1. Field of the Invention
The present invention relates generally to a door lock for a dishwashing machine or the like as well as to a dishwashing machine having such a door lock.
2. Description of the Prior Art
With the aid of such a door lock, the door of the dishwashing machine may be kept closed for example during a washing operation and, when required, re-opened, for example after the washing operation.
Door locks for dishwashing machines are known, which are fitted in the upper part of the appliance housing and engage with a closing lug down into a closing trough of the door. This is used to keep the door closed during the washing operation, even if an attempt is made to open it. Without releasing the door lock the door may be opened only with a considerable expenditure of force. Improper opening of the door by applying a high expenditure of force may lead to damage of the door lock. Such a door lock is known for example from DE 102006037494 of the applicant. These known door locks are of a complex mechanical design.
With the aid of such door locks, the door is to be reliably kept closed during the washing operation since opening during the washing operation can lead to injuries, such as scalding, as a result of hot steam escaping from the door aperture.
Dishwashing machines, for which the presently considered door lock is suitable, comprise a housing with a door aperture that is closable by means of a door fitted movably on the dishwashing machine (appliance housing). The door lock may be fitted in the appliance housing or in the door. It is also possible for elements of the door lock to be disposed in the appliance housing and other elements in the door.
It is an object of the present invention to provide a simply designed door lock for a dishwashing machine and a dishwashing machine having such a door lock, by means of which the door of the dishwashing machine is reliably kept closed during the washing operation.
This object is achieved by the subject matter of the independent claims. Advantageous embodiments emerge from the dependent claims.
The door lock according to the invention for a dishwashing machine comprises a lock housing and a pair of closing arms, which are held in and project from the lock housing. Free arm portions of the closing arms that project from the lock housing are deflectable relative to one another from a relative normal position in a relative first deflection direction counter to the action of a resetting spring arrangement. The door lock further comprises a closing mouth, into which the free arm portions of the closing arms engage during closing of the door of the dishwashing machine. Disposed on the closing mouth are deflection surfaces, which the free arm portions encounter during engagement into the closing mouth and which bring about a relative deflection of the free arm portions counter to the resetting action of the resetting spring arrangement. The free arm portions upon further engagement move past the deflection surfaces and in so doing experience an at least partial resetting in the direction of their relative normal position.
The lock housing may be disposed together with the closing arms for example on an appliance housing of the dishwashing machine, while the closing mouth may be disposed on the door of the dishwashing machine. It is however also conceivable to reverse this arrangement and provide the closing mouth on the appliance housing and the lock housing plus the closing arms on the door. Independently of this arrangement it is advantageous to dispose the lock housing plus the closing arms and the closing mouth at mutually corresponding positions on the door and the appliance housing that lie as precisely opposite one another as possible in the closed state of the door. This guarantees an easier engagement of the free arm portions of the closing arms into the closing mouth.
The deflectability of the free arm portions may be based at least partially on an inherent flexibility of the closing arms. For this purpose the closing arms may be formed from a flexible material. Alternatively or additionally the deflectability of the free arm portions may be based at least partially on a movable, for example pivotable, mounting of the closing arms in the lock housing. It is accordingly possible to configure the closing arms completely rigid and to mount the rigid closing arms pivotably on the lock housing. It is equally conceivable to equip the closing arms with a specific inherent flexibility and additionally mount them pivotably on the lock housing.
The free arm portions of the closing arms may carry roll-mounted rolling elements that guarantee a rolling contact of the free arm portions with the deflection surfaces. The rolling elements are disposed in particular on the free ends of the free arm portions. By means of the rolling elements the free arm portions may slide with less friction along the deflection surfaces. As an alternative to the rolling elements, the free ends of the free arm portions may have sliding surfaces that travel along the deflection surfaces during the engagement of the arm portions into the closing mouth. By replacing the sliding surfaces with rolling elements, the sliding friction between the closing arms and the deflection surfaces may be reduced. This then likewise reduces the expenditure of force for introducing and removing the closing arms into and/or from the closing mouth.
According to a first development of the door lock the free arm portions of the closing arms are preferably deflectable towards one another from their relative normal position. The deflection surfaces of the closing mouth accordingly run preferably in a funnel-like manner towards one another.
According to a first variant of this first development, the resetting spring arrangement comprises a compression spring, such as a helical compression spring. The compression spring in this first variant is disposed preferably in longitudinal direction of the closing arms between the respective ends of the closing arms and extends transversely of the closing arms. The closing arms in the relative normal position may be held for example at a normal spacing from one another. When during the closing operation of the door the closing arms engage into the closing mouth (independently of whether the closing mouth disposed on the door is moved relative to the closing arms disposed on the appliance housing or whether the closing arms disposed on the door are moved relative to the closing mouth disposed on the appliance housing), the free arm portions are pressed together from their spaced-apart normal position counter to the action of the compression spring by the deflection surfaces running in a funnel-like manner towards one another. The further the free arm portions engage into the closing mouth, the more the free arm portions are pressed together in accordance with the shape of the deflection surfaces. This enables the introduction of the closing arms into the closing mouth.
According to a second variant of this first development, the resetting spring arrangement comprises a tension spring such as a helical tension spring. As in the first variant, the closing arms may be held in the relative normal position for example at a normal spacing from one another. In a departure from the first variant, in the second variant the position of the mounting of the closing arms and the position of the spring in longitudinal direction of the closing arms may be transposed. Preferably in the second variant the tension spring is disposed on the respective other ends than the free ends of the closing arms and extends transversely of the closing arms. Thus, the tension spring may hold the closing arms in the normal position. When during the closing operation of the door the closing arms engage into the closing mouth, the free arm portions are pressed together from their spaced-apart normal position counter to the action of the tension spring by the deflection surfaces that run in a funnel-like manner towards one another. The further the free arm portions engage into the closing mouth, the more the free arm portions are pressed together in accordance with the shape of the deflection surfaces. This enables the introduction of the closing arms into the closing mouth.
In line with the first development, the deflection surfaces running in a funnel-like manner towards one another terminate preferably in an end region of the closing mouth. As in this case a force is no longer exerted on the free arm portions counter to the action of the compression spring (first variant) or the tension spring (second variant), the arm portions are deflected away from one another (in a second deflection direction) by the action of the compression spring and/or the tension spring and the free ends of the arm portions may be received by cavities formed in the end region of the closing mouth. A connection between the arm portions and the closing mouth is thereby formed, which is based at least partially on a frictional connection. For example, for releasing this frictional connection a force of between 50 and 150, for example between 80 and 120, and preferably of 100 Newtons, is required. Even if this force is exceeded, no damage to the door lock occurs, rather the frictional connection is released.
According to a reversal of the functional principle of the first development, according to a second development the resetting spring arrangement may comprise a tension spring, which is disposed at a position between the closing arms that corresponds to the compression spring according to the first variant of the first development. According to this development the free arm portions are deflectable away from one another as a first deflection direction. The deflection surfaces in the context of this second development are formed in a pyramid- or cone-like manner in the centre of the closing mouth and during the engagement process press the arm portions apart from one another counter to the action of the tension spring. According to this reverse functional principle the deflection surfaces extending in a cone-like manner away from one another terminate in the end region of the closing mouth, with the result that the free arm portions are pressed together in the end region of the closing mouth for example by the action of the tension spring. The free ends of the arm portions may be received by cavities formed in the end region and hence form a frictional connection with the end region.
In the normal position of the free arm portions the mutual spacing of the free arm portions of the closing arms may be determined by a connecting bridge arrangement that is applied to both closing arms. The connecting bridge arrangement may for example block the free arm portions in the normal position thereof to prevent a relative movement in the second relative deflection direction that is opposed to the first relative deflection direction. However, in the normal position the free arm portions may for example possess motional clearance relative to the lock housing in a direction of motion corresponding to the second relative deflection direction. For example, the blocking of the free arm portions by means of the connecting bridge arrangement may prevent the free arm portions from being deflected relative to one another in the second deflection direction. In this case, the free arm portions connected to one another by the connecting bridge arrangement may be moved simultaneously in the direction of motion. This motional clearance ensures that, even if the arm portions and the closing mouth do not lie ideally opposite one another, an engagement of the arm portions into the closing mouth is guaranteed.
The door lock may further comprise a control element configured for manual actuation, which is displaceable between a first position and a second position relative to the lock housing and which guarantees in its first position a facilitated relative deflection of the arm portions of the closing arms in the first relative deflection direction and in its second position an at least—compared to the first position of the control element—more difficult relative deflection of the arm portions in the first relative deflection direction. For this purpose, in the closed state of the door the control element may be displaceable from its first position into its second position and vice versa. The more difficult relative deflection of the arm portions in the first deflection direction may be achieved for example in that the length of the active lever arms of the free arm portions is reduced by the control element. The control element for this purpose may comprise a blocking element, which is disposed preferably between the closing arms. If the first deflection direction corresponds to a direction of the closing arms towards one another, the active lever arms of the free arm portions become shorter, the closer the blocking element is to the free ends of the arm portions.
The control element may for example in its first position enable a pivoting of the closing arms and in its second position prevent the closing arms from pivoting. In the event of blocking of the closing arms, a deflectability of the closing arms may exist due to inherent flexibility.
The door lock may further comprise a contacting element, which may be activated by one of the free arm portions of the closing arms in order thereby to actuate a switch disposed in the door lock. For example, the contacting element may comprise a contacting pin that may be moved by one of the free arm portions transversely of the direction of introduction of the arm portions into the closing mouth when the arm portions upon further engagement into the closing mouth are deflected partially back in the direction of their relative normal position. As a result of the transverse movement of the contacting pin, a microswitch for example disposed as a switch in the door lock may be actuated. The actuation of the microswitch into its new position may then be detected and on this basis the closed state of the door may be deduced.
The door lock may also comprise an opening unit that enables an automatic opening of the dishwashing machine once the washing operation has finished and the drying operation is initiated. For this purpose the opening unit may be configured to convert a rotary motion brought about by a drive unit, such as an electric motor, to a translatory motion, which acts upon the closing arms, in such a way as to bring about a deflection of the free arm portions relative to one another counter to the action of the resetting spring arrangement. For example, the opening unit may comprise a threaded rod, which extends transversely of the closing arms through the closing arms and is rotatable with the aid of the drive unit, such as the electric motor, wherein load transfer elements such as slide blocks, which are disposed in a rotationally fixed manner on the threaded rod, as a result of rotation of the threaded rod bring about a deflection of the free arm portions relative to one another counter to the action of the resetting spring arrangement. The threaded rod has for example a contradirectional righthand-/lefthand thread. It is for example conceivable that a control unit responsible for controlling the dishwashing machine or a control unit provided in the door lock (which may be connected for example to the control unit of the dishwashing machine) detects that the washing operation has finished and a drying operation is to be initiated and activates the drive unit accordingly. The drive unit then brings about a rotary motion of the threaded rod, which via the thread is movable relative to the closing arms. During rotation of the threaded rod the load transfer elements connected in a rotationally fixed manner to the threaded rod act upon the closing arms in such a way that the free arm portions are moved relative to one another counter to the action of the resetting spring arrangement. Thus, the free arm portions move preferably into a position, in which their connection to the cavities of the end portion of the closing mouth is released. Then the drive unit is for example stopped and the door may be opened with a reduced expenditure of force.
The drive unit may for example be controlled by the control unit in such a way that the free arm portions are moved (with the aid of the load transfer elements) into a position, in which they are pressed together to an extent that enables an at least almost entirely friction-free opening of the door lock. Alternatively the control unit may control the drive unit in such a way that the free arm portions are pressed together only partially and to such an extent that the expenditure of force for opening the door is reduced (for example by a few Newtons). The reduction of the expenditure of force may for example be selected by a user via an input unit of the dishwashing machine, wherein the control unit then brings about a corresponding rotation of the drive unit. In this way, as a kind of comfort access, an easier opening of the door may be achieved.
Furthermore, an opening element may be additionally provided, such as for example an opening pin or ejection pin that is capable of pressing the door in opening direction. The opening element may be held in a normal position counter to the spring action of a spring arrangement acting in the direction of extent of the closing arms and, upon release of the spring arrangement, as a result of the spring action may experience a movement in the direction of the direction of extent of the closing arms. It is accordingly conceivable for the opening element to be initially held in the normal position counter to the spring action of the spring arrangement. If for example the control unit then detects that the washing operation has finished, the control unit may then instruct the (previously described) pressing-together of the free arm portions. After this operation the free ends of the free arm portions are at least partially released from the cavities. If the control unit then instructs for example a release of the spring arrangement, the opening element is moved by the spring action in the direction of extent of the closing arms, which results in the door being slightly pressed open by the opening element. The drying operation may then be carried out more efficiently with the door open.
The invention further relates to a dishwashing machine having the presently described door lock. Given a situation of proper fitting of the door lock in the dishwashing machine, the free arm portions (16a, 16b) prior to engagement into the closing mouth (32) are oriented preferably in the direction of a rear side of the door (3) and in the direction of the closing mouth (32).
The invention is further described below with reference to preferred embodiments.
a is a diagrammatic representation of a side view of a door lock according to a first embodiment of the present invention in the fitted state.
b is a diagrammatic representation of a lateral plan view of the door lock according to the first embodiment according to
a is a diagrammatic representation of a plan view of the door lock according to the first embodiment in an open state.
b is a diagrammatic representation of a plan view of the door lock according to the first embodiment in a closed state.
a is a diagrammatic representation of a lateral plan view of a component of a door lock according to a third embodiment of the present invention.
b is a diagrammatic representation of a plan view of the component of the door lock according to the third embodiment according to
a is a diagrammatic representation of a lateral plan view of a component of a door lock according to a fourth embodiment of the present invention.
b is a diagrammatic representation of a lateral plan view of the component of the door lock according to the fourth embodiment according to
a is a diagrammatic representation of a lateral plan view of a component of a door lock according to a sixth embodiment of the present invention.
b is a further diagrammatic representation of the component of the door lock according to the sixth embodiment of the present invention of
a is a diagrammatic representation of a lateral plan view of a component of a door lock according to a seventh embodiment of the present invention.
b is a diagrammatic representation of a lateral plan view of the component of the door lock according to the seventh embodiment according to
c is a diagrammatic representation of a lateral plan view of the component of the door lock according to the seventh embodiment according to
d is a diagrammatic representation of a lateral plan view of the component of the door lock according to the seventh embodiment according to
e is a diagrammatic representation of a lateral plan view of the component of the door lock according to the seventh embodiment according to
The preferred embodiments of the present invention are illustrated in
In
b shows the door lock according to the first embodiment in a state, in which it is not fitted in the dishwashing machine but is closed.
a and 2b show further details of the door lock according to the first embodiment of the present invention. The closing unit 10 of the door lock comprises a housing 12, to which two closing arms 14a, 14b are connected. The closing arms 14a, 14b are mounted in each case via a bearing 18a, 18b in the housing 12. Each of the closing arms 14a, 14b is rotatable about its associated bearing 18a, 18b. In each case free arm portions 16a, 16b of the closing arms 14a, 14b project from the housing 12. Disposed between the two closing arms 14a, 14b is a compression spring 22, which by means of its spring action presses the two closing arms 14a, 14b apart from one another. As is represented by way of example in
In
The free arm portions 16a, 16b each have a recess 26a, 26b, into which the bridge parts 24a, 24b may engage when the arm portions 16a, 16b are pressed together counter to the action of the compression spring 22. More precisely, as the arm portions 16a, 16b are pressed together, the bridge part 24a connected to the first free arm portion 16a travels into the recess 26b formed in the second free arm portion 16b. Similarly, as the arm portions 16a, 16b are pressed together, the second bridge part 24b connected to the second free arm portion 16b travels into the recess 26a formed in the first free arm portion 16a. In
The door lock according to the first embodiment will now be described again with reference to
The outer sides of the closing arms 14a, 14b in their normal position do not rest directly against the inner wall of the housing 12. This is shown most clearly in
Finally, as may be seen in
As may be seen in
When the door 3 is moved relative to the appliance housing 1 and closed, the free arm portions 16a, 16b engage into the closing mouth 32. During closing of the door 3 the switchgear unit 30 and the closing unit 10 move relative to one another towards one another. Close to the end of the closing operation the arm portions 16a, 16b engage into the closing mouth 32 and slide with their rollers 20a, 20b along the associated deflection surfaces 34a, 34b. As may be seen in
During closing of the door 3 the arm portions 16a, 16b engage further into the end portion until the end position is reached. In this end position the free ends of the arm portions 16a, 16b that carry the rollers 20a, 20b are situated in the cavities 36a, 36b and the closing unit 10 and the switchgear unit 30 enter into a frictional connection with one another. The door 3 may be opened again counter to the force exerted by this frictional connection if the externally exerted force exceeds the opposing force produced by the frictional connection. The first embodiment is adapted in such a way that the force required for opening is ca. 50 N.
When the door is opened, the rollers 20a, 20b of the arm portions 16a, 16b slide along the rising inner surfaces of the cavities 36a, 36b. The arm portions 16a, 16b are therefore pressed together until they reach the point of maximum narrowing. When the arm portions 16a, 16b are moved further relative to the closing mouth 32 counter to the direction of engagement when closing the door, the rollers 20a, 20b slide backwards along the deflection surfaces 34a, 34b, and the arm portions 16a, 16b are pressed apart again by the action of the compression spring 22. After the complete release of the switchgear unit 30 from the closing unit 10, the arm portions 16a, 16b return to their normal position.
b shows the closed (end) state with fully engaged arm portions 16a, 16b. In this representation according to
As is evident from
As is evident from
According to a third embodiment the closing unit 10 of the door lock that is shown in
The closing unit 10 according to
During further closing of the door 3 the arm portions 16a, 16b engage further into the end portion until the end position is reached. In this end position the free ends of the arm portions 16a, 16b are situated in the cavities 36a, 36b and the closing unit 10 and the switchgear unit 30 enter into a frictional connection with one another. The door 3 may be re-opened counter to the force exerted by this frictional connection if the externally exerted force exceeds the opposing force produced by the frictional connection. The third embodiment also is adapted in such a way that the force required for opening is ca. 50 Newtons.
a and 5b show the closing unit 10 according to a fourth embodiment. This fourth embodiment corresponds to the third embodiment of
According to a sixth embodiment the closing unit 10 of the door lock shown in
In the second position the relative deflectability of the arm portions 16a, 16b is almost blocked. This is achieved by the fact that the blocking element 26 is situated closer to the free ends of the arm portions 16a, 16b and hence shortens the active lever arm of the arm portions 16a, 16b. Given completely rigid closing arms 14a, 14b, a movement of the arm portions 16a, 16b may then be completely prevented. If the closing arms 14a, 14b are not completely rigid but flexible, a slight deflection of the arm portions 16a, 16b may occur due to the inherent flexibility.
When the blocking element is in its second position (blocking position), both the engaging of the arm portions 16a, 16b of the closing arms 14a, 14b into the closing mouth 32 and the release thereof from the closing mouth 32 are made more difficult.
With the aid of the blocking element 26 the following functionality may be achieved. Firstly, in the open state of the door 3 the blocking element 26 is in its first position, in which the deflection of the free arm portions 16a, 16b of the closing arms is facilitated. In this position, during closing of the door 3 the arm portions 16a, 16b of the closing arms 14a, 14b in the course of engaging into the closing mouth 32 are first pressed together and finally pressed apart from one another again in the direction of the action of the compression spring 22 in order to enter into the connection with the switchgear unit 30. After closing of the door 3 the manual actuation element 23 projects out from the door 3 and is freely accessible from outside by a user and may be actuated by the user. By actuating the manual actuation element 23 the blocking element 26 is displaced by the action of the second compression spring 27 in the direction of the free ends of the arm portions 16a, 16b and hence (by shortening the active lever arm of the freely deflectable arm portions 16a, 16b) blocks the movement of the arm portions 16a, 16b towards one another. As a result, the release of the arm portions from the cavities 36a, 36b and hence opening of the door 3 are made more difficult. The third embodiment is adapted in such a way that a force of ca. 100 N is now required for opening the door 3 in the activated state of the blocking element 26 (i.e. the blocking element is situated in its second position, the blocking position). Such a force may namely be expended usually by an adult, but not by a child. The increased expenditure of force is based on the fact that the deflectability of the free arm portions in this state is based almost exclusively (if provided) on the inherent flexibility of the closing arms 14a, 14b. The increased expenditure of force prevents a child from accessing the washing compartment during a washing operation. However, an adult also senses that a higher expenditure of force is required and may deduce from this that the blocking element 26 is in its blocking state. To release this blocking the adult may simply move the manual actuation element 23 counter to the action of the second spring 27 and hence release the free arm portions 16a, 16b.
a to 8e show a closing unit 10 of the door lock according to a seventh embodiment. In this seventh embodiment a threaded rod 42 having a contradirectional righthand-/lefthand thread 44 is inserted through the closing arms 14a, 14b transversely of the longitudinal direction of the closing arms 14a, 14b. As may be seen in
If the control unit 52 then detects that the washing operation has finished and the drying operation is to be initiated, the control unit 52 activates the electric motor 50, which then brings about a rotation of the threaded rod 42. As a result of the rotation of the threaded rod 42 the slide blocks 46a, 46b disposed in a rotationally fixed manner on the threaded rod 42 are not only co-rotated with the threaded rod 42 but are also moved towards the compression spring 22. As a result of the movement of the slide blocks 46a, 46b the closing arms 14a, 14b are pressed together counter to the action of the compression spring 22 until the free arm portions 16a, 16b are situated in an end position. This end position is represented by way of example in
In order to guarantee an automatic opening of the door, the ejection pin 54 may further be provided, which may slightly press the door in the direction of extent of the closing arms and namely in the direction of opening of the door. The ejection pin 54 prior to conclusion of the washing operation is situated in a normal position, in which the compression spring 56 is preloaded. If the control unit 52 instructs the release of the spring 56 (because for example the washing operation has finished and the free arm portions 16a, 16b have also been sufficiently pressed together), the release of the spring 56 brings about a movement of the ejection pin 54 in the direction of extent of the closing arms 14a, 14b. As a result of this movement and the associated pressing of the ejection pin 54 against the door, the door is at least slightly pressed open. Consequently, at the start of the drying operation the door may be opened automatically, albeit only minimally, and the drying operation may be carried out more efficiently. Instead of the free arm portions 16a, 16b being pressed fully together, a comfort opening function of the dishwashing machine may also be achieved by the control unit 52 instructing only a lower rotation of the electric motor 50. The lower rotation of the electric motor 50 results in the free arm portions 16a, 16b being pressed together to a lesser extent. In this position, during opening of the door there is still a slight contact of the free arm portions 16a, 16b with the inner surfaces of the closing mouth 32. However, compared to the normal position of the closing arms 14a, 14b the friction is markedly reduced, thereby enabling an easier opening of the door with a reduced expenditure of force.
Although the preferred embodiments of the present invention have been described herein, the above description is merely illustrative. Further modification of the invention herein disclosed will occur to those skilled in the respective arts and all such modifications are deemed to be within the scope of the invention as defined by the appended claims.
Number | Date | Country | Kind |
---|---|---|---|
10 2011 011 662 | Feb 2011 | DE | national |
Number | Name | Date | Kind |
---|---|---|---|
618895 | Almonte | Feb 1899 | A |
650059 | Munday | May 1900 | A |
780192 | Jones | Jan 1905 | A |
1691724 | Kruschka | Nov 1928 | A |
2502607 | Vinton | Apr 1950 | A |
2594582 | Quinn | Apr 1952 | A |
2749163 | Loeb | Jun 1956 | A |
2772106 | Semelka | Nov 1956 | A |
2837361 | Loeb | Jun 1958 | A |
2857191 | Buchholtz | Oct 1958 | A |
4672725 | Kasai | Jun 1987 | A |
4927996 | Genbauffe et al. | May 1990 | A |
5062668 | Onderka et al. | Nov 1991 | A |
5544924 | Paster | Aug 1996 | A |
5647618 | Lamberth | Jul 1997 | A |
5711554 | Brown et al. | Jan 1998 | A |
6168217 | Kruger et al. | Jan 2001 | B1 |
6282931 | Padiak et al. | Sep 2001 | B1 |
6325427 | Daoud | Dec 2001 | B1 |
6739633 | Holloway et al. | May 2004 | B2 |
6773042 | Spurr et al. | Aug 2004 | B2 |
6954992 | Hwang | Oct 2005 | B2 |
7032939 | Magnusson | Apr 2006 | B2 |
7299809 | Kang | Nov 2007 | B2 |
7322127 | Hwang | Jan 2008 | B2 |
8104848 | Yoon | Jan 2012 | B2 |
8702134 | Lesjak | Apr 2014 | B2 |
20050194795 | Hapke et al. | Sep 2005 | A1 |
Number | Date | Country |
---|---|---|
3113205 | Oct 1982 | DE |
102004023608 | Dec 2004 | DE |
102006037494 | Jul 2008 | DE |
337220 | Oct 1989 | EP |
414188 | Aug 1934 | GB |
383102 | Feb 2008 | PL |
Entry |
---|
Office action from German Patent Office in co-pending German application listing prior art. |
Search report translation from Polish Patent Office in co-pending Polish application listing prior art. |
Number | Date | Country | |
---|---|---|---|
20130049376 A1 | Feb 2013 | US |