RU86133U1 - DEVICE FOR HOLDING IN THE PRESSED STATE OF THE BUTTON OF ANY DEVICE (OPTIONS) - Google Patents

Abstract

1. A device for holding down the buttons of a device containing at least one magnet made with the ability to press this device with the intended portion of the device to the overlay fixed to the panel of the device, to which the magnet can be attracted, due to the force of magnetic attraction between the magnet and the pad and with the ability to press in due to the force of this attraction, the intended portion of this device FCCH this device, disposed on the panel, to the required actuation of the device for depth; also comprising at least one portion configured to be pressed against the above pad, and at least one portion configured to press, when this pressing is performed, this button to the depth necessary to trigger this device, and also containing a pad to which a magnet can be attracted, made with the possibility of being fixedly mounted on the panel. ! 2. A device for holding down the buttons of a device containing at least one suction cup made with the ability to be pressed against the panel of this device due to the force created by atmospheric pressure, and a section made with the ability to press due to the force this pressing the button of this device, located on the panel, to the depth necessary for the operation of this device. ! 3. A device for holding down the buttons of a device containing at least one suction cup

Description

The technical field to which the utility model belongs.

The proposed utility model can be used in various devices having buttons located on the panel, in particular in many passenger elevators, to prevent the capture of passengers or their belongings, or the departure of the elevator with the belongings of passengers without passengers. In many modern elevators in residential buildings, elevator doors close automatically after a certain time, regardless of the desire of the passenger. In order to extend this time, it is necessary to hold down the button located on the elevator panel, which is often inconvenient and unsafe for passengers and their belongings, as well as for the serviceability of the elevator itself.

The prior art.

An analogue of the utility model is a device for holding down the buttons of any device patent No. 79067 (application No. 2008133710). In this analogue, due to the force of magnetic attraction between the magnet and the panel with the buttons of any device, the magnet attracts the device to this panel. This leads to the fact that the device presses on the button selected by the user and holds it pressed without the help of the user's hands. The presence of a section made with the ability to be pressed against the panel, and a section made with the ability to press, when this pressing is performed, the button to the depth necessary for the operation of this device is a sign that coincides with one of the essential features of the claimed utility model. The existing reason preventing the obtaining of a technical result, which is provided by the claimed utility model, is indicated below. In the case when the panel with buttons is made of material to which the magnet cannot be attracted with the necessary force, the device for holding down the buttons of any device selected as an analogue cannot be used. This analogue is selected as a prototype of a utility model.

Disclosure of a utility model.

The technical problem to which the claimed utility model is directed is to provide the ability to hold a button of a device located on a panel made of arbitrary material without using hands.

According to the first option, the essence of the utility model, as a technical solution, is expressed in the following. To ensure that the device corresponding to the prototype is pressed against the panel on which the button is located, which it holds pressed due to this pressing, a cover plate is used. This pad is made of material to which a magnet can be attracted. The overlay is fixed to the panel using an integral connection. When using the inventive device due to the force of magnetic attraction between the magnet and the plate, pre-mounted on the panel, the magnet presses the inventive device to the plate. This leads to the fact that the device presses the button and holds it pressed without the help of the user's hands.

According to the second option, the essence of the utility model, as a technical solution, is expressed in the following. In the design of the inventive device for holding down the buttons of a device, a suction cup is used. When using this device, the user presses on the device, which leads to suction of the suction cup to the panel, to which the suction cup can be sucked, and pressing a button on the portion of this device. Due to the force created by atmospheric pressure, pressing the suction cup to the panel, the device holds this button in the pressed state using the above section without the help of the user's hands.

According to the third option, the essence of the utility model, as a technical solution, is expressed in the following. In the design of the inventive device for holding down the buttons of a device, a suction cup and a pad are used. This pad has a surface to which a suction cup can be attached. This pad is fixed to the panel using an integral connection. When using this device, the user presses on this device, which leads to the suction of the suction cup to the pad and pressing a portion of this device on the button. Due to the force created by atmospheric pressure, pressing the suction cup to the pad, the device holds the button in the pressed state using the above section without the help of the user's hands.

According to the fourth option, the essence of the utility model, as a technical solution, is expressed in the following. A device for holding down the buttons of a device contains an element configured to press this device with the intended portion of the device to be pressed against the magnet. This magnet is also part of the device, and is configured to be fixedly mounted on the panel of this device. Due to the force of magnetic attraction between the element and the magnet, the intended portion of this indentation is pressed into the button of the device’s button located on the panel to the depth necessary for the device to operate and the button is held down.

The technical result of all four versions of the device for holding down the buttons of a device is to ensure ease of use and extend the life of devices having buttons located on a panel made of arbitrary material. The resulting ease of use consists in the possibility of freeing the user's hands from the need to keep the button pressed when necessary. For example, in the case of the operation of the elevator, accompanied by disabled people or the introduction of several items into the elevator. That is, when both hands are busy, and loading the elevator requires more than the amount of time provided by the elevator automation. At the same time, the user is protected from possible stresses associated with the operation of the elevator mechanism earlier than the user needs. In addition, due to the use of the utility model, the elevator mechanism wears out less and breaks less often due to the appearance of obstacles that impede its normal operation. That is, the situation is excluded when the elevator doors repeatedly open and close, bumping into parts of the passenger’s body or his belongings, which he uses to prevent the elevator from closing before time.

A brief description of the drawings.

Figure 1 depicts in a reduced form a panel with buttons of any device.

Figure 2 depicts a fragment of the panel with the buttons of a device, while showing the button of a device that is not pressed.

Figure 3 depicts an example of the design of the lining related to the utility model according to the first embodiment, while showing the button of a device that is not in the pressed state.

Figure 4 depicts an example of the construction of a utility model according to the first embodiment, while showing the button of a device in the pressed state.

Figure 5 depicts an example of the construction of a utility model according to the second embodiment, which uses several suction cups, while showing the button of a device in the pressed state.

6 depicts an example of the construction of a utility model according to the second embodiment, in which one suction cup is used, while the button of a device in the depressed state is shown.

Fig.7 depicts an example of the design of the lining related to the utility model according to the third embodiment, while showing the button of a device that is not in the pressed state.

Fig. 8 depicts an example of a construction of a utility model according to the third embodiment, wherein a button of a device in a depressed state is shown.

Fig.9 depicts an example of the construction of a utility model according to the fourth embodiment, while showing the button of a device in the pressed state.

Figure 10 depicts an example design of a utility model according to the first embodiment without a lining.

11 depicts an example of a construction of a utility model according to the first embodiment, in which it is possible to use the inventive device for buttons of any device of different diameters.

12 depicts an example of a construction of a utility model of the fourth embodiment without a magnet.

Fig.13 depicts an isometric example of the construction of a utility model according to the second embodiment, corresponding to the example depicted in Fig.6.

Fig. 14 shows an example of the construction of the utility model according to the second embodiment, in which it is possible to adjust the depth of the indentation of the button and the ability to move the pressing section depending on the diameter of the button of a device, while the button of a device in the depressed state is shown.

Fig. 15 is an isometric illustration of a construction model of a utility model according to the third embodiment, corresponding to the example shown in Fig. 8 (pad not shown).

The implementation of the invention.

Figure 1 depicts in a reduced form a panel with buttons of any device. Figure 2 depicts a fragment of the panel with the buttons of a device, while showing the button of a device 1, not in the pressed state on the panel 2, and supported by a spring 3.

Figure 3 and figure 4 depict an example of a design of a utility model according to the first embodiment. The utility model consists of a cover 4, to which a magnet, magnet 5, housing 6, housing cover 7 and pressure 8 can be attracted. Cover 4 is made of a material to which a magnet can be attracted, for example, carbon, tungsten, chrome, aluminum-nickel steel , or other ferromagnets. Before the first application of the utility model, the overlay 4 is fixedly mounted, that is, fixed, on the panel 2 near the button 1 of any device that must be kept pressed. Figure 3 depicts the plate 4 mounted on the panel 2. The fixing plate 4 near the button 1 can be carried out, for example, by welding, gluing or using rivets, as well as other fasteners (not shown). As a magnet material, for example, a neodymium – iron – boron alloy (NdFeB) can be used. As the material of the housing 6, the cover of the housing 7 and the pressure 8 can be used, for example, metal, plastic or rubber. As the material of the housing cover, for example, a metal sheet can be used. The cover of the housing 7 is connected to the housing 6 motionless, for example, using screws (not shown). The pressure 8 is installed in the housing 6 motionless, for example, using the method of pressing. The cover of the housing 7 is a portion of the claimed device, made with the ability to press against the lining 4. The cover of the housing 7 is precisely that portion of the claimed device, which is intended for this pressing. The pressure 8 is a section of the claimed device, made with the ability to press due to this pressing the button 1 of any device to the depth necessary for the operation of this device. Press 8 is just the area that is intended for this indentation.

In the process of applying the utility model, the user installs the inventive device without the lining 4, depicted in Fig. 10, on a pre-installed on the panel 2, the lining 4, depicted in Fig. 2. In this case, the section of the device intended for pressing against the cover 4, that is, the cover of the housing 7, should be on the cover 4, and the pressure 8 should be placed on the button 1. As a result of this installation, due to the force of magnetic attraction between the magnet 5 and the cover 4, the magnet 5 presses the device with the section intended for this pressing, that is, the housing cover 7, to the overlay 4. This causes the button 1 of the device to be pressed by pressing 8 to the depth necessary for the device to operate. This position of the device depicts figure 4. When the button 1 is pressed in, the resistance of the spring 3 is overcome. After that, the user releases the device for holding the buttons of a device in the pressed state, and it continues to hold the button 1 in the pressed state without the help of the user's hands. Then he performs the actions he needs, having his hands free from holding button 1 pressed. Then, the user disconnects from the panel 2 the inventive device for holding down the buttons of any device. In this case, the overlay 4 remains on the panel 2 for subsequent use of the inventive device, which depicts figure 3.

The slopes of the edges of the housing 6, for which it is convenient to take the fixture by hand, facilitate the attachment of the fixture to the cover 4 and the detachment of the fixture from the cover 4. In this design of the fixture, the magnet 5 is removed from the point of contact of push 8 with button 1, while push 8 has a shape that provides ease of gripping the pressure with your fingers. It also facilitates the removal of the device from the lining 4. The device can more easily be turned over to the edge by taking on the edge of the device, which is opposite from the magnet 5, that is, by pressing 8, using the lever effect.

As the device turns over to the edge, the magnet 5 moves away from the panel, the forces of magnetic attraction become smaller due to this, and the device becomes easier to completely detach from the panel.

The housing 6 and the housing cover 7 protect the magnet 5 from mechanical damage.

11 depicts an example of a construction of a utility model according to the first embodiment, in which it is possible to use the inventive device for buttons of different diameters. The utility model consists of a pressure 9, a housing 10, a magnet 5, a housing cover 7 and a cover (not shown in the drawing). The pressure 9 is installed in the housing 10 using a threaded connection. Due to this, the user can move the pressure 9 relative to the housing 10 by rotating the pressure 9 around the axis of the thread either clockwise or counterclockwise. Before applying the utility model, the user has the ability to move the pressure 9 along the axis of the thread to a position in which he will be in the middle of the pressed button 1. This makes it possible to use the utility model for buttons of different diameters. The materials from which the details of this structure can be made, and the procedure for its use are similar to those indicated above with respect to the structure depicted in Fig. 3 and Fig. 4.

Figure 5 depicts an example of the construction of a utility model according to the second embodiment, in which several suction cups are used, while button 1 is shown in a depressed state. The utility model consists of two suction cups 11 fixedly mounted in the housing 12, the housing 12 and the pressure 13, motionlessly mounted on the housing 12. The suction cup 11 is configured to be pressed against the panel 14 due to the force created by atmospheric pressure. It is understood that the panel 14 of any device has a surface to which a suction cup can be sucked. Press 13 is a section made with the ability to press due to the force of this pressing the button 1 of any device located on the panel 14, to the depth necessary for the operation of this device. Suction cup 11 and pressure can be made of silicone, rubber and other elastic materials. The housing 12 may be made of metal or plastic. Suction cups 11 can be fixedly mounted in the housing 12 in the slots 15 specially provided for this purpose. The pressure 13 can be fixedly connected to the housing, for example by gluing. Also, the pressure can be performed with the housing as a single unit from the same material (not shown in the drawing).

In the process of applying the utility model, the user installs the inventive device on the panel 14 and presses on it so that the pressure 13 presses the button 1. This leads to the pressing of the button 1 by pressing 13 to the depth necessary for the device to operate, and to suction the suction cups 11 to the panel 14 This position of the device depicts figure 5. When the button 1 is pressed in, the resistance of the spring 3 is overcome. After this, the user releases the device for holding the buttons of a device in the pressed state, and it continues to hold the button 1 in the pressed state without the help of the user's hands due to the force created by atmospheric pressure. Then he performs the actions he needs, having his hands free from holding button 1 pressed. Then, the user disconnects from the panel 14 the inventive device for holding down the buttons of any device. This disconnection can be done by separating the suction cups 11 from the panel 14 by prying the edges 16 of the suction cup with your fingers 11. The design of the suction cup 11 can be provided with a tongue 17, which is easier than taking off the edge 16 to separate the suction cup 11 from the panel 14.

6 depicts an example of a construction of a utility model according to the second embodiment, in which one suction cup is used, wherein button 1 is shown in a depressed state. The utility model consists of a suction cup 11 fixedly mounted in the housing 18 and the housing 18. The suction cup 11 is configured to be pressed against the panel 14 due to the force created by atmospheric pressure. The housing 18 has a portion 19, which is a stop made to press against the panel 14 when pressed against the panel 14 of the suction cup 11. Also, the housing 18 has a portion 20, which is a push made to press due to the force of this pressing, button 1 of any or the device located on the panel 14, to the depth necessary for the operation of this device. The housing 18 may be made of metal or plastic. The suction cup 11 can be fixedly mounted in the housing 18 in a slot 15 specially provided for this.

Fig.13 depicts an isometric view of the construction example of a utility model according to the second embodiment, corresponding to the example depicted in Fig.6. In this case, a suction cup 11 is shown, which is not pressed. In the process of applying the utility model, the user installs the inventive device on the panel 14 and presses on it so that section 19 rests on the panel 14 and section 20 presses on the button 1. This leads to the indentation of the button 1 by the section 20 to the depth necessary for the device to operate, and suctioning the suction cup 11 to the panel 14. This position of the device depicts Fig.6. When the button 1 is pressed in, the resistance of the spring 3 is overcome. Subsequent user actions associated with the use of the utility model shown in FIG. 6 are similar to the corresponding actions with the utility model shown in FIG. 5.

Fig. 14 shows an example of the construction of a utility model according to the second embodiment, in which it is possible to adjust the depth of indentation of button 1 and the ability to move the pressing section depending on the diameter of button 1, while button 1 is shown in the depressed state. The utility model consists of a suction cup 11, a housing 21, a pressure 22 and a stop 23. The suction cup 11 is installed in the slots 24 of the housing 21 motionless and is configured to be pressed against the panel 14 due to the force created by atmospheric pressure. The housing 21 also has a slot 25 along which the user can move the pressure 22 installed therein. In addition, the housing has a threaded hole in which the stop 23 is fixed. The stop 23 is adapted to be pressed against the panel 14 when pressed against the panel 14 of the suction cup 11. The press 22 is made with the ability to press due to the force of this pressing the button 1 of any device located on the panel 14, to the depth necessary for the operation of this device. The housing 21 may be made of metal or plastic.

Before applying the utility model, the user is able to move the pressure 22 along the slot 25 to a position in which he will be in the middle of the pressed button 1. This makes it possible to use the utility model for buttons of different diameters. In addition, by rotating the stop 23 mounted in the housing using a threaded connection 26, the user is able to change the depth of the indentation of button 1 performed by him. This makes it possible to use the utility model for buttons having different indentation depths necessary for operation of the device. In the process of applying the utility model, the user installs the inventive device on the panel 14 and presses on it so that the stop 23 rests on the panel 14, and the pressure 22 presses on the button 1. This leads to the pressing of the button 1 by pressing 22 to the depth necessary for the device to operate, and suctioning the suction cup 11 to the panel 14. This position of the device depicts Fig.14. When the button 1 is pressed in, the resistance of the spring 3 is overcome. Subsequent user actions associated with the use of the utility model shown in Fig. 14 are similar to the corresponding actions with the utility model shown in Fig. 5.

Fig.7 depicts an example of the design of the lining 27 related to the utility model according to the third embodiment, while the button 1 is shown, not in the pressed state. Fig. 8 shows an example of the construction of the utility model according to the third embodiment, in which one suction cup is used, wherein button 1 is shown in the depressed state. The utility model consists of a lining 27, a suction cup 11, a housing 21, a pressure 22 and a stop 23. The lining 27 has a surface to which a suction cup can be sucked and can be made, for example, of a self-adhesive tape such as adhesive tape, or of a sheet of plastic or metal with smooth surface. The overlay 27 may also be a layer of material deposited on the panel 2 by spraying, dyeing, or other similar method. The suction cup 11 is installed in the slot 24 of the housing 21 motionless, and is configured to be pressed against the pad 27 due to the force created by atmospheric pressure. The housing 21 also has a slot 25 along which the user can move the pressure 22 installed therein. In addition, the housing has a threaded hole in which the stop 23 is fixed. The stop 23 is adapted to be pressed against the plate 27 when pressed against the plate 27 of the suction cup 11 account of the force created by atmospheric pressure. The press 22 is made with the ability to press due to this pressing the button 1, located on the panel 2, to the depth necessary for the operation of the device. The housing 18 may be made, for example, of metal or plastic. The suction cup can be made, for example, of silicone. The pressure and emphasis can be made, for example, of plastic, rubber or metal.

Before using the utility model, the user is able to move the pressure 22 along the slot 25 to a position in which he will be in the middle of the button 1 pressed by him. This makes it possible to use the utility model for buttons of different diameters. In addition, by rotating the stop 23 mounted in the housing by means of a threaded connection, the user is able to change the depth of the indentation of button 1 performed by him. This makes it possible to use the utility model for buttons having different indentation depths necessary for operation of the device.

Before the first application of the utility model, the overlay 27 is fixedly mounted, that is, fixed, on the panel 2 near the button 1, which should be kept pressed. Fig. 8 depicts an overlay 27 mounted on a panel 2. The attachment of an overlay 27 near the button 1 can be accomplished, for example, by welding, gluing or using rivets, as well as other fasteners (not shown).

In the process of applying the utility model, the user installs the inventive device without lining 27, depicted in Fig.15, on the panel 2, with pre-installed on the panel 2 overlay 27 depicted in Fig.7. In this case, the suction cup 11 and the stop 23 should be on the lining 27, and the pressure 22 should be on the button 1. Next, the user presses on the inventive device, so that the stop 23 rests on the lining 27, and the pressure 22 pressed the button 1. This leads to indentation buttons 1 by pressing 22 to the depth necessary for operation of the device, and to suction the suction cup 11 to the pad 27. This position of the device depicts Fig. 8. When the button 1 is pressed in, the resistance of the spring 3 is overcome. After this, the user releases the device for holding the buttons of a device in the pressed state, and it continues to hold the button 1 in the pressed state without the help of the user's hands due to the force created by atmospheric pressure. Then he performs the actions he needs, having his hands free from holding button 1 pressed. Then, the user disconnects from the panel 2 the inventive device for holding down the buttons of any device. This disconnection can be done by separating the suction cup 11 from the panel 2 by prying the edges 16 of the suction cup with your fingers 11. The design of the suction cup 11 can be provided with a tongue 17 shown in Fig. 15, which is easier than taking off the edge 16 to separate the suction cup 11 from the panel 2 In this case, the overlay 27 remains on the panel 2 for subsequent use of the inventive device, which depicts Fig.7.

The implementation of the utility model according to the third embodiment is also possible using the designs depicted in FIG. 5 or FIG. 13, which are described above in the implementation section of the utility model according to the second embodiment, with a patch 27.

Fig.9 depicts an example design of a utility model according to the fourth embodiment. At the same time, button 1 of a device in a depressed state is shown.

The utility model consists of a housing 28, a magnet 29 and a pressure 30. The housing 28 is made of a material to which a magnet can be attracted, for example, carbon, tungsten, chrome, aluminum-nickel steel, or other ferromagnets, that is, is that element of the device, to to which a magnet can be attracted. The magnet 29 is configured to be fixedly mounted on the panel 2 of any device. As a magnet material, for example, a neodymium – iron – boron alloy (NdFeB) can be used.

Before the first application of the utility model, the magnet 29 is fixedly mounted, that is, fixed, on the panel 2 near the button 1, which should be kept pressed. The magnet 29 can be fixed near the button 1, for example, by gluing or using any fasteners, for example, staples and rivets (not shown in the drawing). Also, the magnet 29 can be installed in a groove 31 specially milled for it in the panel 2. The pressure 30 is fixedly mounted in the housing 28, for example, by means of pressing-in. Press 30 may be made of any material, for example, metal, rubber or plastic. The side of the housing 28 on which the pressure 30 is located is a portion of the inventive device configured to press against the panel 2. The side of the housing 28 on which the pressure 30 is located is just that portion of the inventive device that is intended for this pressing. Press 30 is a section of the claimed device, made with the ability to press due to this pressing button 1 of any device to the depth necessary for the operation of this device. Press 30 is just the area that is intended for this indentation.

In the process of applying the utility model, the user installs the inventive device, shown in Fig. 12, on the panel 2. At the same time, the section of the device intended for pressing against the panel 2, that is, the side of the housing 28 on which the pressure 30 is located, should be on the panel 2 above the magnet 29 pre-installed on the panel 2. And the pressure 30 should be placed on the button 1. As a result of this installation, due to the force of magnetic attraction between the magnet 29 and the housing 28, the magnet 29 presses the device intended for this pressing com, that is, of the housing 28, on which the pressure to 30 bar 2. This leads to the indentation button 1 of a pressure device 30 to the depth required for operation of this device. Thus, the housing 28 is an element of the device, made with the ability to press this device designed for this pressing section of the device to the magnet, mounted stationary on the panel of this device, due to the force of magnetic attraction between this element and the magnet. Also, the housing 28 is an element of the device, made with the ability to press due to the force of this attraction, intended for this indentation by the section of this device, button 1 to the depth necessary for the operation of this device. This position of the device depicts Fig.9. When the button 1 is pressed in, the resistance of the spring 3 is overcome. After that, the user releases the device for holding the buttons of a device in the pressed state, and it continues to hold the button 1 in the pressed state without the help of the user's hands. Then he performs the actions he needs, having his hands free from holding button 1 pressed. Then, the user disconnects from the panel 2 the inventive device for holding down the buttons of any device. In this case, the magnet 29 remains on the panel 2 for subsequent use of the inventive device.

The slopes of the edges of the housing 28, for which it is convenient to take the fixture by hand, facilitate attachment of the fixture to the panel 2 and disconnect the fixture from the panel 2. In this design of the fixture, the magnet 29 is removed from the contact point of the push 30 with the button 1. This also facilitates the detachment of the fixture from the panel 2. The device can more easily be flipped over to the edge by grasping the edge of the housing 28 opposite from the magnet 29, using the lever effect described above.

The inventive device was made in the form of structures corresponding to each of the presented options and was tested. It kept the button pressed for as long as the user needed.

Claims (4)

1. A device for holding down the buttons of a device containing at least one magnet made with the ability to press this device with the intended portion of the device to the overlay fixed to the panel of the device, to which the magnet can be attracted, due to the force of magnetic attraction between the magnet and the pad and with the ability to press in due to the force of this attraction, the intended portion of this device FCCH this device, disposed on the panel, to the required actuation of the device for depth; also comprising at least one portion configured to be pressed against the above pad, and at least one portion configured to press, when this pressing is performed, this button to the depth necessary to trigger this device, and also containing a pad to which a magnet can be attracted, made with the possibility of being fixedly mounted on the panel. 2. A device for holding down the buttons of a device containing at least one suction cup made with the ability to be pressed against the panel of this device due to the force created by atmospheric pressure, and a section made with the ability to press due to the force this pressing the button of this device, located on the panel, to the depth necessary for the operation of this device. 3. A device for holding down the buttons of a device containing at least one suction cup, made with the possibility of being pressed against the pad located on the panel of this device, due to the force created by atmospheric pressure, and a section made with the ability to press due to the force of this pressure the button of this device located on the panel to the depth necessary for the operation of this device, and also containing a pad to which a suction cup made with It must be fixedly mounted on the panel. 4. A device for holding down the buttons of a device containing at least one element made with the ability to press this device with the intended portion of the device to the magnet mounted stationary on the panel of this device, due to the force of magnetic attraction between this element and the magnet, and with the ability to press due to the force of this attraction, the button of this device, intended for this indentation by the section of this device, is located on the panel, to the depth necessary for actuating this device, also comprising at least one portion configured to be pressed against the above magnet, and at least one portion configured to be pressed when this pressing is performed , this button to the depth necessary for the operation of this device, as well as containing a magnet made with the possibility of being fixedly mounted on the panel.