand, the terminal housing 13 has a pair of terminals 60 composed of quick-connecting terminals composed of a terminal plate 63c and a pair of locking springs 61.₃, 60₄(See FIG. 4). That is, the terminal 60₃, 60₄Have a common terminal plate 63c. Here, the terminal 60₃Is the wire insertion port 17₃(See FIG. 2C) The electric wire inserted into the terminal plate 63c is held between the contact piece 61a of the locking spring 61 and the spring force of the locking piece 61b and the terminal plate 63c.₄Is the wire insertion port 17₄The electric wire inserted into (see FIG. 2 (c)) is held between the contact piece 61a of the locking spring 61 and the terminal plate 63c by the spring force of the locking piece 61b. A release button 62b is provided on the terminal housing 13 so as to straddle the double-locking spring 61 in the same manner as the terminal housing 14, and an operation hole 19 (see FIG. ) And (c)).
[0047]
In the present embodiment, the terminal housing portion 14 and the terminal housing portion 13 are provided on both ends of the case 1 and are separated from each other.₁, 60₂And terminal 60₃, 60₄And the insulation between them can be increased.
The terminal plates 63a and 63b have different fixed contacts 64a and 64b, respectively, and form different switch mechanisms in the case 1. The contact spring 70 is urged so that the movable contact 72 contacts the fixed contact 64a of the terminal plate 63a to obtain a predetermined contact pressure when the delay element 20 is not provided.
[0048]
However, since the contact spring 70 extends from the terminal plate 63c so as to pass in front of the card member portion 26c of the card portion 26 of the delay element 20, the contact spring 70 is moved forward by the card member portion 26c of the card 6. When pushed up, the movable contact 72 is separated from the fixed contact 64a of the terminal plate 63a. Here, the contact spring 70, the movable contact 72, and the fixed contact 64a constitute one switch mechanism (delay switch mechanism).
[0049]
Also, the base 63c of the terminal plate 63c₁As shown in FIG. 4, a lead plate 65 is integrally extended from a front end portion of the lead plate 65 (see FIG. 1B), and rising portions on both sides of a convex portion 66 formed at the tip of the lead plate 65. The notch 73a of the rocking body 73 is engaged with the rocking body 66a, and the rocking body 73 is swingable about the convex portion 66 as a fulcrum. The formed movable contact 74 and the fixed contact 64b of the terminal plate 63b come into contact with and separate from each other. Here, the lead plate 65 is supported and positioned by a pair of support pieces 21e (support portions) formed at the front part of the frame body 21 so that the load applied to the lead plate 65 is received by the pair of support pieces 21e. Has become.
[0050]
The terminal plate 63a is positioned by supporting a part of the portion where the fixed contact 64a is provided by the notch 21f formed in the frame 21, and the contact spring 70 is formed by a pair of contacts formed in the front part of the frame 21. The movable contact 72 is moved in the space between the support pieces 21e of the first and second contact pieces 21e so as to come into contact with and separate from the fixed contact 64a.
By the way, in this embodiment, since the frame body 21 is formed of a flame-retardant thermoplastic material or the like, the frame body 21 is hardly burned, and the safety can be improved.₁~ 60₄Heat from the side to the material forming the delay element 20 is less likely to be transmitted, and the operation reliability of the delay element 20 can be improved.
[0051]
As shown in FIG. 4, a lead plate 78 of a light emitting element 77 such as a neon lamp is soldered to the front of each of the terminal plate 63a and the lead plate 65 integrally formed with the terminal plate 63c. Holes 65a and 65c are formed, and the light emitting element 77 is connected between the terminal plates 63a and 63c. Therefore, the light emitting element 77 is turned on when the movable contact 72 is not in contact with the fixed setting 64a. Further, the light emitting element 77 is disposed at a position facing the light transmitting window 91 of the handle 90, and the light is emitted to the outside through the light transmitting member 92. Therefore, in the delay switch of the present embodiment, the position of the case 1 can be confirmed by the light of the light emitting element 77 even when the surroundings are dark at night or the like.
[0052]
FIG. 1 shows an OFF state of the delay switch of the present embodiment. In this state, when the handle 90 serving as an operation unit is turned on (set operation), the arm pressing piece 90b of the handle 90 rotates, and the tip of the arm pressing piece 90b is turned. The part moves along the curved part 50 a of the arm 50. When the handle 90 is turned on, the coil spring 96 inclines in the reverse direction so that the movable contact 74 provided on the rocking body 73 contacts the fixed contact 64b of the terminal plate 63b as shown in FIG. Is turned on and the arm pressing piece 90b is rotated, whereby the arm 50 is rotated, and the card pressing portion 52 at the tip of the arm 50 presses the pressed portion 26a of the card portion 26, and the return spring 27 is attached. The card 6 moves against the force (pulled down in FIG. 1), and the movable contact 72 of the contact spring 70 comes into contact with the fixed contact 64a of the terminal plate 63a to turn on the electric path. When the card 6 is moved, the suction cup 23 is pushed down to a position where the suction cup 23 is in contact with the suction target 24, and the suction cup 23 is adsorbed on the suction target 24, and in a state where the card 6 is pushed down, the suction cup 23 is pressed. The body 24 is held by suction.
[0053]
On the other hand, when the handle 90 is turned off (set release operation) in the state of FIG. 2, the distal end of the arm pressing piece 90 b moves along the curved portion 50 a of the arm 50 so as to be detached from the curved portion 50 a, thereby causing the arm 50 to move. Rotates, and the card pressing portion 52 of the arm 50 moves away from the pressed portion 26a of the card portion 26. When the handle 90 is turned off, the coil spring 96 inclines in the opposite direction, so that the movable contact 74 provided on the rocking body 73 is separated from the fixed contact 64b of the terminal plate 63b as shown in FIG. When the delay time elapses, the card 6 moves forward by the restoring force of the return spring 27, and the card member 26c pushes the contact spring 70 forward, so that the movable contact 72 is separated from the fixed contact 64a, and this electric path (switch) Mechanism) is also turned off.
[0054]
In the delay switch of this embodiment, when the set is released by the handle 90, the suction cup 23 separates from the suction target 24 due to the balance between the suction force of the suction cup 23 on the suction target 24 and the spring force of the return spring 27. Since there is a delay time before, a conventional gear is not required, and the configuration is simpler and more reliable than a delay switch having a conventional delay unit, cost can be reduced, and noise is reduced.
[0055]
When the delay switch of the present embodiment is used, for example, for operating a ventilation fan and a lighting load of a toilet, the terminal 60₃And terminal 60₄Has a common terminal plate 63c.₂To the lighting load,₁You can connect a ventilation fan to it. In this case, when the handle 90 is turned on (set operation), the lighting load is turned on and the ventilation fan is operated, and when the handle 90 is turned off (set release operation), only the lighting load is turned off immediately, and after the delay time elapses, the ventilation fan is turned off. Is stopped. Therefore, it is possible to eliminate the inconvenience that occurs when the ventilation fan is immediately stopped, and to prevent forgetting to turn off the ventilation fan. The delay switch can be used in various places other than the toilet. Further, the delay time may be appropriately set according to the use environment and the purpose of use.
[0056]
(Embodiment 2)
The basic configuration and basic operation of the delay switch of the present embodiment shown in FIGS. 19 to 21 are substantially the same as those of the first embodiment, and are different only in that only one switch mechanism related to the delay element 20 is provided. . Therefore, in the present embodiment, the oscillator 73, the fixed contact 64b, and the like described in the first embodiment are omitted.
[0057]
Note that the same components as those in the first embodiment are denoted by the same reference numerals, and description thereof will be omitted.
For example, when the delay switch of the present embodiment is used for operating a lighting load at an entrance or the like, when the steering wheel 90 is turned on (set operation), the lighting load is turned on, and when the handle 90 is turned off (set release operation), After the elapse of the delay time, the lighting load is turned off. Therefore, for example, if the steering wheel 90 is turned off after turning on the lighting load when going out or returning home, there is a delay before the lighting load is turned off, so the lighting load is turned off before the person leaves the entrance. It is possible to eliminate such inconvenience.
[0058]
(Embodiment 3)
The basic configuration and basic operation of the present embodiment are substantially the same as those of the first embodiment. As shown in FIG. 22, a lid 30 that covers the opening of the element case 22 that is opened at the rear surface is connected to the element case 22. The difference is that the delay element 20 is unitized. In this embodiment, an elastic member 36 is interposed between the lid 30 and the to-be-adsorbed body 24. That is, in the present embodiment, the elastic member 36 is used instead of the cushion member 28 described in the first embodiment.
[0059]
(Embodiment 4)
The basic configuration and basic operation of the present embodiment are substantially the same as those of the first embodiment, and are different in that the suction cup 23 and the card 6 are provided separately. In this embodiment, as shown in FIGS. 23 and 24, the shaft portion 23d of the card 6 has a cylindrical shape, and the press-fitting portion 45 at the tip of the shaft portion 23d is a fixing portion formed of a concave portion formed in the suction body 23a of the suction cup 23. The card 6 and the suction cup 23 are fixed to each other by press-fitting the card 23i. The fixing of the card 6 and the suction cup 23 may be performed by bonding instead of press-fitting. In the card 6, both ends 26g in the longitudinal direction of the base end portion 26f protrude from both leg pieces, and by providing a step portion at a key portion of the frame 21, the projecting portion (that is, both end portions 26g) is provided. ) Functions as a stopper for restricting the moving range of the card 6 with respect to the frame 21.
[0060]
In the present embodiment, the card 6 and the frame 21 are formed of a thermosetting material, and the suction cup 23 is formed of vinyl chloride, fluoro rubber, CR, EPDM, NBR, or the like.
In the card 6 according to the present embodiment, the shaft portion 23d and the card portion 26 are integrally formed, but as shown in FIG. 25, a substantially U-shaped card portion 26a and a cylindrical shaft portion 23d are separately formed. Alternatively, it may be fixed by ultrasonic welding or an adhesive. Further, as shown in FIG. 26, the thickness of the base end portion 26f of the card portion 26 may be reduced so that the card portion 26 has elasticity.
[0061]
23 and 24, the same components as those in the first embodiment are denoted by the same reference numerals, and only the differences from the first embodiment will be described.
In the present embodiment, since air does not enter through the inside of the shaft portion 23d as in the first embodiment, an air passage hole 24c is formed substantially at the center of the object 24 instead, as shown in FIG. I have. Further, in the present embodiment, the to-be-adsorbed body 24 is adhered to the rear end surface of the element case 22, and a rectangular plate-shaped elastic body 37 made of rubber or the like is provided on the rear surface side of the to-be-adsorbed body 24. I have. Here, the elastic body 37 has an air hole 37c formed in a portion corresponding to the air passage hole 24c of the to-be-adsorbed body 24, and the air permeable member 32 is press-fitted into the air hole 37c.
[0062]
However, in the present embodiment, when the suction cup 23 is adsorbed to the suction target 24, the air passing through the air permeable member 32 passes through the air passage hole 24 c between the suction portion 23 b of the suction cup 23 and the suction target 24. It is designed to enter the interior space.
Here, for example, if the air permeable member 32 is formed in a substantially cylindrical shape having a head portion 32b at one end as shown in FIG. 27, the air permeable member 32 can be easily press-fitted, and the air permeable member 32 Positioning in the press-fitting direction at the time of press-fitting is facilitated. The air permeable member 32 may have a prismatic shape as shown in FIG. 28. In this case, the shape control of the air permeable member 32 is facilitated. Further, as shown in FIG. 29, the outer periphery of the columnar air permeable member 32 may be sealed with a heat shrink tube 34 and disposed in the air hole 37c.
[0063]
(Embodiment 5)
The basic configuration and basic operation of this embodiment are substantially the same as those of the fourth embodiment, and the cushion member 28 is provided between the elastic body 37 and the bottom surface of the delay element housing portion 12 of the body 10 as shown in FIG. The only difference is the interposition. The cushion member 28 is formed of a foamable material, has a substantially rectangular outer shape, and has a substantially central opening.
[0064]
Note that the same components as those of the fourth embodiment are denoted by the same reference numerals, and description thereof is omitted.
By the way, in the present embodiment, the air permeable member 32 is press-fitted into the air hole 37c formed in the elastic body 37 as in the fourth embodiment, but as shown in FIG. The plate-shaped air permeable member 32 may be pressed against the surface opposite to the surface that comes into contact with 24. Also, as shown in FIG. 32, the object to be adsorbed 24 made of metal (made of SUS) and the elastic body 37 (rubber) may be integrally formed, and the air permeable member 32 may be press-fitted. As shown in (2), a concave portion 24d communicating with the air passage hole 24c may be formed on the rear surface side of the to-be-adsorbed body 24, and the air permeable member 32 may be bonded to the concave portion 24d.
[0065]
(Embodiment 6)
The basic configuration and basic operation of this embodiment are substantially the same as those of the fifth embodiment. As shown in FIG. 34, a concave portion 37d is formed on the rear surface side of the elastic body 37, and air is formed on the front side of the cushion member 28. The only difference is that a recess 28d communicating with the hole 28c is formed, and the air permeable member 32 made of porous glass is disposed between the elastic body 37 and the cushion member 28. In the present embodiment, the air permeable member 32 is formed of porous glass, but may be formed of a porous resin or a non-porous body (for example, silicon rubber).
[0066]
(Embodiment 7)
The basic configuration and basic operation of this embodiment are substantially the same as those of the sixth embodiment, and an air permeable member 32 'is provided between the elastic body 37 and the cushion member 28 as shown in FIG. However, as shown in FIG. 36, the air permeable member 32 ′ in this embodiment seals the spiral air permeable member 32 with a seal member 35, and exposes one end of the air permeable member 32 on the front side of the seal member 35. An air outlet port 35a for exposing the other end of the air permeable member 32 is formed on the rear surface side of the seal member 35. The cushion member 28 has an air hole 28c at a position corresponding to the air inlet 35b, and the elastic body 37 has an air hole 37c at a position corresponding to the air outlet 35a.
[0067]
In the present embodiment, since the air permeable member 32 is formed in a spiral shape, the length of the air permeable member 32 can be increased, and the longer the air permeable member 32, the longer the delay time. It can be set longer.
(Embodiment 8)
The basic configuration and basic operation of the present embodiment are substantially the same as those of the fourth embodiment. As shown in FIG. 37, the cushion member 28 is formed by a leaf spring provided with the central piece 28a floating above the bottom surface of the body 10. The only difference is in the configuration. In addition, a hole is formed in the central piece 28a of the leaf spring constituting the cushion member 28 so as to fit into a convex portion 37b projecting from the rear surface side of the elastic body 37.
[0068]
(Embodiment 9)
The basic configuration and basic operation of the present embodiment are substantially the same as those of the fourth embodiment, and the only difference is that the return spring 27 is constituted by a substantially inverted U-shaped leaf spring as shown in FIG. As shown in FIG. 39, the return spring 27 made of a leaf spring has an insertion hole 27a formed substantially at the center, and the shaft portion 23d of the card 6 is inserted into the insertion hole 27a. Thus, when the handle 90 serving as the operation unit is turned on (set operation), the return spring 27 is pushed in the direction of the suction cup 23b by the rear surface side of the base end portion 26f (see FIG. 24) of the card 6 (see FIG. 38), so that substantially the same operation as in the fourth embodiment can be obtained.
[0069]
Note that the same components as those in the fourth embodiment are denoted by the same reference numerals.
(Embodiment 10)
The basic configuration and basic operation of the present embodiment are substantially the same as those of the fourth embodiment. As shown in FIG. 40, an attachment portion 26h for attaching a contact spring 70 is provided at the tip of a card member portion 26c of the card 6, 6 and the contact spring 70 are linked, and the only difference is that the contact spring 70 also serves as the return spring 27. In the present embodiment, since it is not necessary to separately provide the return spring 27, the number of components can be reduced, and the cost can be reduced.
[0070]
【The invention's effect】
According to the first aspect of the present invention, there is provided an operation unit, a suction cup that moves in conjunction with a setting operation of the operation unit, a card that opens and closes a switch mechanism in cooperation with the suction cup, and a sucked object that sucks and holds the moved suction cup. Body, a return spring that urges the suction cup in a direction in which the suction cup moves away from the object to be sucked, a terminal to which the switch mechanism is electrically connected, and a connection between the suction cup and the object to be sucked when the suction cup is adsorbed to the object to be sucked. An air permeable member disposed in an air circulation path communicating with an internal space formed therebetweenAnd a cushion member disposed on a surface opposite to a surface on which the suction cup of the object to be sucked is sucked.When the set is released by the operation unit, there is a delay before the suction cup separates from the suction target due to the balance between the suction force of the suction cup to the suction target and the spring force of the return spring. As compared with the conventional delay switch having a delay unit, the configuration is simple, the reliability is high, the cost can be reduced, and the noise can be reduced. Further, by providing the air permeable member, there is an effect that the delay time can be adjusted by changing the material and size of the air permeable member.. In addition, by providing the cushion member, there is an effect that the shock when the suction cup is attached to and detached from the object to be sucked can be reduced. Also,Since there is no need for a conventional gear, there is an effect that the operation of the operation unit becomes smooth..
[0071]
Claim2The invention of claimOneIn the present invention, since the suction cup is formed of rubber, there is an effect that the cost and size of the suction cup can be easily reduced.
Claim3The invention of claimOneIn the present invention, since the suction cup is formed of silicon rubber, there is an effect that the cost and size of the suction cup can be easily reduced.
Claim4The invention of claimOneIn the present invention, the suction cup has a shape in which the suction surface side for adsorbing to the object to be adsorbed is open, and a flat portion is formed on the inner peripheral bottom surface. After that, the flat portion can be adsorbed, the pushing amount of the suction cup adsorbed on the object to be adsorbed during the setting operation can be stabilized, and a substantially constant suction force can be obtained, so that the delay time can be made substantially constant. effective.
[0072]
Claim5The invention of claimOneIn the present invention, at least a part of the air circulation path is formed in the suction cup and the air permeable member is disposed inside the suction cup, so that it is not necessary to secure a space for separately disposing the transmission member. effective.
Claim6The invention of claimOneIn the invention, the suction cup is, The suction cup moves in the opposite direction to the objectSince the stopper for regulating the range is formed, there is an effect that the movement of the suction cup can be stopped by the stopper.
[0073]
Claim7The invention of claimOneIn the present invention, since the suction cup is provided with a parting line in a portion other than the suction surface, there is an effect that a stable suction state can be obtained with the suction target.
Claim8The invention of claim 1 to claim 17The invention of the above (1) is characterized in that the object to be adsorbed is formed of a metal. For example, when the object to be adsorbed is formed by SUS, there is an effect that the corrosion resistance can be improved.
[0074]
Claim9The invention of claim 1 to claim 18In the invention of the above, since the suctioned body is coated with a low friction coefficient on the surface to which the suction cup is adsorbed, the friction when the suction cup separates from the suctioned body can be reduced, and the delay time can be stabilized. There is an effect that can be.
Claim10The invention of claim 1 to claim 17In the present invention, since the object to be adsorbed is formed of resin, there is an effect that the delay time can be adjusted by changing the material of the resin.
[0075]
Claim11The invention of claim2Or claim10In the invention of the above, since the adsorbed body has the air passage hole formed outside the region where the suction cup is adsorbed, the air in the space formed outside the suction cup can be circulated through the air passage hole. effective.
Claim12The invention of claimOneIn the invention, A return spring is arranged on the front side and the rear sideIs provided with an element case for storing at least a suction cup and an object to be sucked, the element case and the object to be sucked.Is the elasticity of the cushion memberSince they are connected via members, foreign matter such as dust and dirt can be prevented from entering between the suction cup and the object to be sucked by the element case, and when the suction cup is detached from the object to be sucked. This has the effect of reducing the impact.
[0076]
ClaimThirteenThe invention of claim12According to the invention, since a lid is provided to be coupled to the rear surface of the element case, it is possible to unitize a delay element including a suction cup, an object to be sucked, a card, a return spring, an element case, and the like. There is.
Claim14The invention of claimOneIn the present invention, since the cushion member is provided on the rear surface of the object to be sucked, it is possible to reduce the impact when the suction cup is detached from the object to be sucked.
[0077]
ClaimFifteenThe invention of claim14Since the cushion member is formed of a coil spring, the present invention has an effect that the cost of the cushion member can be reduced.
Claim16The invention of claim5According to the invention, since the air permeable member is formed of the ceramic porous body, there is an effect that the delay time can be adjusted by changing the size and the hole diameter of the air permeable member. Further, since the temperature dependence of the air permeability coefficient is smaller than that of the non-porous material, the fluctuation of the delay time due to the temperature change of the use environment can be reduced, and the delay time can be made more accurate.
[0078]
Claim17The invention of claim5According to the invention, since the air permeable member is formed of the alumina ceramic porous body, there is an effect that the delay time can be adjusted by changing the size and the hole diameter of the air permeable member. Further, since the temperature dependence of the air permeability coefficient is smaller than that of the non-porous material, the fluctuation of the delay time due to the temperature change of the use environment can be reduced, and the delay time can be made more accurate.
[0079]
Claim19The invention of claim5According to the invention, since the end face of the air permeable member is chamfered, there is an effect that the air permeable member can be easily inserted into the suction cup.
Claim20The invention of claim5According to the invention, since the air permeable member is formed in a columnar shape, there is an effect that it is easy to press the air permeable member into the suction cup.
[0080]
Claim21The invention of claim20According to the invention, since the outer periphery of the air permeable member is sealed by the rubber tube, the delay time can be adjusted with higher accuracy, and the air permeable member can be protected by the rubber tube.
Claim22The invention of claim21In the present invention, since a plurality of air permeable members are provided and the air permeable members are arranged in a substantially straight line, the delay time is lengthened by increasing the number of air permeable members and lengthening the linear distance between the air permeable members. In addition, since the length of one air permeable member can be reduced as compared with the case where the linear distance is increased by one air permeable member, there is an effect that the air permeable member is hardly damaged.
[0081]
Claim23The invention of claim5In the invention of the above, the suction cup is formed with a tapered portion for preventing the end face of the air permeable member from coming into close contact, so that the suction cup can be prevented from coming into close contact with the end face of the air permeable member, and the air permeable member There is an effect that the delay time can be adjusted with high accuracy by the cross-sectional area of the end surface of the first embodiment.
Claim24The invention of claimOneIn the present invention, since the return spring is constituted by the coil spring, there is an effect that the cost of the return spring can be reduced.
[0082]
Claim25The invention of claim24According to the invention, since the end face of the coil spring is polished, there is an effect that the state of contact with another member on the end face is stabilized.
Claim26The invention of claim24According to the invention, since the coil spring is formed of SUS, there is an effect that the corrosion resistance of the coil spring can be improved.
[0083]
Claim27The invention of claim12Or claimsThirteenAccording to the invention, since the element case is formed with the spring receiving portion for receiving one end of the return spring, there is an effect that the element case can receive one end of the return spring.
Claim28The invention of claimOneIn the present invention, since the card is formed with a concave spring receiving portion for receiving one end of the return spring, there is an effect that the card can receive one end of the return spring.
[0084]
Claim29The invention of claimOneIn the present invention, at least a part of the card is integrally formed with the suction cup, so that there is an effect that the assembling work becomes easy.
Claim30The invention of claimOneIn the present invention, the card is composed of a card portion and a shaft portion, the shape of the card portion is substantially U-shaped, and both leg pieces of the card portion are provided.On the frame with guide grooves to guide both leg piecesSince it is guided more, there is an effect that the card can be moved stably.
[0085]
Claim31The invention of claimOneIn the present invention, since the card is formed of a flame-retardant thermoplastic material, there is an effect that safety can be enhanced.
Claim32The invention of claimOneIn the present invention, since the card is composed of the card portion and the shaft portion, and the card portion and the shaft portion are formed as separate members, there is an effect that the shape control of the card is facilitated.
[0086]
Claim33The invention of claim32In the present invention, the card portion and the shaft portion are fixed by thermocompression bonding, so that there is an effect that the card portion and the shaft portion can be securely connected.
Claim34The invention of claimOneIn the present invention, the card has an air intake for taking air into an internal space formed between the suction cup and the object to be sucked in a state where the suction cup is adsorbed to the object to be adsorbed. There is an effect that the delay time can be adjusted by changing the size and shape of the mouth.
[0087]
Claim35The invention of claim34According to the invention, the card is provided with a dustproof filter member between the internal space and the air intake, so that foreign matter such as dust or dirt enters between the suction cup and the adsorbed body. And the delay time can be made substantially constant.
Claim36The invention of claimOneIn the invention, linked to the setting operation of the operation unitArm that rotates and moves the cardIs provided, the force of the setting operation can be transmitted to the card via the arm, and the card can be driven stably.
[0088]
Claim37The invention of claim36According to the invention, since the operating portion has a plurality of arm pressing portions for pressing the arm, there is an effect that the operating force of the operating portion can be more stably transmitted to the arm.
Claim38The invention of claim36Or claims37In the invention of the above, the arm is formed in a shape that allows the card to be pushed to the end of the stroke of the card during the stroke of the operation unit at the time of the setting operation of the operation unit, so that the suction cup is surely substantially attached to the attracted object at the time of the setting operation. Since the suction can be performed with a constant force, the delay time can be made substantially constant.
[0089]
Claim39The invention of claimOneIn the present invention, since the operation unit is a wave type that is raised and lowered to open and close the switch mechanism, there is an effect that a wave type switch having a delay time when the set release operation is performed can be configured.
Claim40The invention of claim36Or claims37According to the invention, since the arm has a plurality of pressing portions for pressing the card, there is an effect that the card can be driven more stably.
[Brief description of the drawings]
1A and 1B show a first embodiment, in which FIG. 1A is a plan view in an off state, and FIG. 1B is a cross-sectional view in an off state.
FIGS. 2A and 2B show the same as above, wherein FIG. 2A is a plan view in an ON state, FIG. 2B is a cross-sectional view in an ON state, and FIG.
FIG. 3 is a side sectional view showing the above and in an ON state.
FIG. 4 is an exploded perspective view of the same.
FIG. 5 is a perspective view of a delay element used in the embodiment.
FIG. 6 is an exploded perspective view of the delay element used in the above as viewed from the front side.
FIG. 7 is an exploded perspective view of the delay element used in the above as viewed from the rear side.
FIG. 8 is an explanatory diagram of a main part of the above.
FIG. 9 is an explanatory diagram of another main part of the above.
FIG. 10 is a perspective view showing an example of an air permeable member used in the above.
FIG. 11 is a perspective view showing another example of the air permeable member used in the above.
FIG. 12 is a perspective view showing another example of the air permeable member used in the above.
FIG. 13 is a sectional view of a main part of the above.
FIG. 14 is a front view showing another example of the air permeable member used in the above.
FIG. 15 is a perspective view of an object to be suctioned used in the above.
FIGS. 16A and 16B show an arm used in the above, wherein FIG. 16A is a plan view and FIG. 16B is a front view.
FIG. 17 is an operation explanatory view of the above.
FIGS. 18A and 18B show an example of the arm used in the above, where FIG. 18A is a plan view and FIG. 18B is a front view.
19A and 19B show the second embodiment, in which FIG. 19A is a plan view in an off state, and FIG. 19B is a cross-sectional view in an off state.
20 (a) is a plan view of an on state, FIG. 20 (b) is a sectional view of the on state, and FIG. 20 (c) is a rear view.
FIG. 21 is a side sectional view showing the above and in an ON state.
FIG. 22 shows the third embodiment and is a cross-sectional view of a main part in an off state.
FIG. 23 is a cross-sectional view illustrating an off state according to the fourth embodiment.
FIGS. 24A and 24B show an example of a card used in the above, wherein FIG. 24A is a front view and FIG.
FIG. 25 is an exploded view showing an example of the card used in the above.
FIG. 26 is a front view showing an example of the card used in the above.
FIG. 27 is a perspective view showing an example of an air permeable member used in the above.
FIG. 28 is a perspective view showing another example of the air permeable member used in the above.
FIG. 29 is a perspective view showing another example of the air permeable member used in the above.
FIG. 30 shows the fifth embodiment and is a cross-sectional view in an off state.
FIG. 31 is a cross-sectional view showing an example of a main part of the above.
FIG. 32 is a sectional view showing another example of the main part of the above.
FIG. 33 is a sectional view showing another example of the main part of the above.
FIG. 34 shows the sixth embodiment and is a cross-sectional view of a main part in an off state.
FIG. 35 is a cross-sectional view of a main part in an off state according to the seventh embodiment.
36 (a) is a plan view, FIG. 36 (b) is a front view, and FIG. 36 (c) is a rear view.
FIG. 37 shows the eighth embodiment and is a cross-sectional view of a main part in an off state.
FIG. 38 shows the ninth embodiment and is a cross-sectional view of a main part in an off state.
FIG. 39 is a perspective view of a main part of the above.
FIG. 40 shows the tenth embodiment and is a cross-sectional view of a main part in an off state.
[Explanation of symbols]
1 case
6 cards
23 Sucker
23b suction unit
23d shaft part
24 Adsorbed body
26 Card part
26c card member
26e Air intake
27 Return spring
28 Cushion member
32 air permeable member
61 Lock Spring
63a Terminal board
64a fixed contact
63c terminal board
70 Contact spring
72 Moving contacts
90 handle

Claims (40)

An operation unit, a suction cup that moves in conjunction with a setting operation of the operation unit, a card that cooperates with the suction cup to open and close a switch mechanism, an adsorbing body that adsorbs and holds the moved suction cup, and a suction cup that adsorbs A return spring that urges the suction cup in a direction away from the body, a terminal to which the switch mechanism is electrically connected, and an internal space formed between the suction cup and the suction target when the suction cup is adsorbed to the suction target. An air permeable member provided in an air circulation path communicating with the air suction device, and a cushion member provided on a surface opposite to a surface on which the suction cup of the object to be sucked is provided . A delay switch characterized in that there is a delay time until the sucker separates from the object to be sucked due to the balance between the suction force of the sucker to the object to be sucked and the spring force of the return spring. The delay switch according to claim 1 , wherein the suction cup is formed of rubber . Suckers, delay switch according to claim 1, wherein the composed formed by silicone rubber. Suckers, delay switch according to claim 1, characterized by comprising suction surface side to adsorb onto the adsorbent is an opening shape, the flat portion on the inner peripheral bottom face is formed. At least a portion of the air flow route sucker is formed, delay switch according to claim 1, wherein said air permeable member within the suction cup comprises is disposed. Suckers, delay switch according to claim 1, wherein the composed is formed a stopper portion for regulating the movement range of the suction cup in the direction opposite to the attaching object member. Suckers, delay switch according to claim 1, characterized by comprising a parting line is provided in a portion other than the attracting surface. The delay switch according to any one of claims 1 to 7, wherein the object to be attracted is formed of a metal . The delay switch according to any one of claims 1 to 8, wherein the object to be sucked is provided with a coating having a low friction coefficient on a surface on which the suction cup is sucked . The delay switch according to any one of claims 1 to 7, wherein the object to be attracted is formed of a resin . The delay switch according to any one of claims 2 to 10, wherein the to- be-adsorbed body has an air passage hole formed outside a region where the suction cup is adsorbed . A return spring is disposed on the front side, and a rear surface is opened, and a device case for housing at least the suction cup and the object to be sucked is provided. The element case and the object to be sucked are connected via an elastic member serving as a cushion member. delay switch according to claim 1, wherein the composed. 13. The delay switch according to claim 12 , further comprising a lid coupled to a rear surface of the element case . Delay switch according to claim 1, wherein said cushion member to the rear surface of the adsorbent is made are disposed. 15. The delay switch according to claim 14, wherein the cushion member is constituted by a coil spring . The delay switch according to claim 5 , wherein the air permeable member is formed of a ceramic porous body . Air permeability member, delay switch according to claim 5, wherein the composed formed by alumina ceramic porous body. 18. The delay switch according to claim 16, wherein the porous body has a pore diameter of about 0.01 μm to about 1 μm . 6. The delay switch according to claim 5 , wherein an end surface of the air permeable member is chamfered . The delay switch according to claim 5 , wherein the air permeable member is formed in a cylindrical shape . 21. The delay switch according to claim 20 , wherein an outer periphery of the air permeable member is sealed by a rubber tube . 22. The delay switch according to claim 21, comprising a plurality of air permeable members, wherein the air permeable members are arranged substantially linearly . 6. The delay switch according to claim 5 , wherein the suction cup is formed with a tapered portion for preventing an end face of the air permeable member from coming into close contact . Return spring is delayed switch according to claim 1, wherein the composed is constituted by a coil spring. 25. The delay switch according to claim 24 , wherein an end surface of the coil spring is polished . The delay switch according to claim 24 , wherein the coil spring is formed of SUS . 14. The delay switch according to claim 12 , wherein the element case is formed with a spring receiving portion that receives one end of the return spring . Cards, delay switch according to claim 1, wherein a concave spring receiving portion Ru receiving one end of the return spring is formed by forming. Cards, delay switch according to claim 1, wherein the at least partially formed by the suction cup and integrally molded. The card is composed of a card portion and a shaft portion, and the shape of the card portion is substantially U-shaped, and both legs of the card portion are guided by a frame having a guide groove for guiding both legs. The delay switch according to claim 1, wherein: Cards, delay switch according to claim 1, wherein the composed formed by the flame retardant thermoplastic materials. Card consists of a card unit and the shaft unit, a delay switch according to claim 1, characterized in that the card portion and the shaft portion to another member. 33. The delay switch according to claim 32, wherein the card portion and the shaft portion are fixed by thermocompression bonding . Cards, claims, characterized in that the suction cups, which are formed air inlet for taking air into the inner space formed between the sucker and the attracted member in a state adsorbed on the adsorbent 1 The delay switch described. 35. The delay switch according to claim 34 , wherein the card is provided with a dustproof filter member between the internal space and the air intake . Delay switch according to claim 1, wherein in conjunction with the set operation of the operation unit is characterized in that it comprises a rotation and arm to move the card. 37. The delay switch according to claim 36 , wherein the operation unit includes a plurality of arm pressing units configured to press the arms . 38. The delay switch according to claim 36 , wherein the arm is formed in such a shape that the card can be pushed to the end of the stroke of the card during the stroke of the operation unit when the operation unit is set . The delay switch according to claim 1 , wherein the operation unit is of a wave type that is raised and lowered to open and close the switch mechanism . Arm delay switch according to claim 36 or claim 37, wherein the pressing portion for pressing the card is formed by forming a plurality.

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