阅读说明：本技术 具固定结构的磁力锁 (Magnetic lock with fixing structure ) 是由 施宏坤 于 2020-03-27 设计创作，主要内容包括：本发明提供一种具固定结构的磁力锁,包括一壳体、一电磁铁本体、一定位体与至少一夹合件,其中,该电磁铁本体能容纳至该壳体的容纳空间中,该定位体的一侧面会贴靠至该壳体的一外侧面,在该定位体与该壳体两者相对应的侧面彼此贴靠的状态下,该夹合件会同时夹持住该壳体与定位体相邻接的一端缘上,以固定住该定位体与该壳体,如此,在长期使用过程中,当该壳体与定位体原有的安装元件断裂或脱离后,该夹合件即能够提供额外的辅助固定能力,以提高使用上的安全性。(The invention provides a magnetic lock with a fixed structure, which comprises a shell, an electromagnet body, a positioning body and at least one clamping piece, wherein the electromagnet body can be accommodated in an accommodating space of the shell, one side surface of the positioning body can be attached to one outer side surface of the shell, and the clamping piece can simultaneously clamp one end edge of the shell, which is adjacent to the positioning body, to fix the positioning body and the shell under the state that the corresponding side surfaces of the positioning body and the shell are attached to each other.)

1. A magnetic lock with a securing structure, comprising:

a housing having an accommodating space therein;

the electromagnet body can be assembled in the accommodating space of the shell, the top surface of the electromagnet body can be exposed out of the shell, the electromagnet body can receive external electric power, and magnetic attraction is formed on the top surface of the electromagnet body;

a retainer capable of being fixed to an object and having one side surface thereof abutting against an outer side surface of the housing; and

at least one clamping piece, which clamps the end edge of the positioning body adjacent to the shell to fix the positioning body and the shell when the corresponding side surfaces of the positioning body and the shell are attached to each other.

2. The magnetic lock of claim 1, wherein the clamping member is formed by bending a metal wire, and comprises an upper bending portion, an engaging portion and a lower bending portion, the engaging portion is located between the upper bending portion and the lower bending portion, the upper bending portion abuts against the other side surface of the positioning member, and the lower bending portion abuts against the inner side surface of the housing in a state where the clamping member simultaneously clamps the positioning member and the housing.

3. The magnetic lock of claim 1, further comprising:

at least one fixed rod; and

each clamping part is formed by bending a metal plate and comprises an upper bending part, a connecting part and a lower bending part, wherein the connecting part is positioned between the upper bending part and the lower bending part, the lower bending part is provided with a through hole, the upper bending part is attached to the other side surface of the positioning body in a state that the clamping part clamps the positioning body and the shell, the lower bending part is attached to the inner side surface of the shell, and the fixing rod can penetrate through the shell and can penetrate through the through hole to be fixed to the positioning body.

4. The magnetic lock of claim 3 wherein the clamp is J-shaped.

5. The magnetic lock of claim 4, wherein the fixing rod is screwed to the positioning body.

6. A magnetic lock as claimed in any one of claims 2 to 5 wherein a recess is provided between the inner face of the housing and the electromagnet body into which the lower bent portion of the clamping element can extend.

7. The magnetic lock as claimed in claim 6, wherein the electromagnet body is composed of at least an iron core and a coil, the iron core has an E-shaped cross section, and the coil is directly or indirectly wound around the middle cylinder of the iron core, so that the iron core forms the magnetic attraction force when the coil is energized.

8. The magnetic lock as claimed in claim 7, wherein the core is composed of at least a plurality of silicon steel sheets, and the silicon steel sheets are stacked one on another to form a long bar shape.

Technical Field

The invention relates to a magnetic lock, in particular to a magnetic lock, wherein a shell and a positioning body can be mutually fixed through a clamping piece.

Background

Generally, in order to protect the property of people, a lock is usually installed on a door, a window, a cabinet …, etc. to prevent the people from invading the cabinet. Because the lock with a simple mechanical structure is easy to be cracked by tools (such as a master key), in order to improve the safety, people start to adopt electronic locks such as magnetic locks, magnetic card locks, coded locks, wireless remote control locks and the like.

In summary, in terms of a Magnetic LOCK (or called an electromagnetic LOCK), the Magnetic LOCK utilizes the electromagnetic principle, and under the condition of power-on, the Magnetic LOCK adsorbs a corresponding adsorption iron sheet (for example, an adsorption iron sheet arranged on a door panel) to be in a Locked (LOCK) state, but under the condition of power-off, the Magnetic LOCK no longer adsorbs the adsorption iron sheet to be in an Unlocked (UNLOCK) state. The current magnetic lock is substantially composed of a shell and an electromagnet body, wherein the cross section of the shell is in a U shape to form an accommodating space therein, the electromagnet body at least comprises an iron core and a coil, the iron core can be formed by overlapping and welding a plurality of silicon steel sheets, the coil is wound on the iron core, and when the electromagnet body is electrified, magnetic attraction can be formed on the outer surface of the electromagnet body exposed out of the shell.

However, the inventor found that the existing magnetic lock still has some defects in use, first, the housing is usually fixed to an object (such as a door frame) through a positioning body, and the positioning body, the housing and the electromagnet body are locked together through a plurality of screws, so that when the magnetic lock is in a locked state, an acting force between the electromagnet body and the corresponding attraction iron sheet causes the electromagnet body to form a pulling force which is separated outwards, and at this time, a main acting area of the pulling force is concentrated at a contact point position of a screw hole and a screw on the electromagnet body, the housing and the positioning body, and therefore, when the contact point position bears a large acting force, a housing area at the contact point position is often deformed, even the screw is broken or damaged, so that the positioning body and the housing cannot be stably assembled, which not only affects the reduction of the attraction force of the magnetic lock to the attraction iron sheet, the risk of the housing falling off the positioning body is more likely to occur. Secondly, the aforementioned screw-fastening method basically uses a large number of screws, resulting in a long assembly time and procedure.

In summary, how to effectively solve the problem of the magnetic lock to provide a better user experience is an important issue to be discussed herein.

Disclosure of Invention

Because the whole structure of the existing magnetic lock still has a defect in use, the inventor relies on the abundant practical experience of designing, processing and manufacturing professionally over the years and keeps the research spirit of lean refinement, and after long-term diligent research and experiments, the invention finally develops the magnetic lock with the fixed structure, and hopes to effectively solve the existing problems through the invention.

The invention provides a magnetic lock with a fixed structure, which comprises a shell, an electromagnet body, a positioning body and at least one clamping piece, wherein an accommodating space is arranged in the shell, the electromagnet body can be assembled in the accommodating space and is exposed out of the top surface of the electromagnet body, the electromagnet body can receive external electric power and form a magnetic attraction force on the top surface of the electromagnet body; the positioning body can be fixed on an object, one side surface of the positioning body can be attached to one outer side surface of the shell, and the clamping piece can simultaneously clamp one end edge of the positioning body, which is adjacent to the shell, so as to fix the positioning body and the shell.

Preferably, the clamping member is formed by bending a metal wire, and includes an upper bending portion, an engaging portion and a lower bending portion, the engaging portion is located between the upper bending portion and the lower bending portion, the upper bending portion abuts against the other side surface of the positioning member, and the lower bending portion abuts against the inner side surface of the housing in a state where the clamping member simultaneously clamps the positioning member and the housing.

Preferably, the method further comprises the following steps:

at least one fixed rod; and

each clamping part is formed by bending a metal plate and comprises an upper bending part, a connecting part and a lower bending part, wherein the connecting part is positioned between the upper bending part and the lower bending part, the lower bending part is provided with a through hole, the upper bending part is attached to the other side surface of the positioning body in a state that the clamping part clamps the positioning body and the shell, the lower bending part is attached to the inner side surface of the shell, and the fixing rod can penetrate through the shell and can penetrate through the through hole to be fixed to the positioning body.

Preferably, the clip is J-shaped.

Preferably, the fixing rod is fixed on the positioning body by a screw thread mode.

Preferably, a concave part is arranged between the inner side surface of the shell and the electromagnet body, and the lower bent part of the clamping part can extend into the concave part.

Preferably, the electromagnet body is composed of at least one iron core and one coil, the cross section of the iron core can be E-shaped, and the coil is directly or indirectly wound on the middle cylinder of the iron core, so that the iron core forms the magnetic attraction force when the coil is electrified.

Preferably, the iron core is composed of at least a plurality of silicon steel sheets, and the silicon steel sheets are mutually overlapped to form a long strip shape.

For further understanding and appreciation of the objects, technical features, and effects of the invention, reference will now be made to the following detailed description of illustrative embodiments thereof, taken in conjunction with the accompanying drawings, in which:

drawings

FIG. 1 is an exploded view of the magnetic lock of the present invention;

FIG. 2 is a schematic view of the magnetic lock of the present invention;

fig. 3 is a side schematic view of a core of the present invention;

FIG. 4 is a schematic diagram of a partial explosion of the magnetic lock of the present invention;

FIG. 5 is a schematic view of the magnetic lock of the present invention;

FIG. 6 is a schematic diagram of another embodiment of a magnetic lock of the present invention.

[ description of main element symbols ]

Clamping member … … 1, 3

Upper bent portions … … 11, 31

Joining portions … … 12, 32

Lower bends … … 13, 33

Magnetic lock … … 2

Positioning body … … 20

Ribs … … 201

Shell … … 21

Accommodation space … … 210

First slip part … … 211

Recess … … 212

Channel … … 213

Electromagnet body … … 22

Iron cores … … 22A, 32A

Coil … … 22B

Middle cylinder … … 221

Second slip part … … 222

Clip … … 24

Dovetail slot … … 320

Fixed bar … … 33

Circuit board … … E

Electric wire … … L

Detailed Description

Referring to fig. 1 and 2, in an embodiment, the magnetic lock 2 at least includes a positioning body 20, a housing 21, an electromagnet body 22 and a clamping member 1, for convenience of description, the upper side of fig. 1 is taken as the upper (top side) position of the element, the lower side of fig. 1 is taken as the lower (bottom side) position of the element, and the foregoing directions are only for convenience of description of the configuration relationship between the elements, and do not relate to the actual installation and use direction and position of the magnetic lock 2.

In order to avoid the complicated drawings, in fig. 1 of the present invention, only the circuit board E and the electric wire L of the magnetic lock 2 are simply drawn, but it is the prior art and not the main core feature of the present invention that the circuit board E is disposed in the housing 21, and the electromagnet body 22 is disposed with the electric wire L to electrically connect to the circuit board E and receive external power, so that it is possible for those skilled in the art to automatically adjust the arrangement of the circuit board E and the electric wire L of the magnetic lock 2 after referring to the following description, and therefore, as long as the magnetic lock 2 has the fixing structure and related elements in the following description, the magnetic lock 2 to be protected by the present invention will be described first.

With reference to fig. 1 and fig. 2, the cross-sectional shape of the housing 21 can be U-shaped, and a receiving space 210 is disposed therein, the electromagnet body 22 can be assembled into the receiving space 210 of the housing 21, and the electromagnet body 22 can receive external power and form a magnetic attraction force on the exposed surface (e.g., the top surface above fig. 1). In this embodiment, the electromagnet body 22 is at least composed of an iron core 22A and a coil 22B, the cross-section of the iron core 22A can be E-shaped (as shown in fig. 3), and the coil 22B can be directly or indirectly (e.g., through a coil holder) wound on the middle cylinder 221 of the iron core 22A to make the iron core 22A form magnetic attraction when the coil 22B is energized, the iron core 22A can be formed by stacking a plurality of silicon steel sheets into a strip shape, and the iron core 22A and the coil 22B (or the coil holder) can be covered by a protection layer (e.g., epoxy resin, rubber, etc.), only the top end of the iron core 22A can be exposed out of the protection layer. In other embodiments of the present invention, the electromagnet body 22 is not limited to the foregoing structure, and the workers in the field can adjust the components and forms of the electromagnet body 22 according to the product requirements, as long as the electromagnet body 22 can be assembled in the housing 21, and can generate magnetic attraction after being powered on, and does not generate magnetic attraction any more after being powered off, which is called the electromagnet body 22 of the present invention.

In view of the above, with continuing reference to fig. 1 and 2, the positioning body 20 can be fixed to an object (e.g., a door frame), in this embodiment, a side surface of the positioning body 20 is attached to an outer side surface of the housing 21, and the positioning body 20 and the housing 21 can be assembled to each other through at least one mounting element (e.g., a screw, a slide rail, etc.), so that after a door panel is installed with an iron sheet, when the magnetic LOCK 2 is in the power-on state and the top surface of the electromagnet body 22 (i.e., the top surface of the iron core 22A) is attached to the iron sheet, the door panel is in the LOCK (LOCK) state, such that the door panel cannot be opened; on the contrary, when the magnetic lock 2 is in the power-off state, since the electromagnet body 22 no longer attracts the absorption iron sheet, an Unlocking (UNLOCK) state is formed, so that the door panel can be freely opened.

In addition, referring to fig. 1, 4 and 5, when the corresponding sides of the positioning body 20 and the housing 21 are attached to each other, the clamping members 24 simultaneously clamp an end edge of the positioning body 20 adjacent to the housing 21 to fix the positioning body 20 and the housing 21 (as shown in fig. 5), in this embodiment, the clamping member 1 is formed by bending a metal wire (e.g., steel wire) and includes an upper bending portion 11, a connecting portion 12 and a lower bending portion 13, the connecting portion 12 is located between the upper bending portion 11 and the lower bending portion 13, the upper bending portion 11 is attached to the side of the positioning body 20, the lower bending portion 13 is attached to the inner side of the housing 21, in practical use, the distance between the upper bending portion 11 and the lower bending portion 13 is slightly smaller than the thickness of the corresponding sides of the positioning body 20 and the housing 21, so as to clamp and urge the positioning body 20 and the housing 21 by the elasticity of the clamping member 1. In this embodiment, a recessed portion 212 can be disposed between the inner side surface of the housing 21 and the electromagnet body 22, and the lower bending portion 13 of the clamping member 1 can extend into the recessed portion 212 to better fix the positioning body 20 and the housing 21, so that, in the long-term use process, when the original mounting elements of the housing 21 and the positioning body 20 are broken or separated, the clamping member 1 can provide additional auxiliary fixing capability to improve the safety in use, even, the worker in the field can directly use the clamping member 1 as the main fixing structure of the housing 21 and the positioning body 20.

In addition to the above-mentioned form of metal wire, in another embodiment of the present invention, as shown in fig. 6, the clamping member 3 is formed by bending a metal plate, and is J-shaped (but not limited thereto), wherein the clamping member 3 comprises an upper bending portion 31, a connecting portion 32 and a lower bending portion 33, and the lower bending portion 33 is formed with a through hole 34, when the upper bending portion 31 abuts against the other side surface of the retainer 20, after the lower bending portion 33 abuts against the inner side surface of the housing 21 (e.g. extends into the recess 212), the worker can use a fixing rod 24 to sequentially pass through the housing 21 and the electromagnet body 22, and pass through the through hole 24, and fixed (e.g., screwed, embedded, pressed, etc.) to the positioning body 20, so that when the screw that originally locks the housing 21 and the positioning body 20 is loosened, the housing 21 is not easy to fall off due to the design of the clamping member 3; in addition, in the assembly process, since the clamping member 3 will clamp the housing 21 and the positioning body 20 first, when the fixing rod 24 is assembled subsequently, the convenience and the positioning accuracy in assembly can be improved, and when the user locks the fixing rod 24, the housing 21 will not easily deviate from the original position, so as to avoid the danger that the housing 21 will fall off after the user installs the magnetic lock 2 or uses the magnetic lock for a long time.

From the above, only the preferred embodiments of the present invention are described, and the scope of the present invention is not limited thereto, and equivalent changes and modifications that can be easily made by those skilled in the art according to the technical contents disclosed in the present invention should be within the protection scope of the present invention.