JP2001503913A - Electric circuit operating mechanism - Google Patents

Abstract

(57) Abstract: A mechanism (10) for activating an electric circuit including a cover (124) having a front wall. The front wall of this cover (124) has a large surface and is mounted for movement by pins (126). This pin (126) passes through a hole (108) formed in the mount (90, 90 ') of the housing (12, 12'). The cover (124) is urged by a spring (130) provided on the pin (126). The tongue (projection) portion (136) of the cover (124) engages with the leg (118) of the first and second operating arms (112, 114) to pivot the arms (112, 114), respectively. Thus, the operating lever (100) also turns. The lever (100) has an operating finger (104), and depresses the toggle (38) of the switch (36) to stop the operation of the circuit (stop power supply). Therefore, when any part of the cover (124) is pushed in the direction of the mount (90, 90 '), the switch (36) is moved and the operation of the circuit is stopped. The switch lever (70) is pivotally mounted on the housing (12, 12 ') and is pivoted by a slidable actuator (42), which activates the switch (36) to activate the electrical circuit (power supply). ). The components of this mechanism (10) are easily assembled by clipping or inserting into the patch or by sandwiching with a minimum number of fasteners.

Description

DETAILED DESCRIPTION OF THE INVENTION Background of the Invention The present invention relates primarily to a safety device for a power tool, and in particular, when properly and properly mounted on a power tool stand, allows the operator to consciously press a relatively small size actuator to drive the tool. The motor can be started, and the drive motor can be stopped by pressing a relatively large surface on a part of the operator's body, especially on a part other than both hands, so that the operator can see from the workpiece and the cutting or polishing tool. Alternatively, the present invention relates to an electric circuit operating mechanism that does not require a release. U.S. Pat. Nos. 3,312,799, 4,166,202 and 4,389,550 each describe various forms of switch actuation mechanisms. These switch actuating mechanisms are panel members having a particular or other type of wide surface that are pivotally mounted proximate to the location of the operator and mechanically coupled to the on / off lever of a toggle switch. Contains. After activating the motor of the tool, the operator can stop the motor by pressing the wide panel member with a part other than the hand of the body, but this operation must keep an eye on the working surface of the tool used. Can also be done. Of course, in this way, the work piece or the operator's hand can be prevented from being inadvertently or accidentally moved into a position that is damaged by the tool, thereby increasing safety. However, in the above-mentioned U.S. Pat. Nos. 3,312,799, 4,166,202 and 4,389,550, the wide surface is hinged so that the wide surface member is Pressing along an edge parallel to and adjacent to the pivot axis, or pushing along an adjacent edge near the pivot axis, may cause the wide surface member to not pivot, causing the switch actuation or tooling. Motor may fail to stop. Other schemes are known, such as that shown in U.S. Pat. No. 3,233,071, which attaches the wide surface member in a manner that reduces the likelihood that the switch will fail to operate when the wide surface member is pressed. Even if such a configuration is used, the above-mentioned possibility cannot be completely eliminated. U.S. Pat. No. 5,510,587 teaches a wide panel that eliminates the disadvantages of the prior art by moving any point on the wide surface in the direction of operation so that the electrical circuit can be interrupted (supply cutoff). One form of a switch actuation mechanism having a member is described. In particular, the configuration of U.S. Pat. No. 5,510,587 utilizes a plurality of shut-off momentary switches (instantaneous switches) that operate as control relays. In this case, the cost of the control relay and the electrical circuit connected to the switch and the cost of the momentary switch itself increases the price of the electrical circuit actuation mechanism, which limits its commercial viability in industrial and similar commercial scale applications. Will be obvious. In addition, conventional operating mechanisms often require a large number of parts and are difficult to assemble, resulting in extremely high manufacturing costs, and are sold at a price appropriate for tools for which a safety mechanism is suitable. Was difficult. Thus, the present invention, in its preferred teachings, provides a general purpose type of electrical circuit actuation mechanism as described above, but with substantially fewer difficulties in terms of component count and cost and assembly into complex articles. Provide a designed electric circuit operating mechanism. This has been achieved while increasing the security intended by prior devices. Specifically, the invention, in its most preferred form, comprises a front wall movably mounted to a housing, wherein any portion of the front wall is movable in the direction of operation. An operating member that can be moved from the rest position to the cutoff position (power supply stop position) when any part of the wide surface moves in the operation direction from the normal position to the operation position. Prior art mechanisms and other uses in the field of electrical circuit operation by providing an operating member that is in operative relationship to shut off an electrical circuit that is not to be performed when the operating member moves from the rest position to the shut off position. Solve the problem you were facing with. In another aspect of the invention, the slidable actuator of the electrical circuit actuating mechanism extends non-parallel in the sliding or actuating direction and when the actuator is in a non-actuated position (pre-actuated position). An actuator opening is provided that is aligned with an opening (hole) formed in the housing and that receives the lock (engages with the lock) and prevents the actuator from moving out of the inoperative position. The actuator is free to move upon removal of the lock from the actuator and housing opening. According to still another aspect of the present invention, a housing of the electric circuit operating mechanism has a mounting portion (mount) having a lower end detachably and slidably connected to an end wall of the groove, and a lower end having a lower end of the mounting portion. And a lid that is removably and slidably interconnected. At this time, the front wall is detachably mounted on the mounting portion and is slidably received in the collar of the lid, and the groove, the mounting portion, and the lid are separated from the lower end thereof and the end wall of the groove. Are fixed together. Accordingly, a first object of the present invention is to provide a new and improved safety device used in connection with a power tool or the like driven by an electric motor. Another object of the present invention is an electrical circuit actuation mechanism for use with a power tool, wherein the power is applied when a relatively small surface of the actuator is pressed and the power is shut off when a force is applied to a wide surface. Is to provide. Still another object of the present invention is to have a wide surface movably attached to a housing connected to a desired position of a stand of a power tool so that an operator can use a body other than hands, such as knees, thighs, and buttocks. It is an object of the present invention to provide an improved safety device for controlling a power tool, wherein the power of the power tool can be turned off by operation using the part. It is yet another object of the present invention to consist of components that snap and / or slide in place and are secured together by a minimum number of screw bolts, screws or similar type and shaped fasteners. To provide an electric circuit operating mechanism. Yet another object of the present invention is to provide an electric circuit actuation that can be locked in an inoperative position by sliding a padlock clasp through an aligned opening formed in a slidable actuator and housing. It is to provide a mechanism. These and other objects and advantages of the present invention will become more apparent from the following detailed description of embodiments of the present invention, which proceeds with reference to the accompanying drawings. BRIEF DESCRIPTION OF THE FIGURES The following embodiments can be best described with reference to the following accompanying drawings. FIG. 1 is a perspective view of an electrical circuit actuation mechanism in accordance with the preferred teachings of the present invention. FIG. 2 is a cross-sectional view of the electric circuit operating mechanism of FIG. 1 taken along a line 2-2 in FIG. 1. FIG. FIG. 3 is a cross-sectional view of the electric circuit operating mechanism of FIG. 1 taken along a line 3-3 in FIG. FIG. FIG. 4 is a partial cross-sectional view of the electric circuit operating mechanism of FIG. 1 taken along a line 4-4 in FIG. FIG. 5 is a partial perspective view of the electric circuit operating mechanism of FIG. 1 in which a part is indicated by a dotted line so that structural features are easily understood. FIG. 6 is a perspective view of another embodiment of an electric circuit operating mechanism according to the preferred teachings of the present invention. FIG. 7 is an exploded perspective view of the electric circuit operating mechanism of FIG. These figures are only intended to help explain the basic teachings of the present invention. Therefore, in configuring the preferred embodiment, it is possible to expand and interpret the accompanying drawings in terms of the number, position, relationship, and dimensions of each part, and read and understand the following description of embodiments of the present invention. It will be obvious to those skilled in the art. Furthermore, exact dimensions and dimensional ratios that meet the specific forces, weights, strengths, and similar requirements set forth in the following embodiments, will also be apparent to those of ordinary skill in the art having read and understood the following description of embodiments of the invention. It would be obvious. The same reference numbers, whether used in different figures, shall refer to the same or similar parts. In the specification of the present application, “top (upper)”, “bottom (lower)”, “first”, “second”, “inside”, “outside”, “front”, “rear”, "Outer", "inner", "upper", "lower", "height", "width", "length", "edge", "side", "horizontal" , "Vertical", "backward", and similar terms, simply describe how the structure shown in the drawing appears to the person viewing the drawing. The terms are used only to facilitate description of the preferred embodiment. Embodiment An electric circuit operating mechanism according to the preferred teachings of the present invention, In the drawings, reference numeral 10 is generally used. The electric circuit operating mechanism 10 mainly has a housing 12. In a preferred form, The housing 12 is A flat bottom 16; It has a groove 14 having first and second flat sides 18 extending substantially perpendicularly from opposite side edges of the bottom 16. The housing 12 further comprises It has first and second extensions 20 that extend outward from the sides 18. Extension 20 It terminates in first and second flat sidewalls 22 extending substantially parallel to side 18. The upper end wall 24 Bottom 16, Side 18, It extends substantially vertically between the extension 20 and the side wall 22. The lower end wall 26 The groove 14 extends substantially vertically between the extension 20 and the side wall 22 with the lower end of the groove 14 open. The housing 12 further comprises A first plate 30, It has an L-shaped partition (separation) plate 28 having a second plate 32 extending substantially perpendicular to the first plate 30. Plate 30 is Having a width to be slidably received between the side portions 18, It is at about the same height on the side 18. The plate 32 A width sized to abut the top (upper) edge of the side 18; And a length extending from the plate 30 to an upper end wall 24 parallel to the bottom 16 of the groove 14. Forming a suitable sliding member 34 on the side 18 and the bottom 16; The plate 30 can be slidably received. A toggle 38 extending from the plate 30 in the same direction as the plate 32; A toggle switch 36 having a main body 40 located on the side of the plate 30 opposite to the plate 32 is mounted on the plate 30. Toggle 38 Movable between an on position and an off position, The electrical circuit is maintained with the switch 36 in the on position, The electric circuit is interrupted in the off position. The electric circuit operating mechanism 10 further includes: A flat front 44, It has a substantially U-shaped actuator 42 having first and second legs 46 extending from the rear surface of the front portion 44 to a space in a parallel relationship. The actuator 42 is With the legs 46 etc. It is slidably mounted on the plate 32. This leg, It extends through a first parallel slot 48 extending from the free end of the plate 32 towards the plate 30. In a preferred form, A parallel second slot 50 parallel to the slot 48 and interposed between these grooves, The free end of the plate 32 extends toward the plate 30. Ears 52 extending in the direction opposite the slots 50 adjacent the free ends of the plate 32, It extends into each slot 48. The ears 52 Abuts the top edge of the slot formed in the upper edge of leg 46. in this case, The material of plate 32 between slots 48 and 50 is: Flexible enough to insert the legs 46 through the ears 52 and into the slots 48; It will be appreciated that the ear 52 may be such that after insertion, the ear 52 is captured by the leg 46 in the slot 48. In a direction adjacent to the free end of the plate 32 and facing the plate 30; A U-shaped actuator guide 54 extends integrally from plate 32. Guide 54 The size and shape are such that the front part 44 of the actuator 42 can be slidably received. In the direction facing the guide 54 and on the side facing the slot 48, First and second parallel ears 56 extend integrally from plate 32. A U-shaped bracket 58 is pivotally attached to the ear 56. The bracket 58 is A locking or interfering position extending from the ear 56 substantially parallel to the sliding movement of the actuator 42; Pivotable between an unlocked or non-interfering position. The bracket 58 is It has an L-shaped cam leg 60 integrally extending from the bracket. A commercially available lock 62 is attached to one of the sides 18. This lock is Extending at an angle that is non-parallel to the axis of rotation of the lock 62, It has a latch 64 provided between the cam leg 60 and the bracket 58. For this reason, When the lock 62 rotates, Latch 64 causes bracket 58 to rotate between a locked position and an unlocked position. In the locking position best shown in FIG. The free end of the leg 46 of the actuator 42 in the outer, inactive position terminates in the groove 14, The actuator 42 is in contact with the bracket 58 to prevent the actuator 42 from sliding inward from the non-operation position (pre-operation position). In the unlocked position, The actuator 42 and the actuator 42 In a state where the plate 32 can slide freely to the operating position (post-operating position), Bracket 58 is in a non-interfering position. To make it easier to assemble, A claw is formed on the other of the ear 56 or the bracket 58 so as to be slidably received in the notch formed on one of the ear 56 or the bracket 58, The bracket 58 may be held in the locking position when the electric circuit operating mechanism 10 is assembled. In the direction facing the guide 54 and between the ear 56 and the plate 30, Third and fourth elongated parallel ears 68 extend integrally from plate 32. A switch lever 70 is pivotably mounted between the upper and lower ends of the ears 68. The switch lever 70 performs a pivotal movement by the sliding movement of the actuator 42, The switch lever 70 is appropriately connected to the actuator 42. In a preferred form, In order to accommodate the upper end of the switch lever 70 slidably and pivotally, A slot 72 is formed in the lower edge of the leg 46 of the actuator 42. The pivotal movement of the switch lever 70 causes the switch 36 to move between an active position and a non-active position, The lower end of switch lever 70 is suitably connected to switch 36 or a similar electrical control. The lever 70 is in an appropriate operating relationship with the switch 36, In a preferred form, To accommodate the free end of the toggle 38 of the switch 36 in a slidable and pivotable manner, A fork 74 is formed at the lower end of the switch lever 70. When the actuator 42 is in the outer inactive position as shown in FIGS. 3 and 5, Switch lever 70 holds toggle 38 of switch 36 in the inactive position. The plate 32 Formed between the guide 54 and the plate 30; An opening (hole) 76 substantially aligned with the switch lever 70 is provided. The housing 12 further comprises Having a width slidably received between the side portions 18, It has a flat partition plate 78 at approximately the same height as the side 18. Forming a suitable sliding member 80 on the side 18 and the bottom 16; The partition plate 78 can be slidably accommodated. The partition plate 78 is provided with a female outlet 82. Also, An electrical cable 84 having suitable strain relief extends through the divider 78. In the groove 14 between the plate 30 and the partition plate 78, A switch 36; Outlet 82, The electric cable 84 is appropriately electrically connected. Provide an appropriate dust cover 86, The top opening of the groove 14 between the plate 30 and the partition plate 78 is closed. An appropriate cord clamp 88 is provided on the side of the partition plate 78 facing the partition plate 28 in the groove 14. In particular, Having a male plug for connection to an outlet 82, An electric cable as shown by a dotted line in FIG. Removably fixed by clamp 88, The electric circuit operating mechanism 10 is prevented from coming off in an unintended state. The electric circuit operating mechanism 10 further has a substantially U-shaped mounting portion (mount) 90. This mounting part A substantially flat top plate 92; It includes first and second side plates 94 that extend substantially perpendicularly from opposing side edges of the plate 92. The width of the plate 92 is approximately equal to the top edge of the side 18, The width that can abut this top edge, The length is a length extending from the lower end wall 26 to the plate 30. The side plate 94 It is slidably received on the outer surface of the side part 18, It has a lower edge that contacts the upper surface of the extension 20. An ear 96 is integrally formed on the side plate 94. Extending through a suitable opening formed in extension 20; By applying appropriate means such as bolts fixed to the ears 96, The ear 96 is detachably fixed to the extension 20. At this time, The nut is threadedly engaged with the bolt, The extension 20 is in contact with the side opposite to the ear 96. To facilitate assembly, The partition plates 28 and 78 and the cover 86 The fixing means of the mounting portion 90 contacts the partition plates 28 and 78 and the cover 86, In a state where they do not disassemble when they are sandwiched between the mounting portion 90 and the bottom portion 16 of the groove 14, Note that it snaps or slides in place without the use of other securing means. Facing the side 18, First and second parallel ears 98 between the plate 30 and the partition 78 extend from the upper surface of the mounting portion 90. An operating lever 100 is movably attached to the housing 12. In particular, This operating lever is Pivot between the ears 98 between its upper and lower ends, It is mounted so that it can be moved between a normal position or a rest position and an operating position or a shut-off position. Lever 100 is It is urged from the operating position to the normal position by a spring 102 or the like located between the lever 100 and the mounting portion 90 and between the upper end of the lever 100 and the ear 98. From the adjacent upper end of the lever 100 through the opening 76, An operating finger 104 extends integrally with the fork 74 to engage the toggle 38 and / or the switch lever 70. Fingers 104 Switch 36 is in the actuated position, When the lever 100 is at the normal position, the lever 100 engages with the lever 70. in this way, Fingers 104 Operatively associated with lever 100 and switch 36, When the lever 100 moves from the normal position to the operating position, the electric circuit is shut off. Each of the side plates 94 and the ears 96 integrally fixed thereto has: Upper and lower spaced projections 106 are integrally fixed. In the most preferred form, The protrusion 106 is In the form of a hollow rectangular parallelogram with an open bottom. Each protrusion 106 It has an opening 108 and a pivot ear member 110. The electric circuit operating mechanism 10 further includes: It has upper and lower actuation arms 112 and 114 mounted on the ear member 110 for pivotal movement about an axis parallel to, but spaced from, the axis of the actuation lever 100. . The working arms 112 and 114 are substantially U-shaped, Each having an elongated central portion 116 extending parallel to the pivot axis of the arms 112 and 114; It also has first and second legs 118 extending vertically from the central portion 116. The upper actuator arm 112 When the lever 100 is in the normal position, it comes into contact with its upper end, It has a tab 120 that abuts a leg 118 that extends from a central portion 116 at an angle generally parallel or slightly upward with the top plate 92. One or both of the legs 118 of the arm 112 are pressed to pivot the actuator arm 112, When the free end of the leg 118 moves toward the extension 20, The upper end of the lever 100 is pushed toward the plate 32 by the tab 120, It can be seen that the lever 100 moves from the normal position to the operating position. Similarly, The lower actuator arm 114 is When the lever 100 is in the normal position, it contacts the lower end thereof, It has a tab 122 that abuts a leg 118 that extends from a central portion 116 at an angle generally parallel or slightly upward with the top plate 92. One or both of the legs 118 of the arm 114 are pressed to pivot the actuator arm 114, When the free end of the leg 118 moves toward the extension 20, The lower end of the lever 100 is pressed away from the plate 92 by the tab 122, The lever 100 moves from the normal position to the operating position. In the most preferred form, Reduce manufacturing costs, Depending on which tabs 120 and 122 are actually provided and which of upper arm 112 and lower arm 114 is used, Just use one of the two tabs, Arms 112 and 114 have the same configuration. The electric circuit operating mechanism 10 according to the teachings of the present invention further comprises: Movable with respect to the housing 12, A cover 124 having a front wall having a wide surface is provided. Four pins 126 extend integrally from the rear surface of the cover 124 at a position so as to be slidably received in the opening 108 of the protrusion 106. In the most preferred form, Pin 126 has a head 128 formed at the free end of pin shaft 130. This pin shaft 130 is The size of the cross section is equal to the opening 108, It is slidably received in the opening 108. on the other hand, The head 128 has a cross section larger than the opening 108. The heads 128 each It has a plurality of slots 132 extending axially and spaced circumferentially. With this slot, The head 128 is compressed enough to pass through the opening 108, After insertion, it does not come off in an undesirable state. The cover 124 In a preferred form, Positioned around pin 126, With a coil spring 134 located between the rear surface of the cover 124 and the front surface of the protrusion 106, It is urged away from the mounting portion 90. The pin 126 and the spring 134 They are arranged in a non-straight line. Four tongue members 136 are Corresponding to the legs 118 spaced from the central portion 116, At the position where it abuts, It extends integrally from the rear surface of the cover 124. in this way, The working arms 112 and 114 In operative relationship with the lever 100 and the cover 124, If any portion of the large surface of the cover 124 moves in the working direction from the normal position to the working position, The lever 100 is moved from the rest position toward the blocking position. In the most preferred form, The cover 124 It has a notch 138 extending from its upper end and extending around the guide 54 of the housing 12. In a most preferred form of the invention, The rear surface of the cover 124 has a network of ribs 140. The ribs 140 increase the strength of the cover 124, It will be appreciated that the cover can be formed with reduced material thickness. The electric circuit operating mechanism 10 is usually In the most preferred form when made of plastic, The housing 12 is preferably made of sheet metal or plastic, similar to a conventional electrical switch box. that's all, Having described the details of the configuration of the electrical circuit actuation mechanism in accordance with the preferred teachings of the present invention, Next, the operation modes and advantages will be discussed. As mentioned above, The present invention It includes a safety device in the form of an electrical circuit actuation mechanism that facilitates controlling the electrical circuit for elements commonly used in power tools such as drive motors. For example, The present invention Lifting board, Drilling machine, latch, Thunder, It can be used with a variety of power tools, including grooving leaf tools / planers. The electric circuit operating mechanism 10 includes: Close to where the operator normally works, It is mounted in a convenient location where power can be supplied to housing 12 via electrical cable 84. Electric cables used for power tools, etc. Plugged into an outlet 82, It is fixed by the clamp 88. Housing 12, Specifically, the groove 14, Since the structures of the partition plates 28 and 78 and the dust cover 86 are firm, The interior defined by the housing 12 In the most preferred form, Switch 36, Outlet 82, Enclosing the electrical components between them and the electrical connection between them and the cord 84; Protects components from an environment such as, but not limited to, sawdust that is entrained in the air. To start the motor, First, the operator The key for the lock 62 must be turned to unlock the electrical circuit actuation mechanism 10. with this, The operator presses the flat front portion 44 of the actuator 42 to move the switch 36 from the off position to the on position, A closed circuit can be maintained between the power supply and the motor to be controlled. It can be seen that the switch 36 does not operate when the cover 124 moves. The switch 36 allows the machine to operate while the electrical circuit remains conductive. If the operator wants to stop the motor again, Part of the body (thigh, A part other than the hand, such as the knee or buttocks, is desirable, May be hand) Applying force to the wide front surface of the cover 124, This resists the force of one or more coil springs 134, The cover 124 is pressed against one or more of the legs 118 of the arms 112 and / or 114. When the cover 124 is pressed against the leg 118, One or both of arms 112 and 114 can be pivotally moved such that switch 36 moves from the on position to the off position. When the switch is in the off position, The electrical connection to the motor is interrupted, The motor and the power supply are shut off. When the cover 124 is solved, The coil spring 134 returns to the normal position, On the other hand, the spring 102 related to the lever 100 The levers and arms 112 and 114 also return to the shut off position. The interruption of the electric circuit It will be appreciated that this can be achieved by pressing cover 124 in various ways. In particular, In a preferred form, When one or more pins 126 are slid with respect to the mounting portion 90 through the opening 108 against the urging force of the spring 134, A cover 124 is movably mounted on the housing 12, With the front wall urged from the operating position to the normal position by the spring 134, Any portion of the wide surface of the cover 124 can be moved in the working direction from the normal position to the working position. In particular, U.S. Patent No. 4, 389, In the same manner as described in No. 550, Push the cover 124 to move the cover 124 adjacent to the upper end wall 24 toward the housing 12, It will be appreciated that the cover 124 can be pivoted about an axis parallel to and adjacent to the lower end wall 26. The portion adjacent to the side wall 22 of the cover 124 is It will be appreciated that the movement is non-parallel to the side wall 22. By moving the cover 124 in this way, Arm 112 pivots, Since the upper end of the lever 100 is pressed toward the housing 12 by this, The electric circuit is interrupted. However, U.S. Patent No. 4, 389, Unlike 550, Press the cover 124, Move the cover 124 adjacent to the lower end wall 26 toward the housing 12, The cover 124 can be pivotally moved about an axis parallel to and adjacent to the upper end wall 24. The portion adjacent to the side wall 22 of the cover 124 is It can be seen that it moves non-parallel to the side wall 22. By moving the cover 124 in this way, Arm 114 pivots, As a result, the lower end of the lever 100 is pressed in a direction away from the housing 12, so that The electric circuit is interrupted. further, U.S. Patent No. 4, 389, Unlike 550, Press the cover 124, Moving the cover 124 adjacent one of the first and second side walls 22 toward the housing 12; The cover 124 can be pivotally moved about an axis parallel to and adjacent to the other of the first and second side walls 22. The portion of the cover 124 adjacent to the end walls 24 and 26 It will be appreciated that it moves non-parallel to the end walls 24 and 26. By moving the cover 124 in this way, Arms 112 and 114 pivot simultaneously, This causes the lever 100 to pivot, Since the upper end moves toward the housing 12 and the lower end moves in a direction away from the housing 12, The electric circuit is interrupted. further, U.S. Patent No. 4, 389, Unlike 550, By pushing the cover 124 towards the housing 12 adjacent to the upper right corner, The cover 124 can be pivotally moved about an axis extending between the left side wall 22 and the end wall 26. The rest of the cover 124 It will be appreciated that it moves non-parallel to the rest of the housing 12. By moving the cover 124 in this way, The left leg 118 of the arm 112 is engaged, Since the upper end of the lever 100 is pivotally moved in the direction of the housing 12, The electric circuit is interrupted. Similarly, Press the cover 124 adjacent to the other corner, The switch 36 can be moved from the on position to the off position. Thighs, When placing a body part other than the hand such as a knee or hip on the cover 124, It can be understood that the accuracy of the operation is lower than when using the hand. When the cover 124 is not visible to the operator, This is especially true in emergency situations where quick action is required. Therefore, The electric circuit operating mechanism 10 includes: U.S. Patent No. 3, 312 No. 799, 4th 166 No. 202 and 4, 389, For an electrical circuit actuation mechanism having an actuation surface pivotally mounted via a hinged attachment device as described in U.S. Pat. Substantial improvements have been made in the ability to quickly and reliably interrupt an electrical circuit. further, U.S. Patent No. 3, 233, Substantial improvements have also been made to an electrical circuit actuation mechanism having an actuation surface that is not mounted using a hinged mounting device as described in U.S. Pat. In particular, Such an electric circuit operating mechanism has not been able to reliably operate the switch. For example, In some situations, Before the switch is actuated, the surface can become caught on other parts of the electrical circuit actuation mechanism. Also, Especially when pressed in the corner, The surface needs to travel a considerable distance before the switch is activated. Similarly, In such a situation, Especially when a general start / stop type switch is used, Requires considerable power. Therefore, In the electric circuit operating mechanism 10 according to the teachings of the present invention, For example, U.S. Pat. 233, No. 071 employs a new and unique design direction from the conventional electric circuit operating mechanism. In particular, In order to minimize the distance that the cover 124 moves to activate the switch 36 and the magnitude of the force pressing the cover 124, Lever 100 and arms 112 and 114 are utilized. However, More importantly, By using the lever 100 and the arms 112 and 114, Practical shapes can be created using only one start / stop switch 36. Therefore, I can understand. With lever 100 and arms 112 and 114 according to the teachings of the present invention, In particular, In the most preferable mode, when the movement occurs at the corner of the electric circuit operating mechanism 10 having a substantially right-angled parallelogram, The switch 36 can be operated by variously moving the cover 124. in this way, The electric circuit operating mechanism 10 according to the teachings of the present invention includes: Even if the cover 124 is pressed, the switch 36 does not operate, Effectively eliminating the possibility that the electrical circuit will not be interrupted, U.S. Patent No. 3, 233, No. 071, The third 31 2, 799, 4th 166 No. 202 and 4, 389, No. 550, including but not limited to Overcoming the shortcomings and limitations of conventional electrical circuit actuation mechanisms. To lock the electric circuit operating mechanism 10 and prevent the power tool from being used carelessly, The operator turns the key for the lock 62, The key may be removed after the actuator 42 does not slide. Make the front 44 relatively small, By placing the front part 44 behind the front of the cover 124, The possibility of inadvertently operating switch 36 is virtually eliminated. of course, If the switch 124 moves from the off position or the electric circuit does not conduct even when the cover 124 moves, It will be appreciated that actuator 42 may be provided within housing 12. After the switch 36 is activated and the machine is started, Since the machine can be stopped by applying a force to any one place of the cover 124, The operator need not look for the off switch. Wall 22, A cover 124 formed by walls defining a sleeve fitted inside 24 and 26 It appears to be advantageous in making decomposition more difficult. In particular, U.S. Patent No. 3, 233, If the cover 124 is fitted to the outside of the housing 12 as described in No. 071, The rear edge of the cover can be easily flexed outward to remove the cover from the housing. Such deflection is Some foreign matter accidentally enters the rear edge, Or even if the person trying to destroy simply grasps with a finger, This can be a major problem in a school or similar environment. In the configuration of the electric circuit operating mechanism 10 according to the preferred teachings of the present invention, To disassemble, remove the fixed mounting part 90 from the extension part 20, It must reach the head 128, This is extremely time consuming, It is very difficult to implement especially when the electric circuit operating mechanism 10 is installed in a work place. Having a housing 12 '; A different form of electrical circuit actuation mechanism 10 in accordance with the preferred teachings of the present invention is shown in FIGS. The housing 12 ' Bottom 16; Side 18; Extending substantially perpendicular to the side portion 18 and integrally formed, It has a groove 14 with end walls 24 'and 26' flush with the sides 18. On the end wall 26 ' A strain relief for the outlet 82 and the cable 84 is provided. The end wall 26 'further Formed adjacent to its top edge, It has first and second slots 150 spaced apart from each other. A column 1 52 is formed in the groove 14 on the side portion 18. This support, Adjacent to and parallel to the end wall 24 ', It is spaced from the end wall 26 'and lower than the side 18. The partition plate 28 It is sized to be slidably received in the groove 14, When the plate 30 is accommodated in the sliding member 34, the plate 32 extends substantially parallel to the bottom 16; The height of the plate 30 is approximately equal to the height of the column 152. The plate 32 It has an opening 154 that is substantially aligned with the post 152. The electric circuit operating mechanism 10 further includes: Approximately equal in size to the top edge of side 18 of groove 14 and walls 24 'and 26' It has a mount 90 'with a substantially flat top plate 92' abutting these top edges. Housed in the slot 150 of the groove 14, In order to detachably and slidably attach the mounting portion 90 ′ to the groove portion 14, Integrally with the lower surface of the top plate 92 ', An ear member 156 is formed. The plate 92 'further comprises Although it is almost aligned with the support 152, The opening has an opening 158 that is substantially larger than the opening 154. Integrated with the top surface of top plate 92 ', An ear member 160 is formed substantially opposite to the ear member 156. Integrated with the top surface of top plate 92 ', An ear member 162 is formed adjacent to, but spaced from, the end wall 26 '. Adjacent to the partition plate 28 but separated from it, A slot 164 extends through the top plate 92 '. The mounting portion 90 'is mainly Formed separately from the top plate 92 ', A frame 166 having a protrusion 106 with an opening 108 for slidably receiving a shaft 130 of the cover 124; Pivot ears 110 for actuator arms 112 and 114; It has a pivot ear 98 for an actuator lever 100 of the type described in the electrical circuit actuation mechanism 10 of FIGS. On the lower edge of the frame 166, A flange 168 slidably received within the ear member 162 is included. On the upper edge of the frame 166, A hook 170 is included to allow the flange 168 to be snap-fit into the slot 164 when inserted into the ear member 162. in this way, The frame 166 is Ear member 162, Flange 168, Slide the slot 164 and the hook 170 to lock each other, In particular, Screw bolts, screw, Or without using other types of fixtures, Removably interconnected to plate 92 ', Or it is fixed. In the most preferred form, Actuator lever 100, Actuator arms 112 and 114, Springs 102 and 134, The cover 124 They are assembled to the frame 166 before they are secured to the top plate 92 'and before the mountings 90' are positioned in the grooves 14. By doing this, Move the hook 170 from under the lower surface of the plate 92 'through the slot 164, By removing the mounting portion 90 ′ from the top plate 92 ′ and reaching the head 128, It will be appreciated that the mounting portion 90 'can be removed from the plate 92'. The housing 12 'further comprises Facing end wall 26 'and side wall 18, It is large enough to slidably accommodate the cover 124, The cover 124 is attached to the wall 22 of FIGS. The cover 124 can be laid inside in the same manner as when laid on 24 and 26, It has a lid or cover 172 with an annular collar 174 for abutment with the plate 92 '. On the lower edge of the collar 174, The ear member 160 of the mounting portion 90 'is slidably housed, A slot 176 is included for removably and slidably interconnecting the cover 172 to the mounting portion 90 '. From the upper edge of collar 174, A U-shaped plate 178 extends for abutting the plate 92 'of the mounting portion 90'. The U-shaped actuator guide 54 ' Extending integrally from the plate 178 adjacent its top in a direction parallel to the lid or actuation direction of the actuator 42; It extends integrally from the collar 174. The size and shape of the guide 54 ′ The size and shape are such that the front part 44 of the actuator 42 can be slidably received. In the most preferred form, The first and second portions of the guide 54 ′ on opposite sides of the actuator 42 include: Providing an opening 180 aligned with an opening 182 formed in the leg 46 of the actuator 42 when in the off position; Openings 180 and 182 A state non-parallel to the operating direction or sliding direction of the actuator 42, Preferably, it is in a vertically extended state. Therefore, Insert the elongated clasp of a conventional padlock 184 through openings 180 and 182, The actuator 42 can be prevented from sliding from the off position and the position with respect to the guide 54 'of the housing 12'. Plate 178 contains It is almost aligned with the support 152, A socket 186 slidably accommodated in the opening 158 but larger than the opening 154 is provided so as to abut the plate 32. Socket 186, Openings 158 and 154 have Screw bolt 188 penetrates, Mounting part 90 ', At a position separated from the lower end of the cover 172 and the groove 14 and the end wall 26 ′, Groove 14, The mounting portion 90 ′ and the cover 172 are screwed into the support column 152 so that they can be fixed together. The head of the screw bolt 188 is It is located approximately equal to or slightly behind the outer surface of plate 178 in socket 186. Therefore, Please be careful. Cover 172 sandwiches plate 92 'between the top edge of groove 14; A plate 92 'sandwiches the partition plate in the groove 14, Note that socket 186 sandwiches plate 32 between struts 152. In the most preferred form, The cover 172 is Extending integrally from its outer periphery, And extending beyond the top of the outer circumference of the plate 92 'and the outer circumference of the groove 14; It has an integral skirt 190. 6 and 7 according to the teachings of the present invention, It is substantially the same as that described for the electric circuit operating mechanism 10 of FIGS. However, With the clasp of padlock 184 extending through openings 180 and 182, Preventing the actuator 42 in the off position from sliding to the on position, This prevents the leg 46 from moving relative to the guide 54 '. To start the motor, First, the operator The clasp of padlock 184 must be released from openings 180 and 182. After removing the padlock 184, The operator presses the flat front 44 of the actuator 42, Move the switch 36 from the off position to the on position, A closed circuit can be maintained between the power supply and the motor to be controlled. Thus, even if the cover 124 moves, the switch 36 does not operate, It can be seen that the circuit also does not conduct. Snap or slide various components into place, Since it can be fixed together using only two screw bolts 188, It should be understood that housing 12 'according to the preferred teachings of the present invention is particularly advantageous. In particular, Actuator lever 100, Actuator arms 112 and 114, Position spring 102 in place on frame 166, If the spring 134 is positioned at the proper position of the pin 126 of the cover 124, Snap-engaging the head 128 through the opening 108; Cover 124, Lever 100, Arms 112 and 114, Springs 102 and 134 can be retained on frame 166. at this point, Slide the flange 168 into the ear member 162, Snap hook 170 into slot 164, The frame 166 and all components retained therein can be secured to the plate 92 '. at this point, The partition plate 28 and all components retained therein are positioned in the groove 14 and Insert the ear member 156 into the slot 150, Pivotally move the plate 92 'about an axis defined by this, It can abut the top edge of the groove 14. at this point, Insert slot 176 into ear member 160, By pivoting the cover 172 about the axis defined by this, It can be brought into contact with the plate 92 'of the mounting portion 90'. at this point, A screw bolt 188 extending through socket 186 and openings 158 and 154; It can be screwed to the support 152. by this, Pivotal movement of the cover 172 about the axis defined by the ear member 160 and the slot 176 is prevented, Separation of components of the electrical circuit actuation mechanism 10 is prevented. According to the teachings of the present invention, It will be appreciated that the frame 166 may be secured to the plate 92 'of the mounting portion 90' in other ways. As an example, Slide flat and parallel on plate 92 'to plate 92', Put in the U-shaped ear member, By holding it in place with claws or hook members, The frame 166 can be detachably fixed to the plate 92 '. After sliding the frame 166 in place, Actuator lever 100, Actuator arms 112 and 114, The spring 102 can be positioned on the frame 166. In this state, The cover 124 with the spring 134 can be snapped into position on the frame 166. After assembling in this way, It does not easily reach the head 128, It will be appreciated that it is difficult, if not impossible, to disassemble without breaking. that's all, Having described the basic teaching content of the present invention, It will be apparent to those skilled in the art that many extensions and various modifications are possible. For example, In the most preferred embodiment, one switch 36 is used to conduct and cut off the electric circuit. The electrical circuit may be turned on and off separately. in this case, A second switch 142 shown by a dotted line in FIGS. 3 and 5 may be provided to cut off the electric circuit. in this case, The switch 142 may be actuated by a protrusion 144 formed on the surface of the switch lever 70 and / or secured to the actuation finger 104 in the manner shown. Similarly, Although the switch 142 is shown in a preferred form of momentary type, Switches 36 and / or 142 may be of the momentary type. Similarly, The outlet 82 and the cable 84 In a preferred form, it is shown mounted on the partition plate 78 or end wall 26 ', Knockouts are provided on the partition plate 78 and the end wall 26 'according to the teachings of the present invention, The switch 142 and / or 36 or another electric control device provided in the electric circuit operating mechanism 10 may be wound directly between the power supply and the power tool to be controlled through the electric system. further, In a preferred form, Slides through the opening 108, The cover 124 is movably attached to the housing 12 by a plurality of pins 126 positioned between the cover 124 and the housing 12. Any part of the wide surface can be moved in the working direction, Other methods for movably attaching cover 124 to housing 12 may be used. This includes A spring or other biasing member spaced apart from the pin 126, US Patent 5, 510, 587, etc. It is not limited to this.

────────────────────────────────────────────────── ─── Continuation of front page    (81) Designated countries EP (AT, BE, CH, DE, DK, ES, FI, FR, GB, GR, IE, IT, L U, MC, NL, PT, SE), OA (BF, BJ, CF) , CG, CI, CM, GA, GN, ML, MR, NE, SN, TD, TG), AP (GH, KE, LS, MW, S D, SZ, UG, ZW), EA (AM, AZ, BY, KG) , KZ, MD, RU, TJ, TM), AL, AM, AT , AU, AZ, BA, BB, BG, BR, BY, CA, CH, CN, CU, CZ, DE, DK, EE, ES, F I, GB, GE, GH, HU, ID, IL, IS, JP , KE, KG, KP, KR, KZ, LC, LK, LR, LS, LT, LU, LV, MD, MG, MK, MN, M W, MX, NO, NZ, PL, PT, RO, RU, SD , SE, SG, SI, SK, SL, TJ, TM, TR, TT, UA, UG, US, UZ, VN, YU, ZW [Continuation of summary] Operates (power supply). The parts of this mechanism (10) are patches Insert or insert or minimum number of fasteners Easy assembly by fastening in a sandwich shape with Can be erected.

Claims (1)

[Claims] 1. A housing,     A front wall having a wide surface and biased from an operating position to a normal position;     Any point on the wide surface can be moved in the operating direction from the normal position to the operating position.   So that the front wall can be movably attached to the housing   Attachment means,     At least a first switch mounted on the housing;     Movably mounted to the housing between a rest position and a power-off position.   An operating member urged to move from a power supply stop position to a rest position,   Operation to stop power supply to the electric circuit when moved from the rest position to the power supply stop position   A moving member;     Any point on the wide surface associated with the operating member and the front wall may be in the normal position.   Moving the operating member from the rest position to the operating position in the operating direction.   Moving means for moving toward the power supply stop position;     An electric circuit operating mechanism comprising:   An electric circuit operating mechanism that does not occur due to movement. 2. The operating member is turned around a turning center axis between the rest position and the power supply stop position.   It is attached to the housing so that it can be turned, and any point on the wide surface   The moving means pivots the operating member when the moving member moves in the operating direction.   The electrical circuit actuation mechanism as described. 3. The actuating member is pivotally mounted to the housing between a first end and a second end.   When the operating member turns from the rest position to the power supply stop position.   The first end moves toward the housing, and the second end moves toward the housing.   The electric circuit operating mechanism according to claim 2, wherein the electric circuit operating mechanism moves away from the power source. 4. The moving means comprises two shafts separated in parallel from a center axis of rotation of the operating member.   A first operating arm and a first operating arm mounted on the housing so as to be rotatable around   And a second working arm, each of said working arms being engaged with said front wall by a second   A contractor having a first leg and a second leg, and having a tab for engaging the actuating member.   The electric circuit operating mechanism according to claim 3. 5. 5. The circuit as claimed in claim 4, wherein said first and second operating arms have the same structure.   Dynamic mechanism. 6. The mounting means is non-linearly arranged and sandwiched between the housing and the front wall.   2. The electric circuit operating mechanism according to claim 1, comprising a plurality of coil springs. 7. The mounting means extends from the front wall and is slidable in a hole in the housing.   A plurality of pins housed and engaged, wherein the coil spring is arranged around the pins;   The electrical circuit operating mechanism according to claim 6, wherein 8. The above switch is a toggle switch that can move between ON position and OFF position   When the front wall moves from the normal position to the operating position, the switch is raised.   From the ON position to the OFF position,     Means for moving the switch from the off position to the on position;     A switch attached to the housing so as to be pivotable and associated with the switch.   Chilever,     Turning means for turning the switch lever with respect to the housing;   The electric circuit operating mechanism according to claim 1, further comprising: 9. The turning means is provided with a housing for moving between the post-operation position and the pre-operation position.   Consisting of an actuator slidably mounted on a jig,   The bar is pivotally connected to the actuator, and the actuator is   When the switch lever is moved from the pre-operation position to the post-operation position, the switch lever is moved to the switch position.   9. The electric circuit according to claim 8, wherein the switch is moved from the off position to the on position.   Dynamic mechanism. 10. Means for preventing the actuator from moving from the pre-operation position;   Swivel on the housing to allow movement between interfering and non-interfering positions   And a bracket attached to the actuator.   When the actuator is at the pre-operation position, it contacts the bracket at the interference position and   The tutor can move freely when the bracket is in the non-interfering position.   10. The electrical circuit actuation mechanism of claim 9, wherein the mechanism is operable. 11. The moving means includes first and second pivotally mounted housings.   Working arms, each of said working arms having a first leg engaged with said front wall   And a tab having a second leg and a tab engaging the actuating member.   The electrical circuit actuation mechanism as described. 12. The electric circuit according to claim 11, wherein the first and second operating arms have the same structure.   Actuation mechanism. 13. The housing has a groove having first and second flat sides extending from a bottom.   And a slidable engagement between the first and second flat sides and the first and second flat sides.   A first divider abutting on the bottom of the groove, and the first switch   2. An electric circuit operating mechanism according to claim 1, wherein said electric circuit operating mechanism is attached to said first separating portion. 14． The housing slidably engages between the first and second flat sides.   And a second separating portion that contacts the bottom of the groove,     Passes through the second separation section and ends at the groove between the first and second separation sections.   An electric cord is further provided,     The second separation unit further includes an electricity extraction unit,     The housing includes the first and second sides of the groove and the first and second sides.   2 further comprising a cover extending between the separations to form an interior protected from the surroundings;   14. The electric circuit operating mechanism according to claim 13, wherein: 15. The housing further includes a mount and a fixing means, and the front wall includes the mount.   The operating member is movably mounted on the mount, and the operating member is movably mounted on the mount.   The fixing means fixes the mount to the groove, and   A cover is attached to the first and second sides of the groove and to the first and second separation parts.   The first and second separating portions are sandwiched between the cover and the bottom of the groove.   The electric circuit operating mechanism according to claim 14, which is provided. 16. The mounting means is arranged non-linearly, between the mount and the front wall.   And a plurality of coil springs sandwiched between them, extending from the front wall and sliding in the holes of the mount   A plurality of pins that are engaged with each other, and the coil spring is set around the pins.   The electric circuit operating mechanism according to claim 15, wherein 17． The first separating portion is parallel to the bottom of the groove, and the first and second flat portions are parallel to each other.   Extending between the sides,     Slidable on the first separating part so that it can move between the post-operation position and the pre-operation position   There is further provided an actuator mounted on the   Extending to the groove,     When the actuator moves from the pre-operation position to the post-operation position,   The first circuit to move with the actuator to power the electrical circuit;   14. The electrical circuit of claim 13 further comprising means attached to the separation.   Dynamic mechanism. 18. The operating member is provided by a spring extending between the housing and the operating member.   3. The electrical circuit actuation mechanism of claim 2, wherein the mechanism is energized. 19. A second switch mounted on the housing is further provided;   When the wall moves in the operating direction, the first switch stops supplying power to the electric circuit.   2. The electrical circuit of claim 1, wherein said second switch is turned off and said second switch supplies power to said electrical circuit.   Dynamic mechanism. 20. At least one of the first and second switches is a momentary type   20. The electric circuit operating mechanism according to claim 19, wherein 21. A housing,     At least a first switch mounted on the housing;     In order to be able to move between the pre-operation position and the post-operation position in the operation direction,   An actuator that is slidably mounted on the housing and that activates the switch when it moves.   With a tutor,     An actuator formed on the actuator and extending non-parallel to the operating direction   Data holes,     Formed in the housing, wherein the actuator is in the pre-actuation position;   A housing hole aligned with the actuator hole;     When the actuator is in the pre-operation position, the actuator hole and   The actuator is removably engaged with the   A lock for preventing movement from the pre-operation position,     An electric circuit operating mechanism comprising:   When the actuator is removed from the housing hole, the actuator can move freely.   Electric circuit operating mechanism that can be. 22. The housing has first and second portions on opposite sides of the actuator.   A guide extending parallel to the operating direction and the housing   22. The electric circuit operating mechanism according to claim 21, wherein the hole passes through the first and second portions. 23. The actuator has a substantially U-shape, and a front part, a first leg, and a second leg are connected to each other.   Wherein said first and second legs extend parallel from said front portion, and said actuator   23. The electrical device of claim 22, wherein a hole passes through said first and second legs of said actuator.   Circuit actuation mechanism. 24. The housing has first and second slots, and the first and second legs are   Extending through these slots while slidably engaging the first and second slots   The electric circuit operating mechanism according to claim 23. 25. A front wall having a wide surface,     Any point on the wide surface can be moved in the operating direction from the normal position to the operating position.   Mounting means for movably mounting the front wall to the housing.   And are further provided,     The front wall is biased from the operating position to the normal position, and the front wall is   From the position to the operating position, the power supply to the electric circuit is stopped, and   23. The electric device according to claim 22, wherein power is not supplied to the electric circuit by moving the front wall.   Circuit actuation mechanism. 26. The housing includes a lid having a collar, and the guide is formed from the collar.   26. The electrical circuit of claim 25, wherein said front wall extends and nests within said collar.   Dynamic mechanism. 27. Moveably mounted to the housing between the rest position and the power supply stop position   The operating member is further provided, and the operating member is biased to a power supply stop position.   From the rest position to the rest position.   When moved to the power supply stop position, the power supply to the electric circuit is stopped,     Any point on the wide surface associated with the actuating member and the front wall is above the normal position   Moving to the operating position in the operating direction, the operating member is moved from the rest position to the supply position.   3. A moving means for moving toward a power stop position is further provided.   An electric circuit operating mechanism according to claim 5. 28. The housing has first and second sides extending from the bottom and has a reduced number of sides.   A groove having at least a first end wall, a mount having a lower end and abutting on the groove,   Removable and slidable interconnection between the lower end of the mount and the first end wall   Means for forming a part, wherein said mounting means is mounted on said mount with respect to said mount.   The front wall is movably mounted, the lid has a lower end, and the housing further comprises:   A removable and slidable phase between the lower end of the slide and the lower end of the mount   Means for forming an interconnecting part, the groove, the mount and the lid   Means for securing together at a location remote from the lower end and the first end wall.   Item 27. The electric circuit operating mechanism according to Item 26. 29. The fixing means is formed at least in the groove formed apart from the first end wall.   And one support, a first hole formed in the mount, and a lid formed in the lid.   A first hole, a fastener extending through the two first holes and screwed to the support portion;   29. The electric circuit operating mechanism according to claim 28, comprising: 30. Removable and slidable connection between the lower end of the mount and the first end wall.   The means for forming a connection is formed on one of the mount or the first end wall.   And at least one ear formed on the other of the mount or the first end wall.   29. The electrical device of claim 28, further comprising a slot slidably engaging the ear.   Air circuit operating mechanism. 31. It has first and second sides extending from the bottom and has at least a first end wall.   Groove to be     A mount having a lower end and abutting on the groove,     Removable and slidable interconnect between the lower end of the mount and the first end wall.   Means for forming a tie;     A front wall having a wide surface,     Make sure that any point on the wide surface moves from the normal position to the operating position in the operating direction.   Means for movably attaching said front wall to said mount.   A circuit operating mechanism,     The front wall is biased from the operating position to the normal position,     A lower end, a lid having a collar sized to slidably engage the front wall,     A removable and slidable interconnect between the lower end of the lid and the lower end of the mount   Means for forming a tie;     The groove, the mount and the lid are separated from the two lower ends and the first end wall.   Means for securing together in a defined position. 32. The fixing means is formed at least in the groove formed apart from the first end wall.   And one support, a first hole formed in the mount, and a lid formed in the lid.   A first hole, a fastener extending through the two first holes and screwed to the support portion;   The electric circuit operating mechanism according to claim 31, comprising: 33. In order to be able to move between the pre-operation position and the post-operation position in the operation direction,   An actuator slidably attached to the groove is further provided,     The lid further has a guide slidably engaging the actuator,     An actuator hole extending non-parallel to the operating direction is provided in the actuator.   Is formed,     When the actuator is at the pre-operation position, the guide includes the arm.   A housing hole aligned with the actuator hole is formed,     When the actuator is in the pre-operation position, the actuator hole and   The actuator is removably engaged with the   A lock for preventing movement from the pre-operation position is further provided,     When the lock is removed from the actuator hole and the housing hole,   33. The electrical circuit operation of claim 32, wherein said actuator is free to move.   mechanism. 34. An L-shaped separation portion having a first plate and a second plate is further provided,   The first plate slidably engages with a slide portion formed in the groove, and   The actuator is slidably mounted on the second plate, and the second plate   A first hole is formed in the plate, and the fastener passes through the first hole of the second plate.   34. The electrical circuit actuation mechanism of claim 33 extending. 35. A socket is formed in the lid, and a first hole of the lid is formed in the socket.   The first hole of the mount is sized to engage the socket;   The socket abuts on the second plate, and the head of the fastener is inside the socket.   35. The electric circuit operating mechanism according to claim 34, wherein 36. Removable and slidable connection between the lower end of the mount and the first end wall.   Means for forming the connecting portion may be a small one formed on one of the mount and the lid.   At least one ear and the other of the mount or lid and the ear   33. The electric circuit operating mechanism according to claim 32, further comprising a slot slidably engaged with the electric circuit.   . 37. Removable and slidable connection between the lower end of the mount and the lower end of the lid   Means for forming the connecting portion may be a small one formed on one of the mount and the lid.   At least one ear and the other of the mount or lid and the ear   37. The electric circuit operating mechanism according to claim 36, further comprising a slot slidably engaged with the electric circuit.   . 38. The mount is formed separately from the upper plate and the upper plate.   And a frame interconnected to the upper plate by slide inclusions.   No other securing means are used for this interconnection and the front wall is   32. The electric circuit operating mechanism according to claim 31, wherein the electric circuit operating mechanism is movably mounted on the electric circuit. 39. The upper plate has at least a first ear and a slot separated therefrom.   And the frame is slidably engaged with the first ear of the upper plate.   Having a mating flange and extending through the slot in the top plate.   39. The electrical circuit actuation mechanism of claim 38, further comprising a hook for extending. 40. It has first and second sides extending from the bottom and has at least a first end wall.   A housing having a groove to be formed;     A mount having a lower end and abutting on the groove,     Removable and slidable interconnect between the lower end of the mount and the first end wall.   Means for forming a tie;     A removable and slidable interconnect between the lower end of the mount and the lower end of the lid   Means for forming a tie;     The groove, the mount and the lid are separated from the two lower ends and the first end wall.   Means for fixing together in a given position;     A front wall having a wide surface and being biased from an operating position to a normal position;     By movably mounting the front wall to the mount, the   Any point on the surface can be moved from the normal position to the operating position in the operating direction.   Means to     A collar sized to slidably engage the front wall,     At least a first switch mounted on the housing;     In order to be able to move between the post-operation position and the pre-operation position in the operation direction,   An actuator slidably mounted on a jing, and moves when moved.   An actuator for actuating the switch,     An actuator formed on the actuator and extending non-parallel to the operating direction.   A tuator hole,     Formed in the housing, wherein the actuator is in the pre-actuation position;   A housing hole aligned with the actuator hole;     When the actuator is in the pre-operation position, the actuator hole and   And the actuator is detachably engaged with the housing hole.   A lock for preventing movement from the pre-operation position,     Wherein the lock is removed from the actuator hole and the housing hole.   When removed, the actuator is free to move   Structure.