DE202012006314U1 - With little effort operable microswitch - Google Patents

Abstract

Microswitch which can be actuated with little effort, comprising: a housing (10) which has a receiving space (111), the housing (10) having at least one conductive connection (14, 15), a common central connection (13) and an actuating element (16), wherein the conductive connection (2) and the common center connection (13) protrude from the receiving space (111) and the actuating element (16) is connected to the common center connection, and wherein the actuating element (16) has a pressure contact section (161 ) and a connection section (162), both of which are located on one side of the central connection (13), and where, when the connection section (162) is connected to the conductive connection (14, 15), a first switching state results, and if there is no contact between the connection section (162) and the conductive connection (14), then a second switching state results; a pressure element (20) which moves up and down in the housing (10) between a rest position and a switching position, whereby a movement path is covered; and...

Description

The invention relates to a micro-switch, in particular a micro-switch, which can be switched due to the lever law with a low operating force.

Thanks to its smaller size and long mechanical life, microswitches are used extensively in electronic devices of various kinds, such as computers, telecommunications equipment and household appliances, as well as in consumer electronics and the automotive industry, for more than more than ten million switching cycles. In simple terms, the microswitch is an electrical switching device that opens and closes a circuit, the microswitch typically having a housing in which a switchover assembly and an actuator assembly are mounted. The changeover module comprises a common center connection, a normally closed contact and a normally open contact. The actuating assembly consists of a switching tongue and a push button, wherein the switching tongue is connected on the one hand to the common center connection and on the other hand pivotally arranged between the normally closed contact and the normally open contact, so that the switching tongue are switched with an up and down movement of the push button from one switching state to another can.

In the patent TW592380 For example, a known microswitch, the housing of which consists of a cover and a housing lower part, disclosed, wherein the micro-switch includes a push button, a first pin contact, a second pin contact and a switching pin connected to the first pin contact. By actuating the pushbutton, the tab is pressed at one end so that the other end of the tab is pivoted downwardly, thereby establishing a conductive connection between the first and second pin contacts and generating a switchover signal. Although the said patent allows the switching between different switching states, but at the same time has a different disadvantage: Because the tongue that provides a spring force, all alone under a pressing force and is often bent up and down, the tongue can at a Long-term application can be broken early by a material fatigue, which makes the switching between different switching states or a signal output impossible.

In order to eliminate the mentioned disadvantage, a new microswitch in the patent specification CN 202110987 disclosed. As in 1 shown is the new micro switch with a housing 1 provided in which a plurality of conductive terminals 2 , a leaf spring 3 , a tongue 4 and a push button 5 be attached. The tongue 4 consists of a through the push button 5 actuatable force section 41 and one between the conductive terminals 2 attached contact section 42 where two connecting ribs 43 the force section 41 with the contact section 42 connect. The leaf spring 3 provides a conductive connection between the tab 4 and the individual connections 2 , where the tongue 4 in a normal condition by the leaf spring 3 is supported. Because the leaf spring 3 the tongue 4 thereby supports, the tongue can be 4 no longer so easily due to material fatigue by frequent bending up or down break, resulting in an increased life, so that the switching tongue 4 can stand even more switching cycles. Although the disadvantage that the tongue is broken due to material fatigue is thereby eliminated, the aforementioned patent can still be further improved.

In order to enable the switching between different switching states, the microswitch disclosed in the aforementioned patent must have a switching tongue which is moved up and down when switching between a rest position and a switching position. Therefore, the switching tongue must have a certain length, which extends from the push button to the conductive terminals. Since the gross margins of the industries concerned are currently very low, it would be useful if the material consumption of the tongue can be reduced, which not only lowers manufacturing costs, but also increases the gross profit rate of the products. Second, when the microswitch is actuated, the push button pushes down the force portion of the switching tab, simultaneously pivoting the contact portion downwardly. Because the switching tongue has a certain length, a sufficient force must be exerted on the push button, so that the contact portion is switched to another switching state. Aside from the above drawbacks, when the contact portion contacts a conductive terminal, high current tends to flow through the contact portion and the conductive terminals, which may result in high heat, so that the contact portion is partially fused and adhered to the conductive terminal. In order for the contact portion to be disconnected from the conductive terminal and switched to another switching state under this circumstance, a relatively greater force must be exerted in the operation of the microswitch, resulting in insensitivity of the microswitch. Therefore, the known microswitch can be further improved so that it can be manufactured at a low cost and is switched with a lower operating force from one switching state to another.

The invention has the main object to overcome the above-mentioned disadvantages in order to increase the sensitivity of the microswitch and to reduce the manufacturing cost.

This object is achieved by a micro-actuated with little effort micro-switch having the features specified in claim 1. Further advantageous developments of the invention will become apparent from the dependent claims.

According to the invention there is provided a low effort microswitch which comprises
a housing having a receiving space, the housing having at least one conductive terminal, a common center terminal and an actuator, wherein the conductive terminal and the common center terminal protrude from the receiving space and the actuator is connected to the common center terminal, and wherein the actuating element a pressure contact portion and a terminal portion, both of which are respectively on one side of the center terminal, and wherein when the terminal portion is connected to the conductive terminal, a first switching state results, and wherein, when no contact between the terminal portion and the conductive terminal , then a second switching state results;
a pressing member that moves up and down in the housing between an original and a depressed position, whereby a movement path is covered; and
a mitbewegbares connecting element, which is arranged between the pressure element and the actuating element, wherein the connecting element has a pivotally arranged in the housing pin receiving sleeve, an end formed within the path of movement on the pin receiving sleeve loading portion and a mitbewegbar connected to the loading portion pressure projection, wherein the pin receiving sleeve as a pivot point for the pressure projection is used, and wherein upon actuation of the pressure element of the loading portion is set in motion so that the pressure projection is set in motion, so that the pressure projection presses the pressure contact portion, and wherein the connection portion by the movement of the pressure contact portion between the first and the second Switching state is switchable.

According to the invention, the connecting element has a pivoting arm, which is simultaneously connected to the pin receiving sleeve, the loading portion and the pressure projection.

According to the invention, a cylinder pin is arranged in the housing, wherein the pin receiving sleeve is designed as a plug-in sleeve which is pivotally mounted on the cylinder pin.

According to the invention, a positioning hole is formed in the housing, in which a pin is pivotally mounted.

According to the invention, the distance between the loading portion and the pin receiving sleeve is greater than the distance between the pressure projection and the pin receiving sleeve.

According to the invention, the housing is provided with a receiving space in which a conductive terminal is arranged opposite to the conductive terminal, wherein in the second switching state, the terminal portion is connected to the conductive terminal.

According to the invention, the pressure element on a pressing portion and a compression spring, wherein the. Pressure spring in the rest position- supported on Andruckabschnitt. The housing has a channel in which the pressing portion moves up and down, wherein the pressing portion has at its lower part a limiting portion whose outer diameter is greater than the inner diameter of the channel.

According to the invention, the actuating element further comprises a support portion, wherein the center connection serves as a pivot point for the support portion. In the rest position, the support portion brings the terminal portion in contact with the conductive terminal.

According to the invention, the housing consists of a base body and a lid, wherein the center terminal and the conductive terminal are fixedly attached to the main body.

• 1. Erhöhte Empfindlichkeit. In der vorliegenden Erfindung wird ein mitbewegbares Verbindungselement zwischen einem Druckelement und einem Betätigungselement angeordnet, wobei das Verbindungselement eine schwenkbar am Gehäuse angebrachte Stiftaufnahmehülse, einen innerhalb des Bewegungsweges gegenüber der Stiftaufnahmehülse angebrachten Belastungsabschnitt und einen mit dem Belastungsabschnitt zusammen bewegenden Druckvorsprung, wobei die Stiftaufnahmehülse als Schwenkpunkt dient. Bei der Betätigung wird die auf den Druckknopf wirkende Kraft auf den Belastungsabschnitt ausgeübt, wobei die Stiftaufnahmehülse als Schwenkpunkt dient. Weil der Abstand zwischen dem Belastungsabschnitt und der Stiftaufnahmehülse größer als der Abstand zwischen der Stiftaufnahmehülse und dem Druckvorsprung ist, wird die geringe Kraft, die auf den Belastungsabschnitt ausgeübt wird, einen Synergieeffekt erzeugt. Dadurch ist eine Umschaltung des Mikroschalters zwischen unterschiedlichen Schaltzuständen mit einer geringen Betätigungskraft realisiert. Mit einem anderen Wort wird die Empfindlichkeit des erfindungsgemäßen Mikroschalters erhöht.
• 2. Niedrigere Fertigungskosten. In der vorliegenden Erfindung wird das Druckelement mittels eines mitbewegbaren Verbindungselementes mit dem Betätigungselement verbunden, sodass ein Umschalteffekt erzielt wird, ohne dass das Druckelement das Betätigungselement berührt. So kann die Länge des Betätigungselementes abgekürzt werden, weil das Betätigungselement nicht mehr braucht, das Druckelement mit dem gemeinsamen Mittelanschluss zu verbinden. Deswegen kann das Betätigungselement noch leichter, dünner, kürzer und kleiner entworfen werden, was den Materialverbrauch erspart und somit die Fertigungskosten erniedrigt.

Compared to the prior art, the microswitch according to the invention has the following advantages:

• 1. Increased sensitivity. In the present invention, a mitbewegbares connecting element between a pressure element and an actuating element is arranged, wherein the connecting element has a pivotally mounted on the housing pin receiving sleeve, a mounted within the path of movement relative to the pin receiving sleeve loading portion and a pressure portion with the loading together moving pressure projection, wherein the pin receiving sleeve serves as a pivot point , Upon actuation, the force acting on the push button is exerted on the loading section, wherein the pin receiving sleeve as Pivot point is used. Because the distance between the loading portion and the pin receiving sleeve is greater than the distance between the pin receiving sleeve and the pressure projection, the small force exerted on the loading portion creates a synergistic effect. As a result, a changeover of the microswitch is realized between different switching states with a low actuation force. Another word increases the sensitivity of the microswitch according to the invention.
• 2. Lower production costs. In the present invention, the pressure element is connected by means of a mitbewegbaren connecting element with the actuating element, so that a switching effect is achieved without the pressure element contacts the actuating element. Thus, the length of the actuating element can be shortened because the actuating element no longer needs to connect the pressure element to the common center connection. Therefore, the actuator can be made even lighter, thinner, shorter and smaller, which saves the material consumption and thus lowers the manufacturing cost.

In the following the invention and its embodiments will be explained in more detail with reference to the drawing. In the drawing shows:

1 an end view of the arrangement of a microswitch according to the invention;

2 a perspective view of an embodiment of a microswitch according to the invention;

3 an exploded perspective view of the embodiment of a microswitch according to the invention;

4 an end view of the embodiment of a microswitch according to the invention;

5 an end view of the embodiment of a micro-switch according to the invention, wherein the pressure element is pressed down pressed; and

6 an exploded perspective view of another embodiment of a microswitch according to the invention.

Based on accompanying drawings, 2 and 3 An embodiment of the present invention is shown schematically in an assembly drawing or in an exploded view. As shown, a microswitch according to the invention is provided, inter alia, with a housing 10 provided on which a pressure element 20 is attached, wherein the housing 10 from a basic body 11 and a lid 12 consists. In the main body 11 is a recording room 111 formed, from which a middle connection 13 and a conductive connection 14 protrude. Below the conductive connection 14 is another connection 15 in the recording room 111 of the housing 11 appropriate. just the above components includes the housing 10 one more with the common middle connection 13 connected actuator 16 and a mitbewegbares connecting element 30 that is between the pressure element 20 and the actuator 16 is arranged. The pressure element 20 has a pressing portion 21 and a compression spring 22 on, with the compression spring 22 supported in the rest position on Andruckabschnitt. In the case 10 is also a channel 17 formed in which the pressure element 20 is moved up and down, ie, when the push button is pressed, so the pressure element 20 be moved in the movement path between the rest position and a shift position. To a jumping out of the pressure element 20 out of the case 10 To avoid, the pressure element points 20 at its bottom a boundary section 211 on, whose outer diameter is greater than the inner diameter of the channel 17 is. In the embodiment, the conductive terminal 14 one NC contact, while the other conductive terminal 15 is designed as a make contact, which the present invention is not intended to be limiting.

In 4 a microswitch according to the invention is shown in a front view, wherein a cylindrical pin 18 is arranged in the housing. The mitbewegbare connecting element 30 includes a pin receiving sleeve 31 , which pivot on the cylinder pin 18 is attached, a load section 32 , which is within the path of movement opposite the pin receiving sleeve 31 stands, and a pressure projection 33 movable with the loading section 32 is connected and the pin receiving sleeve 31 used as a pivot point, with a swivel arm 34 the pin receiving sleeve 31 , the stress section 32 and the pressure projection 33 connects with each other. The pressure projection is preferred 33 between the load section 32 and the pin receiving sleeve 31 However, what the present invention should not be limited in any case. As a further improvement, the actuator 16 in the embodiment, a pressure contact portion 161 and a connection section 162 each having both on one side of the center port 13 lie. In addition, the actuating element 16 a support section 163 having the common center connection 13 used as a pivot point and the connection section 162 so presses that this in the rest position the conductive connection 14 supported. It should be noted, however, that a cylinder pin 18 in the embodiment in the housing 10 is formed, wherein the Pin receiving sleeve 31 swiveling on the cylinder pin 18 is plugged. This embodiment can be replaced by other design options in the other embodiments. For example, another embodiment of the present invention is shown in FIG 6 shown, wherein the housing 10 with a positioning hole 18a is provided. A cone 31a is in the positioning hole 18a pivoted. Accordingly, the mitbewegbare connecting element 30a a loading section 32a in the movement path opposite the journal 31a stands, a pressure projection 33a movable with the loading section 32a connected and the pin 31a used as a pivot point, and a swivel arm 34a , the pin 31a , the stress section 32a and the pressure projection 33a connects to each other, with the distance between the loading section 32a and the pin 31a greater than the distance between the pressure projection 33a and the pin 31a is. The design of other components in the embodiment is similar to that in the first embodiment and is therefore not explained here.

According to 4 has the pressure section 21 in the case 10 a channel 17 on, which corresponds to the movement path between the rest position and the switching position. Is a force on the Andruckabschnitt 21 exercised, so the Andruckabschnitt moves 21 in the channel 17 downward. Will the pressure section 21 let go, so moves the load section 32 , pressed by the compression spring 22 , upwards, so that the pressure projection 33 the mitbewegbaren connecting element 30 the pressure contact section 161 of the actuating element 16 easily contacted. At this moment the support section is using 163 of the actuating element 16 the common middle connection 13 as a pivot point and provides a spring force, so that the connection section 162 using the spring force in the rest position against the conductive connection 14 is pressed. This is a conductive connection between the center port 13 and the conductive connection 14 made, which forms a first switching state. Because the lead terminal 14 in this embodiment, a normally closed contact 14 is, the microswitch in the first switching state can not output a switching signal to a downstream load.

On the basis of enclosed 5 the movement mechanism according to the invention is shown schematically. Upon actuation of the microswitch, the pressing portion becomes 21 moved from the rest position down to the switching position, wherein the arranged within the movement path loading section 32 by pressing the Andruckabschnittes 21 the compression spring 22 compresses. The pressure projection 33 that's about the swivel arm 34 mitbewegbar with the load section 32 is then connected to the pin receiving sleeve 31 rotated counterclockwise and the pressure contact portion 161 pushes down. Because the contact force is greater than the upward force that the support section 163 provides, so the connection section 162 together with the pressure contact portion 161 moved down. In this state, the connection section 162 from the conductive terminal 14 separated and with the other conductive connection 15 connected, whereby a conductive connection between the common center connection 13 and the conductive connection 15 is produced, which forms a second switching state. Because the lead terminal 15 in the embodiment, a make contact, the microswitch generates a switching signal, which is then output to a downstream load.

The above in 4 and 5 said movement mechanism can be explained on the basis of the lever law, wherein the load section 32 and the swivel arm 34 the mitbewegbaren connecting element are considered in each case as the force point and load section in the lever law. The pressure section 21 uses the pin receiving sleeve 31 as a pivot point. If the loading section 32 is pressed, so a torque is generated, which sets the pressure projection in motion. Because the distance between the loading section 32 and the pin receiving sleeve 31 greater than the distance between the pressure projection 33 and the pin receiving sleeve 31 is, one can on the load section 32 applied force has a synergy effect on pressure projection 33 produce. Therefore, the microswitch according to the invention can be actuated with little effort, ie, due to the lever law, the microswitch can be switched effortlessly.

In summary, the present invention may be configured to include a co-moving connector between the actuator and the pressure member, the connector having a pivot receiving sleeve mounted on the housing, a loading portion mounted in the path of travel relative to the pin receiving sleeve, and a pressure protrusion movably connected to the loading portion. which can be rotated about the pin receiving sleeve. By means of this configuration, it is realized that the pressure element activates the connection section via the co-moving connecting element, so that the latter can switch the microswitch between the first and the second switching state. Because the microswitch according to the invention is designed on the basis of the law of levers, it is actuatable with a relatively lower force as compared to the moving mechanism of a known microswitch, which is known in the art Switching between different switching states saves energy. Therefore, the microswitch according to the invention is suitable for use in any high-sensitivity electronic device. In addition, because the pressing element sets the actuating element in motion via a movable connecting element, wherein the actuating element does not need direct contact with the pressure element, the actuating element can therefore be made lighter, thinner, shorter and smaller, which reduces the material consumption in the production and thus the production costs are lowered.

The foregoing description illustrates the embodiments of the invention and is not intended to limit the claims. All equivalent changes and modifications that may be made by those skilled in the art in accordance with the description and drawings of the invention are within the scope of the present invention.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• TW 592380 [0003]
• CN 2020110987 [0004]

Claims (10)

Microswitch which can be actuated with little effort, comprising: a housing ( 10 ), which has a receiving space ( 111 ), wherein the housing ( 10 ) at least one conductive terminal ( 14 . 15 ), a common middle connection ( 13 ) and an actuator ( 16 ), wherein the conductive terminal ( 2 ) and the common middle connection ( 13 ) from the recording room ( 111 protrude) and the actuator ( 16 ) is connected to the common center connection, and wherein the actuating element ( 16 ) a pressure contact section ( 161 ) and a connection section ( 162 ), both of which are each on one side of the central connection ( 13 ), and wherein, when the terminal section ( 162 ) with the conductive connection ( 14 . 15 ), there is a first switching state, and wherein, if no contact between the terminal section ( 162 ) and the conductive connection ( 14 ), then a second switching state results; a pressure element ( 20 ) located in the housing ( 10 ) is moved up and down between a rest position and a shift position, whereby a movement path is covered; and a mitbewegbares connecting element ( 30 ), which between the pressure element ( 20 ) and the actuating element ( 16 ) is arranged, wherein the connecting element ( 30 ) a pivotable in the housing ( 10 ) arranged pin receiving sleeve ( 31 ), one within the movement path end to the pin receiving sleeve ( 31 ) trained load section ( 32 ) and one mitbewegbar with the load section ( 32 ) associated pressure projection ( 33 ), wherein the pin receiving sleeve ( 31 ) as a pivot point for the pressure projection ( 33 ), and wherein upon actuation of the pressure element ( 20 ) the loading section ( 32 ) is set in motion so that the pressure projection ( 33 ) is set in motion so that the pressure projection ( 33 ) the pressure contact section ( 161 ), and wherein the connection section ( 162 ) by the movement of the pressure contact portion ( 161 ) is switchable between a first and a second switching state. Microswitch according to claim 1, characterized in that the connecting element ( 30 ) a swivel arm ( 34 ), which simultaneously with the pin receiving sleeve ( 31 ), the load section ( 32 ) and the pressure projection ( 33 ) connected is. Microswitch according to claim 1, characterized in that in the housing ( 10 ) a cylindrical pin ( 18 ) is arranged, wherein the pin receiving sleeve ( 31 ) is designed as a plug-in sleeve, which is pivotally mounted on the cylindrical pin ( 18 ) can be placed. Microswitch according to claim 1, characterized in that in the housing ( 10 ) a positioning hole ( 18a ) is formed, in which a pin ( 31a ) is pivotally mounted. Microswitch according to claim 1, characterized in that the distance between the loading section ( 32 ) and the pin receiving sleeve ( 31 ) is greater than the distance between the pressure projection ( 33 ) and the pin receiving sleeve ( 31 ). Microswitch according to claim 1, characterized in that the housing ( 10 ) with a receiving space ( 111 ), in which a conductive terminal ( 15 ) opposite the conductive terminal ( 14 ) is arranged, wherein in the second switching state of the terminal portion ( 162 ) with the conductive connection ( 15 ) connected is. Microswitch according to claim 1, characterized in that the pressure element ( 20 ) a pressure section ( 21 ) and a compression spring ( 22 ), wherein the compression spring in the rest position at the Andruckabschnitt ( 21 ) is supported. Microswitch according to claim 1, characterized in that the housing ( 10 ) a channel ( 17 ), in which the pressure section ( 21 ) is moved up and down, whereby the pressure section ( 21 ) at its lower part a limiting section ( 211 ) whose outer diameter is greater than the inner diameter of the channel ( 17 ). Microswitch according to claim 1, characterized in that the actuating element ( 16 ) further comprises a support section ( 163 ), the middle connection ( 13 ) as a pivot point for the support section ( 163 ), and wherein the support section ( 163 ) in the rest position the connection section ( 162 ) in contact with the conductive terminal ( 14 ) brings. Microswitch according to claim 1, characterized in that the housing ( 10 ) from a basic body ( 11 ) and a lid, wherein the middle connection ( 13 ) and the conductive connection ( 14 ) fixed to the base body ( 11 ) are mounted.

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