RU2616907C1 - Door handle assembly - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: door handle assembly comprises the inner handle with a flange connected by a hollow stem to the outer handle, the latch located on the inner handle and connected by a drive rod passing inside the hollow stem with the pawl and the first limit switch, and the first light source arranged on the outer handle. Wherein the door handle assembly comprises the light sensor arranged on the outer handle, the second light source arranged on the inner handle, and the means for converting kinetic energy of turning the outer and the inner handles into light energy, comprising the cylindrical housing with the gear ring and the projection on the inner lateral surface, mounted rotatably inside the inner handle flange and having the first cover with an opening for connection to the hollow stem and the second cover with an opening for the free placement of the hollow stem mounted with the possibility for movable connection relative to the side surface of the cylindrical housing. A spring motor is mounted inside the cylindrical body on the second cover, having the input gear mounted on an axis fixed to the second cover and engaged with the gear ring of the cylindrical housing and the output gear. Inside the cylindrical body there are also the second limit switch, which engages with the projection of the cylindrical housing while rotating, the piezoelectric generator with a piezoelectric plate cooperating with the output spring motor gear when rotating the cylindrical housing, and sequentially connected to the piezoelectric generator the voltage converter and the controller, to the data inputs of which the light sensor, the first and the second limit switches are connected and the outputs are connected to the first and the second light sources.

EFFECT: increasing the operational reliability.

10 cl, 7 dwg

Description

The invention relates to structural elements of locks and can be used mainly in residential premises for doors of bathrooms and toilets.

The specifics of the operation of the door handle assemblies of bathrooms and toilets consists, first of all, of the need to use them at night with the ambient light turned off. In this case, it is necessary to solve the problem of searching in the dark for the location of the door handle and the position of the light switch. In addition, the inclusion of general lighting, including night lighting, is extremely undesirable, both from the point of view of energy saving, and to eliminate inconvenience to other residents of the apartment. It is also necessary to provide an indication of the lock state of the door handle assembly to prevent attempts to enter the bathroom or toilet when it is blocked from the inside, which may lead to failure of the door handle assembly. Thus, the urgent task is to create a door handle assembly that provides energy savings when visiting bathrooms and toilets, as well as an indication of the location of the door handles and the state of their blocking. In this case, to solve this problem, it is of interest to use kinetic energy due to the rotation of the door handles when opening and closing the door.

Known knob door handle (EP 0623720 A1), providing door lock and indication of the status of the lock by means of mechanical variable banners. The disadvantage of such devices is the inefficiency of their use in low light conditions.

Known door handle assembly (CN 202544508 U), in which the light switch is located on the outer door handle, which facilitates the search for the light switch. However, in this case, the position of the door handle is not displayed, and general network lighting is used for lighting.

Knobs of door handles are known (US 20140226318 A1, US 6461013 B1, US 2006/0203471 A1, US 20100295484 A1, US 2011/0084802 A1), which provide adaptive illumination of the outer side of the door and the position of the outer handle at night by signals from sensors processed by the controller , which generates commands to turn on the appropriate light sources placed on the handle. The disadvantage of such devices is the use of an external power source, which does not allow to solve the problem of energy conservation, as well as the lack of indication of the status of the door lock.

Known knob door handle (US 3955075), in which the handle is used as a source of illumination in the room. A disadvantage of the known device is the presence of an external power source and an external light source.

Known door handle assembly (US 7522042), using the kinetic energy of the open door to rotate the rotor of the electric voltage generator, the output of which is connected to consumers through a voltage converter. This solution allows for energy saving and reliability of the security system in emergency situations, for example, in the absence of mains voltage in the room. However, the known solution is technically and technologically complex, primarily because of the complexity of the implementation and operation of the electromagnetic generator. In addition, the generator operates for a limited time (only in the process of opening / closing the door), which limits the amount of generated energy, which in fact can only be used to periodically recharge the battery, and not as an independent power source.

Known door handle assemblies (US 7866195 B2, US 4683741, US 7248163 B2, US 20140311197 A1, US20110016938 A1) that provide control and indication of the status of the door lock. The advantage of these devices is the light indication of blocking by placing light sources on the door handle, which ensures their effective operation in low light and in the dark. A disadvantage of the known devices is the need to use external sources of electrical energy for lighting their bathrooms and toilets.

The closest technical solution adopted as a prototype is the door handle assembly (US 7248163 B2), which contains an internal handle and an external handle connected by a hollow rod, a latch, an electric button, a lock switch located on the internal handle connected by a drive rod, passing inside a hollow rod, with a latch and an electric button drive, and a light source located on the outer handle.

In the known technical solution, when the lock button is placed on the internal handle, the door is locked and the electric button is pressed, which turns on the light source located on the external handle, which indicates the locked state of the door.

However, this technical solution does not allow to solve the problem of energy saving, since external network lighting is used to illuminate the bathroom or toilet. In addition, the location of the door handle and power switch is not provided, which creates problems at night.

The basis of the invention is the creation of a door handle assembly that provides an indication of the state of the door lock, an indication of the location of the handle and room lighting without using external energy sources due to the kinetic energy of pressing the handle.

This object is achieved in that the door handle assembly comprising an internal handle with a flange connected by a hollow rod to the external handle, a latch located on the internal handle and connected by a latch and a first end switch through a drive rod passing inside the hollow rod, and a first source the light placed on the outer handle, according to the invention, contains a light sensor located on the outer handle, a second light source located on the inner handle, and the tool is converted kinetic energy of the rotated external and internal handles into light energy, including a cylindrical body with a gear ring and a protrusion on the inner side surface, mounted inside the flange of the internal handle with the possibility of rotation and having a first cover with a hole for connection with a hollow rod and a second cover with a hole for free placement of the hollow rod, mounted with the possibility of movable connection relative to the lateral surface of the cylindrical body, and installed inside the cylinder of the housing on the second cover, a spring motor having an input gear mounted on an axis fixed to the second cover and meshed with the gear ring of the cylindrical body, and an output gear wheel, the second end switch engaging with the protrusion of the cylindrical body when it is rotated , a piezoelectric generator with a piezoelectric plate interacting with the output gear of the spring motor when the cylindrical body is rotated, and connected in series with the piezo an electric generator, a voltage converter and a controller, to the information inputs of which a light sensor is connected, the first and second end switches, and the outputs are connected to the first and second light sources.

Preferably, the spring motor further comprises a trigger mechanism and sequentially mounted on a shaft mounted on the second cover, a winding wheel engaged with the input gear, a ratchet wheel, an intermediate wheel with the dogs, rigidly mounted on the shaft, and a drum inside which the belt is fixed spring, in the first section of the outer side surface of the drum a gear rim is made that interacts with the trigger mechanism, and in the second section the teeth are evenly spaced, while A second portion of the outer lateral surface of the drum serves as an output gear.

Structurally, it is advisable that a sliding bearing is installed between the inner side surface of the cylindrical body and the second cover, providing a movable connection between the above elements, and a groove-shaped flanging is made on the second cover, while the sliding bearing is made of antifriction material in the form of a stepped ring, one step of which is adjacent to the inner side surface of the cylindrical body, and the second repeats the shape of the groove-shaped flanging and is installed with a gap regarding her.

It is also advisable that the voltage converter was made in the form of a series-connected rectifier, the input of which is the input of the voltage converter, and a drive, the output of which is the output of the voltage converter, and an ionistor was used as the drive.

In addition, it is preferable that the light source on the outside of the handle was made in the form of LEDs of various colors, the light source on the inside of the handle was made in the form of a block of LEDs, the inner and outer handles were made of translucent diffusing material, and the light and lighting sources were placed inside the arms.

The technical result of the present invention is the ability to provide an indication of the state of the door lock, an indication of the location of the handle and the automatic inclusion of lighting in the room without the use of external energy sources. The specified result is achieved in the proposed design of the door handle assembly by converting the kinetic energy of pressing the inner and outer arms into light energy, as well as organizing the necessary logic for the functioning of light sources.

The invention is simple to apply, since the proposed technical solution is implemented as a stand-alone finished unit that easily mates with existing locking elements of door handles used in bathrooms and toilets.

The invention is further illustrated by drawings, which do not cover and, moreover, do not limit the entire scope of the claims of this technical solution, but are only illustrative materials of a particular case of execution.

FIG. 1 is a side view of a door handle assembly, a partial tear out, according to the invention;

FIG. 2 is a section along line AA in FIG. one;

FIG. 3 - nodes of the spring motor, side view, according to the invention;

FIG. 4 - a fragment of a cylindrical body;

FIG. 5 is a view of the inner handle according to the invention;

FIG. 6 is a view of the outer handle according to the invention;

FIG. 7 is a functional electrical diagram according to the invention.

The door handle assembly comprises an internal handle 1 (Fig. 1) with a flange 2, an external handle 3 with a flange 4, interconnected by a hollow rod 5, a latch 6 placed on the internal handle 1 and connected by a drive rod 7 passing inside the hollow rod 5 , with a latch 8 and a first end switch (not shown in FIG. 1). The door handle assembly also includes means 9 for converting the kinetic energy of the rotated external and internal handles into light energy (shown in Fig. 1 conventionally), including a cylindrical body 10 mounted rotatably inside the flange 2, a spring motor, an end switch, a piezoelectric generator with a piezoelectric plate, voltage converter and controller, which will be depicted in the following figures.

The cylindrical body 10 has a first cover 11 with an opening for connection with the hollow rod 5 and a second cover 12 (Fig. 2) with an opening for free passage of the hollow rod 5. The second cover 12 is mounted for movable connection relative to the side surface of the cylindrical body 10. the side surface of the cylindrical body 10 near the second cover 12 is made of a gear ring 13 (shown by a dotted line) and a protrusion 14.

On the outer handle 3, a first light sensor 15 is installed (FIG. 1); a second light sensor 16 can be placed on the inner handle 1, as shown in the described embodiment.

In FIG. 2 shows in detail a means 9 for converting the kinetic energy of the rotatable outer and inner arms into light energy, which comprises a first end switch 17, a spring motor 18, a second end switch 19, a piezoelectric generator 20 with a piezoelectric plate 21 mounted inside the cylindrical body 10 on the second cover 12 voltage converter 22 and controller 23. Electrical connections of the piezoelectric generator 20, voltage converter 22 and controller 23 with other elements of the device will be further shown in FIG.

The spring motor 18 comprises an input gear 24 that is mounted on an axis 25 fixed to a second cover 12 of the cylindrical housing 10, and an output gear 26. The input gear 24 is engaged with the gear rim 13 of the cylindrical housing 10.

The spring motor 18 (Fig. 2, 3) also contains sequentially mounted on the shaft 27 mounted on the second cover 12, the crown 28, engaged with the input gear 24, the ratchet wheel 29, the intermediate wheel 30 with the dogs 31 and the drum 32.

The crown 28 is rigidly connected to the ratchet wheel 29 and rotates freely on the shaft 27, on which the drum 32 also rotates, while the intermediate wheel 30 is rigidly fixed to the shaft 27.

A gear ring 33 is made in one section of the outer lateral surface of the drum 32, which interacts with the trigger 34 (Fig. 2), and another section, on which the teeth 35 are evenly located (Fig. 3), serves as the output gear 26 of the spring motor 18. Inside drum 32 is placed winding spring 36 spiral or S-shaped. The inner end of the spring 36 is fixed to the shaft 27, and its outer end is fixed inside the drum 32 by means of a friction lining (not shown). The elasticity of the friction lining is calculated so that, when fully wound, the outer end of the spring 36 together with the friction lining slides along the inner side surface of the drum 32, which protects the spring 35 from excessive winding and breakage.

A L-shaped lever 37 (Fig. 2) is rigidly connected to the drive rod 7, which is configured to interact with the end switch 16 when the drive rod 7 is rotated. For this purpose, a slot is made in the hollow rod 5 in the installation area of the limit switch 16, which allows free rotation L-shaped lever 37 in the hole 38 made in the cover 12. For fastening to the door leaf in the cover 12, holes 39 are provided. On the second cover 12 there are also holes 40 for stud fasteners for the strap fixing the upper ends of the axis 25 and shaft 27 (studs and pl Anka is not shown in the drawings).

The movable connection of the cylindrical housing 10 with the second cover 12 is provided by a sliding bearing 41 (Fig. 4), which in the described embodiment is a stepped ring made of antifriction material, for example, caprolon or fluoroplastic, the first step of which is fixed with glue or screws to the inner surface of the cylindrical the housing 10 near the location of the second cover 12. At the second stage of the stepped ring, the diameter of which exceeds the diameter of the first stage, a groove 42 is made, which forms the first sliding surface. A gutter-shaped flange 43 is made on the lid 12, repeating the shape of the gutter 42, which forms a second sliding surface. To improve the sliding between the sliding surfaces, a lubricant may be used.

In FIG. 5 and 6 show the appearance of the door handle assembly mounted on the door leaf from the inside and outside, respectively. On the inner handle 1 is placed a light source, made in the form of a block of 44 LEDs. On the outer handle 3 is also placed a light source made in the form of two LEDs 45, 46 of different colors, for example, red and green, respectively. On the outer handle 3 there is an element 47 of forced release of the latch 8.

FIG. 7 illustrates the electrical connection of elements - series-connected piezoelectric generator 20, voltage transducer 22 and controller 23, with other elements of the device. At least one light sensor 14 is connected to the information inputs of the controller 23 (an additional light sensor 15 can also be connected), the first and second end switches 17, 19. The outputs of the controller 23 are connected to the first and second light sources, in this embodiment, to the LED block 44 on the inner handle 1 and LEDs 45, 46 on the outer handle 3.

In the described embodiment, the voltage converter 22 is made in the form of series-connected rectifier 48 and energy storage 49. The rectifier 48 converts the input AC voltage into unipolar half-waves, designed to charge the energy storage 49, which is advisable to use an ionistor having a large capacity, low leakage currents and small dimensions compared to electrolytic capacitors.

The door handle assembly operates as follows.

In the initial state, the controller 23 (Fig. 7) analyzes the signal from the first light sensor 15, and in the case of insufficient lighting generates a signal supplied to the LED 46, green to provide an indication of the location of the outer handle 3. In the case of a sufficient level of lighting, the indication does not turn on. The required threshold of illumination is set when programming the controller 23.

When you press the inner or outer handle 1,3 (Fig. 1), the hollow rod 5 is rotated and disengages the latch 8 from the socket in the door frame (not shown in the drawings), which makes it possible to open the door. At the same time, the cylindrical body 10 is rotated, the protrusion 14 on the inner side surface of which carries out a short press on the end switch 19, which generates a signal supplied to the information input of the controller 23. According to this signal, the controller 23 generates a signal for a short (approximately 3-5 sec) switching on of the unit 44 LEDs on the inner handle 1. If during this time the latch 8 is not locked by turning the latch 6, the signal to turn on the LED block 44 is removed.

When the latch 6 is turned, the L-shaped lever 36 also rotates and presses the limit switch 17, which leads to the formation of an information signal supplied to the input of the controller 23. According to this signal, the controller 23 turns off the first green LED 44 (if it was turned on) and generates a signal to turn on the second red LED 45, as well as a signal to turn on the block of 44 LEDs. This state is maintained during the entire time the latch lock 8 is on and for 3-5 seconds after the lock is released. After that, the door handle assembly returns to its original state.

When installing the second light sensor 16 on the internal handle 1, the controller 23 provides a lock for turning on the LED block 44 in the event of network lighting being turned on in the room.

When the voltage drop at the output of the energy storage device 49 is lower than the predetermined one due to its discharge, the controller 23 generates a flashing signal of the green LED 46. In this case, it is possible to force charge the energy storage device 49 by successive repeated pressing of the handles 1, 3 of the door handle assembly.

A distinctive feature of the present invention is that the electronic components of the door handle assembly are powered without the use of external energy sources, but only through the use of kinetic energy of the movement of the handles.

The energy conversion processes in the door handle assembly are described below.

When you press the outer or inner handle 1, 3 by rotating the hollow rod 5, the cylindrical body 10 is rotated relative to its second cover 12, fixed in a sample of the door leaf. The rotation of the cylindrical body 10 is transmitted through the gear ring 13 to the input gear 24 of the spring motor 18 and then transmitted to the rotary drum 32 through the winding wheel 28. The dogs 31 engage with the oblique teeth of the ratchet wheel 29 in the direction of rotation corresponding to the pressing of the inner or outer handle 1, 3, transmitting the torque from the ratchet wheel 29 to the intermediate wheel 30, rigidly fixed to the shaft 27. Thus, when one of the handles 1, 3 is pressed, the shaft 27 is unidirectionally twisted .

When changing the direction of rotation of the ratchet wheel 29, which corresponds to the return of the handles 1, 3 to their original position, the dogs 31 disengage from the ratchet wheel 29. In this case, the shaft 27 is prevented from being unwound by one of the known mechanisms used in mechanical watches, for example, using dogs or spring-loaded couplings to engage the drum body 32.

The combination of the ring gear 13, the input gear 24 and the crown 28 form a multiplier, providing an increase in the angular velocity of rotation of the shaft 27 and, as a result, an increase in the speed of its rotation relative to the cylindrical body 10.

The drum 32 is driven into rotation around the shaft 27 due to the unwinding energy of the spring 36 placed inside it, and its angular velocity is limited by the trigger mechanism 34, which in this case can be implemented as in a mechanical watch (see, for example, Popova V.D. , Goldenberg NB The device and technology of watch assembly. M.: "Higher School" 1989, pp. 163-174).

When the drum 32 rotates, the teeth 35 on its outer surface engage with the piezoelectric plate 21 of the piezoelectric generator 20, causing free mechanical vibrations in it, as a result of which an alternating voltage arises on the faces of the fixed end of the piezoelectric plate 21, which through the output terminals (in the drawing not shown) the piezoelectric generator 20 is supplied to the input of the voltage Converter 22. As an embodiment, it is possible to mount the piezoelectric generator 20 directly on the board of the voltage converter 22.

Forced unlocking of the latch 8 is provided by an element 47 mounted on the outer handle 3.

The alternating voltage is converted into unipolar half-waves in the rectifier 48 and is used to charge the drive 49, the output voltage from which is supplied to the controller 23, which provides the processing of input information signals and the formation of commands to turn on the light sources in accordance with the algorithm described above.

The implementation of the inner and outer arms of a translucent diffusing material and the placement of light sources and light sensors inside the arms allows you to obtain soft diffused light.

Thus, the present invention allows the indication of the state of the door lock, indication of the location of the handle and the automatic inclusion of room lighting without the use of external energy sources by converting the kinetic energy of pressing the internal and external handles into light energy.

The invention is simple to implement, since the technical solution is practically implemented in the form of a stand-alone finished unit, which is easily interfaced with existing designs of door handle assemblies used on the doors of bathrooms and toilets.

Claims (11)

1. The door handle assembly comprising an inner handle with a flange connected by a hollow stem to an outer handle, a latch located on the inner handle and connected by a latch rod passing inside the hollow stem with a latch and a first end switch, and a first light source located on the outer handle, characterized in that it contains a light sensor located on the outer handle, a second light source located on the inner handle, and means for converting the kinetic energy of the rotated external and internal handles in light energy, including a cylindrical body with a gear rim and a protrusion on the inner side surface, mounted inside the flange of the internal handle with the possibility of rotation and having a first cover with a hole for connection with a hollow rod and a second cover with a hole for free placement of the hollow rod mounted movably relative to the side surface of the cylindrical body, and mounted inside the cylindrical body on the second spring cover a motor having an input gear mounted on an axis fixed to the second cover and meshed with a gear ring of a cylindrical body, and an output gear wheel, a second end switch engaged with a protrusion of the cylindrical body when it is rotated, a piezoelectric generator with a piezoelectric a plate interacting with the output gear of the spring motor when the cylindrical body is rotated, and the transformer connected in series with the piezoelectric generator a voltage amplifier and a controller, to the information inputs of which a light sensor is connected, the first and second end switches, and the outputs are connected to the first and second light sources. 2. The assembly according to claim 1, characterized in that the spring motor further comprises a trigger and sequentially mounted on a shaft fixed to the second cover, a winding wheel engaged with the input gear, a ratchet wheel, an intermediate wheel with doggies, rigidly fixed to the shaft, and the drum, inside which the belt spring is fixed, a gear rim interacting with the trigger is made in the first section of the outer lateral surface of the drum, and the teeth are evenly located on the second section, wherein the second portion of the outer lateral surface of the drum serves as the output gear. 3. The node according to claim 1, characterized in that between the inner side surface of the cylindrical body and the second cover is a sliding bearing that provides a movable connection between the above elements. 4. The assembly according to claim 3, characterized in that the second cover is made of a groove-shaped flanging, while the sliding bearing is made of antifriction material in the form of a stepped ring, one step of which is adjacent to the inner side surface of the cylindrical body, and the second repeats the shape of the groove-shaped flanging and installed with a clearance relative to it. 5. The node according to claim 1, characterized in that the voltage converter is made in the form of a series-connected rectifier, the input of which is the input of the voltage converter and energy storage, the output of which is the output of the voltage converter. 6. The node according to p. 5, characterized in that the drive is made on the basis of an ionistor. 7. The node under item 1, characterized in that the light source on the outer handle is made in the form of two LEDs of different colors. 8. The node according to claim 1, characterized in that the light source on the inner handle is made in the form of a block of LEDs. 9. The node according to claim 1, characterized in that it contains an additional light sensor mounted on the inner handle. 10. The node according to claim 1, characterized in that the inner and outer arms are made of translucent scattering material, and the first and second light sources and a light sensor are installed inside the arms.

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