WO2023063849A1 - Door stop - Google Patents

Abstract

The invention relates to devices for holding doors open. The technical result of the proposed invention consist in improved manufacturability and reliability. A door stop comprises a door-mountable part and a floor-mountable part, wherein the door-mountable part is magnetically cooperable with the floor-mountable part. The door-mountable part includes a blockable stop part. The door-mountable part has two stop parts, the first of which is greater in height than the second. An engaging member bears against the first stop part when the door attempts to move in a first direction, and bears against the second stop part when the door attempts to move in the opposite direction. The engaging member has a smooth transitional region.

Description

DOOR LATCH

Technical field

The invention relates to devices for fixing a door in the open position.

Prior Art

An analogue is known - a door latch - US2497697, 09/08/1947, containing a sleeve adapted for installation in the floor, an anchor that is vertically movable in the sleeve and adapted to fit flush with the floor surface when lowered, a magnet adapted for installation in the door at its lower edge, moreover, the end surface of the magnet is flush with the bottom of the door, the magnet is adapted to lift the anchor from the floor when the door is placed above it, and the specified anchor has a large diameter upper part adapted to be placed in a recess in the floor, when the anchor is lowered, the magnet has a central hole , adapted to receive a single wood screw, has a piece mounted on the end of the magnet that has a hole aligned with the hole in the magnet, a wood screw that goes through the piece, and a magnet that is adapted to secure the magnet and piece to the door.

The disadvantage of analogue is the low functional reliability of the door latch, namely, that it takes a little effort to remove the door from the locked state. When there is a draft under the influence of wind or when the door is lightly touched, the magnet and the anchor disengage, removing the door from the locked state. An analogue is known - a door latch - RU2734195, 01/05/2017, adopted as a prototype, containing a part placed in the door and a part placed in the floor, and the part placed in the door is made with the possibility of magnetic interaction with the part placed in the floor to lift the engaging element placed in the floor a part when the door is moved in a predetermined direction, characterized in that the part placed in the door includes an inclined part for supporting against and moving down the engagement member when the door is moved in a predetermined direction to bring the door to a soft stop; and a locking portion disposed relative to the inclined portion such that the door is movable following the inclined portion, and shaped to be lockable by the engagement member to stop the door when the door is slammed.

The disadvantage of the prototype is the low manufacturability of the latch, which is due to the fact that the manufacture of an engaging element with a flexible upper part involves first turning the engaging element itself, and then installing it in an injection molding machine for casting at its end a flexible damping upper part that is in contact with the part placed in door part. The laying of the part in the injection molding machine can only be carried out manually. Such a technological process is characterized by a large expenditure of time and expensive technical equipment. In the absence of a flexible upper part of the part, the connection has a low resource due to increased resistance to movement along the inclined part and friction during this movement, as well as a high level of noise during movement, especially if the rubbing surfaces are made of steel. The second disadvantage of the prototype is the low functional reliability of the door latch, namely the fact that the inclined surface of the engaging element has a weak locking function and does not hold the door in a given position. During the opening of the door, it resiliently hits the locking part on the engaging element and rebounds in the opposite direction. The engaging element slides along the inclined surface, and the door does not receive the required fixation in a predetermined open position. The low functional reliability also includes the fact that a small force is required in the direction of movement of the engaging element along the inclined part to remove the door from the locked state. In the event of a draft under the influence of wind or a light touch, the door is easily removed from the locked state, which is an undesirable effect.

Disclosure of invention

The technical result of the invention is to improve the manufacturability of the device and increase the functional reliability of the door latch.

The technical result is achieved in a door latch containing a part placed in the door and a part placed in the floor, and the part placed in the door is made with the possibility of magnetic interaction with the part placed in the floor to lift the engaging element of the part placed in the floor when moving the door above it, placed in the door the part includes a locking part configured to block the movement of the door with the part placed in the door through the engaging element to stop the door, the part placed in the door has two locking parts, the first of which has a greater height than the second, and the locking parts are located so that that the engaging element abuts against the first locking part when trying to move the door in the first direction, and into the second locking part when trying to move the door in the opposite direction, the engaging element has a smooth transitional section from the end surface to the vertical surface for contact with the second locking part, the second locking part has a height less than the height of the transition section of the engaging element.

The transition section from the end surface to the vertical surface of the engaging element can be made by rounding with a radius.

The transition section from the end surface to the vertical surface of the engaging element can be chamfered.

The transition section from the end surface to the vertical surface of the engaging element can be made with a side bevel.

The height of the second locking part can be half the height of the transition section of the engaging element.

The locking parts can be made of glass-filled polyamide, and the engaging element can be made of steel.

Brief description of the drawings

Figure 1 shows a cross section of the door latch.

Figure 2 shows the engaging element of the door latch, the transition section of which is made rounded with a radius.

On fig.Z shows a flashing placed in the door of the door latch.

Figure 4 shows an enlarged sectional view of the door latch. Figure 5 shows the engaging element of the door latch, the transition section of which is chamfered.

Figure 6 shows the engaging element of the door latch, the transition section of which is made with a side bevel.

The door latch contains a part 2 placed in the door 1, as shown in figure 1, and a part 4 placed in the floor 3, and the part 2 placed in the door 1 is made with the possibility of magnetic interaction with the part 4 placed in the floor 3 to lift the engaging element 5 of the placed in the floor 3 of part 4 when the door 1 moves above it, the part 2 placed in the door 1 includes a locking part 6 (and 7) configured to block the movement of the door 1 with the part 2 placed in the door through the engagement element 5 to stop the door 1 placed in the door 1 part 2 has two locking parts 6, 7, the first 6 of which has a greater height hi than the second 7 hi (Fig.1, 4), and the locking parts 6, 7 are located so that the engaging element 5 abuts in the first locking part 6 when trying to move the door 1 in the first direction, and in the second 7 when trying to move the door 1 in the opposite direction, the engaging element 5 has a transition section 8 from the end surface 9 to the vertical surface 10 for contact with the second locking part 7, which is made with a radius r, as shown in figure 2, the second locking part 7 has a height hi less than the radius r of the transition section of the engaging element 5. Embodiment of the invention and industrial applicability

Consider an example of a specific implementation of a door latch. The part 2 placed in the door 1 contains a flashing 11 made of plastic, in which the locking parts 6, 7 are located, and it also contains a neodymium magnet 12. The magnet 12 is installed in a hole pre-drilled in the lower end of the door 1 and closed with a flashing 11, which is fixed with screws (not shown in the drawing) through the mounting holes 13, shown in Fig.Z, in the flashing 11. The flashing 11 is a rectangular plate, it is made of molded wear-resistant plastic such as glass-filled polyamide. It is allowed to make the flashing 11 from other plastic grades with similar properties. When it is made of soft plastic such as polypropylene or polyethylene, the technical result will be achieved, but the device will quickly fail due to wear due to the properties of the material. The flashing can be made of sheet steel by stamping. The second locking part 7 is the cylindrical surface of the recess 14 in the flashing plate 11, as shown in FIG. The first locking part 6 is a cylindrical surface that continues the surface of the recess 14 and is formed by a lug-protrusion 15 above the flashing plate 11. The height of the first locking part |=3mm, the height of the second locking part 112=1mm. The absence of an inclined part, as in the prototype, makes the flashing device 11 easier to manufacture, increasing the manufacturability of the device. And also increases the reliability of fixing the door 1 in the open position. Placed in the floor 3 part 4 contains a hooking element 5 and a decorative pad 16. The engaging element 5 is made of steel by turning on a lathe and is made in the form of a cylindrical element with a diameter of d=8mm, as shown in Fig.2. The transitional radius section 8 is rounded with a radius r=2mm, its height is equal to the radius. This design eliminates the need to manufacture a flexible upper part, as in the prototype. This improves the manufacturability of the device. Due to the presence of a radius r, it is possible to withdraw the door 1 from the fixed position, but also securely fix it in the open position. The transition section 8 from the end surface 9 to the vertical surface 10 of the engaging element 5 can be made with a chamfer Cx45°, as shown in Fig.5. The transition section 8 from the end surface 9 to the vertical surface 10 of the engaging element 5 can be made with a side bevel d, as shown in Fig.6. To apply such options in the implementation example described above, the dimensions C=2mm and b=2mm, respectively, are used.

Consider an example of the operation of a door latch. The device is used to limit the movement of the door when opening and hold it in the open position from unwanted movement in the event of a draft or accidental contact with the door. The limitation of the opening stroke is necessary, for example, to prevent the door 1 from hitting the wall when opened. To do this, part 4 placed in the floor 3 is installed in a place where it is necessary to fix the door 1 in the open position. When the door 1 moves over the engaging element 5, the engaging element 5 is pulled out of its socket by the action of the force of the magnet 12. As a result, the engaging element 5 is pressed with its end face 9 to the bottom of the recess 14. With further movement of the door 1 in the direction of opening, the engaging element 5 abuts against the first locking part 6, blocking the further movement of the door 1. When the door 1 is acted upon in the opposite direction towards the closing with a small force, for example, from a draft or accidental contact, the radius section 8 of the engaging element 5 rests against the second locking part 7, preventing the closing of the door 1. Reliable fixation is provided by the connection of the radius section 8 and the locking part 7, which has a lower height R2 than the value of the radius r of the radius section. With the ratio indicated in the example, namely the height of the second locking part is half the height of the transition section of the engaging element, the greatest effect of increasing the functional reliability of the device is achieved in the form of reliable fixation from unwanted deviation of the door with the possibility to deflect the engaging element with a large force to close the door. In the prototype, due to the presence of the inclined part instead of the locking part 7, the engaging element 5 slips along the inclined part with little force and therefore does not provide reliable fixation. When the door is intentionally closed, a greater force is generated, as a result of which the radius section 8 slips along the edge of the locking part 7 and the engaging element 5 goes down, out of the force of the magnet 12, allowing the door 1 to be closed. the engaging element 5 quickly disengages, in contrast to the prototype, in which it passes for some time along the inclined part. Therefore, it does not create noise during this movement, and this connection is durable and reliable. Prototypes of the device according to the invention and the device of the prototype were made, which confirmed the high manufacturability of the device according to the invention and greater functional reliability in comparison with the prototype.

Claims

CLAIM

1. A door latch comprising a door-located portion and a floor-located portion, wherein the door-located portion is configured to magnetically interact with the floor-located portion to lift the engaging element of the floor-located portion when the door is moved above it, the door-located portion includes a flashing in which the first and second locking parts are located, made with the possibility of blocking the movement of the door with the part placed in the door through the engaging element to stop the door, while the first locking part has a greater height than the second, while the second locking part is cylindrical the surface of the recess in the flashing plate, and the first locking part is a cylindrical surface that extends the surface of the recess and is formed by a lug-protrusion above the flashing plate, and the locking parts are located so that the engaging element abuts against the first locking part when trying to move the door in the first direction, and into the second locking part when trying to move the door in the opposite direction, the engaging element has a smooth transitional section from the end surface to the vertical surface for contact with the second locking part, the second locking part has a height less than the height of the transitional section of the engaging element.

2. The door latch according to claim 1, characterized in that the transition section from the end surface to the vertical surface of the engaging element is rounded with a radius.

3. The door latch according to claim 1, characterized in that the transition section from the end surface to the vertical surface of the engaging element is chamfered.

4. The door latch according to claim 1, characterized in that the transition section from the end surface to the vertical surface of the engaging element is made with a side bevel.

5. The door latch according to claim 1, characterized in that the height of the second locking part is half the height of the transition section of the engaging element.

6. The door latch according to claim 1, characterized in that the locking parts are made of glass-filled polyamide, and the engaging element is made of steel.