KR102082720B1 - Latch assembly - Google Patents

Abstract

The present invention relates to a latch assembly, which locks a door with respect to a frame. The latch assembly includes: a support base; a sleeve-shaped cam coaxially arranged in a sleeve of the support base; a plug-shaped cap; and a second compression spring arranged between the blocked inner end portion of the sleeve-shaped cam and the plug-shaped cap, thereby providing an easy installation process.

Description

Latch assembly

The present invention relates to a latch assembly, and more particularly to a latch assembly for locking a door to a frame.

In relation to the latch assembly, there is a Republic of Korea Patent '10 -0577730 '. The patent discloses a latch assembly in which the sleeved cam and the movement-control sleeve consist of one member and the shaft component is integrally formed with the other members. The latch assembly of the patent is a latch assembly mounted along an edge of a door overlapping a cabinet frame and locked inside the cabinet frame by a rotational and pulling operation, the door having an inwardly projecting sleeve and an exterior of the door. A support base of the hollow cylindrical body having an ear portion positioned at the fixed base is fixed, and a plug-type cap is disposed coaxially with the sleeve in the sleeve on the ear side of the support base, and in the sleeve inside the support base is the opposite. A pair of cam slots and axial and rotational slots are formed, and a sleeve-like cam with an inner end walled thereon is disposed coaxially with the sleeve, and a cross pin is inserted into a central portion of the inner end of the plugged cap. The cross pin insertion part through which the cross pin insertion hole is formed is integrally formed to form the sleeve cam. It is inserted into the inner circumference, the central portion of the closed inner end of the sleeve-shaped cam is formed with a threaded portion formed on the outer circumferential surface and the latching pole fastening portion is formed integrally and extends inwardly, Coil compression springs are disposed between the cross pin insertion portions, opposite ends of the cross pins are positioned in cam slots of the sleeve-like cam, and a pair of opposite through holes are formed in the support base. The guide pin is fitted intermittently, characterized in that the distal end of the guide pin is located in the axial and rotational slots of the sleeve-type cam.

The present invention is to provide a latch assembly that provides an improved operating feeling and easy installation process.

According to one aspect of the invention, the sleeve 31 protruding in the inward direction of the door or door frame, the ear portion 38 located outside the door or the door frame, and the through hole formed in the sleeve 31 ( A support base 30 comprising 133; A sleeve inserted in the sleeve 31 and including a cam slot 25 and axial / rotational slots 41 and 42 formed over a specific position in an extension direction (x-axis) of the support base 30. Type cam 20; The plug-type cap 10 is inserted into the sleeve 31 and the sleeve-type cam 20, and includes a pin insertion portion 53 having a pin insertion hole 52 into which the pin 60 is to be inserted. ; A second compression spring (62) disposed between the first bottom portion formed in the sleeve-type cam (20) and the plug type cap (10); The pin 60 inserted into the pin insertion hole 52; And it may provide a latch assembly including a guide pin inserted into the through hole 133. At this time, the guide groove 51 is formed along the outer circumferential direction at a position corresponding to the through hole 133 of the support base 30 among the outer circumferential surface of the pin insertion portion 53, one end of the guide pin Exposed by the through hole 133, the other end of the guide pin is fitted into the guide groove 51 is disposed inside the plug-type cap (10).

At this time, the pin insertion portion (53) of the plug-type cap (10) is formed with a spring insertion hole (80) including a blocked second bottom portion, the spring insertion hole in the first compression spring (81) and the bead 82 may be inserted sequentially.

In this case, a first stop hole 28 is further formed on an outer circumferential surface of the sleeve type cam 20, and the first compression spring 81 and the bead 82 are inserted into the spring insertion hole 80. After the first compression spring 81 is compressed in the state, the sleeve type cam 20 is rotated with respect to the plug type cap 10, and the plug type cap 10 is rotated with respect to the sleeve type cam. When pressing against the 20, the beads 82 may be fitted into and fixed to the first stop hole 28.

In this case, the cam slot 25 is an axial segment 251, an outer circumferential long segment 253, an outer circumferential short segment 254 parallel to a portion 253b of the outer circumferential long segment 253, and the An inclined segment 252 corresponding to the remaining portion 253a of the circumferentially long segment 253, wherein the side portion of the exposed portion of the head end of the pin 60 contacts the edge of the cam slot 25. When the pin 60 is inserted into the pin insertion hole 52 to rotate the plug type cap 10 with respect to the sleeve type cam 20, the exposed portion of the head end of the pin 60 is exposed. The side portion of the portion may be adapted to slide along the inclined segment 252 of the cam slot 25.

In this case, a second stop hole 29 is further formed on an outer circumferential surface of the sleeve cam 20, and the pin 60 is inserted into the pin insertion hole 52 to close the plug type cap 10. When the side surface portion of the exposed portion of the head end of the pin 60 is slid along the inclined segment of the cam slot 25 by rotating about the sleeved cam 20, the bead 82 is formed in the It can be fitted into the two stop holes (29).

At this time, the diameter of the beads 82 is larger than the diameter of the first compression spring 81, larger than the diameter of the first stop hole 28, and larger than the diameter of the second stop hole 29. Can be.

At this time, when the bead 82 is fitted to the first stop hole 28, when the force is applied to the plug-shaped cap 10 in the extension direction (x-axis) of the support base 30, the plug The second compression spring 62 disposed between the cap 10 and the sleeve cam 20 is compressed so that the side portion of the exposed portion of the head end of the pin 60 is substantially compressed. Can move along the axial segment 251 of the cam slot 25.

According to the present invention, since the beads provided to the latch assembly respectively in the open and closed states of the latch assembly are fitted with elastic force by the first compression spring to the first stop hole and the second stop hole, the state of the latch assembly is changed. It provides a beneficial effect that can be easily perceived by touch.

Furthermore, according to the present invention, by providing a cam slot having a special shape in the latch assembly, it is possible to easily determine the position where the latching pole should be positioned on the latching pole fastening part in the process of coupling the latch assembly to the door. to provide.

1 is a block diagram of a latch assembly according to an embodiment of the present invention.
Figure 2 shows in detail the plugged cap and pin insert of the latch assembly according to an embodiment of the present invention.
3 shows a sleeved cam and a combination of sleeved cam and plug type cap as viewed from various aspects in accordance with one embodiment of the present invention.
4 is a view for explaining the coupling relationship between the sleeve-type cam and the latching pole according to an embodiment of the present invention.
Figure 5 shows an assembly flow diagram of a latch assembly according to an embodiment of the present invention.
FIG. 6 is a view illustrating a step of inserting a combination of a pluggable cap and a sleeved cam into a support base according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. However, the present invention is not limited to the embodiments described herein and may be implemented in various other forms. The terminology used herein is for the purpose of understanding the embodiments only and is not intended to limit the scope of the present invention. Also, the singular forms used below also include the plural forms unless the phrases clearly indicate the opposite meanings.

1 shows a schematic diagram of a latch assembly 1 according to an embodiment of the present invention.

The latch assembly 1 includes a support base 30, a pluggable cap 10, a sleeved cam 20, a pin 60, and a first compression spring, which are screwed and fixed to a door or a door frame (not shown). 81, a second compression spring 62, and a bead 82, a latching pole (not shown).

FIG. 2 shows the plugged cap 10 of the latch assembly 1 shown in FIG. 1 in detail.

FIG. 3 shows the sleeve type cam 20 and the combination of the sleeve type cam 20 and the plug type cap 10 shown in FIG. 1.

FIG. 3A is a front view of the sleeve cam 20 shown in FIG. 1, FIG. 3B is a rear view of the sleeve cam 20, and FIG. 3C is shown in FIG. The front view according to the first engagement state of the combination of the sleeve type cam 20 and the plug type cap 10 shown is shown.

Hereinafter, a description will be given with reference to FIGS. 1 to 3.

The support base 30 may be fixed to the door or door frame (not shown) by screwing. When the support base 30 is fixed to the door or the door frame, the support base 30 includes a sleeve 31 protruding into the door and an ear portion 38 positioned outside the door. The support base 30 may be hollow cylindrical.

In the sleeve 31 on the ear 38 side of the support base 30, a combination of the plug type cap 10 and the sleeve type cam 20 may be coaxially disposed. One through hole 133 may be formed in the support base 30.

Guide pins (not shown) may be fitted into the through holes 133.

The pin insertion portion 53 integrally formed at the central portion of the inner end of the plug type cap 10 may be formed with a spring insertion hole 80 whose inner end is blocked by the third bottom portion. The pin insert 53 may be generally hollow cylindrical. Spring insertion hole 80 may be formed extending in the radial direction toward the central axis direction of the cylindrical.

The first compression spring 81 may be inserted into the spring insertion hole 80 to be seated on the third bottom portion, and then the bead 82 may be inserted onto the first compression spring 81. The diameter of the beads 82 may be larger than the inner diameter of the first compression spring 81. That is, the beads 82 may be prevented from falling into the first compression spring 81.

In addition, the pin insertion portion 53 is formed with a pin insertion hole 52 (FIG. 2) in which a second bottom portion is formed and blocked therein, and a pin 60 is inserted into the pin insertion hole 52. The pin 60 may be inserted into the pin insertion hole 52 through the cam slot 25 formed in the sleeve type cam 20.

A guide groove 51 is formed along the outer circumferential direction in a portion of the outer circumferential surface of the pin insertion portion 53 corresponding to the through hole 133 of the support base 30. The guide groove 51 may be formed over about 180 degrees along the outer circumferential surface of the pin insertion portion 53.

The guide groove 51 and the pin insertion hole 52 are opposite to each other along the radial direction (R direction) of the plug type cap 10 on the same position along the axial direction (x direction) of the plug type cap 10. It may be formed in. In FIG. 1, the pin insertion hole 52 is hidden.

In one embodiment of the present invention, the fitting groove 111 may be formed on the outer circumferential surface near the outer end of the plug-type cap (10). The rubber ring 112 may be fitted into the fitting groove 111. Due to the rubber ring 112, the plug-type cap 10 and the support base 30 near the outer end may be waterproof. Components of the fitting groove 111 and the rubber ring 112 may be omitted according to the embodiment.

The sleeve type cam 20 has a first stop hole 28, a second stop hole 29, one cam slot 25, and one axial direction (x direction) slot 41 and a rotation direction (R direction). The slot 42 is formed, and is closed by the 1st bottom part in the inside at the position F1. The axial slot 41 and the rotational slot 42 are continuously connected to each other at each end, and the axial / rotational slots 41 and 42 through the axial slot 41 and the rotational slot 42. ) May be referred to. A second compression spring 62 is disposed between the first bottom portion of the sleeve-type cam 20 and the pin insertion portion 53.

At the right end of the sleeve-type cam 20, a latching pole fastening portion 55 in which a threaded portion 54 for fastening a latching pole (not shown) may be integrally formed on an outer circumferential surface thereof.

The one cam slot 25 and the axial / rotational slots 41 and 42 may be formed at positions overlapping each other on the x-axis.

As shown in FIG. 3A, the edge of the cam slot 25 may form a closed curve. The edge of the cam slot 25 may be divided into four segments. That is, the edge of the cam slot 25 is an axial segment 251, an circumferential long segment 253, an circumferential short segment 254 parallel to a portion 253b of the circumferential long segment 253, And an inclined segment 252 corresponding to the remaining portion 253a of the circumferential long segment 253.

At this time, the lower end of the circumferential long segment 253 (ie, the -y direction end) and the lower end of the circumferential short segment 254 (ie, the -y direction end) have a first curve having a substantially semicircular shape. The segments S1 may be connected to each other. Also, the left end (ie, -x direction end) of the axial segment 251 and the top end (ie, + y direction end) of the inclined segment 252 may be connected to each other by the second curve segment S2. Can be. Further, the right end (ie, + x direction end) of the axial segment 251 and the upper end (ie, + y direction end) of the circumferential long segment 253 are connected to each other by the third curve segment S3. It may be. The first curved segment S1, the second curved segment S2, and the third curved segment S3 may each have a profile having the same curvature as the curved profile of the circular cross section of the pillar to be inserted among the pins 60. have.

1, 2, and 3 (c), the pin 60 is inserted into the pin insertion hole 52 of the plug type cap 10 through the cam slot 25.

1 and 3 (c) together, the pin insertion hole 52 is blocked by the second bottom surface. Accordingly, one end of the pin 60 is in contact with the cam slot 25 and the other end of the pin 60 is located on the second bottom surface of the pin insertion hole 52.

4 is a view for explaining the coupling relationship between the sleeve type cam 20 and the latching pole 70 according to an embodiment of the present invention.

The latching pole fastening portion 55 of the sleeve-type cam 20 is mounted with the latching pole 70 by a pair of nuts 71. The latching pole 70 is caught inside the door or the door frame (not shown).

Figure 5 shows an assembly flow diagram of a latch assembly according to an embodiment of the present invention.

Hereinafter, a description will be given with reference to FIGS. 1 to 3 and 5.

In step S10, the second compression spring 62 is inserted into the sleeved cam 20. Since the inner side of the sleeved cam 20 is blocked at position F1 by the first bottom portion, a second compression spring 62 can be seated on the first bottom portion of the sleeved cam 20. In the state seated on the first bottom portion of the sleeved cam 20, the second compression spring 62 may have a length that does not protrude out of the sleeved cam 20.

In step S20, the pluggable cap 10 is inserted into the sleeved cam 20, and the plugged cap 10 is sleeved so that the spring insertion hole 80 is exposed to the outside through the cam slot 25. It rotates with respect to the type | mold cam 20.

In step S30, the first compression spring 81 is inserted into the spring insertion hole 80. Since the spring insertion hole 80 has the blocked third bottom portion, the first compression spring 81 may be seated on the blocked third bottom portion of the spring insertion hole 80. The length of the first compression spring 81 is such that the first compression spring 81 does not protrude out of the spring insertion hole 80 while the first compression spring 81 is seated on the blocked bottom. Can be.

In step S40, the beads 82 are placed on the exposed ends of the first compression spring 81.

In step S50, the bead 82 is pressed in the direction of the first compression spring 81 to keep the first compression spring 81 compressed, and then the sleeve-type cam 20 is plugged with a plug cap ( While rotating relative to 10), the second compression spring 62 is pressed by pressing the plug type cap 10 against the sleeve type cam 20 in the x-axis direction. In this way, the beads 82 are aligned with the first stop hole 28 formed in the sleeved cam 20. In this way, the beads 82 may be inserted into the first stop holes 28 and fixed by the elasticity of the first compression spring 81. At this time, the pin insertion hole 52 of the plug type cap 10 is located at the first position P1 of the cam slot 25. At this time, if the plug-type cap 10 is not rotated or pressed with a certain level or more with respect to the sleeve-type cam 20, the plug-type cap 10 is formed by the bead 82 inserted into the first stop hole 28. ) May maintain a fixed position relative to the sleeved cam 20. To this end, the diameter of the beads 82 may be larger than the diameter of the first stop hole 28.

In step S60, the pin 60 is inserted into the pin insertion hole 52. The pin insertion hole 52 has the second bottom portion blocked. The inserted pin 60 is seated on the blocked second bottom portion of the pin insertion hole 52, wherein the head end of the pin 60 protrudes outward of the outer circumferential surface of the pin insertion portion 53. The side portion of the protruding portion of the head end of the pin 60 contacts the side wall portion of the cam slot 25.

In step S70, the pluggable cap 10 is rotated with respect to the sleeved cam 20. At this time, when the plug type cap 10 is rotated, the second compression spring 62 is compressed, and the side portion of the protruding portion of the head end of the pin 60 is along the inclined segment 252 of the cam slot 25. Slip In this case, the beads 82 may be separated from the first stop hole 28. When the pin 60 reaches the second position P2 of the cam slot 25, the bead 82 moves to the position of the second stop hole 29, where the bead 82 is the second stop hole. It is fixed to 29. At this time, if the plug-type cap 10 is not rotated or pressed against the sleeve-type cam 20 by a predetermined level or more, the plug-type cap 10 is formed by the beads 82 inserted into the second stop hole 29. ) May maintain a fixed position relative to the sleeved cam 20. To this end, the diameter of the beads 82 may be larger than the diameter of the second stop hole 29.

In step S80, the combination of the pluggable cap 10 and the sleeved cam 20 is inserted into the support base 30. In this case, as shown in FIG. 6, the through hole 133 may be aligned with respect to the guide groove 51.

In step S90, the guide pin is inserted into the through hole 133 formed in the support base 30. The distal end of the guide pin may be located in the axial / rotational slots 41 and 42.

Disassembly of the latch assembly 1 can be reversed from the order of each step of FIG. 5.

6 is a view illustrating a process of inserting a combination of a plug-type cap and a sleeve-type cam into a support base according to an embodiment of the present invention.

When inserting the combination of the plug type cap 10 and the sleeve type cam 20 into the support base 30, the axial direction / rotation of the guide groove 51 and the sleeve type cam 20 of the plug type cap 10. Direction slots 41 and 42 may be aligned with each other. In this case, the assembly may be inserted into the support base 30 such that the aligned portions of the assembly are aligned with the through holes 133 of the support base 30. Then, the guide pin may be inserted into the guide groove 51 through the through hole 133 and the axial / rotational slots 41 and 42.

The diameter of the beads 82 may be larger than the diameter of the first compression spring 81, the diameter of the first stop hole 28, and the diameter of the second stop hole 29.

According to one embodiment of the present invention, in the state where the bead 82 is fitted in the first stop hole 28, the extension direction (x-axis) of the support base 30 with respect to the plug-type cap 10 The second compression spring 62 disposed between the plug-type cap 10 and the sleeve-type cam 20 is compressed by applying a force, and at this time, exposure of the head end of the pin 60 is exposed. The side portion of the recessed portion may move substantially along the axial segment 251 of the cam slot 25. Due to this feature, the latch assembly 1 according to the embodiment of the present invention can be easily fixed to the door or the door frame. Because of the thickness of the door and the door frame, the position on the latching pole fastening portion 55 of the latching pole 70, i.e., the position in the x-axis direction, needs to be adjusted. During the installation of 1), it is necessary to adjust the gap between the plug-type cap 10 and the sleeve-type cam 20, and at this time, the cam slot 25 having a shape by the axial segment 251 The shape can provide an advantageous effect.

By using the embodiments of the present invention described above, those belonging to the technical field of the present invention will be able to easily make various changes and modifications without departing from the essential characteristics of the present invention. The contents of each claim of the claims can be combined with other claims that are not cited within the scope of the claims.

10: pluggable cap
20: sleeve type cam
25: cam slot
28: 1st stop hole
29: 2nd stop hole
30: support base
31: sleeve
38: ladies
41: axial slot
42: rotation direction slot
51: guide groove
52: pin hole
53: pin insert
60: pin
62: second compression spring
80: spring insertion hole
81: first compression spring
82: beads
133: through hole
251: axial segment
252: sloped segment
253: circumferential long segment
254: short circumferential segment

Claims (7)

A support base including a sleeve 31 protruding inwardly of the door or door frame, an ear portion 38 located outside the door or the door frame, and a through hole 133 formed in the sleeve 31 ( 30);
A sleeve inserted in the sleeve 31 and including a cam slot 25 and axial / rotational slots 41 and 42 formed over a specific position in an extension direction (x-axis) of the support base 30. Type cam 20;
The plug-type cap 10 is inserted into the sleeve 31 and the sleeve-type cam 20, and includes a pin insertion portion 53 having a pin insertion hole 52 into which the pin 60 is to be inserted. ;
A second compression spring (62) disposed between the first bottom portion formed in the sleeve type cam (20) and the plug type cap (10);
The pin 60 inserted into the pin insertion hole 52; And
A guide pin inserted into the through hole 133;
Including;
A guide groove 51 is formed along the outer circumferential direction at a position corresponding to the through hole 133 of the support base 30 among the outer circumferential surfaces of the pin insertion portion 53.
One end of the guide pin is exposed by the through hole 133, the other end of the guide pin is fitted into the guide groove 51 is disposed inside the plug-type cap 10,
The pin insertion portion 53 of the plug type cap 10 is formed with a spring insertion hole 80 including a second bottom portion blocked.
The first compression spring 81 and the beads 82 are sequentially inserted into the spring insertion hole,
A first stop hole 28 is further formed on an outer circumferential surface of the sleeve cam 20,
The first compression spring 81 is compressed in a state where the first compression spring 81 and the bead 82 are inserted into the spring insertion hole 80, and then the sleeve-type cam 20 is moved. When the plug type cap 10 is rotated with respect to the plug type cap 10 and the plug type cap 10 is pressed against the sleeve type cam 20, the beads 82 are inserted into the first stop hole 28. Designed to be fixed,
Latch assembly. delete delete The method of claim 1,
The cam slot 25 has an axial segment 251, an circumferential long segment 253, an circumferential short segment 254 parallel to a portion 253b of the circumferential long segment 253, and the circumferential direction An inclined segment 252 corresponding to the remaining portion 253a of the long segment 253,
The side portion of the exposed portion of the head end of the pin 60 is in contact with the edge of the cam slot 25,
When the pin 60 is inserted into the pin insertion hole 52 to rotate the plug type cap 10 with respect to the sleeve type cam 20, an exposed portion of the head end of the pin 60 is formed. The side portion is adapted to slide along the inclined segment 252 of the cam slot 25,
Latch assembly. The method of claim 4, wherein
A second stop hole 29 is further formed on the outer circumferential surface of the sleeve cam 20,
The pin 60 is inserted into the pin insertion hole 52 to rotate the plug type cap 10 with respect to the sleeve type cam 20 so that the side portion of the exposed portion of the head end of the pin 60 is rotated. Is slipped along the inclined segment of the cam slot 25, the bead 82 is fitted into the second stop hole 29 is fixed,
Latch assembly. The diameter of the beads 82 is larger than the diameter of the first compression spring 81, larger than the diameter of the first stop hole 28, and the second stop hole 29. Larger than the diameter of the latch assembly. The method of claim 4, wherein
In the state where the bead 82 is fitted to the first stop hole 28,
When the force is applied to the plug type cap 10 in the extending direction (x-axis) of the support base 30, the second compression spring disposed between the plug type cap 10 and the sleeve type cam 20. And 62 is adapted to be compressed, wherein the lateral portion of the exposed portion of the head end of the pin 60 moves substantially along the axial segment 251 of the cam slot 25. doing,
Latch assembly.

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