[0001] The invention relates to an appliance, especially to a domestic appliance, comprising
a housing element, wherein a door is arranged at the housing element, which door can
be positioned in a closed position and in an opened position, wherein a child lock
device is arranged which can prevent the opening of the door when the door is in its
closed position.
[0002] Domestic appliances, especially domestic ovens are known in the art which are equipped
with child lock systems to prevent that the oven door can be opened by a young child.
[0003] There are several requests for a child lock system of the mentioned kind:
A standard door lock should make it difficult for a child to open the oven door using
both hands. Thus, it should not be possible for a child to open the oven door with
a one-hand operation. The principle of the lock function is the need of two operation
forces to unlock the door. It shall be possible to easily activate or deactivate the
door lock by an adult but not for a child. It should not be possible to open the locked
door with a pulling force up to 90 N. Thus, it should not be possible for very young
children up to 36 months to open the door when the lock device is activated. Also,
it shall not be possible to deactivate the door lock by mistake. On the other side,
it shall be possible to open the oven door without the use of tools if the door lock
breaks.
[0004] In
US 3 328 062 A1 a door lock system is described that has a moving hook element for locking and which
makes use of a wheel element. The handle has to be lifted upwards for opening of the
door whilst the door has to be pulled forwards.
[0005] US 3 498 285 A1 discloses a stove latch system which has multiple locking pins which are engaged
upon the movement of one handle. The handle has to be moved sideways whilst the door
has to be pulled forwards for opening.
[0006] In
US 2002/0079709 A1 a locking system is shown comprising a moving pin in a latch for a dishwasher door.
Here, the handle has to be pushed upwards whilst the door has to be pulled forwards
for opening.
[0007] All pre-known solutions have only quite small contact areas between the lock and
the door to be secured. So, the pulling forces to open the door in the locked status
are limited.
[0008] Thus, it is an object of the present invention to propose an appliance of the generic
type with a child lock device which has a higher security against unauthorized opening
of the door when the lock device is activated. Furthermore, the activation and disengagement
of the lock device should be possible in a better ergonomic manner. Also it is aimed
to design the lock device in such a way that it becomes easily possible to bring the
lock device in a permanently disengaged status; on the other hand it should be also
possible to again activate the lock device if required.
[0009] The solution of this object according to the invention is characterized in that the
child lock device comprises
- a hook element which is arranged in or at the door,
- a catch element designed to cooperate with the hook element, wherein the catch element
is arranged in the housing element, wherein the catch element can move in a translational
direction, for being in engagement with the hook element to prevent the opening of
the door or for being in disengagement with the hook element to allow an opening of
the door,
- an activator element for actuating the catch element, wherein the activator element
is arranged to be moved in a translational direction to move the catch element in
its position in which it is disengaged with the hook element, and
- transmission means to transmit the translational movement of the activator element
in its translational direction into a translational movement of the catch element
in its translational direction.
[0010] Preferably, the translational direction of the catch element is identical with the
vertical direction. Also, it is preferred that the translational direction of the
activator element is identical with the horizontal direction.
[0011] The catch element is preferably biased into the direction in which it is in engagement
with the hook element by spring means. The spring means are preferably a compression
spring.
[0012] The transmission means comprise according to a preferred embodiment of the invention
- a rack element which is connected with the activator element and which has a gearing,
- a gear wheel which is arranged rotatable in the housing element an which is in engagement
with the gearing of the rack element,
- a lever element which is connected with the gear wheel or which is part of the gear
wheel, wherein the lever element can be brought in contact by rotation of the gear
wheel with a contact element which is arranged at or in the catch element to move
the catch element in its translational direction.
[0013] Preferably, the contact element is designed as a crank element which has a contact
section with a substantial arcuated, preferably circular, form seen in a direction
which is perpendicular to the translational direction of the movement of the catch
element and is perpendicular to the translational direction of the movement of the
activator element.
[0014] To establish a disengaged status of the child lock device it is realized preferably
by a push-push system. The push-push system has a guide which moves the rack element
until it reaches the locking position. In the locking position it is possible to remove
the activator element by pulling it out.
[0015] The hook element and/or the catch element have preferably slanted side faces to allow
the easy closing of the door when the catch element is in its position to prevent
the opening of the door.
[0016] The door can be arranged pivotable at the housing element or it can be arranged translationally
movable relatively to the housing element.
[0017] The proposed appliance is preferably an oven, especially a domestic oven.
[0018] The proposed child lock system provides much stronger locking capabilities as the
pre-known systems. The described solution has a pin (catch element), which is moved
preferably in a vertical direction, which establishes the locking function through
a spring and which establishes the opening function through a gear wheel. The pin
engages with the door, which leads to a significant larger contact surface, which
in turn is able to withstand higher pull out forces of the locked door.
[0019] Additionally, two different and contrary movements have to be made to unlock the
door. The lock (activator/actuator) has to be pushed inwards and the door has to be
pulled outwards. This leads to an enhanced security.
[0020] A specific feature of the proposed child lock device it that a pin (catch element)
is provided which moves vertically for locking the door. The activation of the device
is preferably done by a horizontal movement of the activator element. Preferably,
a compression spring is housed inside the pin and is used to exert a force of impediment
to unlock the system. The structure of the door has a "tooth" (hook element) which
is - in the activated status - in contact with the pin, this condition prevents the
opening of the door. When the door is closed the pin at the bottom is in contact with
the "tooth" present on the structure of the door. In this condition the door is locked.
[0021] After pushing the activating element (activator) the pin moves upwards and the door
can be opened regularly. When the force on the activator stops the pin returns to
the operating position due to the force of the spring action. When the door is open
the pin is in its normal position. The shape of the "tooth" and the pin are designed
- with slanted surfaces - in order to activate the system in an automatic way at the
moment when the user is closing the door.
[0022] The proposed device has also a permanently disabled position. The child lock device
can here be arranged in a passive status by pushing the activator to an end position.
This passive status is reversible and can be reversed easily by again pushing the
activator.
[0023] The child lock device is located inside the structural components and the user could
see on the activating element.
[0024] The vertical movement of the pin (catch element) brings the advantage of having a
larger contact surface between the pin and the "tooth" (hook element) on the inner
door compared to pre-known solutions. This allows to increase the security for locking
the door. That is, the vertical movement of the pin produces multiple benefits such
as greater surface contact between the pin and the "tooth" on the structural door
and small working volume of the pin during normal operation.
[0025] The proposed system of gears (rack element and gear wheel) allows an easy and cost
efficient realization. Also, it is beneficially that this gear system is less cumbersome
to have a vertical translation of the pin actuated by the pressure on the activator
element.
[0026] The volume occupied by the pin between the locking und unlocking position is the
minimum possible as the pin has a vertical movement. So, interference problems with
structural parts can be better avoided.
[0027] The proposed solution has a high degree of robustness as well as constancy in time
of performance, i. e. the required components maintain their function during a high
number of operation cycles. The required distance in the translational direction of
the activator element is quite small, what improves the compactness of the lock device.
So, the volume of working space is minimal which is required by the locking system
whilst a quite big engagement surface is given between the pin and the "tooth".
[0028] Also, the permanently deactivation function is very beneficial. This allows to disable
the device until the time when the user needs it without disassembling parts. It is
possible to deactivate the locking system just with only a small movement of the activator
element. The child lock device has thus a locking position which allows to disable
the device until the user needs to use it again without disassembling of any parts.
Once the child lock device is disabled the activator element can be removed.
[0029] The proposed device meets all the child lock specification due to its high robustness.
Over the time a high degree of steadiness of the compression of the spring forces
is given during the lifetime of the system, i. e. a constancy on performance is ensured.
[0030] In the drawings an embodiment of the invention is depicted.
- Fig. 1
- shows a part of a sectional side view of a domestic appliance being a domestic oven,
wherein a housing element and a door is shown,
- Fig. 2
- shows a child lock device as a part of Fig. 1,
- Fig. 3
- shows a perspective view of the child lock device,
- Fig. 4
- shows the child lock device according to Fig. 2 with a part of the door,
- Fig. 5
- shows a part of a sectional view according to Fig. 1, wherein the child looking device
is in a position for opening the door,
- Fig. 6
- shows in the depiction of Fig. 5 the closing of the door,
- Fig. 7
- shows the child lock device according to Fig. 2 in a perspective view and in a top
plan view, wherein it is in a deactivated position,
- Fig. 8
- shows in the depiction of Fig. 5 the child lock device being in the deactivated position
according to Fig. 7,
- Fig. 9
- shows a part of a sectional view according to Fig. 1, wherein the child lock device
is in a passive status and the activator is just removed,
- Fig. 10
- shows an exploded view of the child lock device,
- Fig. 11
- shows a domestic appliance with an activator element and
- Fig. 12
- shows the domestic appliance according Fig. 11 with removed activator element.
[0031] In Fig. 1 a domestic appliance 1 being a domestic oven is shown. The appliance 1
has a housing element 2 and a door 3. The door 3 is here shown in its closed position
C. A child lock device 4 is arranged in the housing 2, that is the door 3 cannot be
opened unless the child lock device is in the locked position as shown in Fig. 1.
[0032] The child lock device 4 comprises a hook element 5 ("tooth") which is arranged at
the door 3. Furthermore, the device has a catch element 6 which can be moved in a
translational direction T which is identical with the vertical direction V. When the
catch element 6 is in the depicted position it hinders - due to the hook element 5
an opening of the door 3.
[0033] The child lock device 4 has furthermore an activator element 7 which is supported
in the housing 2 and which can be moved forth and back in a translational direction
U which is identical with the horizontal direction H. The activator element 7 is removably
connected with a rack element 10 which has a gearing 11 and which is part of transmission
means 8 by which the horizontal movement in the direction U is transmitted onto the
catch element 6 to move it in the vertical direction T. For doing so, the rack element
10 is meshing with the gearing of a gear wheel 12 which is rotatable arranged in the
housing element 2. A lever element 13 being an appendage of the gear wheel 12 extends
substantially radially from the gear wheel 12. Thus, if the gear wheel 12 rotates
the lever element 13 moves upwards.
[0034] When doing so the lever element 13 is in contact with a contact element 14 which
is an elastic spring element. It has a contact section 15 (see Fig. 2) which has a
substantial circular shape.
[0035] During normal use of the child lock device 4 the activator element 7 is moved for
opening of the door into the direction of the arrow U in Fig. 1 and Fig. 2. By doing
so, the corresponding translational movement of the rack element 10 causes a rotary
movement of the gear wheel 12 counter-clockwise so that the lever element 13 is moving
upwards and presses onto the contact element 14 and more specifically on its contact
section 15. Thus, the catch element 6 is moved upwards and the door 3 can be opened
as soon as the catch element 6 has reached the respective height.
[0036] When taking away an opening force onto the activator element 7 in the direction of
the arrow U the catch element 6 takes again its locked position according Fig. 1 and
Fig. 2 as spring means 9 being a compression spring biases the catch element 6 into
the closed position. This can be seen in Fig. 3, i. e. the catch element 6 is pressed
downwards by means of the compression spring 9.
[0037] In Fig. 4 is can be seen again how the elements are positioned when the child lock
device 4 is in the locking position. Here the door 3 with the hook element 5 is depicted.
It can be seen that the door 3 cannot be opened due to the position of the catch element
6.
[0038] In Fig. 5 it can be seen that the activator element 7 is pressed in the direction
of the arrow U so that the transmission means 8 have lifted the catch element 6 into
the direction of arrow T. Consequently, the child lock device 4 is now in its opened
position O and the door 3 can be opened.
[0039] In Fig. 6 it is shown how the door 3 is closed again when the child lock device 4
is in the closed position. Due to slanted side faces 17 and 18 of the hook element
5 and the catch element 6 (see for example Fig. 4) the door 3 can be closed in spite
of the fact that the catch element 6 is in the lower (closed) position. When the door
3 is closed and the hook element 5 thus passes the catch element 6, the catch element
6 is lifted accordingly to allow the hook element 5 to pass so that the door 3 can
reach its complete closed position.
[0040] In Fig. 7 and Fig. 8 a further beneficial feature of the proposed child lock device
is illustrated. The figures show the assembled device. In the rack element 10 there
is a push-push track with a guide that slides inside the locking device.
[0041] Thus, the child lock device is deactivated in this position as it is depicted in
Fig. 7 and Fig. 8.
[0042] To activate the child lock device 4 again the activator element 7 needs only to be
pushed in the direction A according to Fig. 8. Then, the transmission means 8 bring
back the elements in the position in which the child lock device 4 is activated again.
[0043] A track push-push system 16 is shown in Fig. 7. which also comprises a guide element
19.
[0044] In Fig. 9 and Fig. 10 details of the mentioned arrangement can be seen.
[0045] Thus, in the locking status of the device there is the possibility to remove the
activator element 7.
[0046] In Fig. 11 the activator element 7 is shown which is still at the appliance 1. According
to Fig. 12 the activator element 7 is removed. The child lock system is passive now.
Reference Numerals
[0047]
- 1
- Appliance (domestic oven)
- 2
- Housing element
- 3
- Door
- 4
- Child lock device
- 5
- Hook element
- 6
- Catch element
- 7
- Activator element
- 8
- Transmission means
- 9
- Spring means (compression spring)
- 10
- Rack element
- 11
- Gearing
- 12
- Gear wheel
- 13
- Lever element
- 14
- Contact element (crank element)
- 15
- Contact section
- 16
- Track push-push system
- 17
- Slanted side face
- 18
- Slanted side face
- 19
- Guide element
- C
- Closed position
- O
- Opened position
- T
- Translational direction of the catch element
- U
- Translational direction of the activator element
- V
- Vertical direction
- H
- Horizontal direction
- A
- Push for unlock
- R
- Remove the activator element
1. Appliance (1), especially domestic appliance, comprising a housing element (2), wherein
a door (3) is arranged at the housing element (2), which door (3) can be positioned
in a closed position (C) and in an opened position (O), wherein a child lock device
(4) is arranged which can prevent the opening of the door (3) when the door (3) is
in its closed position (C),
characterized in
that the child lock device (4) comprises
- a hook element (5) which is arranged in or at the door (3),
- a catch element (6) designed to cooperate with the hook element (5), wherein the
catch element (6) is arranged in the housing element (2), wherein the catch element
(6) can move in a translational direction (T), for being in engagement with the hook
element (5) to prevent the opening of the door (3) or for being in disengagement with
the hook element (5) to allow an opening of the door (3),
- an activator element (7) for actuating the catch element (6), wherein the activator
element (7) is arranged to be moved in a translational direction (U) to move the catch
element (6) in its position in which it is disengaged with the hook element (5), and
- transmission means (8) to transmit the translational movement of the activator element
(7) in its translational direction (U) into a translational movement of the catch
element (6) in its translational direction (T).
2. Appliance according to claim 1, characterized in that the translational direction (T) of the catch element (6) is identical with the vertical
direction (V).
3. Appliance according to claim 1 or 2, characterized in that the translational direction (U) of the activator element (7) is identical with the
horizontal direction (H).
4. Appliance according to one of claims 1 to 3, characterized in that the catch element (6) is biased into the direction in which it is in engagement with
the hook element (5) by spring means (9).
5. Appliance according to claim 4, characterized in that the spring means (9) are a compression spring.
6. Appliance according to one of claims 1 to 5,
characterized in that the transmission means (8) comprise
- a rack element (10) which is connected with the activator element (7) and which
has a gearing (11),
- a gear wheel (12) which is arranged rotatable in the housing element (2) an which
is in engagement with the gearing (11) of the rack element (10),
- a lever element (13) which is connected with the gear wheel (12) or which is part
of the gear wheel (12), wherein the lever element (13) can be brought in contact by
rotation of the gear wheel (12) with a contact element (14) which is arranged at or
in the catch element (6) to move the catch element (6) in its translational direction
(T).
7. Appliance according to claim 6, characterized in that the contact element (14) is designed as a crank element which has a contact section
(15) with a substantial arcuated, preferably circular, form seen in a direction which
is perpendicular to the translational direction (T) of the movement of the catch element
(5) and is perpendicular to the translational direction (U) of the movement of the
activator element (7).
8. Appliance according to one of claims 1 to 7, characterized in that the child lock device is realized by a push-push system.
9. Appliance according to one of claims 1 to 8, characterized in that the catch element (6) is biased into the direction in which it is in engagement with
the hook element (5) by spring means.
10. Appliance according to one of claims 1 to 9, characterized in that the child lock device (4) has a locking position which allows to disable the child
lock device (4) until the user needs to use it again.
11. Appliance according to claim 10, characterized in that the activator element (7) is arranged removably at the child lock device (4).
12. Appliance according to one of claims 1 to 11, characterized in that the hook element (5) and/or the catch element (6) have slanted side faces (17, 18)
to allow the closing of the door (3) when the catch element (6) is in its position
to prevent the opening of the door (3).
13. Appliance according to one of claims 1 to 12, characterized in that the door (3) is arranged pivotable at the housing element (2).
14. Appliance according to one of claims 1 to 12, characterized in that the door (3) is arranged translationally movable relatively to the housing element
(2).
15. Appliance according to one of claims 1 to 14, characterized in that it is an oven (1), especially a domestic oven.