DE69504618T2 - counter - Google Patents

Description

1. FIELD OF THE INVENTION

The present invention relates generally to a switch of the type defined by the features in the preamble of claim 1 and known from DE-A-24 09 604 for use in an electronic device, and more particularly to a switch suitable for mounting on a circuit board of a printed circuit.

2. DESCRIPTION OF THE RELATED STATE OF THE ART

A conventional switch is described with reference to Fig. 17 and Fig. 18. A fixed terminal 2 having a contact 10A and a terminal as a movable member 3 supporting a movable switch plate 6 is inserted into respective openings of a switch case 1 made of an electrically insulating material such as synthetic resin. An upper supporting part 3A and a lower supporting part 3B are formed on an inner wall of a recess formed in an upper portion of the terminal as a movable member 3 in Fig. 17. A sliding member 7 made of an electrically insulating material such as synthetic resin is arranged on an upper portion of the switch case 1 so as to be movable in the direction of an arrow M. The movable switch plate 6 is engaged with a gap 7A of the sliding member 7 at an upper end portion 6A. A contact 10B, which is in contact with a normally closed contact part 3C of the terminal as a movable member 3, is fixed to a lower end portion 6B of the movable switch plate 6.

In Fig. 17 and Fig. 18, an upper end portion of a V-shaped leaf spring 5 is engaged with the movable switch plate 6 at an engagement point (B), and a lower end portion thereof is engaged with the lower supporting part 3B of the terminal as the movable member 3. An upper A lower end portion of an L-shaped switching element 4 is engaged at another engagement point or fixed point (C) with the upper supporting part 3A of the terminal as the movable element 3, and a lower end portion thereof is engaged at another engagement point (A) with the movable switch plate 6.

A compression coil spring 9 is provided between the switch housing 1 and a flange 7B of the slide member 7 so as to maintain the compression force on the flange 7B in the direction of an arrow L. The upper opening of the switch housing 1 is covered by a cover 8 made of a metal plate. By inserting the fixed terminal 2 and the movable member terminal 3 into openings on the printed circuit board 25 and then soldering the terminals 2 and 3 to respective conductive layers on the printed circuit board 25, the switch is mounted on the printed circuit board 25.

The operation of the above switch will be described with reference to the schematic diagrams in Fig. 18A, Fig. 18B and Fig. 18C of the movable member of the movable switch plate 6, the leaf spring 5 and the changeover member 4. Fig. 18A shows the OFF state of the switch. When the slide member 7 is moved in the direction of arrow M by pushing a push rod 7C as shown in Fig. 17, the movable switch plate 6 is rotated counterclockwise, and the movable switch plate 6, which is shown by a line connecting the engagement points A and B, is moved in the direction of arrow N and brought into the vicinity of the engagement point C as shown in Fig. 18A. In Fig. 18B, the movable switch plate 6 is on the engagement point C. The sliding member 7 is further moved in the direction of arrow M, and when the movable switch plate 6 has passed the engagement point C, as shown in Fig. 18C, the movable switch plate 6 is quickly moved in the direction of arrow N, the contact 10B contacts the contact 10A of the fixed terminal 2, and the switch is closed.

In the above-mentioned conventional switch, the movable switch plate 6 is arranged vertically to the surface of the printed circuit board 25. Therefore, a dimension between a bottom surface having the fixed terminal 2 and that between the movable member terminal 3 and the cover 8 is large. Thus, there is a disadvantage that a height of the switch from the surface of the printed circuit board 25 is large.

OBJECT AND SUMMARY OF THE INVENTION

In order to overcome the above-mentioned disadvantage, the terminal as a movable member in the present invention and according to the characterizing features of claim 1 has the shape of an L-shaped profile, and a movable switch plate, a leaf spring and a switching element are arranged horizontally substantially parallel to the bottom of a switch housing.

According to a preferred embodiment of this switch, a bent or folded part is formed at an end region of a slot of the leaf spring, which is contacted by the first projecting part when the movable contact is away from the fixed contact.

According to a preferred embodiment of this switch, the movable switch plate has hook parts at an end portion of the slot adjacent to the movable contact, and the end portions of the switching element are engaged with these hook parts.

According to a preferred embodiment of this switch, the terminal as a movable element has a third projecting part for insertion into the slot of the switching element on the recess area of the terminal as a movable element.

According to a further preferred embodiment of this switch, two switch units, each of which has the terminal as a movable element, the switching element, the leaf spring and the movable switch plate, are arranged in a Switch housing is assembled and two switch units are engaged with the sliding element so that both switch units are operated at the same time.

According to the present invention, the terminal as a movable member has the shape of the L-shaped profile, and the movable switch plate, the leaf spring and the change-over element are arranged horizontally to the bottom of the switch housing. Therefore, the height of the switch can be reduced.

BRIEF DESCRIPTION OF THE DRAWINGS

Fig. 1 is an exploded perspective view of the structure of a first embodiment of the switch according to the present invention;

Fig. 2A is an exploded perspective view of the structure of relevant parts of the first embodiment;

Fig. 2B is a perspective view of the structure of the relevant parts in Fig. 2A;

Fig. 3A is a plan view in cross section in fragmentary form of the switch in the first embodiment;

Fig. 3B is a side view in cross section of a fragment of the switch in the first embodiment;

Fig. 4A, Fig. 4B, Fig. 4C are schematic diagrams illustrating the operation of the switch of the first embodiment;

Fig. 5A is an exploded perspective view of the structure of relevant parts of a second embodiment of the switch according to the present invention;

Fig. 5B is a perspective view of the structure of the relevant parts of the second embodiment;

Fig. 6 is a plan view in cross section of a fragment of the switch of the second embodiment in the ON state;

Fig. 7 is a plan view in cross section of a fragment of the switch of the second embodiment in the OFF state;

Fig. 8A is an exploded perspective view of the structure of relevant parts of a third embodiment of the switch according to the present invention;

Fig. 8B is a perspective view of the structure of the relevant parts of the third embodiment;

Fig. 9A is a view of a movable switch plate and a switching element in the third embodiment;

Fig. 9B is a view showing the structure of the movable switch plate and the switching element in the third embodiment;

Fig. 10 is a plan view in cross section of a fragment of the switch in the third embodiment;

Fig. 11 is a structural view of a movable switch plate and a switching element;

Fig. 12 is an exploded view of the structure of the switching element and a terminal as a movable member;

Fig. 13 is a view showing the structure of the movable switch plate, the switching element and the terminal as a movable element;

Fig. 14 is an exploded view of the structure of the movable switch plate and a leaf spring;

Fig. 15 is a view showing the structure of the movable switch plate and the leaf spring;

Fig. 16 is a view of the structure in which the movable switch plate is moved for mounting in the switch housing;

Fig. 17 is the side view in cross section of the prior art switch;

Fig. 18A, Fig. 18B and Fig. 18C are schematic diagrams illustrating the operation of the switch in the prior art.

DESCRIPTION OF THE PREFERRED EMBODIMENTS [First embodiment]

The switch of the first embodiment according to the present invention will be described with reference to Fig. 1, Fig. 2A,

Fig. 2B, Fig. 3A, Fig. 3B, Fig. 4A, Fig. 4B and Fig. 4C. In Fig. 1, two switch units 40 are assembled in a switch housing 11, and a switch with two circuits is shown. The switch unit 40 is defined by an assembled mechanism as shown in Fig. 2B, of which four elements are assembled as shown in Fig. 2A. The two switch units 40 are identical in configuration and operation. Therefore, in the following description, the description of one of the switch units is applicable to the other switch unit.

Referring to Fig. 1, the switch housing 11 made of an electrically insulating material such as synthetic resin has two elongated openings 11B and two elongated openings 11D in the bottom plate 11C. A wiring part 12A of a fixed terminal 12 having a fixed contact 12A at one end portion is inserted into the elongated opening 11B. The terminal part 12A projects outward through the elongated opening 11B of the bottom plate 11 and is connected to a conductive layer of a printed circuit board, for example, to mount the switch on the circuit board. A wiring part 13E formed on one end portion of a terminal as a movable member 13 in an L shape is inserted into the elongated opening 11. The wiring part 13E is also connected to a conductive layer of the circuit board similarly to the wiring part 12A. Detailed configurations of the movable member terminal 13 and other members to be mounted on the movable member terminal 13 are shown in Fig. 2A.

A first protruding part 11C and a second protruding part 13G which is shorter than the first protruding part 13C are provided on the other end portion of the L-shaped terminal as the movable member 13, and a recess portion 13D is formed between the first protruding part 13C and the second protruding part 13G. Two recesses serving as the first supporting recess 13A and a second supporting recess 13B, respectively, are provided on opposite positions on the recessed portion 13D.

A recess 15B formed at one end of a leaf spring 15 bent into a flat U-shape is engaged with the second supporting recess 13B. In addition, a recess 14A formed at one end of a switching member 14 is engaged with the first supporting recess 13A. The switching member 14 has a bifurcated or fork shape in which the end portion with the recess 14A is a joint, and the second projecting part 13G of the terminal as a movable member 13 is inserted into a slot 14C of the bifurcation.

The other end 15A of the leaf spring 15 is rotatably engaged with a recess 16A formed at one end portion of a slot 16D of a movable switch plate 16. Notches 14B formed at the end portions of the changeover element 14 are rotatably engaged with a cutout portion 16B formed at the other end portion of the slot 16D of the movable switch plate 16. Consequently, the movable switch plate 16 is arranged substantially parallel to the testicle plate 11C of the switch housing 11. A movable contact 20B is attached to one end portion 16E of the movable switch plate 16.

Referring to Fig. 1, Fig. 3A and Fig. 3B, the slide member 17 has a slot or groove 17A for engaging with the end portion 16C of the movable switch plate 16 and can be moved in the direction of arrow M in the switch housing 11. A frame 18 covers an opened portion of the switch housing 11 for holding the slide member 17 in the switch housing 11. A coil spring 19 is arranged in an inner space 17E of the slide member 17 in a compressed state, one end of the coil spring 19 is held by a spring base 11a of the switch housing 11 and the other end thereof is held by a spring base 17C of the slide member 17 in the inner space to bias the slide member 17 in the direction of arrow N.

As shown in Fig. 2B in the assembled state, the shifting of the position of the switching element 14 and the leaf spring 15 in the direction of the arrow P is prevented by engaging the recess 14A of the switching element 14 with the first supporting recess 13A of the terminal as a movable member 13 and inserting the first protruding part 13C of the terminal as a movable member 13 into a slot 15D of the leaf spring 15. The switch unit 40 is inserted into the openings 11D (Fig. 1) of the bottom plate 11C of the switch housing 11 and the switch is assembled.

The operation of the switch will be described below. Referring to Fig. 3A, when the slide member 17 is moved by pushing in the direction of an arrow M, the end portion 16C of the movable switch plate 16 engaged with the notch 17A of the slide member 17 is moved in the direction of an arrow M; and the movable contact 20B of the movable switch plate 16 contacts the fixed contact 20A of the fixed terminal 12 and the switch assumes the ON state.

The above-mentioned operation is described in more detail with reference to Fig. 4A, Fig. 4B and Fig. 4C. Fig. 4A, Fig. 4B and Fig. 4C schematically show the switching element 14, the leaf spring 15 and the movable switch plate 16 of the switch. An engagement point (A) represents the engagement area between the notches 14B of the switching element 14 and the cut-out area 16B of the movable switch plate 16. An engagement point (B) represents the engagement area between the other end 15A of the leaf spring 15 and the recess 16A of the movable switch plate 16. In addition, an engagement point (C) represents the engagement area between the recess 14A of the switching element 14 and the first supporting recess 13A of the terminal as the movable element 13. The engagement points (A) and (B) move during the operation of the switch, while the engagement point (C) does not move during the operation.

Fig. 4A shows the OFF state of the switch. When the slide member 17 is moved in the direction of arrow M, the movable switch plate 16 shown by a straight line between the engagement points (A) and (B) is moved in the direction of arrow M by being pressed at the end portion 16C by the slide member 17. The engagement point (A) is rotated clockwise about the engagement point (C). Therefore, the movable switch plate 16 is moved to compress the leaf spring 15.

Fig. 4B shows the state in which the movable switch plate 16 is on the engagement point (C). In this state, the leaf spring 15 is compressed as much as possible. The slide member 17 is further moved in the direction of the arrow M, and when the movable switch plate 16 passes the engagement point (C), as shown in Fig. 4C, the switching member 14 is rotated clockwise by an expanding force of the leaf spring 15. Consequently, the engagement point (A) is rapidly rotated clockwise, and the movable switch plate 16 is moved in the direction of arrow M, and the movable contact 20B contacts the fixed contact 20A of the fixed terminal 12. The slide member 17 returns to its original position by the expansion force of the coil spring 19 by releasing the slide member 17, and the switch assumes the OFF state by the reverse operation of the above-mentioned operation.

As shown in Fig. 1 and Fig. 3A, two movable switch plates 16 having the same configuration are operated simultaneously by the action of the slide member 17, and two switching circuits simultaneously assume the ON state or the OFF state.

In the above embodiment, the switch assumes the ON state when the slide member 17 is pressed in the direction of the arrow M; and when the slide member 17 is released, the switch assumes the OFF state. The switch may be configured to alternately assume the ON state or the OFF state each time the slide member 17 is pressed. state by combining a known locking mechanism (not shown). Furthermore, the switch maintains the ON state by pushing the slide member 17 and the OFF state by pulling the slide member 17 when the coil spring 19 is not attached.

In the present invention mentioned above, since a substantially L-shaped terminal as the movable member 13 is mounted in the switch case 11L and the movable switch plate 16, the leaf spring 15 and the change-over member 14 are arranged substantially parallel to the bottom plate 11C of the switch case 11, a thin type switch is realized in which a dimension or a space between the bottom plate 11C and the frame 18 is small. As shown in Fig. 1, Fig. 3A and Fig. 3B, the space between the bottom plate 11C and the frame 18 does not increase even if two or more switch units are mounted in the switch case 11. Therefore, the thin type switch with multiple switch units is realizable.

[Second embodiment]

The switch of the second embodiment of the present invention will be described with reference to Fig. 5A, Fig. 5B, Fig. 6 and Fig. 7. In the second embodiment, in the exploded perspective view of the structure of Fig. 5A, only a terminal as a movable member 23 and a leaf spring 25 are different from those of the first embodiment. The remaining elements are identical to the corresponding elements in the first embodiment. Elements that are the same as those in the first embodiment are designated by the same reference numerals and descriptions are omitted.

In the movable member terminal 23, a first protruding part 23C of the movable member terminal 23 is made shorter than the first protruding part 13C of the movable member terminal 13 shown in Fig. 2A, and other parts are made substantially the same as the movable member terminal 13. Furthermore, the leaf spring 25 has, in an elongated slot 25D formed from a portion adjacent to the recess 15B to the central portion of the leaf spring 25, a bent portion 25C at an end portion remote from the recess 15B side. The bent portion 25C is bent toward the inside of the U-shaped leaf spring 25. Fig. 5B is a diagram of the structure of the switch unit in the second embodiment. Referring to Fig. 5B, the first protruding portion 23C of the terminal as the movable member 23 is inserted into the slot 25D of the leaf spring 25.

The operation of the switch in the second embodiment is described with reference to Fig. 6 and Fig. 7. Fig. 6 is a plan view of the switch in the ON state. The slide member 17 is moved in the direction of arrow M, and the movable contact 20B of each movable switch plate 26 contacts the fixed contact 20A. In this state, the first projecting part 23C of the terminal as the movable member 23 is inserted into the slot 25D of the leaf spring 25.

Fig. 7 is a plan view of the switch in which the slide member 17 is moved in the direction of arrow N and the switch is in the OFF state. The movable switch plate 16 is moved by the movement of the slide member 17 in the direction of arrow N, and the movable contact 20B is separated from the fixed contact 20A. When the movable switch plate 16 is moved in the direction of arrow N, the leaf spring 25 rotates clockwise. The rotation of the leaf spring 25 is suspended when the bent part 25C contacts the first protruding part 23C of the terminal as the movable member 23, and the movement of the movable switch plate 16 is also suspended.

When the switch unit of the second embodiment in Fig. 5B is compared with the switch unit in the first embodiment, it can be seen that the first protruding part 13C in Fig. 2B is longer than the first protruding part 23C in Fig. 5B, and the first protruding part 13C protrudes from the leaf spring 15. In contrast, the first protruding part 13C ing part 23C in Fig. 5B is placed flush with the front of the leaf spring 25. In the second embodiment, since the bent part 25C of the leaf spring 25 projects inside the U-shaped leaf spring 25 and the first projecting part 23C contacts the bent part 25C, the first projecting part 23C does not have to be so long as to project from the slot 25D of the leaf spring 25. Since the first projecting part 23C is shorter than the first projecting part 13C, the amount of material for manufacturing the terminal as the movable member 23 is reduced, and the size of the switch is also reduced.

[Third embodiment]

The switch of the third embodiment of the present invention will be described with reference to Fig. 8A, Fig. 8B, Fig. 9A, Fig. 9B and Fig. 10. In the switch of the third embodiment, as shown in Fig. 8A and Fig. 8B, a movable member terminal 33 and a movable switch plate 26 are different from the movable member terminal 23 and the movable switch plate 16 in the second embodiment shown in Fig. 5A, respectively. Other elements in the switch of the third embodiment are identical to the corresponding elements in the switch of the second embodiment. Therefore, elements similar to those in the second embodiment are denoted by the same reference numerals and the description is omitted.

In Fig. 8A, the terminal as a movable member has the first protruding part 23C and the second protruding part 13G which is shorter than the first protruding part 23C. Furthermore, a third protruding part 33F which is shorter than the second protruding part 13G is provided between the first protruding part 23C and the second protruding part 13G.

Fig. 8B is a diagram of the structure of the switch unit of the third embodiment. Referring to Fig. 8B, the third protruding part 33F is inserted into the slot 14D of the switching element 14. The position, shape and dimension of the third The positions of the third projecting part 33F are selected so as to prevent interference between the movements of the third projecting part 33F and the switching element 14, the leaf spring 25 and the movable switch plate 26. Referring to Fig. 8A, the movable switch plate 26 has hook parts 26F at an end portion adjacent to the movable contact 20B in a slot 26D. The hook parts 26F are in the shape of a hook.

Fig. 9A is a plan view of the movable switch plate 26 and the changeover member 14 for engaging with the hook parts 26F of the movable switch plate 26 in the state before the changeover member 14 engages with the movable switch plate 26. In Fig. 9A, the changeover member 14 is moved in the direction of an arrow and urged against the hook parts 26F at the notches 14B of the changeover member 14. The changeover member 14 has a resilient compliance in the width direction due to its formation with the slit 14D. Therefore, the notches 14B pass the arrow-shaped hook parts 26F and engage with the hook parts 26F as shown in Fig. 9B. Since the hook parts 26F are in the shape of a hook, the changeover member 14 does not easily come off from the movable switch plate 26 after the notches are inserted into the hook parts 26F. Namely, the changeover member 14 is temporarily assembled with the movable switch plate 26. By the above configuration, as shown in Fig. 10, even if a strong impact is given to the switch in the direction of arrow F in the state where the switch unit of the third embodiment is mounted in the switch case 11, the movable switch plate 26 is not liable to come off from the changeover member 14. Furthermore, the third protruding part 33F is inserted into the slot 14D of the changeover member 14. When the impact is given in the direction of arrow F, the changeover member 14 is supported by the third protruding part 33F. Therefore, the switching element 14 does not move in the direction of arrow F, and the end portion 16C of the movable switches plate 26 does not come off from the notch 17A of the slide member 17. Deformation of the leaf spring 15 due to excessive compression is prevented. Consequently, a stable and optimum contact pressure is maintained, and the switch with high reliability and durability can be realized.

The assembly method of the switch in the third embodiment is shown in Fig. 11 to Fig. 16. As shown in Fig. 11, first, the notches 14B of the switching element 14 are inserted into the hook parts 26F of the movable switch plate 26, and the switching element 14 is temporarily engaged with the movable switch plate 26. Fig. 12 shows a state before assembly with the movable member terminal 33 of the switching element 14 temporarily engaged with the movable switch plate 26. As shown in Fig. 13, the recess 14A of the switching element 14 is engaged with the first supporting recess 13A. Further, as shown in Fig. 14, the recess 15B of the leaf spring 15 is engaged with the second supporting recess 13B of the terminal as a movable member 33. Finally, as shown in Fig. 15, the other end 15A of the leaf spring 15 is engaged with the recess 16A of the movable switch plate 26, and the assembling process is completed. As mentioned above, since the changeover element 14 and the movable switch plate 26 are temporarily connected to the terminal as a movable member 33 by the hook parts 26F of the movable switch plate 26 and the third protruding part 33F, the assembling work can be easily accomplished. Further, in Fig. 12 to Fig. 15, the assembling work is performed in the vertical direction. Therefore, the assembling process is simple and can be automated.

Incidentally, Fig. 16 shows the switch unit in the state in which the movable switch plate 26 is in the OFF state, and the switch unit is attached to the switch case 11 in this state.

As mentioned above, the terminal as a movable member in the switch according to the present invention has an L-shape, and the movable switch plate, the leaf spring and the change-over member are arranged substantially parallel to the bottom of the switch case. Therefore, the height of the switch from the attached circuit board to the frame cover can be reduced.

In the case of a switch having the leaf spring 25 with the bent part 25C, when the switch is switched to the OFF state, the bent part 25C contacts the first protruding part 23C of the terminal as a movable member 23; and the movement of the leaf spring 25 is suspended. Therefore, the length of the first protruding part can be reduced. Consequently, the material for manufacturing the terminal as a movable member 23 is reduced and the dimension of the switch is also reduced.

In the embodiment explained with reference to Fig. 9A and Fig. 9B, the notches 14B of the switching member 14 are engaged with the hook parts 26F formed on an end portion of the slot 26D of the movable switch plate 26 by utilizing the elasticity of the switching member 14 itself. In this embodiment, since the switching member 14 is temporarily engaged with the movable switch plate 26 in the assembling process, the falling off of the switching member 14 can be prevented, the assembling work is easily accomplished, and the steps of the assembling work can be reduced.

In the switch having the movable member terminal 33 with the third protruding part 33F, since the change-over element 14 is supported by the third protruding part 33F, in the event that a strong impact is given to the switch, the change-over element 14 is prevented from coming off the movable member terminal 33. Furthermore, the assembly work is easily accomplished and automatic assembly is possible.

Claims (8)

1. A switch comprising a fixed terminal (12) with a fixed contact (20A) at one end part and a terminal with a circuit (wiring) or connection part (12A) for connection to an external circuit at the other end part, a terminal (13) as a movable element for supporting a movable switch plate (16) with a movable contact (20B) for releasably contacting the fixed contact (20A), with a circuit or connection part (13E) for connection to an external circuit at one end part, a switch housing (11) for supporting the fixed terminal (12) and the terminal (13) as a movable element such that the fixed terminal (12) is electrically insulated from the terminal (13) as a movable element and the circuit or connection parts (12A, 13E) of the fixed terminal (12) and the terminal (13) as a movable part for connection to respective external circuits protrude from the same wall of the switch housing, and a sliding element (17) which is slidably engaged in the switch housing (11) with an end part (16C) of the movable switch plate (16), characterized in that the connector (13) as a movable member is made of an L-shaped member and has a first protruding part (13c) at the other end part of the L-shaped member and a recessed portion (13D) formed at the base portion of the first protruding part (13C), and which provides the following elements: a leaf spring (15) which is engaged at one end part (15B) thereof with a second supporting recess (13B) in the recessed portion (13D) formed on the terminal (13) as a movable member, and which supports the first projecting part (13C) of the terminal (13) as a movable member element in a slot (15D) formed in a central portion of the leaf spring, a switching element (14) having one end (14A) engaged with a first supporting recess (13A) formed at a position opposite to the second supporting recess (13B) in the recessed portion (13D) of the connector (13) as a movable member, and a movable switch plate (16) having the movable contact (20B) at one end part thereof and a slot (16D) in a middle portion, said switch plate being arranged substantially parallel to a surface (11D) of said switch housing (11) for supporting said fixed terminal (12) and said terminal (13) as a movable member such that said circuit or connection parts (12A, 13E) project outwardly so that they can be connected to external circuits, said switch plate (16) being rotatably engaged with the other end (15A) of said leaf spring (15) at an end part where said movable contact (20B) is not located, and said switch plate (16) being engaged with the other end (14B) of said switching element at an end part of said slot (16D) closer to said movable contact (20B) (14) is rotatably engaged. 2. A switch according to claim 1, wherein a bent or folded portion (25C) which is in contact with the first protruding portion (23C) when the movable contact is away from the fixed contact is formed at an end portion of a slot (25D) of the leaf spring (25). 3. A switch according to claim 1, wherein the movable switch plate (26) has hook parts (26F) at an end part of the slot (26D) near the movable contact (20B) and the end parts (14B) of the switching element (14) are engaged with the hook parts (26F). 4. Switch according to claim 1, in which the terminal (33) as a movable element has a third projecting part (33F) for insertion into the slot (14D) of the switching element (14) on the recessed portion of the connector (33) as a movable element. 5. A switch according to claim 1, in which two switch units, each of which has the fixed terminal (12), the terminal (33) as a movable element, the leaf spring (25) and the movable switch plate (26), are provided in a switch housing (11), and the two switch units are engaged with a sliding element (17) in such a way that their operation takes place simultaneously. 6. A switch according to claim 2, in which two switch units, each of which has the fixed terminal (12), the terminal (33) as a movable element, the leaf spring (25) and the movable switch plate (26), are provided in a switch housing (11), and the two switch units are engaged with a sliding element (17) in such a way that their operation takes place simultaneously. 7. A switch according to claim 3, in which two switch units, each of which has the fixed terminal (12), the terminal (33) as a movable element, the leaf spring (25) and the movable switch plate (26), are provided in a switch housing (11), and the two switch units are engaged with a sliding element (17) in such a way that they operate simultaneously. 8. A switch according to claim 4, in which two switch units, each of which has the fixed terminal (12), the terminal (33) as a movable element, the leaf spring (25) and the movable switch plate (26), are provided in a switch housing (11), and the two switch units are engaged with a sliding element (17) in such a way that they operate simultaneously.