CN204511068U - Mechanical type magnetic door lock - Google Patents

Abstract

The utility model relates to a kind of mechanical type magnetic door lock, comprises tapered end and key, and described tapered end is at least sequentially connected with and vertically moves lock tooth cover plate, main board, horizontal sliding panel; Described horizontal sliding panel is stuck in transverse shifting deckle board, and laterally can slide in this transverse shifting deckle board; Several lock perforation is all provided with at the described correspondence position vertically moved on lock tooth cover plate, main board, horizontal sliding panel; Place in the described lock perforation vertically moving lock tooth cover plate and main board and vertically move lock tooth and spring; Transverse shifting lock tooth is placed respectively in each lock perforation of described main board and horizontal sliding panel; The length of described transverse shifting lock tooth is no more than the thickness of described main board and horizontal sliding panel; Described key is the key piece of lattice with holes, and it is corresponding that the Kong Geyu in described key piece locks perforation; The thickness of described key piece is the length difference of transverse shifting lock tooth.Password of the present utility model can be changed at any time, and safety is good.

Description

Mechanical type magnetic door lock

Technical field

The utility model relates to a kind of door lock, particularly a kind of mechanical type magnetic door lock.

Background technology

Applicant once had publication CN201826617U combined magnetic door lock more than a kind, comprise main panel, rotating handles, semiellipsoid, lock core ectosome, front fixing lock tooth plate and rear fixing lock tooth plate, one lock core ectosome is set after main panel, be empty body in the middle of lock core ectosome, empty body upper end be an ellipse turn chamber, oval turning in chamber arranges semiellipsoid, one rotating handles is through the top of main panel, and the front end of rotating handles is inserted in semiellipsoid, fixing lock tooth plate before arranging respectively in the empty body of lock core ectosome, rear fixing lock tooth plate and lock tooth slide plate, front fixing lock tooth plate is connected by trapezoidal conjuncted and rear fixing lock tooth plate, front fixing lock tooth plate, the corresponding lock perforation being provided with several orthogonal arrangement respectively on rear fixing lock tooth plate and lock tooth slide plate, lock perforation on front fixing lock tooth plate and the lock perforation on corresponding rear fixing lock tooth plate are provided with front magnetic lock tooth jointly, rear magnetic lock tooth is provided with in lock perforation on lock tooth slide plate, front magnetic lock tooth relies on opposite pole end in contact respectively with rear magnetic lock tooth and is connected, tooth cover plate is locked at lock tooth slide plate enclosing cover one, and be provided with the fore shaft corresponding with rear magnetic lock tooth on the home panel.

Above technology is through use for many years, and applicant thinks that there is following such as aging fast, key has fallen to join the place that lock trouble etc. can be improved, and therefore carries out technological innovation through in a few years research.

Utility model content

The purpose of this utility model is to provide a kind of mechanical type magnetic door lock, at any time, arbitrarily can mechanically change password, make key piece, safety is good, password is various, not easily aging.

For achieving the above object, the concrete technical scheme that the utility model provides is:

Mechanical type magnetic door lock, comprises tapered end and key, and described tapered end is at least sequentially connected with and vertically moves lock tooth cover plate, main board, horizontal sliding panel; Described horizontal sliding panel is stuck in transverse shifting deckle board, and laterally can slide in this transverse shifting deckle board; Several lock perforation is all provided with at the described correspondence position vertically moved on lock tooth cover plate, main board, horizontal sliding panel; Place in the described lock perforation vertically moving lock tooth cover plate and main board and vertically move lock tooth and spring; The shorter transverse shifting lock tooth one of length and the longer transverse shifting lock tooth two of a length is placed respectively in each lock perforation of described main board and horizontal sliding panel; Described vertically move lock tooth and described transverse shifting lock tooth contacts with each other; The length of described transverse shifting lock tooth one and transverse shifting lock tooth two neither exceedes the thickness of described main board and horizontal sliding panel; Described key is the key piece of lattice with holes, and the Kong Geyu in described key piece locks perforation quantity, position is corresponding; The thickness of described key piece is that transverse shifting lock tooth one locks the length difference of tooth two with transverse shifting.

Above-mentioned transverse shifting lock tooth one and transverse shifting are locked tooth two and can be referred to as transverse shifting and lock tooth.

On the basis of such scheme, described tapered end also comprise be located at described in the left cover and vertically moved outside lock tooth cover plate be located at right cover plate outside described horizontal sliding panel; The effect of above-mentioned left and right cover plate is for the protection of tapered end, and specifically, above-mentioned left cover is located at and is vertically moved outside lock tooth cover plate, can protect protrude from vertically move lock tooth cover plate vertically move lock increment head.And on described right cover plate, be provided with the perforate corresponding with the lock perforation on described horizontal sliding panel, be conveniently take out transverse shifting lock tooth, thus the length combination of transverse shifting lock tooth is set, reach the object of setting code.

On the basis of such scheme, between the position of opening of described right cover plate and described horizontal sliding panel, be provided with right cover plate space.Can insert in this space and not have magnetic any barrier, the accident that can prevent transverse shifting from locking tooth drops out, and plays the protective effect to transverse shifting lock tooth.

Described left cover and described vertically move to lock between tooth cover plate be provided with key piece draw-in groove, the set-up mode locking tooth two from transverse shifting lock tooth one and transverse shifting can carry out the real lattice of key piece mesopore lattice and the reckoning in space.

Described lock perforation can form rectangular arranged, and because rectangular arranged facilitates memory cipher, therefore this is prefered method, but is not limited to rectangular arranged, also can be circular concentric, triangle, polygon or other arbitrary graphic.Described key piece mesopore lattice quantity is no less than the quantity of lock perforation.Such as described lock perforation is set to the five-element four row, the hole lattice of described key piece are set to the five-element seven row.

On such scheme basis, described transverse shifting lock tooth one and transverse shifting lock tooth two are magnet, can attract each other.Magnet shape is corresponding with lock perforation shape, can be the arbitrary shape such as cylindrical, prismatic.

Be provided with back-moving spring with transverse shifting deckle board bottom inside bottom described horizontal sliding panel, the effect of this back-moving spring is the reset being convenient to horizontal sliding panel.

Principle of the present utility model is as follows:

Putting in order of tooth two is locked with transverse shifting by transverse shifting lock tooth one in each lock perforation of design agents plate and horizontal sliding panel, the original state (when namely key piece does not insert core) at core can be known, all are positioned at the contact surface that transverse shifting lock tooth one and transverse shifting lock tooth two and are not on a datum, therefore core is now stuck.And after key piece does not insert core, because having of key piece locks space corresponding to tooth and real lattice with transverse shifting, when space and real lattice withstand respectively vertically move lock tooth after, the contact surface that all transverse shiftings lock tooth one and transverse shifting can be made to lock tooth two is adjusted on same datum, and namely this datum is the contact surface between main board and horizontal sliding panel, and now namely tapered end is opened.

Compared with prior art, superiority of the present utility model includes but not limited to:

(1) can use as conventional door lock, just have the possibility of 1048576 kinds of password changes with regard to 20 transverse shifting lock teeth, password can be changed at any time, and safety is good;

(2) key piece can self manufacture, as long as remember that password just can make key piece again; Even if after password amendment, also only need to adjust the space on key piece and real lattice, handled easily; Without the need to special bitting;

(3) more existing electronic lock is easily aging, unstable, and the utility model is theory of mechanics, and without the need to electronic equipment, the aging cycle is also obviously elongated.

Accompanying drawing explanation

Accompanying drawing 1 is the utility model tapered end decomposition texture schematic diagram;

Accompanying drawing 2 is structural representation after the utility model assembling;

Lock tooth and main board assembly drawing is vertically moved in accompanying drawing 3 tapered end of the present utility model;

Transverse shifting deckle board and horizontal sliding panel assembly drawing in accompanying drawing 4 tapered end of the present utility model;

Accompanying drawing 5 the utility model schematic diagram.

Attached number in the figure illustrates:

1,11---screw;

2---left cover; 21---key piece draw-in groove;

3---vertically move lock tooth cover plate; 4---vertically move lock tooth;

5,8---spring;

6---main board;

7---transverse shifting deckle board;

9---horizontal sliding panel;

10---right cover plate; 101---right cover plate space;

12---vertically move lock tooth;

121---transverse shifting lock tooth one; 122---transverse shifting lock tooth two;

13---key piece;

131---key piece space;

132---the real lattice of key piece; 133---real lattice barrier;

14---datum;

151,152,153---lock perforation; 154---perforate.

Detailed description of the invention

Refer to Figure of description below, the utility model is further described.

As shown in Figures 1 and 2, mechanical type magnetic door lock, comprises tapered end and key.Particularly as shown in Figure 1, described tapered end is at least sequentially connected with and vertically moves lock tooth cover plate 3, main board 6, horizontal sliding panel 9; Described horizontal sliding panel 9 is stuck in transverse shifting deckle board 7, and laterally can slide in this transverse shifting deckle board 7; Several lock perforation 151,152,153 is all provided with at the described correspondence position vertically moved on lock tooth cover plate 3, main board 6, horizontal sliding panel 9.

For another example shown in Fig. 1, Fig. 3 and Fig. 5, place in the described lock perforation 151,152 vertically moving lock tooth cover plate 3 and main board 6 and vertically move lock tooth 4 and spring 5, the effect of spring 5 is, when key piece 13 does not insert core, the arc outer end vertically moving lock tooth 4 can protrude from and vertically move lock tooth cover plate 3, and the thickness also namely vertically moving lock tooth cover plate 3 is less than the length vertically moving lock tooth 4 arc external end head;

In each lock perforation 152,153 of described main board and horizontal sliding panel, place transverse shifting lock tooth 12 respectively, described transverse shifting lock tooth comprises the shorter transverse shifting lock tooth 1 of length and the longer transverse shifting lock tooth 2 122 of a length; Described vertically move lock tooth 4 and described transverse shifting lock tooth 12 contacts with each other (its way of contact specifically can as shown in Figure 5); The length of described transverse shifting lock tooth 1 and transverse shifting lock tooth 2 122 neither exceedes described main board 6 and the thickness of horizontal sliding panel 9.

Again as shown in Figure 2, described key is the key piece 13 of lattice with holes, can insert in key piece draw-in groove 21, and the lock perforation quantity in the Kong Geyu tapered end in described key piece, position are corresponding; The thickness of described key piece is that transverse shifting lock tooth one locks the length difference of tooth two with transverse shifting.

On the basis of such scheme, described tapered end also comprise be located at described in vertically move left cover outside lock tooth cover plate 32 and and be located at right cover plate 10 outside described horizontal sliding panel 9; The effect of above-mentioned left cover 2, right cover plate 10 is for the protection of tapered end; specifically; above-mentioned left cover 2 is located at and is vertically moved outside lock tooth cover plate 3; can protect the arced terminus vertically moving lock tooth 4 protruding from and vertically move lock tooth cover plate 3, preferred embodiment vertically moves the arced terminus of lock tooth 4 just in time the end peaks on left cover 2.

And on described right cover plate 10, be provided with the perforate 154 corresponding with the lock perforation on described horizontal sliding panel, transverse shifting lock tooth 12 is conveniently taken out in perforate 154, thus length combination (combination namely shown in Fig. 5) of transverse shifting lock tooth 12 is set, reach the object of setting code.

As depicted in figs. 1 and 2, on the basis of such scheme, between perforate 154 position of described right cover plate 10 and described horizontal sliding panel 9, be provided with right cover plate space 101.Can insert in this space 101 and not have magnetic any barrier, the accident that can prevent transverse shifting from locking tooth 12 drops out, and plays the protective effect to transverse shifting lock tooth 12.

Described left cover 2 and described vertically move to lock between tooth cover plate 3 be provided with key piece draw-in groove 21, the set-up mode locking tooth 2 122 from transverse shifting lock tooth 1 and transverse shifting can carry out the real lattice of key piece mesopore lattice and the reckoning in space.Concrete principle please hereafter refers to.

Described lock perforation 151,152,153 can form rectangular arranged, because rectangular arranged facilitates memory cipher, therefore this is prefered method, but be not limited to rectangular arranged, also can be circular concentric, triangle, polygon or other arbitrary graphic, the hole lattice of key piece 13 are arranged to be needed and locks the consistent of perforation; Described key piece mesopore lattice quantity is no less than the quantity of lock perforation, and the checkerwork cell more than lock perforation is interference hole lattice, may be used for hand-held, also may be used for the memory disturbing other people to hole lattice.In the present embodiment, described lock perforation is set to the five-element four row, and the hole lattice of described key piece are set to the five-element seven and arrange (key piece 13 shown in Fig. 2 arranges for the five-element five).

On such scheme basis, described transverse shifting lock tooth 1 and transverse shifting lock tooth 2 122 are magnet, can attract each other.Magnet shape is corresponding with lock perforation shape, can be the arbitrary shape such as cylindrical, prismatic.

Be provided with back-moving spring 8 with transverse shifting deckle board 7 bottom inside bottom described horizontal sliding panel 9, the effect of this back-moving spring 8 is the resets being convenient to horizontal sliding panel 9.

Principle of the present utility model is as follows:

Principle of the present utility model as shown in Figure 5, (as shown in Figure 5, top layer arranges sequentially is that transverse shifting locks tooth 1, transverse shifting locks tooth 2 122, connect afterwards to vertically move again and lock tooth 4 lock the putting in order of tooth 2 122 by transverse shifting lock tooth 1 and transverse shifting in each lock perforation of design agents plate 6 and horizontal sliding panel 9; And second and third layer arrange order be all transverse shifting lock tooth 2 122, transverse shifting lock tooth 1, afterwards connect again vertically move lock tooth 4), the original state (when namely key piece does not insert core) at core can be known, all are positioned at the contact surface that transverse shifting lock tooth 1 and transverse shifting lock tooth 2 122 and are not on a datum, therefore core is now stuck.And after key piece does not insert core (i.e. position shown in Fig. 5), because having of key piece to be locked space corresponding to tooth and real lattice (as Fig. 5, key piece top layer is that space 131, the second and third layer are all real lattice 132 with transverse shifting; Barrier 133 in real lattice can push up the arced terminus vertically moving lock tooth 4 end), when space 131 and real lattice 132 withstand respectively vertically move lock tooth 4 after, the contact surface that all transverse shiftings lock tooth 1 and transverse shifting can be made to lock tooth 2 122 is adjusted on same datum 14, and namely this datum 14 is the contact surface between main board 6 and horizontal sliding panel 9, and now namely tapered end is opened.As shown in Figure 2, namely apply a F power at shown position, horizontal sliding panel 9 can be pressed downwards.If cancel F power, then, under transverse shifting lock tooth 1 and transverse shifting locks the effect of the mutual magnetic attraction of tooth 2 122, horizontal sliding panel 9 also can reset as shown in Figure 4, and increases spring 8 and can obtain better reset effect.

Owing to mainly relying on key piece that datum 14 is adjusted in all vertically moving lock tooth 1 and vertically move the contact surface locking tooth 2 122, therefore the setting position of key piece draw-in groove 21 is not limit.In the present embodiment, key piece draw-in groove 21 is located at the outside vertically moving lock tooth cover plate 3, makes the space of key piece 13 and real lattice control to vertically move one end of lock tooth 4 respectively, thus reach the object controlling to vertically move lock tooth 1 and vertically move lock tooth 2 122.Based on above-mentioned principle, also by the change of structure, key piece draw-in groove 21 can be located at the outside of horizontal sliding panel 9, thus reach identical effect.

Claims (9)

1. mechanical type magnetic door lock, comprises tapered end and key, it is characterized in that,

Described tapered end is at least sequentially connected with and vertically moves lock tooth cover plate, main board, horizontal sliding panel;

Described horizontal sliding panel is stuck in transverse shifting deckle board, and laterally can slide in this transverse shifting deckle board;

Several lock perforation is all provided with at the described correspondence position vertically moved on lock tooth cover plate, main board, horizontal sliding panel;

Place in the described lock perforation vertically moving lock tooth cover plate and main board and vertically move lock tooth and spring;

In each lock perforation of described main board and horizontal sliding panel, place transverse shifting lock tooth respectively, be specially: the transverse shifting lock tooth one that length is shorter and the longer transverse shifting lock tooth two of a length;

Described vertically move lock tooth and described transverse shifting lock tooth contacts with each other;

The length of described transverse shifting lock tooth one and transverse shifting lock tooth two neither exceedes the thickness of described main board and horizontal sliding panel;

Described key is the key piece of lattice with holes, and the Kong Geyu in described key piece locks perforation quantity, position is corresponding;

The thickness of described key piece is that transverse shifting lock tooth one locks the length difference of tooth two with transverse shifting.

2. mechanical type magnetic door lock according to claim 1, is characterized in that, described tapered end also comprise be located at described in the left cover and vertically moved outside lock tooth cover plate be located at right cover plate outside described horizontal sliding panel; Described right cover plate is provided with the perforate corresponding with the lock perforation on described horizontal sliding panel.

3. mechanical type magnetic door lock according to claim 2, is characterized in that, is provided with right cover plate space between the position of opening of described right cover plate and described horizontal sliding panel.

4. mechanical type magnetic door lock according to claim 2, is characterized in that, described left cover and described vertically move to lock between tooth cover plate be provided with key piece draw-in groove.

5. mechanical type magnetic door lock according to claim 1, is characterized in that, the described orthogonal arrangement of lock perforation.

6. mechanical type magnetic door lock according to claim 1 or 5, is characterized in that, described key piece mesopore lattice quantity is no less than the quantity of lock perforation.

7. mechanical type magnetic door lock according to claim 6, is characterized in that, described lock perforation is set to the five-element four row, and the hole lattice of described key piece are set to the five-element seven row.

8. mechanical type magnetic door lock according to claim 1, is characterized in that, described transverse shifting lock tooth one and transverse shifting lock tooth two are magnet, can attract each other.

9. mechanical type magnetic door lock according to claim 1, is characterized in that, is provided with spring bottom described horizontal sliding panel with transverse shifting deckle board bottom inside.