DE202005016995U1 - Lever lock for steel door, has springs having free ends installed above lateral surface of stator, diagonal compression areas for axial definition of lever lock in opening of steel door plate, and exteriors extending longitudinally - Google Patents

Abstract

The lever lock (10) has springs (22) installed over the lateral surface (24) of a stator (20). The springs have free ends (223) installed above the lateral surface of the stator, diagonal compression areas for axial definition of the lever lock in the opening of a steel door plate (11), and exteriors extending in longitudinal direction. A rotor (12) is swivel-mounted in the stator. The rotor has a key channel through which a key is inserted for rotating a closure component (30) between lock release position and locking position.

Description

The The invention relates to a lever lock for mounting in an opening of a Door panel, around the door solvable on a corresponding frame, for example a metal cabinet, a drawer od. Like., To hold. Such a cam lock has a Rotor which is rotatably mounted in a stator and releasably held is, wherein the rotor, starting from its front end a key channel possesses a suitable key and by means of key from an input position, in which the closing member in an unlocking position, by rotational movement in one offset by a certain angle end position, in which the closing member is in a locked position. At the rear end of the rotor is torque transmitting a closing element set, which in its locking position with the frame of the metal cabinet or drawer is engaged.

Known Cam locks have for easy insertion of these locks in an opening of a door panel on the outside of the stator housing Spring elements.

After this such a cam lock is pushed through the opening in the door panel, can be a determination of the cam lock by simply locking the outside be effected spreading spring elements. Because the tips of the spring elements abut the sheet metal, such a cam lock can only for a certain sheet thickness be used. On the other hand, this means that for different Sheet thicknesses, For example, from 0.6 mm to 2 mm, different lever locks are required.

task It is the object of the present invention to provide a known cam lock to develop that it can be made cheaper and at the same time more versatile.

These Task is satisfied with the features of claim 1. The Axial fixing of the cam lock in the opening on the door panel is also through in the longitudinal direction extending spring elements causes in the assembled state of Lever lock over the lateral surface protrude from the stator. However, the determination is not made by latching of the door panel between the free end of the spring and the stator head, but by a Jamming of the door panel, the outsides the spring elements, the clamping surfaces form. These spring elements are mounted in the region of the stator head and the free ends of the spring elements point in the direction of the rear End of the stator. Based on the storage of the spring elements in the area of the stator head up to the free ends of the spring elements, each extends the oblique Clamping surface. The free ends of the spring elements project beyond the mounted Condition of the cam lock, i. with inserted rotor, the lateral surfaces of the Stators farthest. The oblique clamping surfaces limit the use of the lever lock for certain sheet thicknesses not one. Such a new inventive lever lock is for different Sheet thicknesses can be used. The variety of uses of the lever lock depends on the longitudinal extent the spring elements. An advantageous embodiment of a lever lock according to the invention allows a determination of the cam lock in the opening of door panels different sheet thicknesses, preferably of sheet thicknesses of 0.6 mm to 2 mm.

The Spring elements can separately on the lateral surface be arranged of the plastic stator. A preferred embodiment However, the lever lock sees a one-piece design of the spring elements with the stator in front. In this case, the spring elements in recesses of the stator. Such a stator is preferably made Made of plastic. To ensure uniformity as possible of the lever lock in the opening of the door panel To effect, several spring elements on the circumference of the stator arranged, preferably four spring elements, each two Diametrically opposite spring elements are arranged on the stator.

at a particularly preferred embodiment have the spring elements at its free end a greater thickness than in the region of their storage, preferably the produced Plastic stator contains spring elements whose inner surfaces in protrude the stator and the outer surfaces flush with a lateral surface of the Stators are. Will be a cylindrical in such a plastic stator Rotor used, the spring elements by the pressure of the rotor on the inner surface the spring elements to the outside pressed. The outer surfaces of the Spring elements now protrude over the lateral surface of the stator and form in this state clamping surfaces for fixing on the door panel.

at a particular embodiment of the stator can at the rear end of the stator at least two, preferably four Hook elements are molded with their hook heads in engage an annular groove of the rotor in the region of the rear rotor end and thus cause an axial fixation of the rotor in the stator.

Further measures and advantages of the invention will become apparent from the following description and the drawings. In the figures, the invention is shown in one embodiment. However, the invention is not limited to this embodiment. Show it:

1 a side view of a lever lock used in a door opening,

2 a perspective view of a stator according to the invention,

3 a sectional view of the stator according to 2 ,

That in the 1 illustrated cam lock 10 includes a stator 20 and one within a receptacle 21 of the stator 20 arranged rotor 12 , The stator 20 has in this case a round outer contour, which allows the stator 20 through a correspondingly round opening of the door panel 11 perform. The stator 20 can of course also have an oval or other outer contour to use it in a correspondingly shaped opening of a door panel.

Will the lever lock 10 through the opening of the door panel 11 carried out, laying contact surfaces of the stator head 25 flat on the outside of the door panel. The stator head 25 of the stator 20 is not visible from the outside in this embodiment. He is through a cap 50 covered. This cap 50 can be integral with the rotor 12 formed or by a corresponding connection on the rotor 12 be set.

From the back of the door panel 11 is the lever lock 10 by spring elements 22 locked in position. In this case, there are four spring elements 22 integral with the stator 20 educated. The outsides 221 the spring elements 21 protrude beyond the rotor 12 the lateral surfaces 24 of the stator 20 and form inclined clamping surfaces for the determination of the cam lock 10 in the opening on the door panel 11 , How the particular 1 can be seen, the free end protrudes 223 the spring elements 22 strongest over the lateral surface 24 out. Starting from this free end 223 until end storage 224 of the spring element 22 in the area of the stator head 25 the oblique clamping surface for the clamping connection extends with the door panel 11 , The door panel 11 can, like that 1 it can be seen to have a different thickness d3. A sufficient fixation of the lever lock 10 on the door panel 11 depends on the longitudinal extent of the spring elements 22 from.

In the 2 are spring elements 22 integral with the stator 20 educated. In this case, the spring elements extend 22 over a longer length in the picture 26 of the stator 20 as in the embodiment of 1 , This means a lever lock 10 with such a stator 20 can for door panels 11 be used with larger sheet thicknesses. The clamping force for the clamping connection with the door panel 11 is achieved in particular by the fact that the cylindrical rotor 12 when inserting into the intended receptacle 21 of the stator 20 into the interior of the stator 20 protruding spring elements 22 pushes outward. This process is in 1 indicated. The not yet used rotor 12 is drawn in dotted lines. In this position of the rotor are the outer sides 221 the spring elements 22 still flush with the lateral surface 24 of the stator 20 , Only after inserting the rotor 12 become the spring elements 22 in the in 1 shifted position, so that the outer surfaces 221 the spring elements 22 form oblique clamping surfaces.

In 2 are the spring elements 22 integral with the stator 20 educated. The stator 20 is made of plastic, for example by injection molding. The in the 2 and 3 shown plastic stator has four spring elements 22 evenly on the circumference of the plastic stator 20 are provided. In this case, each lie two spring elements 22 diametrically opposite. These spring elements 22 have at their free end 223 her biggest thickness d2. The thickness of the spring element 22 takes in the direction of the stator head 25 from. The smallest thickness d1 has the spring element 22 in the area of end storage 224 , The thickness decrease can be done evenly. However, it is also possible, as in 3 shown that the spring element 22 starting from its end storage 224 over a certain range of the longitudinal extent, for example over one third or half of the longitudinal extension, an unchanged thickness and then the thickness of the spring element 22 evenly enlarged, leaving the inside 222 of the spring element 22 in the cylindrical receptacle 21 of the stator 20 protrudes. Will now be a cylindrical rotor 12 in the recording 21 of the stator 20 used, the rotor pushes 12 the spring elements 22 outward towards the in 3 drawn arrows. Will be in the stator 20 provided a stator sleeve, the pressure from the rotor 12 over the stator sleeve on the spring elements 22 transfer. By the movement of the spring element 22 in arrow direction now dominates the spring element 22 the lateral surface 24 of the stator 20 , Because the spring elements 22 in the area of the stator head 25 are stored at the ends and in the area of the free end 223 have their largest thickness, dominates the spring element 22 when the rotor is used, the lateral surface 24 strongest in the area of the free end 223 and forms towards the stator head 25 with its outer surface 221 an oblique clamping surface, as in 1 you can see.

The in the 1 to 3 shown stator 20 indicates at the rear end 27 hook elements 23 on. These hook elements 23 own inside pointing hook heads 231 , with the rotor inserted 12 in an annular groove 16 on the rotor 12 intervention. By this Verrasterung becomes an axial fixation of the rotor 12 achieved. Another determination of the rotor is at the rear end 15 of the rotor 12 through the fastening nut 31 achieved on an external thread at the rear end 15 the rotor is screwed on and the closing element 30 fixed. This closing element 30 is torque transmitting with the rotor 12 coupled. This can be the closing element 30 have a profiled bore, which fits to corresponding recesses on the rotor 12 are designed. The definition of the closing element 30 can also be achieved by a fixing screw or a clamping ring, which at the rear end 15 of the rotor 12 be determined. Will the rotor 12 by loosening the screw connection and locking connection from the stator 20 pulled out, in 1 Indicated to the left by the arrow, the spring elements move 22 due to their spring force inwards and it reaches a position as in the 2 and 3 is shown.

Used for the lever lock 10 a two-part design of the stator chosen, ie, the stator consists of a stator and a housing within the recording 21 of the stator 20 can be used in different radially offset positions, rotatably mounted stator sleeve, so are on the inner surface 29 of the stator 20 provide appropriate setting options. The embodiment according to 2 and 3 has longitudinally extending ribs 28 , which cooperate with matching longitudinal grooves on the stator sleeve and a rotationally fixed bearing of the stator sleeve in the receptacle 21 of the stator 20 cause. These four ribs 28 allow four, each offset by 90 ° positions of the stator sleeve. This makes it possible four different closing paths of the closing member 30 when using the same rotor 12 and the same stator 20 to enable. The stator sleeve, not shown, has at the in the region of the stator head 25 arranged end face a recess which extends radially and is limited by left and right side abutment surfaces. In this recess engages a cam arranged on the rear side of the rotor head. As a result, the rotational movement of the rotor and thus the closing movement of the closing member is limited.

The embodiment shown according to the 1 to 3 gives the subject invention only for example. The invention is by no means limited to this embodiment alone. Rather, there are many other embodiments and embodiments of the subject invention conceivable. So can the stator 20 made of a material other than plastic. In addition, it is conceivable, the spring elements separately on the stator 20 set, for example in the form of an over the stator 20 inverted spring ring.

10

Cam lock

11

door panel

12

rotor

15

rotor end

16

ring groove

20

stator

21

admission

22

spring element

221

outside

222

inside

223

free The End

224

storage

23

hook element

231

hook head

24

lateral surface

25

stator head

26

recess

27

rear The End

28

ribs

29

palm

30

bars

31

fixing nut

50

cap

d1

minimum thickness

d2

maximum thickness

d3

sheet thickness

Claims (9)

Lever lock for mounting in an opening of a door panel ( 11 ) to releasably hold the door to a corresponding frame, with a stator ( 20 ), wherein the stator ( 20 ) a plurality of longitudinally extending spring elements ( 22 ) for axially fixing the cam lock ( 10 ) in the opening on the door panel ( 11 ), which in the mounted state of the cam lock ( 10 ) over the lateral surface of the stator ( 20 ) protrude, with a rotor ( 12 ) located in the stator ( 20 ) is rotatably mounted and releasably held, wherein the rotor ( 12 ) starting from its front end a key channel ( 14 ) for receiving a suitable key ( 11 ) and by means of the key ( 11 ) from a starting position, in which the closing member ( 30 ) is in an unlocking position, can be converted by rotational movement in an offset by a certain angle end position, in which the closing member ( 30 ) is in a locking position, wherein the rotor ( 12 ) at the rear end ( 15 ) torque transmitting with a closing member ( 30 ), which is engageable with the frame, characterized in that in the mounted state of the cam lock ( 10 ) extending in the longitudinal direction over the lateral surface ( 24 ) of the stator ( 20 ) protruding spring elements ( 22 ) with their outsides ( 221 ) starting from their free ends ( 223 ), with which they the outer surface ( 24 ) of the stator ( 20 ) to the furthest extent, to their endings ( 224 ) inclined clamping surfaces for the axial fixing of the cam lock ( 10 ) in the opening of the door panel ( 11 ) form. Cam lock according to claim 1, characterized in that by the outer sides ( 221 ) of the spring elements ( 22 ) formed oblique clamping surfaces an axial fixing of the cam lock ( 10 ) in the opening of door panels ( 11 ) of different sheet thicknesses (d3), preferably of sheet thicknesses d3 = 0.2 mm to d3 = 2 mm, allow. Cam lock according to claim 2, characterized in that the spring elements ( 22 ) in one piece with the stator ( 20 ) and in recesses ( 26 ) of the stator ( 20 ) are arranged. Cam lock according to one of claims 1 to 3, characterized in that four spring elements ( 22 ) are provided, wherein in each case two spring elements ( 22 ) diametrically opposite to the stator ( 20 ) are arranged. Cam lock according to one of claims 1 to 4, characterized in that the spring elements ( 22 ) at its free end ( 223 ) has a thickness (d2), this thickness (d2) being greater than the thickness (d1) at the end-side mountings ( 224 ) of the spring elements ( 22 ). Cam lock according to claim 5, characterized in that when not in the stator ( 20 ) inserted rotor ( 12 ) the outer surface forming the clamping surface ( 221 ) of the spring elements ( 22 ) is flush with the lateral surface ( 24 ) of the stator ( 20 ). Cam lock according to one of claims 1 to 6, characterized in that the stator ( 20 ) is made of plastic. Cam lock according to claim 7, characterized in that at the rear end ( 27 ) of the stator ( 20 ) at least two hook elements ( 23 ) formed with their hook heads ( 231 ) in an annular groove ( 16 ) in the region of the rotor end ( 15 ) of the rotor ( 12 ) engage and thus an axial fixation of the rotor ( 12 ) in the stator ( 20 ) cause. Cam lock according to one of claims 3 to 8, characterized in that between the inner surfaces ( 222 ) of two spring elements ( 22 ) in the longitudinal direction of the stator ( 20 ) extending ribs ( 28 ) on the inner surface of the stator ( 20 ) are formed, which serve to define a stator sleeve.