JP4149040B2 - Cylinder cam in lock - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a cylinder cam in a lock such as a sliding door lock or a hinged door lock.
[0002]
Generally, in a sliding door lock attached to a sliding door, the cylinder cam incorporated in the lock is rotated by rotation of a pin cylinder of a cylinder lock attached on the outdoor side or rotation of a thumb turn attached on the indoor side. I try to unlock.
[0003]
In the case of hinged door locks attached to hinged doors, the cylinder lock built in the lock box is rotated by rotation of the pin cylinder of the cylinder lock attached indoors or the rotation of the thumb turn attached indoors to lock the doors. Or they are trying to unlock.
[0004]
[Problems to be solved by the invention]
By the way, the cylinder lock and thumb turn used for locks such as sliding door locks and hinged door locks have different shapes of torque transmission parts that apply rotational force to the cylinder cam, and the engagement of the cylinder cam rotated by the cylinder lock or thumb turn is different. The hole has an appropriate shape according to the shape of the torque transmitting component.
[0005]
For this reason, when replacing the cylinder lock with another manufacturer due to damage to the cylinder lock, loss of the key, etc., conventionally, the cylinder cam has to be ordered separately and the cylinder cam can be replaced at the same time, or the entire lock box can be replaced. Was very uneconomical.
[0006]
An object of the present invention is to provide a cylinder cam that can be rotated by a cylinder lock or thumb turn of each manufacturer.
[0007]
[Means for Solving the Problems]
In order to solve the above-described problem, in the present invention, a pair of cam pieces having a cylindrical portion that is closed at one end and opened at the other end and in which a cam piece is formed at a position opposite to the outer periphery of the cylindrical portion , The opening ends of the cylindrical portions are coupled and integrated, the cam plates are assembled into the butted ends of the pair of cylindrical portions to prevent rotation, and a circular hole is provided at the closed end of each cylindrical portion. A configuration is adopted in which a fan-shaped notch portion of approximately 90 ° is formed at the inner peripheral facing position, and the cam plate is provided with a long engagement hole in the radial direction.
[0008]
Here, when the cam plate is prevented from rotating, a method is adopted in which a plurality of notches are formed at the opening end of at least one cylindrical portion, and a protrusion provided on the outer periphery of the cam plate is fitted to each notch. Can do.
[0009]
In the cylinder lock for rotating the cylinder cam having the above-described configuration, a pin plate-like tail piece is connected to the end of the pin cylinder so as to be rotatable about 90 ° about the axis of the pin cylinder, and a pin There is a type in which a slot is formed in the tail piece at the end of the cylinder so that both ends of the tip of the key inserted into the key groove of the pin cylinder protrude from the slot in the outer diameter direction.
[0010]
When the cylinder cam is rotated by a cylinder lock in which a band plate-like tail piece is provided at the end of the pin cylinder so as to be rotatable at a set angle, the cylinder cam is moved by the rotation of the pin cylinder by inserting the tail piece into the engagement hole. Try to rotate.
[0011]
On the other hand, when the cylinder cam is rotated by a cylinder lock in which the tip of the key protrudes radially from the slot of the tail piece, both sides of the tip of the key are inserted into notches formed at the closed end of the cylinder. Then, the cylinder cam is rotated by engaging both sides of the notch with both sides of the tip of the key.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 shows a cylinder cam according to the present invention, and FIGS. 2 to 4 show a sliding door lock using the cylinder cam.
[0013]
As shown in FIGS. 2 to 4, the rod insertion groove 2 in the vertical direction is provided on the door contact surface of the sliding door 1 to which the sliding door lock A is attached. A lock mounting hole 3 is formed on the bottom surface of the rod insertion groove 2 parallel to the door contact surface.
[0014]
The sliding door lock A has a lock box 10 to be inserted into the lock mounting hole 3, and a front plate 11 attached to the front surface of the lock box 10 is brought into contact with the bottom surface of the rod insertion groove 2 to provide means for screwing. It is attached to the sliding door 1 via.
[0015]
Inside the lock box 10, a cylinder cam 20 and a pair of sliders 30A and 30B are incorporated. The sliders 30 </ b> A and 30 </ b> B are disposed on the front side and the rear side of the cylinder cam 20 and are supported by the upper guide 31 and the lower guide 32 so as to be movable up and down.
[0016]
Here, the upper guide 31 has a vertically long hole 31a formed in the upper part of the sliders 30A and 30B, and a protrusion 31b provided on the side plate 12 of the lock box 10 is slidably inserted into the vertically long hole 31a. .
[0017]
On the other hand, the lower guide 32 has a vertically long hole 32a formed in the side plate 12 of the lock box 10, and a protrusion 32b provided at the bottom of the sliders 30A and 30B is slidably inserted into the vertically long hole 32a.
[0018]
Rod connecting pieces 33 and 34 are provided on the sliders 30A and 30B, respectively. Each rod connecting piece 33, 34 is inserted into a guide hole 11a which is formed in the front plate 11 and is long in the vertical direction, and one rod connecting piece 33 is connected to an upper rod 33a which moves up and down in the rod insertion groove 2, The other rod connecting piece 34 is connected to a lower rod 34 a that moves up and down in the rod insertion groove 2.
[0019]
When the upper rod 33a is raised, its upper end protrudes upward from the upper surface of the sliding door 1 and engages with an engagement hole provided in the upper frame of the sliding door frame (not shown), while the lower rod 34a is lowered when the lower rod 34a is lowered. The sliding door 1 is held in a locked state by engaging with an engagement hole provided in the lower frame of the frame.
[0020]
Further, a notch 35 is provided on the inner edge of the pair of sliders 30A and 30B facing the cylinder cam 20.
[0021]
As shown in FIG. 1, the cylinder cam 20 includes a pair of cam pieces 21 a and 21 b and a cam plate 22 incorporated therebetween. The pair of cam pieces 21 a and 21 b have cylindrical portions 23, and a small-diameter protruding shaft portion 23 a is provided at the tip of each cylindrical portion 23. Cam pieces 24 a and 24 b are provided at positions on the outer periphery of the cylindrical portion 23.
[0022]
The cam piece 24a and the cam piece 24b have different lengths, and a protruding portion 25 that can engage with the notch 35 of the sliders 30A and 30B is provided at the tip of the short cam piece 24a.
[0023]
The pair of cam pieces 21a and 21b are coupled and integrated by means of spot welding in a state where the opening ends of the cylindrical portion 23 face each other and the cam pieces 24a and 24b overlap.
[0024]
The cam plate 22 has a circular shape. The cam plate 22 is disposed in the abutting end portion of the pair of cylindrical portions 23, and a plurality of projecting pieces 22a are provided on the outer periphery thereof. Each of the projecting pieces 22a is engaged with a notch 26 formed at the opening end of the cylindrical portion 23, and the cam plate 22 is prevented from rotating by the engagement.
[0025]
A circular hole 27 is formed at the closed end of the cylindrical portion 23 of the cam pieces 21a and 21b. A substantially 90 ° sector-shaped first cutout portion 28a and a second cutout portion 28b are formed between the first cutout portions 28a at positions facing the inner periphery of the circular hole 27.
[0026]
On the other hand, the cam plate 22 has an engagement hole 22b elongated in the radial direction. The length of the engagement hole 22b is substantially equal to the length between the closed ends of the second cutout portion 28b.
[0027]
As shown in FIG. 4, the cylinder cam 20 having the above configuration is assembled between the opposing side plates 12 of the lock box 10, and the tip of the cylindrical portion 23 is inserted into the circular hole 12 a shown in FIG. 4 formed in the side plate 12. The projecting shaft portion 23a provided on the base is inserted and supported rotatably. Further, a protrusion 25 provided on one cam piece 21a of the cylinder cam 20 is inserted into a notch 35 formed in the slider 30A, 30B.
[0028]
As shown in FIG. 2, an upper stopper 40 and a lower stopper 41 are provided above and below the cylinder cam 20, and the rotation angle of the cylinder cam 20 is limited by contact with the stoppers 40, 41. The rotation angle is approximately 90 degrees. It is °.
[0029]
A support shaft 42 is provided below the lower stopper 41, and elastic rods 43a at both ends of a spring 43 supported by the support shaft 42 are provided on the protrusion 31b that guides the vertical movement of the sliders 30A and 30B. It is prevented from engaging and deforming outward.
[0030]
The elastic rod 43a presses the end of the cam piece 24a provided on the one cam piece 21a to rotate the cylinder cam 20 in a direction in which it abuts against the upper stopper 40 and the lower stopper 41.
[0031]
As shown in FIG. 4, the cylinder cam 20 is rotated by a cylinder lock 50 attached to the outdoor side of the sliding door 1 and a thumb turn 51 attached to the indoor side.
[0032]
The cylinder lock 50 has a pin cylinder 52 that is rotated by a key, and a band plate-like tail piece 53 at the tip of the pin cylinder 52 can rotate within a range of about 90 ° around the axis of the pin cylinder 52. It is rotatably supported by. The tail piece 53 is inserted into an engagement hole 22 b formed in the cam plate 22 of the cylinder cam 20, and a tip end portion is inserted into a split groove 55 formed in the rotation shaft 54 of the thumb turn 51.
[0033]
Now, when a key is inserted into a key groove (not shown) of the cylinder lock 50 and the pin cylinder 52 is rotated, the tail piece 53 is idled until the pin cylinder 52 rotates 90 °, and the pin cylinder 52 rotates. Is not transmitted to the cylinder cam 20.
[0034]
When the pin cylinder 52 rotates 90 ° and further rotates in the same direction, the tail piece 53 is prevented from rotating with respect to the pin cylinder 52, so that the tail piece 53 rotates together with the pin cylinder 52. At this time, since the tail piece 53 is inserted into the engagement hole 22b of the cam plate 22, the cylinder cam 20 rotates, and the rotation of the cylinder cam 20 causes the pair of sliders 30A and 30B to oppose each other. While moving, the upper rod 33a and the lower rod 34a move in the axial direction.
[0035]
Further, when the thumb turn 51 is rotated by 90 °, the tail piece 53 is freely rotated with respect to the pin cylinder 52, and the cylinder cam 20 is rotated by the rotation, and the pair of sliders 30A and 30B are in conflict with each other. The upper rod 33a and the lower rod 34a move in the axial direction.
[0036]
Here, when the cylinder cam 20 is rotated from the position shown by the solid line in FIG. 2 to the position shown by the chain line, the upper rod 33a moves upward, while the lower rod 34a moves downward and the rods 33a, 34a The front end engages with the engagement hole, and the sliding door 1 is locked. Further, when the cylinder cam 20 is rotated in the opposite direction, the distal ends of the rods 33a and 34a are pulled out from the engagement holes, and the sliding door 1 is unlocked.
[0037]
The cylinder lock 50 and the thumb turn 51 for rotating the cylinder cam 20 include those shown in FIG. 6 in addition to those shown in FIG.
[0038]
A cylinder lock 50 shown in FIG. 6 has a slot 58 formed in a tail piece 57 formed of a round shaft of a pin cylinder 56 as shown in FIG. 7, and both ends of a tip portion of a key 59 inserted into a key groove of the cylinder lock 50. Is protruded from the slot 58 in the outer diameter direction of the tail piece 57. On the other hand, as shown in FIG. 5, four protrusions 61 are formed on the thumb turn 51 on the outer periphery of the rotating shaft 60 at intervals of 90 °.
[0039]
The cylinder lock 50 and the thumb turn 51 having the above-described configuration are used in an opposing arrangement in which a required space is provided between the tip of the tail piece 57 and the tip of the rotary shaft 60.
[0040]
When the above-described cylinder lock 50 and thumb turn 51 are used as a sliding door lock, as shown in FIG. 6, the tail piece 57 of the cylinder lock 50 is inserted into the circular hole 27 in one cam piece 21a. The cylinder lock 50 and the thumb turn 51 are attached to the sliding door 1 such that 60 is inserted into the circular hole 27 in the other cam piece 21b and the outer circumferential protrusion 61 is inserted into the first cutout portion 28a.
[0041]
In the mounting as described above, when the key 59 is inserted into the key groove of the cylinder lock 50, both sides of the distal end portion of the key 59 are inserted into the first cutout portion 28a. Therefore, when the key 59 is rotated, both sides of the tip of the key 59 are idled in the first notch 28a, and when the key 59 is in contact with the side of the first notch 28a, the rotation of the key 59 is transmitted to the cylinder cam 20. The cylinder cam 20 rotates.
[0042]
On the other hand, when the thumb turn 51 is rotated, as shown in FIG. 5, the protrusions 61 provided on the outer periphery of the rotating shaft 60 are engaged with both sides of the first cutout portion 28a. And the cylinder cam 20 rotates.
[0043]
As described above, the cylinder cam 20 is formed by three parts of the pair of cam pieces 21a and 21b having the cylindrical portion 23 and the cam plate 22, and the circular hole 27 is formed at the closed end of the cylindrical portion 23. 27 is provided with a 90 ° sector-shaped first cutout portion 28a at a position opposed to the inner periphery of 27, and the cam plate 22 is formed with an elongated engagement hole 22b, whereby the cylinder cam 20 is rotated by a cylinder lock 50 of a different type. Even if the cylinder lock 50 used in the sliding door lock A is replaced with another manufacturer's cylinder lock 50, it can be handled without replacing the cylinder cam 20, which is very economical.
[0044]
Although the cylinder cam 20 of the sliding door lock A has been described as an example in the embodiment, the cylinder cam 20 is not limited to that of the sliding door lock A. For example, a cylinder cam used for a hinged door lock may be used.
[0045]
【The invention's effect】
As described above, in the cylinder cam according to the present invention, a pair of cam pieces having a cylindrical portion and a cam plate are formed, and the circular cam provided at the closed end of the cylindrical portion has a substantially 90 ° position at the inner circumferential facing position. Since the notch is formed and the cam plate is provided with a long radial engagement hole, the cylinder cam can be rotated by each of the different types of cylinder lock and thumb turn. Even if it is replaced with a manufacturer's cylinder lock, there is no need to replace the cylinder cam, which is very economical.
[Brief description of the drawings]
FIG. 1 (I) is an exploded perspective view of a cylinder cam according to the present invention, and (II) is a perspective view in an assembled state. FIG. 2 is a partially cutaway front view of a sliding door lock using the cylinder cam. ] Partial cutaway perspective view of the above [FIG. 4] Cross-sectional view taken along line IV-IV of FIG. 2 [FIG. 5] Partially cutaway front view with the cylinder lock of another manufacturer attached to the above sliding door lock [Figure] 6] Sectional view taken along the line VI-VI in FIG. 5 [FIG. 7] Sectional view showing the connecting part of the cylinder lock and the cylinder cam.
21a, 21b Cam piece 22 Cam plate 23 Cylindrical portion 27 Circular hole 28a First notch

Claims (1)

A pair of cam pieces having a cylindrical portion with one end closed and the other end opened, and a cam piece formed at a position opposite to the outer periphery of the cylindrical portion, are coupled and integrated with the opening end of the cylindrical portion facing each other. A cam plate is incorporated into the butted ends of a pair of cylindrical parts to prevent rotation, and a circular hole is provided at the closed end of each cylindrical part, and a fan-shaped notch of approximately 90 ° is formed at the position opposite the inner periphery of the circular hole. A cylinder cam in a lock having a long engagement hole in the radial direction in the cam plate.

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