CN107237558B - Internet-of-things intelligent electric clutch lock for clutch lock and outdoor cabinet - Google Patents

Abstract

The invention provides a clutch lock and an intelligent electric clutch lock for an outdoor cabinet through the Internet of things, and belongs to the field of locks. The clutch lock comprises a lock assembly, a clutch assembly and a driving assembly. The clutch assembly comprises a lock cylinder clutch shaft and a lock clutch which is connected with the lock cylinder clutch shaft in a matching way. The lock assembly comprises a first elastic piece and a lock connecting rod shaft matched with the lock clutch, two ends of the first elastic piece are respectively abutted to the lock clutch and the lock connecting rod shaft, and the lock connecting rod shaft is used for driving the lock core to rotate. The driving assembly comprises a power mechanism and a driving pull rod, and the driving pull rod is used for driving the lock clutch to be meshed with or separated from the lock connecting rod shaft under the driving of the power mechanism. The clutch lock has the advantages of simple structure, convenience, practicability and high safety. In addition, the invention further provides an intelligent electric clutch lock for the internet of things for the outdoor cabinet, which comprises the clutch lock and control equipment in signal connection with the power mechanism, can realize remote monitoring, and is convenient for a machine room to master the opening and closing conditions of the lock.

Description

Internet-of-things intelligent electric clutch lock for clutch lock and outdoor cabinet

Technical Field

The invention relates to the field of locks, in particular to a clutch lock and an intelligent electric clutch lock of the Internet of things for an outdoor cabinet.

Background

At present, the tool to lock structure among the prior art, general structure is comparatively complicated, needs the handheld key of user to unblank or close the lock, and the use of lock has received certain time and regional restriction. In addition, as long as unmanned warranty or unmanned patrol and examine are patrolled to current outdoor rack tool to lock, the situation of opening the door of each outdoor rack can't be learnt to the computer lab.

Thus, there is a need for improvements to existing locks.

Disclosure of Invention

One of the purposes of the invention is to provide a clutch lock which is simple in structure, convenient, practical and high in safety.

The invention also aims to provide the internet of things intelligent electric clutch lock for the outdoor cabinet, which comprises the clutch lock and control equipment for monitoring the clutch lock, can realize remote monitoring, and is convenient for a machine room to master the opening and closing conditions of the lock.

The technical problem to be solved by the invention is realized by adopting the following technical scheme:

the invention provides a clutch lock, which comprises a lock assembly, a clutch assembly and a driving assembly.

The clutch assembly comprises a lock cylinder clutch shaft and a lock clutch which is connected with the lock cylinder clutch shaft in a matching way.

The lock assembly comprises a first elastic piece and a lock connecting rod shaft matched with the lock clutch, two ends of the first elastic piece are respectively abutted to the lock clutch and the lock connecting rod shaft, and the lock connecting rod shaft is used for driving the lock core to rotate.

The driving assembly comprises a power mechanism and a driving pull rod, and the driving pull rod is used for driving the lock clutch to be meshed with or separated from the lock connecting rod shaft under the driving of the power mechanism.

Further, in a preferred embodiment of the present invention, the first elastic member is sleeved on the lock cylinder clutch shaft.

Further, in a preferred embodiment of the present invention, the lock clutch is provided with a groove, and the lock link shaft is provided with a protrusion for engaging with the groove.

Further, in a preferred embodiment of the present invention, the driving assembly further includes a sliding table transmission mechanism, the power mechanism is connected to the sliding table transmission mechanism and drives the sliding table transmission mechanism to move, and the sliding table transmission mechanism is connected to the driving pull rod and is used for controlling the driving pull rod to drive the lock clutch.

Further, in a preferred embodiment of the present invention, the clutch lock further includes a lock body, one end of the lock body near the driving pull rod is provided with a first inclined surface, the driving pull rod is provided with a second inclined surface, and the first inclined surface and the second inclined surface cooperate with each other during the movement of the driving pull rod to enable the driving pull rod to drive the lock clutch.

Further, in a preferred embodiment of the present invention, the driving assembly further includes a driving rod guide block disposed on the lock body, the driving rod guide block is located on a side of the driving rod away from the lock link shaft, the driving rod guide block is provided with a third inclined surface for guiding the driving rod, the third inclined surface is parallel to the first inclined surface, and the driving rod is provided with a fourth inclined surface matched with the third inclined surface.

Further, in a preferred embodiment of the present invention, the driving pull rod is sleeved with a second elastic member and a third elastic member, one end of the sliding table transmission mechanism is sleeved with the driving pull rod, the driving pull rod has a step and a fixing member, two ends of the second elastic member respectively abut against one side of the fixing member and one side of the sliding table transmission mechanism, and two ends of the third elastic member respectively abut against one side of the step and one side of the sliding table transmission mechanism, which is far away from the first elastic member.

Further, in a preferred embodiment of the present invention, the sliding table transmission mechanism includes a stepping sliding table motor slider and a stepping sliding table motor transmission member, the stepping sliding table motor slider is sleeved on the transmission rod of the stepping sliding table motor, the stepping sliding table motor transmission member is connected with the stepping sliding table motor slider and is driven by the stepping sliding table motor slider, and the stepping sliding table motor transmission member is sleeved on the driving pull rod.

The invention also provides an intelligent electric clutch lock of the internet of things for the outdoor cabinet, which comprises the clutch lock and control equipment in signal connection with the power mechanism.

Further, in a preferred embodiment of the present invention, the internet-of-things intelligent electric clutch lock for the outdoor cabinet further includes a micro switch for controlling the stroke of the driving pull rod, and the micro switch is electrically connected to the control device.

The intelligent electric clutch lock of the internet of things for the clutch lock and the outdoor cabinet in the embodiment of the invention has the beneficial effects that:

through the arrangement of the lock clutch and the lock connecting rod shaft which can be mutually occluded, the locking state of the clutch lock can be conveniently and accurately realized. The driving assembly can drive the lock clutch to be meshed with or separated from the lock connecting rod shaft under the driving of the power mechanism. Therefore, the clutch lock provided by the invention has the advantages of simple structure, convenience, practicability and high safety.

The intelligent electric clutch lockset of the internet of things for the outdoor cabinet with the clutch lock can realize remote monitoring through the control equipment which is arranged and in signal connection with the power mechanism, and the machine room can master the opening and closing condition of the lock conveniently.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic structural diagram of a clutch lock according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a clutch lock provided in an embodiment of the present invention at a second viewing angle;

FIG. 3 is a schematic structural view of a lock body of the clutch lock according to the embodiment of the invention;

FIG. 4 is a schematic structural view of the clutch lock provided with the key according to the embodiment of the present invention;

fig. 5 is a schematic structural view of the lock link shaft and the lock clutch of the clutch lock according to the embodiment of the invention.

Icon: 10-a clutch lock; 100-a lock body; 110-a key stop; 120-a first bevel; 200-a lock assembly; 210-a key; 211-an engagement portion; 220-locking the connecting rod shaft; 221-lock core limiting sheet; 223-convex; 300-a clutch assembly; 310-a lock cylinder clutch shaft; 320-lock clutch; 321-a first elastic member; 310-a groove; 400-a drive assembly; 410-step slipway motor; 411-a transmission rod; 420-a sliding table transmission mechanism; 421-step sliding table motor slide block; 423-step sliding table motor transmission piece; 430-a drive link; 431-a second bevel; 435-a fourth bevel; 436-a second elastic member; 437-third elastic member; 438-step; 439-an anchor; 440-drive the drawbar guide block; 441-a third bevel; 300-micro switch.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, as presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inside", "outside", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings or orientations or positional relationships conventionally put in use of products of the present invention, and are only for convenience of description and simplification of description, but do not indicate or imply that the devices or elements referred to must have specific orientations, be constructed in specific orientations, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used merely to distinguish one description from another, and are not to be construed as indicating or implying relative importance.

Furthermore, the term "vertical" or the like does not require that the components be absolutely vertical, but rather may be slightly inclined. For example, "vertical" merely means that the direction is more vertical than "horizontal", and does not mean that the structure must be perfectly vertical, but may be slightly inclined.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," and "connected" are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The following examples are given to illustrate the present invention.

Example 1

Referring to fig. 1 to 3 together, the clutch lock 10 includes a lock body 100, a lock assembly 200, a clutch assembly 300 and a driving assembly 400.

The lock assembly 200, the clutch assembly 300 and the driving assembly 400 are all provided to the lock body 100.

Wherein, the clutch assembly 300 may include a latch core clutch shaft 310 and a lock clutch 320, the lock clutch 320 is coupled with the latch core clutch shaft 310. Alternatively, the lock clutch 320 may be sleeved on one end of the key cylinder clutch shaft 310.

Referring to fig. 2 and 4, the lock assembly 200 includes a key 210 and a lock link shaft 220. The lock link shaft 220 cooperates with the lock clutch 320 and is used to drive the lock cylinder for rotation. The unlocking end of the key 210 extends into the lock cylinder of the lock and is connected to the cylinder clutch shaft 310. Specifically, the unlocking end of the key 210 has an engaging portion 211, and the engaging portion 211 engages with the key cylinder clutch shaft 310, so that the key 210 and the key cylinder clutch shaft 310 rotate in synchronization.

Preferably, the lock body 100 is provided with a key stopper 110 at a side away from the lock clutch 320, specifically, the key stopper 110 abuts against a side of the engaging portion 211 away from the lock clutch 320, so as to prevent the key 210 from being disengaged from the lock cylinder.

Similarly, the lock link shaft 220 may be provided with a key cylinder stopper 221 to limit the lock link shaft 220 from deviating in the radial direction thereof.

Preferably, the lock link shaft 220 is disposed on a side of the lock clutch 320 remote from the key 210. Alternatively, referring to fig. 5, the lock clutch 320 may be provided with a groove 310, for example, and accordingly, the lock link shaft 220 is provided with a protrusion 223 engaged with the groove 310. When the door is opened, the protrusion 223 of the lock link shaft 220 is engaged with the groove 310 of the lock clutch 320, and the protrusion 223 of the lock link shaft 220 is disengaged from the groove 310 of the lock clutch 320 engaged therewith at the rest of the time.

Referring to fig. 1 and fig. 2, the lock assembly 200 optionally further includes a first elastic element 321, and two ends of the first elastic element 321 are respectively abutted against the lock clutch 320 and the lock link shaft 220. The first elastic member 321 may be sleeved on the lock cylinder clutch shaft 310, for example. When the door is opened, the first elastic member 321 is pressed, and the lock clutch 320 is engaged with the lock link shaft 220; otherwise, the first elastic member 321 is released to separate the lock clutch 320 from the lock link shaft 220, and at this time, the key 210 is used to rotate the lock cylinder, and the lock cylinder idles and cannot be unlocked. Alternatively, the first elastic member 321 may be a spring.

Alternatively, the drive assembly 400 of the present embodiment may include a power mechanism and a drive linkage 430. The drive linkage 430 is used to actuate the lock clutch 320 to engage or disengage the lock clutch 320 with the lock link shaft 220 under the drive of a power mechanism. Wherein, the power mechanism may be a stepping sliding table motor 410.

Optionally, the driving assembly 400 in this embodiment may further include a sliding table transmission mechanism 420. The stepping slide motor 410 is connected with the slide transmission mechanism 420 and drives the slide transmission mechanism 420 to move.

The lock cylinder clutch shaft 310 is provided with a through hole, and the driving assembly 400 is inserted into the through hole of the lock cylinder clutch shaft 310 and abuts against one side of the lock clutch 320 far away from the lock connecting rod shaft 220. The drive assembly 400 is used to drive the lock clutch 320 into and out of engagement with the lock link shaft 220. The slide table transmission mechanism 420 is connected to the driving rod 430 and is used for controlling the driving rod 430 to drive the lock clutch 320. That is, the locking clutch 320 is engaged with or disengaged from the locking link shaft 220 by controlling whether the driving lever 430 presses the locking clutch 320 and the first elastic member 321.

Further, in order to better guide the driving rod 430, referring to fig. 4, the first inclined surface 120 is disposed at an end of the lock body 100 close to the driving rod 430, and the inclined surface is used for guiding the driving rod 430. Accordingly, the driving link 430 is provided with a second slope 431. During movement of the actuator linkage 430, the first ramp 120 cooperates with the second ramp 431 such that the actuator linkage 430 actuates the lock clutch 320. Specifically, the shortest distance from the first inclined surface 120 to the key cylinder clutch shaft 310 is gradually decreased from the end close to the driving link 430 to the end far from the driving link 430 in the inclined direction of the inclined surface. When the first inclined surface 120 and the second inclined surface 431 are engaged, the lock clutch 320 is separated from the lock link shaft 220.

To further enhance the guiding effect of the driving link 430, the driving assembly 400 in this embodiment may further include a driving link guide block 440. The drive link guide 440 is disposed on the lock body 100 on a side of the drive link 430 remote from the lock link shaft 220. Specifically, the driving link guide block 440 is provided with a third inclined surface 441 for guiding the driving link 430, which, together with the first inclined surface 120, guides the driving link 430. Correspondingly, the drive link 430 is provided with a fourth bevel 435 cooperating with the third bevel 441. Specifically, the shortest distance from the third inclined surface 441 to the key cylinder clutch shaft 310 gradually increases from the end close to the drive rod 430 to the end far from the drive rod 430 in the inclined direction of the inclined surface.

Preferably, the third inclined surface 441 and the first inclined surface 120 are respectively located at two sides of the axis of the lock cylinder clutch shaft 310, the third inclined surface 441 and the first inclined surface 120 are inclined in the same direction, and preferably, the third inclined surface 441 is parallel to the first inclined surface 120.

Further, the driving rod 430 in this embodiment may be sleeved with a second elastic member 436 and a third elastic member 437, for example. One end of the sliding table transmission mechanism 420 is sleeved on the driving pull rod 430, and the second elastic element 436 and the third elastic element 437 are respectively abutted against two sides of the sliding table transmission mechanism 420.

Preferably, a step 438 may be further disposed between the second inclined surface 431 and the sliding table transmission mechanism 420 of the driving rod 430, one end of the third elastic member 437 abuts against one end of the sliding table transmission mechanism 420, and the other end of the third elastic member 437 abuts against one end of the step 438.

The drive rod 430 also has a mount 439. An anchor 439 is disposed at an end of the drive rod 430 distal from the step 438. One end of the second elastic member 436 abuts against one end of the slide table transmission mechanism 420 away from the third elastic member 437, and the other end of the second elastic member 436 abuts against the fixing member 439, such as a nut. Alternatively, the second elastic member 436 and the third elastic member 437 may be each a spring.

Further, the slide table transmission mechanism 420 may include, for example, a step slide table motor slider 421 and a step slide table motor transmission member 423.

The stepping sliding table motor sliding block 421 is sleeved on the transmission rod 411 of the stepping sliding table motor 410, and the stepping sliding table motor sliding block 421 is driven to slide along the axial direction of the transmission rod 411 through the rotation of the stepping sliding table motor 410.

Step-by-step slip table motor drive spare 423 is connected with step-by-step slip table motor slider 421 and is driven by step-by-step slip table motor slider 421. The stepping sliding table motor transmission member 423 is sleeved on the driving pull rod 430. Specifically, one end of the stepping sliding table motor transmission member 423 is connected to the stepping sliding table motor sliding block 421, and the other end is sleeved on the driving rod 430. Further, one end of the third elastic member 437 abuts against one end of the stepping motor transmission member 423, the other end of the third elastic member 437 abuts against one end of the step 438, and one end of the second elastic member 436 abuts against one end of the stepping motor transmission member 423 away from the third elastic member 437.

When the door needs to be opened, the stepping sliding table motor 410 rotates to drive the stepping sliding table motor sliding block 421 to slide along the transmission rod 411 of the stepping sliding table motor 410 in the direction away from the body of the stepping sliding table motor 410. At this time, the stepping sliding table motor sliding block 421 drives the stepping sliding table motor transmission member 423 to slide in a direction away from the key cylinder, so that the second elastic member 436 is pressed, and the third elastic member 437 is loosened, thereby moving the driving rod 430 in a direction away from the key cylinder. In the moving process, the driving rod 430 is guided well by the first inclined surface 120 and the second inclined surface 431, the third inclined surface 441 and the fourth inclined surface 435 which are matched with each other, so that the lock clutch 320 moves towards the lock connecting rod shaft 220, the first elastic element 321 is pressed, the lock clutch 320 is engaged with the lock connecting rod shaft 220, and the key 210 is rotated, so that the lock can be unlocked.

When the door does not need to be opened, the stepping motor 410 rotates to drive the sliding block 421 to slide along the transmission rod 411 of the stepping motor 410 toward the body close to the stepping motor 410. At this time, the stepping motor sliding block 421 drives the stepping motor transmission member 423 to slide toward the lock cylinder, so that the third elastic member 437 is pressed, and the second elastic member 436 is loosened, thereby moving the driving rod 430 toward the lock cylinder. During the movement process, the driving rod 430 is guided well by the first inclined surface 120 and the second inclined surface 431, and the third inclined surface 441 and the fourth inclined surface 435, which are engaged with each other, so as to release the first elastic member 321, and spring up the lock clutch 320, so that the lock clutch 320 is separated from the lock link shaft 220. At this time, the key 210 is used to rotate the lock cylinder, and the lock cylinder idles and cannot be opened.

Example 2

The embodiment provides an internet-of-things intelligent electric clutch lock (not shown) for an outdoor cabinet, which comprises a control device (not shown) and the clutch lock 10 in embodiment 1. The control device is intended to control the drive assembly 400 in the clutch lock 10. Specifically, the control device is in signal connection with the power mechanism.

Further, referring to fig. 1, the clutch lock 10 of the present embodiment further includes a micro switch 300 for controlling the stroke of the driving rod 430. Specifically, the microswitch 300 can be disposed on the lock body 100 to control the locking state of the clutch lock 10 by controlling the stroke of the driving rod 430. The micro switch 300 is electrically connected with the control device, and transmits the locking state information of the clutch lock 10 to the control device in the form of communication of the internet of things, so that the control device controls the operation of the stepping sliding table motor 410, and further controls the stroke of the driving pull rod 430. Optionally, the micro switch 300 may also be disposed around the step sled motor 410.

Preferably, this electronic separation and reunion lock of thing networking intelligence for outdoor rack is two-dimensional code location rack to have alarm device, link through thing networking and cell-phone APP, the two-dimensional code location rack of scanning tool to lock can send application unlocking instruction promptly. In addition, a backstage manager can also assign the cabinet to open or close the lock. In view of the above, when the cabinet is illegally opened, the lock alarm device sends an alarm signal to a background manager or a maintainer mobile phone terminal assigned by the cabinet through the internet of things; after the construction operation of the cabinet is completed, if the condition that the door lock of the cabinet is not normally closed exists, the alarm device of the cabinet lock sends an alarm notice to the background and the mobile phone terminal of the corresponding maintenance personnel, so that the remote monitoring is realized.

Specifically, this electronic separation and reunion tool to lock of thing networking intelligence for outdoor rack adopts the separation and reunion lock core, and under the state of closing the door, the lock core of idling can't unblank. When unblanking, scannable rack two-dimensional code, through the APP platform, separation and reunion lock 10 obtains unlocking signal, and step-by-step slip table motor 410 work drives step-by-step slip table motor drive spare 423 and removes, and the compression is located the first elastic component 321 of its one side, makes actuating lever 430 remove. The drive rod 430 presses the lock clutch 320, the lock clutch 320 engages with the lock link shaft 220, and the door can be opened by rotating the key 210.

When the door is closed, the key 210 is firstly used to close the lock to the proper position, and then the micro switch 300 sends a signal to the control device, and the control device controls the step motor 410 to work to drive the step motor transmission piece 423 and the driving pull rod 430 to move, so as to release the first elastic piece 321 between the lock clutch 320 and the lock link shaft 220, and the lock clutch 320 is jacked up by the first elastic piece 321 to be separated from the lock link shaft 220. At this time, the key 210 is used to rotate the lock cylinder, and the lock cylinder idles and cannot be opened.

In conclusion, the clutch lock 10 provided by the invention is simple in structure, convenient, practical and high in safety. Outdoor rack is with electronic separation and reunion tool to lock of thing networking intelligence with above-mentioned separation and reunion lock 10, through controlgear control separation and reunion lock 10 to corresponding control drive assembly 400 can realize remote monitoring, is convenient for the computer lab master the switching condition of lock.

The above embodiments are some, but not all embodiments of the invention. The detailed description of the embodiments of the present invention is not intended to limit the scope of the invention as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be obtained by a person skilled in the art without inventive step based on the embodiments of the present invention, are within the scope of protection of the present invention.

Claims (8)

1. A clutch lock is characterized by comprising a lock component, a clutch component and a driving component;

the clutch assembly comprises a lock cylinder clutch shaft and a lock clutch which is connected with the lock cylinder clutch shaft in a matching way;

the lock assembly comprises a first elastic piece and a lock connecting rod shaft matched with the lock clutch, two ends of the first elastic piece are respectively abutted against the lock clutch and the lock connecting rod shaft, and the lock connecting rod shaft is used for driving the lock core to rotate;

the driving assembly comprises a power mechanism and a driving pull rod, and the driving pull rod is used for driving the lock clutch under the driving of the power mechanism so as to enable the lock clutch to be meshed with or separated from the lock connecting rod shaft;

the clutch lock further comprises a lock main body, a first inclined surface is arranged at one end, close to the driving pull rod, of the lock main body, a second inclined surface is arranged on the driving pull rod, and the first inclined surface is matched with the second inclined surface in the motion process of the driving pull rod so that the driving pull rod drives the lock clutch;

the driving assembly further comprises a driving pull rod guide block arranged on the lock body, the driving pull rod guide block is located on one side, away from the lock connecting rod shaft, of the driving pull rod, the driving pull rod guide block is provided with a third inclined surface used for guiding the driving pull rod, the third inclined surface is parallel to the first inclined surface, and the driving pull rod is provided with a fourth inclined surface matched with the third inclined surface.

2. The clutch lock of claim 1, wherein the first spring is disposed about the plug clutch shaft.

3. A clutch lock according to claim 1, characterised in that the lock clutch is provided with a recess and the lock link shaft is provided with a projection for engagement with the recess.

4. The clutch lock of claim 1, wherein the drive assembly further includes a slide transmission mechanism, the power mechanism is connected to the slide transmission mechanism and drives the slide transmission mechanism to move, and the slide transmission mechanism is connected to the drive rod and is configured to control the drive rod to drive the lock clutch.

5. The clutch lock according to claim 4, wherein the driving lever is sleeved with a second elastic member and a third elastic member, one end of the sliding table transmission mechanism is sleeved on the driving lever, the driving lever has a step and a fixing member, two ends of the second elastic member respectively abut against the fixing member and one side of the sliding table transmission mechanism, and two ends of the third elastic member respectively abut against the step and one side of the sliding table transmission mechanism away from the first elastic member.

6. The clutch lock according to claim 4, wherein the slider transmission mechanism includes a step slider motor slider and a step slider motor transmission member, the step slider motor slider is sleeved on the transmission rod of the step slider motor, the step slider motor transmission member is connected to the step slider motor slider and driven by the step slider motor slider, and the step slider motor transmission member is sleeved on the driving rod.

7. An intelligent electric clutch lock for an internet of things for an outdoor cabinet, which is characterized by comprising the clutch lock as claimed in any one of claims 1 to 6 and control equipment in signal connection with the power mechanism.

8. The Internet of things intelligent electric clutch lock for the outdoor cabinet as claimed in claim 7, further comprising a micro switch for controlling the stroke of the driving pull rod, wherein the micro switch is electrically connected with the control equipment.

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