CN106285233B - Door lock assembly - Google Patents

Abstract

The invention discloses a kind of door lock assemblies, including bolt inductive component.Bolt inductive component includes push rod and self-lock switch.Self-lock switch includes：Switch main body is fixedly mounted in framework；Mobile unit is arranged and can be moved in ontology and between extended position and fully retracted position relative to ontology, and the mobile unit is by elastic component towards extended position bias so that mobile unit is in extended position when door is opened；Lock portion is arranged at or near the outboard end of mobile unit, and for coordinating with push rod, push rod is locked to mobile unit；And mobile unit locking mechanism, it is configured to coordinate so that mobile unit is locked to ontology when shutdown and mobile unit overcome the biasing force of elastic component to shift fully retracted position onto for the first time by push rod with elastic component, and when overcoming the biasing force of elastic component to shift mobile unit onto fully retracted position again, mobile unit is unlocked from ontology, to allow mobile unit to be biased into extended position by elastic component.

Description

Door lock assembly

Technical field

The present invention relates to a kind of door lock assembly, a kind of particularly door lock assembly for oven, and using in this way Door lock assembly oven.

Background technology

Existing lock for oven door motor, operating personnel close oven door, pass through shutdown position induction device -- and bolt incudes Body triggers microswitch output signal after pressure, microswitch output is handled by circuit control and electrical control program Signal sends out and executes instruction driving synchronous motor band moving cam and linkage mechanism realization shutdown locking action.

Bolt inductor is equipped with torsional spring part, and door can flick a distance or complete bullet when being closed under without outer force effect It opens.So operating personnel need to pin always week time (such as 10 seconds) that oven door motor operation to be synchronized is centainly set at this time Oven door could be unclamped after phase, to ensure that oven door is locked.Process is comparatively laborious to personnel's operation, while cannot effectively confirm roasting Whether chamber door closes completely.

Invention content

To solve the above-mentioned problems, it is proposed that the present invention.

The present invention provides a kind of door lock assemblies, including door lock, the motor for driving door lock and the door with self-locking function Fasten inductive component with a bolt or latch, the bolt inductive component includes：Push rod, it is mounted on a door, and with the extension stretched out towards framework Point；Self-lock switch, including：Switch main body is fixedly mounted in framework；Mobile unit, is arranged in ontology and can be relative to Ontology moves between extended position and fully retracted position, which, towards extended position bias, is made by elastic component It obtains mobile unit when door is opened and is in extended position；Lock portion is arranged at or near the outboard end of mobile unit, is used for Coordinate with push rod, push rod is locked to mobile unit；And mobile unit locking mechanism, be configured to elastic component coordinate with It closes the door and mobile unit locks mobile unit when overcoming the biasing force of elastic component to shift fully retracted position onto for the first time by push rod It, will be mobile single to ontology, and when overcoming the biasing force of elastic component to shift mobile unit onto fully retracted position again again Member is unlocked from ontology, and to allow mobile unit to be biased into extended position by elastic component, wherein mobile unit moves to completely When retracted position, the respective members on triggering component contact ontology in mobile unit, to send out electric signal, door lock assembly is rung It should be in opening of the electric signal by motor actuation door lock and/or closing.

Preferably, the mobile unit locking mechanism includes the guide rail being arranged in mobile unit and is arranged on the body U-shaped component, is arranged along the mobile unit direction of motion and U-shaped bottom is arranged in ontology inside and is fixed to ontology, and U-shaped structure There are inside pin outstanding in two ends of part towards outer body, two end sets of U-shaped component, and the pin is with mobile unit It is slided in guide rail in intrinsic movement.

Preferably, the end of guide rail is that asymmetric W-shaped, including three grooves are put in side, two of which exterior groove towards Setting on the inside of ontology forms the outboard end of guide rail, and intermediate groove is arranged towards outer body in opposite direction, works as shutdown When mobile unit pushed towards inside framework so that be arranged in the pin of the U-shaped component in guide rail from initial position along side rail An outboard end towards guide rail in road is advanced, and until entering corresponding one in two exterior grooves, which is known as First position, at this time mobile unit reach fully retracted position, first position is along mobile unit direction of travel and intermediate groove Guide edge opposite, therefore as user is no longer thrusts against door, mobile unit is transported outward under the partial pressure of elastic component It is dynamic so that pin leaves first position and then contacts and be moved into intermediate groove along the guiding edge of intermediate groove, the position Referred to as latched position is arranged due to intermediate groove towards outer body in the position, sells the engaging with intermediate groove and prevents mobile list The movement of side further out of member, another leading edge of the latched position along mobile unit direction of travel and two exterior grooves Edge is opposite, therefore when user presses pressure gate again, mobile unit overcomes the biasing force of elastic component to be moved to fully retracted position, So that pin leaves intermediate groove and then contacts and be moved into along the guiding edge of another exterior groove described another A exterior groove, another described exterior groove is opposite with asymmetric W-shaped respective side edge track, therefore after user looses one's grip Mobile unit moves outward in the presence of a tensile force so that enters the pin of another exterior groove along corresponding side Track returns to initial position.

Preferably, lock portion is free to unlock push rod in extended position, and at least in the complete of mobile unit Push rod is remained locked on mobile unit by retracted position with position when being locked to ontology, prevents the disengaging of push rod.

Preferably, after mobile unit is pushed into Switch main body, push rod is remained locked on mobile unit by lock portion, Prevent the disengaging of push rod.

Preferably, the end of the extension of push rod includes bulb, and the lock portion of self-lock switch includes at least two A rotatable locking arm, when push rod contacts mobile unit, push rod applies thrust in the actuation portion of locking arm so that lock Fixed arm portion closes up and ball head lock is in place, wherein as mobile unit is pushed into ontology, locking arm is opened relative to each other Rotation by ontology retainer limit, to prevent push rod from locking arm disengaging；When enabling, with mobile unit quilt Ontology is released, locking arm can be opened freely relative to each other, to discharge push rod.

Preferably, the end of the extension of push rod includes card slot, and the lock portion of self-lock switch includes and card slot Push rod to be locked to the gib head of mobile unit by cooperation, and gib head can be rotated relative to mobile unit, wherein with mobile unit quilt It promotes in ontology, the rotation of gib head relative mobile unit is limited by the retainer on ontology, to prevent push rod from the de- of gib head From；When enabling, as mobile unit is pushed out ontology, gib head can be rotated relative to mobile unit, to discharge push rod.

Preferably, the center of guide rail includes island platform, and wherein the island platform includes in described towards outer body side Between groove and towards body interior side include two asymmetrical guiding edges towards initial position side, described two A leading edge edge at least partially defines two side rails respectively, wherein one in the two guiding edges of island platform with just Beginning position is opposite, to advance to described one along one side rails along one guiding edge in guiding pin at closing time A exterior groove.

According to above-mentioned technical proposal, safer and convenient door lock assembly is provided.

Description of the drawings

Attached drawing is used to provide further understanding of the present invention, and a part for constitution instruction, the reality with the present invention It applies example to be used to explain the present invention together, not be construed as limiting the invention.In the accompanying drawings：

Fig. 1 is the front view of a part for door lock assembly according to the present invention；

Fig. 2 shows the side views of the mobile unit 21 of self-lock switch 2 according to the present invention；

Fig. 3 shows the vertical view of the guiding elements of self-lock switch according to the present invention；

The schematic diagram of the push rod of two embodiments according to the present invention is shown respectively in Fig. 4 (a) and Fig. 4 (b)；

The signal of push rod and blocking element in unlocked state and lock-out state is shown respectively in Fig. 5 (a) and Fig. 5 (b) Figure.

Specific implementation mode

It will be described in detail with reference to the accompanying drawings each embodiment according to the present invention.Here it is to be noted that it in the accompanying drawings, It assigns identical reference numeral to the substantially component part with same or like structure and function, and will omit about it Repeated description.It should be understood that term "upper", "lower", " upward ", " downward ", "horizontal", "vertical" directional terms are needles Description to orientation shown in attached drawing, these orientation are not restrictive.In practical applications, these orientation can basis Situation correspondingly changes.For example, for the sake of clarity for the orientation in Fig. 1 is in when component in the application, define with Under, it will be clearly understood that position upper and lower if component orientation changes also can correspondingly change, for example, if entire group The reverse installation of part, then upper and lower position will overturn, however, how orientation changes, the structure limited is clear and not Become.The terms such as term "horizontal", "vertical", " pendency " are not offered as requiring component abswolute level or pendency, but can be slightly Low dip.It is not to indicate that the structure has been had to if "horizontal" refers to only that its direction is more horizontal with respect to for "vertical" It is complete horizontal, but can be slightly tilted.Such as in the embodiment of the oven of this specification, to each component on oven babinet Speech is referred to as outside towards the side of door (under shutdown state), the side far from oven door is referred to as inside.Position in the description Refer to nearby for another end closer to this positioned at an end in for the component with opposite end End.The meaning of these terms is all clear to those skilled in the art.

Lock for oven door component includes door lock (not shown) and the motor (not shown) for driving door lock and bolt induction Component.Bolt inductive component is used in the push rod 12 being arranged at closing time on door 1, and the framework 3 in lock for oven door component is arranged On self-lock switch 2.

Fig. 1 shows the schematic illustration of bolt inductive component according to the present invention.12 one end of push rod as shown in Figure 1 is fixed Onto door 1, the other end stretches out (under shutdown state, as shown in Figure 1) towards framework.The other end of push rod 12 includes card slot 121.

Fig. 2 shows the side views of the mobile unit 21 of self-lock switch 2 according to the present invention.As illustrated in fig. 1 and 2, self-locking Switch 2 includes ontology 22 and can be relative to the mobile unit of the linear movement between extended position and fully retracted position of ontology 22 21.Mobile unit 21 by helical spring 23 be fixed to ontology 22, to mobile unit 21 by helical spring 23 towards stretch out position Set bias.The ontology 22 of self-lock switch 2 is fixedly mounted in the framework 3 of lock for oven door component.

As shown in Fig. 2, self-lock switch 2 further includes the blocking element 27 being arranged near outer side end.For closing the door Push rod is locked to mobile unit when push rod contacts mobile unit in journey.Blocking element is a protrusion 27 in fig. 2, is also claimed For gib head 27, it is used to match with the push rod 12 with card slot 121 shown in Fig. 4 (a).Main body of the gib head 27 from mobile unit 2 It protrudes and is installed in rotation in mobile unit 2.When push rod is pushed into, gib head is rotated and is caught in the card slot 121 of push rod 12. Optionally, gib head 27 is resiliently biased in the position basically perpendicular to mobile unit direction of motion A, that is, from movement In the position that the surface of unit is fully stretched out.Gib head 27 can relative to mobile unit 2 main body along clockwise direction or counterclockwise Direction rotates.When push rod is inserted into, gib head 27 is rotated clockwise to the position for not hindering push rod to advance under thrust, then When being aligned with card slot 121, rotation is caught in card slot counterclockwise, to which push rod is locked in position.

Preferably, gib head 27 is inclined surface on the outside, can be clinoplain or curved surface, in embodiment as shown in the figure In be plane, in order to which push rod 12 at closing time pushes and crosses gib head 27；And gib head 27 is basically perpendicular to traveling side in inside To the plane of A, in order to preferably keep the card slot of push rod.But it's not necessary, gib head can be with both sides all for nauropemeter Face is all vertical surface, or it is cylindrical, push rod is held in place i.e. as long as it can be inserted partially into card slot It can.Blocking element can not also be biased, but when mobile unit is pushed into self-lock switch ontology by inner body wall Actuator is mobile by blocking element and is maintained at latched position, such as the essentially perpendicularly card in the situation that blocking element is gib head Enter the position into card slot, to which push rod is remained locked on mobile unit.When in extended position, gib head 27 can be opposite It is rotated in 21 subject freedom of mobile unit, therefore push rod 12 can freely be discharged from gib head.In this embodiment, gib head 27 Opposed end exposes when gib head 27 is tilted relative to mobile unit direction of travel A from mobile unit bottom surface, and in latched position When, which flushes with the bottom surface of mobile unit.Therefore, it leaves extended position when mobile unit 21 and enters self-lock switch sheet When body 22, the inner wall of ontology limits gib head in latched position, and cannot be freely rotated.In this case, push rod is kept locking To mobile unit, and cannot freely discharge.

Alternatively, referring to Fig. 5 (a) and Fig. 5 (b), blocking element is to be stretched (under shutdown state) from ontology towards door direction The two locking arms 27 ' gone out.And as shown in Fig. 4 (b), 12 ' one end of push rod is fixed on door 1, and the other end is stretched out towards framework (under shutdown state).The other end of push rod 12 ' includes bulb 121 '.Arm 27 ' defines therebetween a space, at closing time Bulb 12 ' is received, and two arms 27 ' can be rotated in the opposite sense relative to the main body of mobile unit, such as edge respectively It rotates clockwise and anticlockwise, to open and close up the opening that the end of separate ontology 21 of locking arm 22 is formed.Work as shutdown When, bulb 12 ' pushes the actuating mechanism 271 of arm 27 ' after being inserted into the space that arm limits so that and arm 27 ' closes up, from By bulb 121 ' and thus and push rod 12 ' is held in place.Actuating mechanism can be rack, and have on the pivot of each arm The gear or partial gear coordinated with rack, to which push rod pushes rack that two arms will be caused to close up.In addition, actuating mechanism May be link mechanism, push rod applies thrust to link mechanism and two arms are closed up.Similarly, when in extended position When, arm 27 ' can be rotated relative to 21 subject freedom of mobile unit, therefore push rod 12 ' can freely be discharged from arm.Cause This, when mobile unit 21, which leaves extended position, enters self-lock switch ontology 22, the inner wall of ontology limits arm 27 ' in locking bit It sets, and cannot be freely rotated.In this case, push rod, which is kept, is locked to mobile unit, and cannot freely discharge, such as Fig. 5 (b) It is shown.

Optionally, spring member be used to lock arm towards closed position bias, without being arranged for promoting The component in swing arm portion.Arm is also not necessarily two, and more than two an appropriate number of arm is all possible.In other implementations In example, self-lock switch may include three, four or more locking arms, caged be crowded around into together, to limit locking Space.In this case, this as long as said gear rackwork or link mechanism carry out adjustment appropriate Adjustment is clear to those skilled in the art.

As shown in Fig. 2, the mobile unit 21 of self-lock switch 2 includes guide rail 26.Guide rail 26 is seen as on the whole along mobile unit The slender member of direction of motion A arrangement, and there is medial end in the direction, and than medial end closer to door (shutdown feelings Under condition) outboard end.Fig. 3 shows the vertical view of the guiding elements of self-lock switch according to the present invention.As shown in figure 3, from Lock-switch 2 further includes guiding elements 24, and guiding elements 24 is general U-shape component comprising is fixed to self-lock switch ontology 22 Medial end 243, outboard end 242, and the two arms of outboard end 242 is extended to from inner end 243 in outward direction. End further includes the pin 241 stretched out toward each other to two adjutages of guiding elements 24 on the outside.In the assembled condition, it guides The medial end 243 of component 24 is rotatably mounted on Switch main body 22, and pin 241 is located in guide rail 26, and with shifting Moving cell is moved relative to the movement of ontology in guide rail 26.

When mobile unit is in extended position, pin 241 is in the most inner side section of guide rail 26, i.e. position in Fig. 2 1. the position is the initial position of pin 241, also referred to as first position.The most inner side section positioned generally horizontal, to when shifting When moving cell is pushed into ontology by push rod, pin 241 is moved from initial position along guide rail outward.Most inner side section is in outer side end Punishment fork is upper and lower two side rails.End is that general side is put and towards the shape of inside opening, wrapped to guide rail on the outside Three grooves are included, wherein upper grooves 262 and lower recess 263 form the outboard end of guide rail towards being arranged on the inside of ontology, and Intermediate groove 264 is arranged towards outer body in opposite direction.Two side rails are connected respectively to two of W-shape track Side.

The center of guide rail includes island platform 261, and wherein the island platform 261 includes on the outside the intermediate groove 264, and another Side (i.e. inside) includes two asymmetrical guiding edges 2611,2612.Draw with upper side edge track the outlet of most inner side section Guide margin edge 2611 is opposite.To at closing time, as pin moves from the section and further outward along most inner side section When towards movement outside, pin is advanced along guiding edge 2611 along upper side edge track, and enters upper grooves 262, that is, in Fig. 2 Shown in position 2., which is known as the second position.In the second position, mobile unit is in limit retracted position, Wu Fazai It is moved further towards body interior, that is to say, that be in fully retracted position.

Draw along 21 direction of travel of mobile unit (being in the present embodiment horizontal direction) and intermediate groove 264 the second position Guide margin edge 2641 is opposite.Therefore as user is no longer thrusts against door, mobile unit 21 under the partial pressure of helical spring 23 to Movement outside so that pin 241 leaves the second position, advances inwardly relative to guide rail 26, then contacts and along intermediate groove 264 guiding edge 2641 is moved into intermediate groove 264.When pin is in intermediate groove 264 (position as shown in Figure 2 is 3.) When, since intermediate groove 264 is arranged towards outer body, the engaging with intermediate groove 264 of pin 241 prevents helical spring 23 that from moving Side pushes unit 21 further out.Therefore, which is referred to as latched position, also referred to as the third place.

Leading edge of the latched position along mobile unit direction of travel (being in the present embodiment horizontal direction) and lower recess Edge 2631 is opposite.Therefore when user presses pressure gate again so that mobile unit overcomes the biasing force of elastic component to being fully retracted position When setting movement, pin 241 leaves intermediate groove 264, then contacts and is moved into lower recess 263 along guiding edge 2631, 4th position as shown in Figure 2 is 4..Similar to the second position in the 4th position, mobile unit 21 is also at limit retraction position It sets, can not be moved further towards body interior, that is to say, that be in fully retracted position.

The guiding edge 2612 of 4th position and lower side track is opposite, thus after user looses one's grip mobile unit in bullet It is moved outward under property partial pressure so that the pin 241 in the 4th position leaves lower recess 263, relative to guide rail 26 It advances inwardly, then contact and is moved into along guiding edge 2612 and returns to initial position along lower side track.

The medial end of mobile unit 21 is provided with the contact 28 stretched out from mobile unit main body, when shutdown and mobile unit When running to the second position, contact 28 is contacted with the signal trigger mechanism 25 of setting on the body, to send out door signal.Door Lock set passes through the locking action of motor actuation door lock in response to the door signal.In the process, since self-lock switch 2 will Push rod 12 locks in place, and user is without being pushed down door with hand.

When user presses pressure gate again so that when mobile unit 21 runs to four positions, contact 28 again touch by trigger signal Mechanism 25 is sent out, to send out enabling signal.Door lock assembly is dynamic by the opening of motor actuation door lock in response to the enabling signal Make.After door-lock opening action is completed, the elastic force of helical spring 23 pushes mobile unit 21 to extended position, and then pushes Push rod, to open door.Certainly, other than aforesaid way, user can also be by pressing button in pressure gate or framework or remote The button of journey sends out enabling signal.

The function that blocking element is maintained to latched position when mobile unit is pushed into ontology might not be left one Extended position just realizes, the holding lock function ensure at least during pin is in the second position to the third place (including Second and the third place) realize.

In above-described embodiment, the second position and the 4th position are limit retracted position, but the two is not necessarily equal. One in the second position and the 4th position can be in another position and latched position (third in mobile unit retraction degree Position) between.But the second position and the 4th position are still all the limit or fully retracted position, because (being closed in pressing for the first time Door) in the case of, mobile unit can not move inward more than the second position, and in the case of pressing (enabling) again, it moves Moving cell can not move inward more than the 4th position.

Each embodiment of the present invention has been described in detail above.However, it should be appreciated by those skilled in the art that not taking off In the case of from the principle and spirit of the invention, these embodiments can be carry out various modifications, combination or sub-portfolio, and in this way Modification should fall within the scope of the present invention.

Claims (10)

1. a kind of door lock assembly, which is characterized in that the door lock assembly includes door lock, the motor for driving door lock and with self-locking The bolt inductive component of function, the bolt inductive component include：

Push rod, it is mounted on a door, and with the extension stretched out towards framework；

Self-lock switch, including：

Switch main body is fixedly mounted in framework；

Mobile unit is arranged in ontology and can be moved between extended position and fully retracted position relative to ontology, should Mobile unit is by elastic component towards extended position bias so that mobile unit is in extended position when door is opened；

Lock portion is arranged at or near the outboard end of mobile unit, and for coordinating with push rod, push rod is locked to movement Unit；And

Mobile unit locking mechanism is configured to coordinate to overcome elastic component by push rod in shutdown and mobile unit with elastic component Biasing force mobile unit is locked to ontology when shifting fully retracted position onto for the first time, and the bias of elastic component ought be overcome again When mobile unit is shifted onto fully retracted position by power again, mobile unit is unlocked from ontology, to allow mobile unit by bullet Property component is biased into extended position.

2. door lock assembly as described in claim 1, which is characterized in that the mobile unit locking mechanism includes being arranged in movement The U-shaped component of guide rail and setting on the body on unit, arranges along the mobile unit direction of motion and U-shaped bottom is arranged in Simultaneously it is fixed to ontology on the inside of ontology, and two ends of U-shaped component are towards outer body, two end sets of U-shaped component have Inwardly projecting pin, the pin are slided in intrinsic movement in guide rail with mobile unit.

3. door lock assembly as claimed in claim 2, which is characterized in that it is asymmetric W-shaped that the end of guide rail is that side is put, including three A groove,

Two of which exterior groove forms the outboard end of guide rail towards being arranged on the inside of ontology, and intermediate groove is in opposite direction Arranged towards outer body,

When mobile unit at closing time is by towards pushing inside framework so that be arranged in the pin of the U-shaped component in guide rail from initial bit The outboard end towards guide rail set in side rails is advanced, until entering corresponding one in two exterior grooves, The position is known as first position, and mobile unit reaches fully retracted position at this time,

First position is opposite with the guiding edge of intermediate groove along mobile unit direction of travel, therefore as user is no longer thrusts against Door, mobile unit move outward under the partial pressure of elastic component so that pin leaves first position and then contacts simultaneously edge The guiding edge for intermediate groove is moved into intermediate groove, which is known as latched position, in the position due to intermediate groove It is arranged towards outer body, sells the engaging with intermediate groove and the side further out of mobile unit is prevented to move,

Latched position is opposite with another guiding edge of two exterior grooves along mobile unit direction of travel, therefore works as user When pressing pressure gate again, mobile unit overcomes the biasing force of elastic component to be moved to fully retracted position so that pin leaves middle concave Then slot contacts and is moved into another described exterior groove along the guiding edge of another exterior groove,

Another described exterior groove is opposite with asymmetric W-shaped respective side edge track, therefore in elasticity after user looses one's grip Mobile unit moves outward under force effect so that the pin for entering another exterior groove is returned along corresponding side rails Return initial position.

4. door lock assembly as claimed in any one of claims 1-3, which is characterized in that lock portion can be certainly in extended position Push rod is unlocked by ground, and at least keeps locking by push rod with position when being locked to ontology in the fully retracted position of mobile unit Surely mobile unit is arrived, the disengaging of push rod is prevented.

5. door lock assembly as described in claim 1, which is characterized in that after mobile unit is pushed into Switch main body, locking Push rod is remained locked on mobile unit by part, prevents the disengaging of push rod.

6. door lock assembly as described in claim 1, which is characterized in that the end of the extension of push rod includes bulb, The lock portion of self-lock switch includes at least two rotatable locking arms, and when push rod contacts mobile unit, push rod applies Thrust is in the actuation portion of locking arm so that locking arm closes up and ball head lock is in place, wherein as mobile unit is pushed away Into in ontology, the rotation that locking arm is opened relative to each other is limited by the retainer on ontology, to prevent push rod from lock arm The disengaging in portion；When enabling, as mobile unit is pushed out ontology, locking arm can be opened freely relative to each other, to discharge Push rod.

7. door lock assembly as described in claim 1, which is characterized in that the end of the extension of push rod includes card slot, The lock portion of self-lock switch includes coordinating so that push rod to be locked to the gib head of mobile unit with card slot, and gib head can be relative to movement Unit rotational, wherein as mobile unit is pushed into ontology, the rotation of gib head relative mobile unit is by the retainer on ontology Limitation, to prevent disengaging of the push rod from gib head；When enabling, as mobile unit is pushed out ontology, gib head can be relative to shifting Moving cell rotates, to discharge push rod.

8. door lock assembly as claimed in claim 3, which is characterized in that the center of guide rail includes island platform, and wherein the island platform includes In the intermediate groove towards outer body side, and towards body interior side, i.e., wrapped towards initial position side Two asymmetrical guiding edges are included, described two leading edge edge at least partially define two side rails, wherein island respectively One in the two guiding edges of platform is opposite with initial position, to be sold along one guiding edge in guiding at closing time One exterior groove is advanced to along one side rails.

9. such as the above-mentioned door lock assembly of claim 1, which is characterized in that when mobile unit moves to fully retracted position, move The respective members on contact triggering ontology on moving cell, to send out enabling and/or door signal, door lock assembly is in response to this Opening and/or closing of the signal by motor actuation door lock.

10. door lock assembly as claimed in claim 2, which is characterized in that the medial end of U-shaped component is rotatably mounted to out It closes on ontology.