JP3886077B2 - Time switch and method for manufacturing time switch - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention relates to a time switch used for a microwave oven or the like.And method for manufacturing the time switchThe present invention relates to a time switch that can cope with circuits having different numbers of terminals by slightly changing the internal connection relationship.
[0002]
[Prior art]
Time switches are used in various electronic devices. For example, when considering a microwave oven, the time switch is composed of two switches, a main switch (a switch for performing normal cooking, hereinafter referred to as a cooking switch) and a switch for thawing. Is generally controlled by one time switch mechanism.
[0003]
Depending on the specifications of the external circuit, that is, the circuit used in the microwave oven, the number of terminals for connecting the time switch and the circuit in the microwave oven varies, for example, 4 terminals, 5 terminals, and 6 terminals. There are types. Therefore, the time switch needs to have a structure that can cope with these various types of circuits.
[0004]
For example, the circuit shown in FIG. 14A is a circuit configuration in a time switch corresponding to a 6-terminal circuit, and the timer motor M, the cooking switch sw1, and the thawing switch sw2 are independent circuit configurations. It has become. That is, the cooking switch sw1 is interposed between the terminal t1 and the terminal t2, the thawing switch sw2 is interposed between the terminal t3 and the terminal t4, and the timer motor M is interposed between the terminal 5 and the terminal t6. Yes. As described above, in order to correspond to the circuit for 6 terminals, on the time switch side, as shown in FIG. 14B, it is necessary to provide 6 terminals t1 to t6 for external circuit connection.
[0005]
The time switch shown in FIG. 14B is provided with a timer motor M, a speed reduction mechanism composed of a large number of gears, a cooking switch sw1 including a cam and a leaf switch, a thawing switch sw2, and the like. Here, illustration of these specific configurations is omitted, and terminals t1 to t6 provided to protrude from the time switch housing 1, a timer motor M connected to each terminal, a cooking switch sw1, and thawing The switch sw2 is shown using symbols used in a general electric circuit. The cam (not shown) is driven by the rotation of the timer motor M, and the cooking switch sw1 and the thawing switch sw2 are controlled to be turned on or off, thereby functioning as a timer.
[0006]
In addition, the circuit shown in FIG. 15A is a circuit configuration in a time switch corresponding to a circuit for five terminals, and the cooking switch sw1 is an independent configuration. The cooking switch sw1 It is interposed between terminal t4 and terminal t5. The thawing switch sw2 is interposed between the terminal t2 and the terminal t3, and the timer motor M is interposed between the terminal t1 and the terminal t3. That is, the configuration is such that the terminal t3 corresponds to a circuit for five terminals used as a common terminal for the thawing switch sw2 and the timer motor M. Thus, in order to correspond to a five-terminal circuit, on the time switch side, as shown in FIG. 15B, it is necessary to provide five terminals t1 to t5 for external circuit connection.
[0007]
Further, the circuit shown in FIG. 16A has a configuration in a time switch corresponding to a circuit for four terminals, a terminal t3 is a common terminal, and a timer motor is provided between the terminal t3 and the terminal t1. M is interposed, a thawing switch sw2 is interposed between the terminal t3 and the terminal 2, and a cooking switch sw1 is interposed between the terminal t3 and the terminal 4. In order to correspond to such a circuit for four terminals, on the time switch side, as shown in FIG. 16B, it is necessary to provide four terminals t1 to t4 for external circuit connection.
[0008]
15 (B) and 16 (B), like FIG. 14 (B), cooking switch sw1 including a timer motor M, a speed reduction mechanism including a large number of gears, a cam, and a leaf switch. , A thawing switch sw2 and the like are provided, but the specific illustration thereof is omitted here, and the terminals t1 to t4 and the terminals t1 to t5 provided to protrude from the casing 1 of the time switch are connected to the respective terminals. The timer motor M and the first and second switches sw1 and sw2 are shown using symbols used in a general electric circuit. As described above, a cam (not shown) is driven by the rotation of the timer motor M, and the cooking switch sw1 and the thawing switch sw2 are controlled to be on or off, thereby functioning as a timer.
[0009]
[Problems to be solved by the invention]
As described above, since there are several types of circuits used in a microwave oven, conventionally, it is necessary to design a time switch according to each type. For example, in order to correspond to a 6-terminal circuit, the positional relationship between the six terminals t1 to t6, the cooking switch sw1, and the thawing switch sw2, and the timer motor M is added to each of these components. It is necessary to design a time switch in consideration of the mutual connection relationship, and in order to correspond to a circuit for five terminals, it is necessary to design a time switch corresponding to the time switch.
[0010]
However, changing the basic configuration of the time switch so as to correspond to the circuit specifications of the electronic device each time has a problem that the productivity is extremely poor and the cost is affected.
[0011]
  Therefore, the present invention makes the basic components of the time switch common, and enables the production of various circuits with a slight modification to the differences in circuit specifications of electronic devices.sexAn object of the present invention is to provide a time switch that can contribute to improvement in cost and cost reduction.
[0012]
[Means for Solving the Problems]
  In order to achieve such an object, the time switch of the present invention includes:At least a rotational drive source, a gear train that reduces and transmits the rotational force of the rotational drive source, a cam that operates by the rotation of the gear train, and a leaf switch that is turned on or off by being driven by the cam In the time switch having the leaf contact piece constituting the housing and the housing for housing these components, the external circuit connection terminal provided on the leaf contact piece and the external circuit connection terminal project outward from the housing. In order to hold a plurality of notch holes provided in a predetermined position of the casing, a conductive contact member connected to a leaf contact piece and a terminal provided in the predetermined leaf contact piece, And a plurality of holding portions provided, and a part of the holding portion is set in an empty state so that a wiring state other than the current wiring state can be set.
[0015]
  In addition, other inventionsDepartureIn addition to the bright time switch, one end of the connecting member is disposed opposite to the tip of the leaf contact piece to provide a contact portion for performing a switch function with the leaf contact piece.
[0016]
  further,otherThe inventionEach of the above inventionsTo the time switchIn additionThe enclosureIn, Multiple leaf switches are arrangedAndOr, a leaf switch and a connecting member that is not a component of the leaf switch are arranged.AndThese leaf switches or leaf switches and connecting members are arranged at different heights in the thickness direction of the housing.
[0017]
  According to another aspect of the invention, there is provided a time switch manufacturing method including at least a rotational drive source, a gear train that transmits the rotational force of the rotational drive source by decelerating, a cam that operates by rotation of the gear train, and a cam. A leaf switch provided with a terminal for connecting an external circuit in a method of manufacturing a time switch having a leaf contact piece constituting a leaf switch that is controlled to be turned on or off by being driven and a housing for housing these components. A plurality of types of contact pieces are prepared, and a conductive connection member is prepared for connection to a terminal provided on a predetermined leaf contact piece used as a common terminal. The casing is provided on the leaf contact piece. A plurality of notch holes for projecting the external circuit connection terminals to the outside of the housing are provided at predetermined positions, and each leaf contact piece and the connecting member are By providing a plurality of holding portions for holding at predetermined positions, using a plurality of types of leaf contact pieces prepared in advance, and holding the leaf contact pieces in a predetermined holding portion, The terminal protrudes outward from the housing, and a predetermined wiring state is obtained by selecting whether the connecting member is incorporated or not incorporated.is doing.
[0018]
According to the present invention, a single time switch can cope with a difference in circuit specifications in an electronic device to which the time switch is connected. The difference in circuit specifications here refers to the number of terminals for connecting the time switch and the circuit in the electronic device. As described above, there are various types such as 6 terminals, 5 terminals, and 4 terminals. The difference in the number of terminals can be shared by one time switch.
[0019]
In order to realize this, a plurality of leaf contact pieces provided with terminals for connecting an external circuit are prepared, and when terminals provided on other leaf contact pieces are used as common terminals, A conductive connecting member for connecting the members is prepared as necessary. Also, on the housing side, a plurality of notch holes for projecting the external circuit connection terminals provided on the leaf contact pieces to the outside of the housing are provided at predetermined positions, and each leaf contact is provided. A plurality of holding portions for holding the piece and the connecting member are provided for each predetermined position.
[0020]
And according to the difference in the specifications of the external circuit, by selectively using a plurality of leaf contact pieces prepared in advance and holding the leaf contact pieces in a predetermined holding part, the terminal part is placed outside the housing. While projecting, if necessary, the connecting member is connected to a predetermined terminal to obtain a wiring state corresponding to the specifications of the external circuit.
[0021]
In this way, it is possible to cope with various types of circuits such as 6 terminals, 5 terminals, and 4 terminals by slightly changing the arrangement of leaf switches in the time switch, and the circuit of the electronic device to be used. There is no need to newly design and prepare a time switch according to the above.
[0022]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, exemplary embodiments of the present invention will be described with reference to FIGS. In this embodiment, a time switch used for a microwave oven will be described.
[0023]
FIG. 1 is a plan view showing the internal structure of the time switch. A cooking time setting gear 12 is provided at a substantially central portion inside the casing 11, and this cooking time setting gear 12 includes a number of gear trains. A rotational driving force of a timer motor M serving as a driving source is received via 13. The cooking time setting gear 12 is provided with a knob mounting shaft 14 for mounting a cooking time setting knob (not shown) protruding upward (in a direction perpendicular to the drawing).
[0024]
Further, the cooking time setting gear 12 is integrally provided with a first cam 12a, and a first operating body 15 is disposed in the vicinity thereof. The first cam 12a and the first operating body 15 are actuated by the rotation of the cooking time setting gear 12, and control the cooking switch sw1, which will be described in detail later. Off). That is, when the cooking time setting knob is set to a predetermined time, the cooking switch sw1 is turned on and cooking is started. Thereafter, when the predetermined time elapses due to the rotation of the timer motor M, the first cam 12a and the first cam 12a. By the action of the first operating body 15, the cooking switch sw1 is turned off and the cooking is finished.
[0025]
On the other hand, the rotational force of the timer motor M is also transmitted to the thawing time setting gear 16 via the gear train 13. The thawing time setting gear 16 is integrally provided with a second cam 16a and a second operating body 17 is disposed in the vicinity thereof. The second cam 16a and the second operating body 17 control the thawing switch sw2 described later in detail (from on to off after setting the thawing time). That is, when the set thawing time is reached, the thawing switch sw2 is turned off by the action of the second cam 16a and the second operating body 17.
[0026]
The above is the schematic configuration of a time switch for a microwave oven. Actually, the configuration and operation as a time switch for a microwave oven include various elements in addition to the above description, but description of portions not directly related to the present invention is omitted.
[0027]
In the present invention, the terminals for connecting the timer motor M, the cooking switch sw1, and the thawing switch sw2 to the electric circuit provided in the microwave oven are arranged in accordance with the specifications of the electric circuit. There are main characteristics of crab. Hereinafter, this point will be described.
[0028]
By the way, the time switch shown in FIG. 1 is an example corresponding to a circuit for 6 terminals. That is, it corresponds to a 6-terminal circuit as shown in FIG. This FIG. 2 (A) is the one in which the timer motor M, the cooking switch sw1, and the thawing switch sw2 are made independent of each other as in FIG. The cooking switch sw1 is interposed between the terminal t1 and the terminal t2, the thawing switch sw2 is interposed between the terminal t3 and the terminal t6, and the timer motor M is interposed between the terminal 4 and the terminal t5. These terminals t4 and t5 are used as terminals for supplying power to the timer motor M.
[0029]
In order to correspond to such a 6-terminal circuit, on the time switch side, the positions of the respective terminals t1 to t6 and the arrangement of the cooking switch sw1 and the thawing switch sw2 are as shown in FIG. Note that the cooking switch sw1, the thawing switch sw2, and the terminals t1 to t6 are blacked out in FIG. 1 (the same applies to FIGS. 7 and 10 described later) in order to facilitate understanding of the positional relationship between them. It is. Moreover, the positional relationship of the terminals t1-t6 seen from the side where the timer motor M is arranged is shown in FIG.
[0030]
The cooking switch sw1 is composed of leaf contact pieces s11 and s12, and the contact points p11 and p12 provided at the longitudinal ends of the leaf contact pieces s11 and s12 are in contact with and not in contact with each other. Get. Similarly, the thawing switch sw2 is composed of leaf contact pieces s21 and s22, and the contact points p21 and p22 provided at the tips of the respective leaf contact pieces s21 and s22 are brought into contact / non-contact with each other to be turned on / off. obtain. Note that the leaf contact piece s22 is normally expressed as a terminal rather than a contact piece, but in the description of the present embodiment, the leaf contact piece including the terminal function is referred to as a leaf contact piece.
[0031]
Further, terminals t1, t2, t3, and t6 for connecting to external circuits, that is, circuits provided in the microwave oven, are provided on the rear end sides in the longitudinal direction of the leaf contact pieces s11, s12, s21, and s22. (Terminals t4 and t5 will be described later) are provided so as to protrude in a direction perpendicular to the respective leaf contact pieces. Further, of the leaf contact pieces s11, s12, s21, and s22, in this case, the leaf contact pieces s11, s12, and s21 are bent at 90 degrees near the rear end side in the contact piece longitudinal direction.
[0032]
FIG. 3 shows an example of the leaf contact pieces s11, s12, s21, and s22 used in this embodiment, and further, first and second leaf contact pieces s31 and s32 as connecting members. (A) shows the leaf contact piece s11, (B) shows the leaf contact piece s12, (C) shows the leaf contact piece s21, and (D) shows the leaf contact piece s22. 3E shows a first leaf contact piece (hereinafter referred to as a first connection leaf contact piece) s31, (F) as a connection member, and a second leaf contact piece (hereinafter referred to as a connection member). The first and second connecting leaf contact pieces s31 and s32 will be described later.
[0033]
Each of the leaf contact pieces s11, s12, s21, and s22 described above is held by press-fitting a predetermined portion of each leaf contact piece into a holding portion (described later) provided on the housing 11 side. Yes.
[0034]
on the other hand,As shown in FIG.On the housing 11 side, notches 18a to 18f for projecting the above-described terminals t1 to t6 outward of the housing 11 are provided at predetermined positions. Of these notches 18a to 18f, the notch 18a is for projecting the terminal t1 to the outside of the housing 11, and the notch 18b is for projecting the terminal t2 to the outside of the housing 11. Similarly, the notch portion 18c is the terminal t3, the notch portion 18d is the terminal t4, the notch portion 18e is the terminal t5, and the notch portion 18f is the terminal t6 outward of the housing 11. It is for projecting.
[0035]
Note that the terminal t4 and the terminal t5 are not used by being attached to the leaf contact piece, but are used independently, and have, for example, a shape as shown in FIG. Since the terminals t4 and t5 may have substantially the same shape, only the terminal t4 is shown in FIG. As described above, these terminals t4 and t5 are used as power supply terminals to the timer motor M, and the tip k is connected to the power supply parts 19a and 19b of the timer motor M by soldering or the like.
[0036]
And inside the housing 11, each leaf contact piece s11, s12, s21, s22 (In addition to this, when trying to correspond to the electric circuit for 5 terminals and 4 terminals described later, the Holding portions 20a, 20b, 20c, 20d, 20e, 20f, 20g, and 20h for holding one connecting leaf contact piece s31 or the second connecting leaf contact piece s32 are used. Provided in position.
[0037]
The holding portion 20a holds the leaf contact piece s11 at the terminal t1 portion, and the holding portion 20b holds the leaf contact piece s12 at the terminal t2 portion. That is, the leaf contact piece s11 is held by inserting the terminal t1 into the cutout portion 18a and press-fitting the terminal t1 portion into the holding portion 20a. As a result, the distal end side (contact p11 side) of the leaf contact piece s11 is disposed at a position where the leaf contact piece s11 can swing by the operation of the first cam 12a and the first operating body 15.
[0038]
In addition, the leaf contact piece s12 is held by inserting the terminal t2 into the cutout portion 18b and press-fitting the terminal t2 portion into the holding portion 20b.12The movement of the side) is regulated by the regulating member 21. By attaching the leaf contact pieces s11 and s12 in this way,contactThe contact point p12 between the p11 and the leaf contact piece s12 is in an opposing state. Then, the leaf contact piece is obtained by the action of the first operating body 15.s11Side contact p11 is leaf contact pieces12A contact / non-contact operation is performed on the contact p12 on the side, whereby the cooking switch sw1 can be turned on or off.
[0039]
The holding portion 20c holds the leaf contact piece s21 at the terminal t3 portion, and the holding portion 20d holds the leaf contact piece s22 at the terminal t6 portion. That is, the leaf contact piece s21 is held by inserting the terminal t3 into the cutout portion 18c and press-fitting the terminal t3 portion into the holding portion 20c. At this time, the tip end side (contact p21 side) of the leaf contact piece s21 is disposed at a position where it can swing by the operation of the second operating body 17 described above.
[0040]
The holding portions 20e and 20f hold the first connecting leaf contact piece s31, the holding portion 20g holds the terminal t4, and the holding portion 20h holds the terminal t5.
[0041]
On the other hand, the leaf contact piece s22 is held by inserting the terminal t6 into the cutout portion 18f and press-fitting the terminal t6 portion into the holding portion 20d. The movement of the leaf contact piece s22 is regulated by the partition plate 22 provided in the housing 11. At this time, the leaf contact piece s21contactThe contact point p22 of the p21 and the leaf contact piece s22 is in an opposed state. Then, the contact p21 on the leaf contact piece s21 side performs a contact / non-contact operation with respect to the contact p22 on the leaf contact piece s22 side by the action of the second operating body 17, whereby the thawing switch sw2 is turned on or An off state can be obtained.
[0042]
Further, in order to correspond to the circuit for 6 terminals, as can be seen from FIG.t5Has a function as a terminal for supplying power to the timer motor M, so that the terminal t4 is held by the holding portion 20g and its tip protrudes outward from the cutout portion 18d, and the terminal t5 is held by the holding portion. After holding the tip 20h outwardly from the notch 18e, the power supply portions 19a and 19b of the timer motor M are connected to the housing portions of the terminals t4 and t5, for example. To do.
[0043]
As described above, with the configuration shown in FIG. 1, the relationship between the timer motor M, the cooking switch sw1, the thawing switch sw2, and the terminals t1 to t6 is as shown in FIG. A circuit configuration can be obtained. Thereby, it can be made to correspond to a 6-terminal electric circuit. That is, between the terminal t1 and the terminal t2, a cooking switch sw1 is formed by the leaf contact piece s11 and the leaf contact piece s12, and the contact p11 is brought into contact p12 by the action of the first cam 12a and the first operating body 15. It is possible to obtain a state of being in contact or non-contact (on or off) with respect to. Further, between the terminal t3 and the terminal t6, a defrosting switch sw2 is formed by the leaf contact piece s21 and the leaf contact piece s22, and the contact p21 is brought into contact by the action of the second cam 16a and the second operating body 17. A state of being in contact with or not in contact with p22 (on or off) can be obtained. Further, power supply to the timer motor M can be performed by the terminals t4 and t5.
[0044]
FIG. 5 is a view of FIG. 1 viewed from the direction of arrow A. Since the purpose of FIG. 5 is to show the positional relationship between the terminals and the leaf contact pieces, the portions not related thereto are not shown. In addition, the same code | symbol is attached | subjected to the same part as FIG.
[0045]
As can be seen from FIG. 5, the leaf contact pieces s11 and s12 forming the cooking switch sw1 and the leaf contact pieces s21 and s22 forming the thawing switch sw2 are not provided on the same plane. The time switch is provided in steps with varying heights in the thickness direction. That is, in this case, the leaf contact pieces s11 and s12 forming the cooking switch sw1 are positioned on the lower side, that is, on the side opposite to the knob side of the knob setting shaft 14 for time setting, and the leaf contact pieces forming the thawing switch sw2 The structure is such that s21 and s22 are located on the upper stage, that is, on the knob side. In addition, the terminal t4 for the timer motor M is disposed by overlapping the leaf segments s22 with a space in the height direction.
[0046]
This is for effectively using a limited space as a time switch. If the leaf contacts s11 and s12 forming the cooking switch sw1 and the leaf contacts s21 and s22 forming the thawing switch sw2 are provided on the same plane, the planar space of the time switch is increased. Although more is required, the height direction (time switch thickness) has a constant thickness determined by a large number of gear trains and the like, and the leaf contact that forms the cooking switch sw1 is within that thickness range. The pieces s11 and s12 and the leaf contact pieces s21 and s22 forming the thawing switch sw2 can be provided in a different manner. As a result, the space originally owned by the time switch can be used effectively. This structure is the same for 5 terminals and 4 terminals described later.
[0047]
The above is a structure for accommodating a circuit for 6 terminals. Next, a case for a structure for accommodating a circuit for 5 terminals will be described. In this case, the casing 11 of the time switch mechanism described in FIG. 1, the gear train 13 accommodated therein, the timer motor M, the first cam 12a and the first operating body 15, the second cam 16a and the second The basic components such as the second operation body 17 can be used as they are, and the leaf contact piece and the method of extending the terminal can be changed a little. Here, a structure for forming the circuit in the time switch as shown in FIG. 2B will be described below.
[0048]
In the circuit of FIG. 2B, the cooking switch sw1 is interposed between the terminal t1 and the terminal t2, the thawing switch sw2 is interposed between the terminal t3 and the terminal t2, and the timer motor M is the terminal.t4And the terminal t5. That is, in this case, the terminal t6 is not used by making the terminal t2 a common terminal for the cooking switch sw1 and the thawing switch sw2. In order to correspond to such a circuit for five terminals, on the case 11 side of the time switch, the positions of the terminals t1 to t5 and the arrangement of the cooking switch sw1 and the thawing switch sw2 are illustrated.7Like this.
[0049]
In FIG. 7, the attachment method of the leaf contact pieces s11 and s12 and the leaf contact piece s21 is exactly the same as in FIG. Since the leaf contact piece s22 used in FIG. 1 is not necessary here, the leaf contact piece s22 is not attached. However, in this case, a separately prepared first connecting leaf contact piece s31 is prepared. As shown in FIG. 3E, the first connecting leaf contact piece s31 is a linear leaf contact piece, and a contact point p31 is provided on the tip side. Then, the first connecting leaf contact is held by the holding portion 20e provided in the housing 11.FragmentThe rear end side of s31 is held, and the vicinity of the front end side is held by the holding portion 20f.
[0050]
When the first connecting leaf contact piece s31 is thus held by the holding portions 20e and 20f, the contact p31 is in a state of facing the contact p21 of the leaf contact piece s21. Then, the contact p21 on the leaf contact piece s21 side performs a contact / non-contact operation on the contact p31 on the first connecting leaf contact piece s31 side by the action of the second operating body 17. As a result, the thawing switch sw2 is formed by the first connecting leaf contact piece s31 and the leaf contact piece s21.
[0051]
Further, as shown in FIG. 8, the leaf contact pieces s11 and s12 forming the cooking switch sw1, and the leaf contact piece s2 forming the thawing switch sw21The first connecting leaf contact piece s31 is not provided on the same plane, but is provided in a step difference. That is, the leaf contact pieces s11 and s12 that form the cooking switch sw1 are positioned in the lower stage, and the leaf contact piece s2 that forms the thawing switch sw21The first connecting leaf contact piece s31 is positioned in the upper stage. The vicinity of the rear end of the first connecting leaf contact piece s31 is in contact with the terminal t2 of the leaf contact piece s12. In addition, it is preferable that this intersection part c is connected by soldering or the like to ensure electrical connection.
[0052]
With the above configuration, the relationship between the timer motor M, the main switch sw1, the thawing switch sw2, and the respective terminals t1 to t5 can be configured as shown in FIG. As a result, it is possible to correspond to a five-terminal electric circuit. That is, a cooking switch sw1 is formed by the leaf contact piece s11 and the leaf contact piece s12 between the terminal t1 and the terminal t2, and the contact p11 is brought into contact with the contact p12 by the action of the first operating body 15. A state of non-contact (on or off) can be obtained. Further, a thawing switch sw2 is formed between the terminal t3 and the terminal t2 by the leaf contact piece s21 and the first connecting leaf contact piece s31, and the contact p21 is connected to the contact p31 by the action of the second operating body 17. It is possible to obtain a state of being in contact or non-contact (on or off) with respect to. Further, power supply to the timer motor M can be performed by the terminals t4 and t5. The positional relationship between these terminals t1 to t5 is shown in FIG. 9 as viewed from the side where the timer motor M is arranged.
[0053]
Further, even with the same circuit configuration for five terminals, a circuit configuration as shown in FIG. In this case, the cooking switch sw1 and the thawing switch sw2 are exactly the same as in FIG. 1, and of the power supply units 19a and 19b of the timer motor M, the power supply unit 19a is connected to the terminal t4, and the power supply unit 19b is a terminal. Although it can be realized by connecting to t2 using the second connecting leaf contact piece s32 shown in FIG. 3F, it may be connected by soldering using a lead wire or the like. .
[0054]
The above is the structure for making it correspond to the electric circuit of the 5-terminal element. Next, the case where it is made the structure for making it correspond to the circuit for 4 terminals will be described. In this case, the time switch housing 11 described in FIG. 1 or FIG. 7, the gear train 13 accommodated therein, the timer motor M, the first cam 12a and the first operating body 15, and the second cam 16a. The basic components such as the second operating body 17 can be used as they are, and the leaf contact piece and the method of extending the terminal can be changed only slightly. Here, a structure for making the circuit in the time switch a circuit as shown in FIG. 2D will be described below.
[0055]
In the circuit shown in FIG. 2D, the cooking switch sw1 is interposed between the terminals t1 and t2, the thawing switch sw2 is interposed between the terminals t3 and t2, and the timer motor M has the terminals t4 and t2.2It has a configuration interposed between them. That is, in this case, the terminal t2 is a common terminal for the timer motor M, the cooking switch sw1, and the thawing switch sw2.
[0056]
In order to correspond to such a circuit for four terminals, on the time switch side, the positions of the respective terminals t1 to t4 and the arrangement of the cooking switch sw1 and the thawing switch sw2 are as shown in FIG.
[0057]
10, the attachment methods of the leaf contact pieces s11 and s12 and the leaf contact piece s21 are exactly the same as those in FIGS. Since the leaf contact piece s22 used in FIG. 1 is not necessary here, the leaf contact piece s22 is not attached. However, in this case, a first connection leaf contact piece s31 and a second connection leaf contact piece s32 prepared separately are prepared. The attachment method of the first connecting leaf contact piece s31 is the same as that for the 5-terminal shown in FIG. 7, and the contact p2 on the leaf contact piece s21 side by the action of the second operating body 17.1Performs a contact / non-contact operation with respect to the contact p31 on the first connecting leaf contact piece s31 side. The thawing switch sw2 is formed by the first connecting leaf contact piece s31 and the leaf contact piece s21.
[0058]
The second connecting leaf contact piece s32 serves to connect the terminal t2 and the power supply unit 19b of the timer motor M by some means. One end side of the second connecting leaf contact piece s32 Is connected to the leaf contact piece s12, and the other end side is connected to one power supply terminal 19b of the timer motor M. The second connecting leaf contact piece s32 can be held by the lower end portion of the holding portion 20f provided on the housing 11 side. Then, after being held by the holding portion 20f, one end side is connected to the leaf contact piece s12 by soldering or the like, and the other end side is connected to the power supply terminal portion 19b of the timer motor M by soldering or the like.
[0059]
With such a configuration, the relationship between the timer motor M, the cooking switch sw1, the thawing switch sw2, and the respective terminals t1 to t4 can be configured as shown in FIG. Thereby, it is possible to correspond to a circuit for four terminals. That is, between the terminal t1 and the terminal t2, the cooking switch sw1 is formed by the leaf contact piece s11 and the leaf contact piece s12, and the contact p11 is in contact with or not contacted with the contact p12 by the action of the first operating body 15. A state of contact (on or off) can be obtained. Further, a thawing switch sw2 is formed between the terminal t3 and the terminal t2 by the leaf contact piece s21 and the leaf contact piece s31, and the contact p21 is brought into contact with the contact p31 by the action of the second operating body 17. A state of non-contact (on or off) can be obtained. Further, the power supply to the timer motor M can be performed by the terminals t2 and t4. The positional relationship between these terminals t1 to t4 is shown in FIG. 12 as viewed from the side where the timer motor M is arranged.
[0060]
Further, as shown in FIG. 11, the leaf contact pieces s11 and s12 that form the cooking switch sw1, and the leaf contact piece s2 that forms the thawing switch sw21The first connecting leaf contact piece s31 is not provided on the same plane, but is provided in a step difference. That is, the leaf contact pieces s11 and s12 that form the cooking switch sw1 are positioned in the lower stage, and the leaf contact piece s2 that forms the thawing switch sw21The connecting leaf contact piece s31 leaf is positioned in the upper stage. The vicinity of the rear end of the first connecting leaf contact piece s31 is in contact with the terminal t2 of the leaf contact piece s12. In addition, it is preferable that this intersection part c is connected by soldering or the like to ensure electrical connection.
[0061]
Further, even the same configuration for four terminals can be easily configured as shown in FIG. In this case, the cooking switch sw1 and the thawing switch sw2 are exactly the same as in FIG. 10, and one of the power supply units of the timer motor M is connected to the terminal t6 and the other is connected to the terminal t2. In this case, the terminal t4 is not used, but the terminal t6 is attached instead, and the terminal t6 and one power supply unit 19a of the timer motor M are connected.
[0062]
As described above, in this embodiment, in order to correspond to the 6-terminal circuit, the 5-terminal circuit, and the 4-terminal circuit, the timer motor M, the cooking switch sw1, and the thawing switch sw2 are shown in FIG. The case where the connection relationships as shown in (A) to (E) are described has been described. As described above, the leaf contact pieces s11, s12, s21, and s22, and further, the connecting leaf contact pieces s31 and s32 can be obtained without greatly changing the structure of the time switch mechanism itself with respect to electric circuits of various specifications. In addition, the terminals t1 to t6 can be selectively used and attached to a predetermined holding portion, or can be made to correspond to electric circuits of various specifications only by performing a process of soldering as necessary.
[0063]
Each of the above-described embodiments is an example of a preferred embodiment of the present invention, but is not limited thereto, and various modifications can be made without departing from the scope of the present invention. For example, the connection relationship among the timer motor M, the cooking switch sw1, and the thawing switch sw2 can be selected and used from the terminals t5, t2, and t6 as shown in FIG.
[0064]
Further, the shape and type of each leaf contact piece, the shape and type of the connecting leaf contact piece, and the position of the holding portion provided on the housing 11 side are not limited to the above-described embodiment, and various The modification of this can be considered. In short, they should be set so as to be compatible with circuits of various specifications.
[0065]
In the above-described embodiment, a motor is used as a drive source. However, other drive sources such as a mainspring may be used. In addition, the first operating body 15 and the second operating body 17 are provided between the cams 12a and 16a and the leaf switches sw1 and sw2. However, without providing them, the movement of the cams 12a and 16a is directly controlled by the leaf switch. You may make it tell to sw1 and sw2. In the above-described embodiment, the time switch for the microwave oven has been described. However, the present invention can be used not only for the microwave oven but also for a time switch for other devices and a switch mechanism other than the time switch. .
[0066]
【The invention's effect】
  As explained above,Time switch of the present inventionCan cope with various types of circuits such as 6 terminals, 5 terminals, 4 terminals, etc., by changing the configuration of the leaf switch in the time switch slightly. The difference in the number of terminals for connecting to this circuit can be handled by one time switch. This eliminates the need to newly design and prepare a time switch corresponding to the circuit of the electronic device to be used.
[0068]
According to a third aspect of the present invention, one leaf contact piece of the leaf switch is provided by providing a contact portion on a connecting member for electrically connecting the leaf switches or between the terminals and the leaf switches. It is possible to form various circuits.
[0069]
Furthermore, in the invention according to claim 4, when a plurality of leaf switches are provided in the time switch, the respective leaf switches and the like are arranged in a different manner by changing the height in the thickness direction of the time switch housing. The space of the time switch can be used effectively, which can contribute to the downsizing of the time switch.
[0070]
  Further, according to the method for manufacturing a time switch of the present invention, it is possible to manufacture a time switch that can be applied to various circuits with a slight modification to the difference in circuit specifications of electronic devices. As a result, productivity can be improved and costs can be reduced.
[Brief description of the drawings]
FIG. 1 is a diagram for explaining an embodiment of the present invention, and is a diagram showing a structure of a time switch in a case where it is adapted for six terminals, with a part of members being seen through.
FIGS. 2A and 2B are diagrams showing a circuit configuration of a time switch to be applied in the embodiment of the present invention, where FIG. 2A is for 6 terminals, FIG. 2B and FIG. These are figures which show each circuit structure for 4 terminals.
FIG. 3 is a diagram showing an example of a leaf contact piece and a connecting leaf contact piece used in the embodiment of the present invention, in which (A) to (D) are each leaf contact piece, and (E) and (F) are FIG. It is a figure which shows each leaf leaf for a connection.
FIG. 4 is a diagram showing an example of terminals (power supply terminals) used in the embodiment of the present invention.
5 is a diagram showing a main part of a cross-sectional configuration when FIG. 1 is viewed from the direction of arrow A. FIG.
6 is a view of the time switch shown in FIG. 1 as viewed from the timer motor side (back side). FIG.
FIG. 7 is a diagram for explaining an embodiment of the present invention, and is a diagram showing a configuration of a time switch in a case where it is adapted for five terminals, with a part of members being seen through.
8 is a diagram showing a main part of a cross-sectional configuration when FIG. 7 is viewed from the direction of arrow A. FIG.
9 is a diagram of the time switch shown in FIG. 7 as viewed from the timer motor side (back side).
FIG. 10 is a diagram for explaining an embodiment of the present invention, and is a diagram showing a configuration of a time switch in a case where it is adapted for four terminals, with a part of members being seen through.
11 is a view showing the main part of the cross-sectional configuration when FIG. 10 is viewed from the direction of arrow A. FIG.
12 is a diagram of the time switch shown in FIG. 10 as viewed from the timer motor side (back side).
FIG. 13 is a diagram showing another example of a circuit configuration of a time switch to be applied in the embodiment of the present invention.
14A and 14B are diagrams illustrating a conventional time switch, where FIG. 14A is a circuit configuration example of a time switch corresponding to 6 terminals, and FIG. 14B is a diagram schematically illustrating the configuration of the time switch. .
15A and 15B are diagrams for explaining a conventional time switch, where FIG. 15A is a circuit configuration example of a time switch corresponding to five terminals, and FIG. 15B is a diagram schematically showing the configuration of the time switch. .
16A and 16B are diagrams for explaining a conventional time switch, where FIG. 16A is a circuit configuration example of a time switch corresponding to four terminals, and FIG. 16B is a diagram schematically showing the configuration of the time switch. .
[Explanation of symbols]
11 frame
12 Cooking time setting gear
12a First cam
13 Gear train
14 Knob mounting shaft
15 First action body
16 Thaw time setting gear
16a second cam
17 Second action body
18a-18f Notch
19a, 19b Power supply unit to timer motor M
20a-20h Holding part
21 Regulatory members
22 Partition plate
M Timer motor (drive source)
s11, s12, s21, s22 Leaf contact piece
s31 First connecting leaf contact piece (connecting member)
s32 Second connecting leaf contact piece (connecting member)
sw1 Cooking switch (leaf switch)
sw2 Defrosting switch (leaf switch)
t1-t6 terminals

Claims (4)

At least a rotational drive source, a gear train that reduces and transmits the rotational force of the rotational drive source, a cam that is operated by the rotation of the gear train, and a leaf that is turned on or off by being driven by the cam In a time switch having a leaf contact piece constituting the switch and a housing for housing these components,
A terminal for connecting an external circuit provided in the leaf contact piece, a plurality of cutout holes provided in a predetermined position of the housing for projecting the terminal for connecting the external circuit outward from the housing, and the leaf A plurality of holding portions provided at predetermined positions of the housing for holding conductive connecting members connected to the contact pieces and terminals provided on the predetermined leaf contact pieces;
A time switch characterized in that a part of the holding unit is made empty and a wiring state other than the current wiring state can be set. The connection member is provided with a contact portion for performing a switching function with the leaf contact piece by arranging one end side of the connection member so as to face the tip of the leaf contact piece. Item 1. A time switch according to item 1 . A plurality of the leaf switches are arranged in the casing, or a leaf switch and a connecting member that is not a component of the leaf switch are arranged, and the leaf switches and the leaf switch and the connecting members are connected in the thickness direction of the casing. 3. The time switch according to claim 1 , wherein the time switches are arranged at different heights. At least a rotational drive source, a gear train that reduces and transmits the rotational force of the rotational drive source, a cam that is operated by the rotation of the gear train, and a leaf that is turned on or off by being driven by the cam In a method for manufacturing a time switch having a leaf contact piece constituting a switch and a housing for housing each of these components,
A plurality of types of the leaf contact pieces provided with terminals for connecting external circuits are prepared, and a conductive connecting member for connecting to a terminal provided on the predetermined leaf contact piece used as a common terminal is prepared. And
The casing is provided with a plurality of cutout holes at predetermined positions for projecting external circuit connection terminals provided on the leaf contact pieces outward of the casing, and each leaf contact piece and A plurality of holding portions for holding the connecting member are provided at predetermined positions,
By selectively using the plurality of types of the leaf contact pieces prepared in advance and holding the leaf contact pieces in a predetermined holding portion, the terminal protrudes outward from the housing, and the connection member is incorporated. A method of manufacturing a time switch, characterized by selecting a non-built-in and obtaining a predetermined wiring state.

Images