WO2018000928A1

WO2018000928A1 - Intelligent knife rest

Info

Publication number: WO2018000928A1
Application number: PCT/CN2017/082343
Authority: WO
Inventors: 李志坚
Original assignee: 李志坚
Priority date: 2016-06-29
Filing date: 2017-04-28
Publication date: 2018-01-04
Also published as: DE212017000170U1

Abstract

An intelligent knife rest, which is a kitchen device, comprising a knife rest body (1), a knife locking mechanism for locking or unlocking between a knife and the knife rest body (1), a driving device for driving the knife locking mechanism to lock or unlock, a control device (12) for controlling the work of the driving device and a power supply (6), wherein a plurality of first knife placing holes (11) are arranged in the top wall of the knife rest body (1). The intelligent knife rest can realize safety management of the knife so as to avoid unpredictable risks.

Description

Smart knife holder

Technical field

The invention relates to a kitchen appliance, in particular to a smart knife holder.

Background technique

In modern society, the knife holder is one of the most common devices in the kitchen. However, the common common tool holders are usually only used for placing various types of tools, and various tools are not effectively managed. The tools in the tool holder can be extracted at will, which may cause some safety hazards, such as It is touched by children, or the knife holder is accidentally turned over or there are other unpredictable dangers.

It can be seen that in order to better manage the tools at home, it is of great significance to lock the tool in the tool holder.

Summary of the invention

The object of the present invention is to overcome the above-mentioned deficiencies and to provide a smart tool holder capable of safely managing the tool and avoiding unpredictable dangers.

The invention is realized by the following technical solution: a smart tool holder, comprising: a tool holder body, a tool locking mechanism for locking or unlocking between the tool and the tool holder body, and a driving tool locking mechanism locking Or a unlocking drive device, a control device for controlling the operation of the drive device, and a power source; the top wall of the tool holder body is provided with a plurality of first knife holes.

Its working principle and process are as follows:

In the normal state, when the tool is inserted into the tool holder body, the control device controls the driving device to lock the tool on the tool holder body by using the tool locking mechanism. When the tool is needed, the control device controls The control drive releases the lock between the tool locking mechanism and the tool so that the tool can re-extract the tool holder body.

In order to better implement this solution, the following optimization schemes are also provided:

Here, the tool locking mechanism contains at least the following two options:

In a first embodiment, the tool locking mechanism is a sliding plate disposed in the body of the tool holder. The sliding plate is provided with a plurality of second cutting holes corresponding to the first cutting holes. The sliding plate can be opposite to the top of the tool holder body. The wall movement causes the first knife hole and the second knife hole to be misaligned with each other.

As shown in Figure 4-5, the principle of the solution is that the second knife hole and the first knife hole are offset from each other such that the tool card is placed inside the tool holder body; and the second knife hole and the first knife are The realignment of the holes allows the tool to be re-drawn from the tool holder body. That is, the solution is to lock the tool by changing the "size" of the knife hole so that the inserted tool after the lock can no longer be pulled out from the original knife hole.

As shown in FIG. 7-8, in the second embodiment, the tool locking mechanism is a sliding plate disposed in the tool holder body and a fixed partition plate fixed in the tool holder body, and the sliding plate is provided with a plurality of cutting holes. a corresponding second knife hole, the fixed partition plate is provided with a plurality of third knife holes corresponding to the knife holes, the slide plate is located between the top wall of the tool holder body and the fixed partition plate and can be opposite to the knife The top wall of the frame body is moved such that the first knife hole and the second knife hole and the second knife hole and the second knife hole are mutually displaced.

The principle of the solution is to use the top wall of the tool holder body to cooperate with the fixed partition to limit the horizontal position of the tool, wherein the cutter simultaneously penetrates the corresponding first, second and third knife holes, and uses the drive The device drives the slide plate to move and press the tool on a side wall surface of the first knife hole and the third knife hole to "clamp" the tool by using three knife holes;

Compared with Option 1, this program has the following two advantages:

Advantage 1: Since this Act is different from Option 1, the principle is to “clamp” the tool by the movement of the skateboard. Therefore, the solution is not limited by the shape of the tool. Most of the tools can be locked, even Scissors, boring tools and tools with large differences in the shape of conventional tools can also achieve good locking;

Advantage 2: Since there are two limit points, the top wall of the tool holder body and the fixed partition, the tool will remain stable once the tool is inserted without being skewed.

Here, the drive device includes at least the following solutions:

In a first embodiment, the driving device comprises a rack disposed on a lower surface of the sliding plate and a motor disposed under the sliding plate;

The motor has a gear on the motor, and the motor meshes with the rack to drive the slide plate to move laterally.

In a second aspect, the driving device includes a first magnet disposed on the sliding plate, a second magnet disposed at a position opposite to an inner sidewall of the tool holder body, and a gravity between the first magnet and the second magnet. A repulsive magnetic conversion mechanism that controls the lateral reciprocal sliding of the slide plate relative to the top wall of the tool holder body by switching the gravitational or repulsive force between the first magnet and the second magnet.

The principle of the locking of the second scheme is such that when the gravitational force is generated between the first magnet and the second magnet, the first magnet is attracted by the second magnet and drives the sliding plate to the inner wall surface of the tool holder body with the second magnet side. Moving, so that the first knife hole and the second knife hole, the second knife hole and the third knife hole are mutually displaced, so that the slider moves and presses the tool on the first knife hole and the first The three side walls of the three holes are used to "clamp" the tool by three knife holes; when a repulsive force is generated between the first magnet and the second magnet, the first magnet is repelled by the second magnet and drives the slide toward The side facing away from the inner wall of the tool holder is moved so that the slide resets to unlock the tool.

In Option 2, the control method of the magnet includes at least two optional sub-solutions:

In the first scheme, the permanent magnet is used, the first magnet and the second magnet are permanent magnets, the two poles of the second magnet are respectively located at upper and lower ends thereof, and the magnetic conversion mechanism is a tooth disposed on the second magnet. And a motor disposed on the inner side wall of the tool holder body; the motor is provided with a transmission gear, and the transmission gear and the rack mesh drive the second magnet to move up and down.

The magnetic poles of the second magnet are distributed up and down, and the second magnet is moved up and down by the motor to change the magnetic pole of the second magnet and the first magnet. According to the physics principle, when the magnetic poles of the two poles are the same, a repulsive force is generated between the two magnets. Conversely, gravity is generated between the two, so that the tool locking mechanism lock is finally achieved. The purpose of the lock or unlock.

Sub-scheme 2, that is, using an electromagnet, the second magnet is an electromagnet, the first magnet is a permanent magnet, and the magnetic conversion mechanism is a control circuit for controlling the magnetic properties of the second magnet.

The magnetic pole of the second magnet is controlled by the control circuit to control the gravitational or repulsive force between the second magnet and the first magnet, and finally the purpose of locking or unlocking the tool locking mechanism is achieved. Here, the electrical energy of the electromagnet can be supplied either by a power source or a separately designed power source.

In a third aspect, the driving device includes a rack disposed on a lower surface of the sliding plate, a driving sprocket engaged with the rack, and a motor disposed under the sliding plate; the motor is provided with a driving sprocket, and the driving sprocket is driven by the chain The drive sprocket rotates and eventually drives the skateboard to move back and forth.

In a fourth aspect, the driving device comprises a rack disposed on a lower surface of the sliding plate, a driving pulley engaged with the rack, and a motor disposed under the sliding plate; the motor is provided with a driving pulley, and the driving pulley drives the driving pulley to rotate through the belt And eventually the skateboard moved back and forth.

Further, the control device for controlling the locking or unlocking of the tool locking mechanism has at least the following feasible solutions in the present invention:

Solution 1: The control device is a fingerprint recognition device for controlling locking or unlocking of the tool locking mechanism.

Solution 2: The control device is an NFC device for controlling the locking or unlocking of the tool locking mechanism.

Solution 3: The control device is an RFID device for controlling locking or unlocking of the tool locking mechanism.

Solution 4: The control device is an image recognition device for controlling locking or unlocking of the tool locking mechanism.

Solution 5: The control device is used to control the locking or unlocking of the tool locking mechanism Do not install.

Solution 6: The control device is a card and a card slot for placing the card, and when the card is inserted into the card slot, the control driving device unlocks the tool and the tool holder body, and when the card is pulled out of the card slot The control drive device locks between the tool and the tool holder body.

Solution 7: The control device is a key and a lock corresponding to the key. When the lock is opened, the control drive device unlocks between the cutter and the tool holder body, and when the lock is locked, the drive device controls the cutter and The tool holder body is locked between the two.

Further, a mobile terminal for remotely controlling the locking or unlocking of the tool locking mechanism is also included.

The mobile terminal installs the APP software, and various conditions for unlocking and blocking by the program pre-programmed in the APP software include, but are not limited to, distance conditions, time length conditions, buttons, and the like. The APP communicates with the chip motherboard on the tool holder through WIFI network or Bluetooth or GSM wireless communication mode, and sends instructions to the chip on the tool holder. The chip further drives the movement of the mechanical device, thereby realizing the unlocking and locking of the APP to the tool holder. Management and control.

The APP can also be provided with a switch button, a management command button, and the like. APP has the following two modes:

1Automatic mode: When the APP is turned on, the mobile terminal is close to the tool holder, and the APP sends a command to the motherboard installed on the tool holder through the wireless communication mode such as WIFI network or Bluetooth or GSM, and the motherboard drives the mechanical device to realize the automatic unlocking function. When the APP on the mobile terminal reaches the preset tool holder blocking condition, the APP automatically issues an instruction to the chip on the tool holder, and the chip further drives the mechanical device to realize the locking function.

When the APP is turned on and set to be automatically unlocked, the mobile terminal APP acquires a signal from the main board of the tool holder chip at a time. According to the signal value, the distance between the mobile terminal and the tool holder is judged. When the distance between the tool holder and the mobile terminal reaches a preset unlocking condition signal value, the APP issues an unlocking command to the main control chip of the tool holder circuit board, and the chip driving machine The device unlocks the tool holder. When the distance between the mobile terminal and the tool holder chip exceeds a preset signal value, the APP issues an instruction to the tool holder on the main control chip to drive the machine. The device locks the knife holder.

When the APP is turned on and set to be automatically unlocked, the mobile terminal APP automatically detects the signal value sent by the main chip on the tool holder and automatically checks the length of time the tool holder is in the unlocked state. When the length of time reaches or exceeds the preset length, the APP issues an instruction to the main control chip of the tool holder circuit board, and the chip drive mechanism sets the tool holder to the locked state.

2 Manual mode: The mobile terminal installs the APP software. The APP software has a corresponding unlocking and locking button module. When the unlock/lock button is clicked, the APP issues an instruction to the main control chip on the tool holder, and the chip driving mechanism unlocks or blocks.

Further, the control device capable of remotely controlling the locking or unlocking of the tool locking mechanism in cooperation with the mobile terminal has at least the following solutions:

Solution 1: The control device is a Bluetooth device for communicating with the mobile terminal, and when the Bluetooth device receives the unlock command issued by the mobile terminal, the control device controls the drive device to unlock the tool and the tool holder body, when the Bluetooth device receives The drive mechanism locks the tool and the tool holder body to the lock command issued by the mobile terminal.

Solution 2: The control device is a WIFI device for communicating with the mobile terminal, and when the WIFI device receives the unlock command issued by the mobile terminal, the control driving device releases the lock between the tool and the tool holder body, and the WIFI device receives The drive mechanism locks the tool and the tool holder body to the lock command issued by the mobile terminal.

Solution 3: The control device is a GSM device for communicating with the mobile terminal, and when the GSM device receives the unlock command issued by the mobile terminal, the control device releases the lock between the tool and the tool holder body, when the GSM device receives The drive mechanism locks the tool and the tool holder body to the lock command issued by the mobile terminal.

Further, in order to achieve the function of automatically controlling the locking of the tool locking mechanism, the user's operation is simplified. Purpose of the work:

Also included is a delay module for delay control that locks between the tool and the tool holder body.

The working process is as follows: When the invention is unlocked, the delay module starts timing, and when the set time is reached, the control board automatically locks the tool locking mechanism.

Further, in order to increase the friction between the tool and each of the knife holes, the locking of the tool is more firm:

A rubber layer is disposed on the inner wall surface of the first knife hole, the second knife hole, and/or the third knife hole.

Further, the power supply has at least the following two solutions:

Solution 1: The power source is a rechargeable battery.

Solution 2: The power source is a power plug.

Solution 3: The power source is a button battery.

At the same time, in order to avoid the above-mentioned intelligent tool holder in the sudden failure of the power supply, the tool is locked in the tool holder and cannot be taken out. The smart tool holder further includes an emergency unlocking mechanism for releasing the tool holder locking when the power source fails. The emergency unlocking mechanism is coupled to the transmission gear shaft and drives the transmission gear to rotate to reset the sliding plate so as to achieve the purpose of emergency unlocking.

Further, the emergency unlocking mechanism is a rotating shaft connected to one end of the transmission gear shaft, and the other end of the rotating shaft is provided with a hole slot, and the hole groove is exposed outside the tool holder body.

The cross section of the slot is usually set to a profiled shape, such as a triangle, a pentagon, a trapezoid or the like, or may be provided in an irregular shape. Finally, the special unlocking tool with the cross section matching the cross section of the slot is inserted and unlocked.

Compared with the prior art, the beneficial effects of the present invention are:

1. After the tool is inserted into the tool holder body, automatic locking can be realized, so that the tool can be safely managed;

2. The remote control tool can be locked by the mobile terminal, which is convenient to use;

3. The invention is applicable to tools of any shape and is securely locked.

DRAWINGS

1 is a schematic perspective view of Embodiment 1;

Figure 2 is a plan view of Embodiment 1;

Figure 3 is a cross-sectional view taken along line A-A of Figure 2;

Figure 4 is a cross-sectional view showing the state of use of the embodiment 1;

Figure 5 is a partial enlarged view of B in Figure 4;

Figure 6 is a schematic diagram of an emergency unlocking mechanism;

Figure 7 is a cross-sectional view showing the state of use of the embodiment 5;

Figure 8 is a schematic view showing the locked state of the embodiment 5;

Figure 9 is a cross-sectional view showing the state of use of the embodiment 11;

Figure 10 is a schematic view showing the locked state of the tool holder locking mechanism of the embodiment 11;

Figure 11 is a schematic view showing the unlocking state of the tool holder locking mechanism of the embodiment 11;

Figure 12 is a cross-sectional view showing the state of use of the embodiment 15;

Figure 13 is a schematic view showing the locked state of the tool holder locking mechanism of the embodiment 15;

Figure 14 is a schematic view showing the unlocking state of the tool holder locking mechanism of the embodiment 15;

Figure 15 is a cross-sectional view showing the state of use of Embodiment 21;

Figure 16 is a cross-sectional view showing the state of use of the embodiment 22.

DESCRIPTION OF REFERENCE NUMERALS: 1-turret body, 11-first knife hole, 12-control device, 13-second magnet, 14-control circuit, 2-slide, 21-second knife hole, 22-first magnet , 3- fixed partition, 31-third knife hole, 41-rack, 42-motor, 43-transmission gear, 44-rotation shaft, 45-hole groove, 46-drive sprocket, 47-drive sprocket , 48-drive pulley, 49-drive pulley, 5-rubber layer, 6-power supply.

detailed description

The present invention will be described in detail below with reference to the accompanying drawings:

Example 1:

As shown in FIG. 1-5, the embodiment includes a tool holder body 1, a tool locking mechanism for locking or unlocking the tool and the tool holder body 1, and a drive for locking or unlocking the tool locking mechanism. The device, the control device 12 for controlling the operation of the driving device, and the power source 6; the top wall of the tool holder body 1 is provided with a plurality of first knife holes 11.

The tool locking mechanism is a sliding plate 2 that is slidably disposed in the tool holder body 1. The sliding plate (2) is provided with a plurality of second cutting holes 21 corresponding to the first cutting holes 11 in one-to-one correspondence, and the sliding plate 2 can The movement of the top wall relative to the tool holder body 1 causes the first knife hole 11 and the second knife hole 21 to be displaced from each other.

The driving device includes a rack 41 disposed on a lower surface of the slider and a motor 42 disposed under the slider;

The motor 42 is provided with a transmission gear 43. The transmission gear 43 meshes with the rack 41 to drive the slide plate to move back and forth.

The control device 12 is a fingerprint recognition device for controlling the locking or unlocking of the tool locking mechanism.

The power source 6 is a rechargeable battery.

Also included is an emergency unlocking mechanism for releasing the tool holder lock when the power source fails. The emergency unlocking mechanism is coupled to the transmission gear 43 and drives the transmission gear 43 to rotate to reset the slider 2.

The emergency unlocking mechanism is a rotating shaft 44 whose one end is connected to the transmission gear 43. The other end of the rotating shaft 44 is provided with a hole groove 45, and the hole groove 45 is exposed outside the tool holder body 1.

Example 2:

The embodiment includes a tool holder body 1, a tool locking mechanism for locking or unlocking the tool and the tool holder body 1, a driving device for locking or unlocking the driving tool locking mechanism, and a control for controlling the operation of the driving device. The device 12 and the power source 6; the top wall of the tool holder body 1 is provided with a plurality of first knife holes 11.

The control device 12 is an NFC device for controlling the locking or unlocking of the tool locking mechanism.

The power source 6 is a rechargeable battery.

Example 3:

The driving device includes a rack 41 disposed on a lower surface of the slider and an electric power disposed under the slider Machine 42;

The control device 12 is an RFID device for controlling the locking or unlocking of the tool locking mechanism.

The power source 6 is a rechargeable battery.

Example 4:

The control device 12 is an image recognition device for controlling the locking or unlocking of the tool locking mechanism.

A rubber layer 5 is annularly formed on the inner wall surface of the first knife hole 11, the second knife hole 21, and/or the third knife hole 31.

The power source 6 is a rechargeable battery.

Example 5:

As shown in FIGS. 7-8, the embodiment includes a tool holder body 1, a tool locking mechanism for locking or unlocking the tool and the tool holder body 1, and a drive for locking or unlocking the tool locking mechanism. The device, the control device 12 for controlling the operation of the driving device, and the power source 6; the top wall of the tool holder body 1 is provided with a plurality of first knife holes 11.

The tool locking mechanism is a sliding plate 2 disposed in the tool holder body 1 and a fixed partition plate 3 fixed in the tool holder body 1. The sliding plate 2 is provided with a plurality of second positions corresponding to the knife holes. The knife hole 21 and the fixed partition plate 3 are provided with a plurality of third knife holes 31 corresponding to the knife holes, and the slide plate 2 is located between the top wall of the tool holder body 1 and the fixed partition plate 3 and can be opposite to the knife The top wall of the frame body 1 is moved such that the first knife hole 11 and the second knife hole 21 and the second knife hole 21 and the second knife hole 31 are displaced from each other.

The control device 12 is a voice recognition device for controlling the locking or unlocking of the tool locking mechanism.

The power source 6 is a rechargeable battery.

Example 6

The embodiment includes a tool holder body 1 for locking or solving between the tool and the tool holder body 1. In addition to the locked tool locking mechanism, the driving device that drives the tool locking mechanism to lock or unlock, the control device 12 that controls the operation of the driving device, and the power source 6; the top wall of the tool holder body 1 is provided with a plurality of first knife holes 11.

The control device 12 is a card slot and a card slot for placing the card. When the card is inserted into the card slot, the control driving device unlocks the tool and the tool holder body 1 when the card is pulled out of the card slot. The control drive locks the tool and the tool holder body 1.

The power source is a button battery.

Example 7

The embodiment includes a tool holder body 1, a tool locking mechanism for locking or unlocking the tool and the tool holder body 1, a driving device for locking or unlocking the driving tool locking mechanism, and a control for controlling the operation of the driving device. The device 12 and the power source 6; the top wall of the tool holder body 1 is provided with a plurality of A knife hole 11 is placed.

The control device 12 is a key and a lock corresponding to the key. When the lock is opened, the control drive device unlocks the cutter and the tool holder body 1. When the lock is locked, the drive device controls the cutter and the cutter. The frame body 1 is locked between the two.

The power source is a button battery.

Example 8

The tool locking mechanism is a sliding plate 2 disposed in the tool holder body 1 and a fixed partition plate 3 fixed in the tool holder body 1. The sliding plate 2 is provided with a plurality of second positions corresponding to the knife holes. The knife hole 21 and the fixed partition plate 3 are provided with a plurality of third knife holes 31 corresponding to the knife holes, and the slide plate 2 is located at the knife Between the top wall of the frame body 1 and the fixed partition plate 3 and movable relative to the top wall of the tool holder body 1 such that the first knife hole 11 and the second knife hole 21, the second knife hole 21 and the second knife The holes 31 are offset from each other.

Also included is a mobile terminal for remotely controlling the locking or unlocking of the tool locking mechanism.

The control device 12 is a Bluetooth device for communicating with the mobile terminal. When the Bluetooth device receives the unlock command issued by the mobile terminal, the control device releases the lock between the tool and the tool holder body 1 when the Bluetooth device receives the unlocking command. The lock command issued by the mobile terminal controls the drive device to lock the tool and the tool holder body 1.

The power source is a button battery.

Example 9

The control device 12 is a WIFI device for communicating with the mobile terminal. When the WIFI device receives the unlock command issued by the mobile terminal, the control device releases the lock between the tool and the tool holder body 1 when the WIFI device receives the unlocking command. The lock command issued by the mobile terminal controls the drive device to lock the tool and the tool holder body 1.

The power source 6 is a power source 6 plug.

Example 10:

The control device 12 is a GSM device for communicating with the mobile terminal. When the GSM device receives the unlock command issued by the mobile terminal, the control device releases the lock between the tool and the tool holder body 1 when the GSM device receives the lock. The lock command issued by the mobile terminal controls the drive device to lock the tool and the tool holder body 1.

A delay module for locking between the tool and the tool holder body 1 for delay control is also included.

The power source 6 is a power source 6 plug.

Example 11

As shown in FIGS. 1-6, the present embodiment includes a tool holder body 1, a tool locking mechanism for locking or unlocking the tool and the tool holder body 1, and a drive for locking or unlocking the tool locking mechanism. The device, the control device 12 for controlling the operation of the driving device, and the power supply 6; the top wall of the tool holder body 1 is provided with at least one first knife hole 11;

The tool locking mechanism is a sliding plate 2 disposed in the tool holder body 1 and a fixed partition plate 3 fixed in the tool holder body 1. The sliding plate 2 is provided with a plurality of corresponding ones of the first cutting holes 11 The second knife hole 21, the fixed partition plate 3 is provided with a plurality of third knife holes 31 corresponding to the first knife hole 11 in one-to-one correspondence, the slider plate 2 is located on the top wall of the tool holder body 1 and the fixed partition plate 3 Between the first knife hole 11 and the second knife hole 21 and the second knife hole 21 and the third knife hole 31 are mutually displaced;

The driving device includes a first magnet 22 disposed on one side of the slider 2, a second magnet 13 disposed at a position opposite to an inner sidewall of the tool holder body 1, and two terminals for controlling the first magnet 22 and the second magnet 13 A magnetic conversion mechanism that generates a gravitational or repulsive force between the two, and the magnetic conversion mechanism controls the horizontal reciprocating sliding of the sliding plate 2 with respect to the top wall of the tool holder body 1 by switching the gravitational or repulsive force between the first magnet 22 and the second magnet 13 .

The first magnet 22 and the second magnet 13 are both permanent magnets, and the two poles of the second magnet 13 are respectively located at upper and lower ends thereof, and the magnetic conversion mechanism is a rack 41 disposed on the second magnet 13 and disposed at The motor 42 on the inner side wall of the tool holder body 1 is provided with a transmission gear 43. The transmission gear 43 meshes with the rack 41 to drive the second magnet 13 to reciprocate up and down.

The power source 6 is a rechargeable battery.

As shown in FIG. 7, an emergency unlocking mechanism for unlocking the tool holder when the power source fails is also included. The emergency unlocking mechanism is coupled to the transmission gear 43 and drives the transmission gear 43 to rotate to reset the sliding plate 2.

Example 12

The embodiment includes a tool holder body 1, a tool locking mechanism for locking or unlocking the tool and the tool holder body 1, a driving device for locking or unlocking the driving tool locking mechanism, and a control for controlling the operation of the driving device. The device 12 and the power supply 6; the top wall of the tool holder body 1 is provided with at least one first knife hole 11;

The tool locking mechanism is a sliding plate 2 disposed in the tool holder body 1 and a fixed partition plate 3 fixed in the tool holder body 1. The sliding plate 2 is provided with a plurality of corresponding ones of the first cutting holes 11 a second knife hole 21, and a plurality of third knife holes 31 corresponding to the first knife hole 11 are disposed on the fixed partition plate 3, The slide plate 2 is located between the top wall of the tool holder body 1 and the fixed partition plate 3 and is movable relative to the top wall of the tool holder body 1 such that the first knife hole 11 and the second knife hole 21 are misaligned with each other;

The driving device includes a first magnet 22 disposed on the slider 2, a second magnet 13 disposed at a position opposite to an inner sidewall of the tool holder body 1, and a control between the first magnet 22 and the second magnet 13 A magnetic conversion mechanism that generates a gravitational or repulsive force that controls the slide plate 2 to laterally reciprocally slide relative to the top wall of the tool holder body 1 by switching the attraction or repulsive force between the first magnet 22 and the second magnet 13.

The power source 6 is a rechargeable battery.

Example 13

The tool locking mechanism is a sliding plate 2 disposed in the tool holder body 1 and a fixed partition plate 3 fixed in the tool holder body 1. The sliding plate 2 is provided with a plurality of corresponding ones of the first cutting holes 11 a second knife hole 21, and a plurality of third knife holes 31 corresponding to the first knife hole 11 are disposed on the fixed partition plate 3, The slide plate 2 is located between the top wall of the tool holder body 1 and the fixed partition plate 3 and is movable relative to the top wall of the tool holder body 1 such that the first knife hole 11 and the second knife hole 21 are offset from each other;

The power source 6 is a rechargeable battery.

Example 14

The power source 6 is a rechargeable battery.

Example 15

As shown in Figures 8-10, the present embodiment includes a tool holder body 1, a tool locking mechanism for locking or unlocking the tool and the tool holder body 1, and a drive for locking or unlocking the tool locking mechanism. The device, the control device 12 for controlling the operation of the driving device, and the power supply 6; the top wall of the tool holder body 1 is provided with at least one first knife hole 11;

The tool locking mechanism is a sliding plate 2 disposed in the tool holder body 1 and a fixed partition plate 3 fixed in the tool holder body 1. The sliding plate 2 is provided with a plurality of corresponding ones of the first cutting holes 11 The second knife hole 21, the fixed partition plate 3 is provided with a plurality of third knife holes 31 corresponding to the first knife hole 11 in one-to-one correspondence, the slider plate 2 is located on the top wall of the tool holder body 1 and the fixed partition plate 3 And movable relative to the top wall of the tool holder body 1 such that the first knife hole 11 and the second knife hole 21 are offset from each other;

The second magnet 13 is an electromagnet, the first magnet 22 is a permanent magnet, and the magnetic conversion mechanism is a control circuit 14 for controlling the magnetism of the second magnet 13.

The power source 6 is a rechargeable battery.

Example 16:

The power source is a button battery.

Example 17

The embodiment includes a tool holder body 1, a tool locking mechanism for locking or unlocking the tool and the tool holder body 1, a driving device for locking or unlocking the driving tool locking mechanism, and control The control device 12 of the driving device and the power supply 6; the top wall of the tool holder body 1 is provided with at least one first knife hole 11;

The power source is a button battery.

Example 18

The power source is a button battery.

Example 19

The power source 6 is a power source 6 plug.

Example 20

The power source 6 is a power source 6 plug.

Example 21:

As shown in FIG. 11, the embodiment includes a tool holder body 1, a tool locking mechanism for locking or unlocking the tool and the tool holder body 1, and a driving device for locking or unlocking the driving tool locking mechanism, a control device 12 for controlling the operation of the driving device and a power source 6; at least one first knife hole 11 is provided on the top wall of the tool holder body 1;

The tool locking mechanism is a sliding plate 2 disposed in the tool holder body 1 and a fixed partition plate 3 fixed in the tool holder body 1. The sliding plate 2 is provided with a plurality of second positions corresponding to the knife holes. The knife hole 21 and the fixed partition plate 3 are provided with a plurality of third knife holes 31 corresponding to the knife holes, and the slide plate 2 is located between the top wall of the tool holder body 1 and the fixed partition plate 3 and can be opposite to the knife The top wall of the frame body 1 is moved such that the first knife hole 11 and the second knife hole 21 are offset from each other between the second knife hole 21 and the second knife hole 31;

The driving device comprises a rack 41 disposed on a lower surface of the sliding plate 2, a driving sprocket 46 meshing with the rack, and a motor 42 disposed under the sliding plate 2;

The motor 42 is provided with a driving sprocket 47. The driving sprocket 47 drives the driving sprocket 46 to rotate by the chain and finally drives the sliding plate 2 to move back and forth.

Example 22

As shown in FIG. 12, the embodiment includes a tool holder body 1, a tool locking mechanism for locking or unlocking the tool and the tool holder body 1, and a driving device for locking or unlocking the driving tool locking mechanism, a control device 12 for controlling the operation of the driving device and a power source 6; at least one first knife hole 11 is provided on the top wall of the tool holder body 1;

The tool locking mechanism is a sliding plate 2 disposed in the tool holder body 1 and a fixed partition plate 3 fixed in the tool holder body 1. The sliding plate 2 is provided with a plurality of second positions corresponding to the knife holes. The knife hole 21 and the fixed partition plate 3 are provided with a plurality of third knife holes 31 corresponding to the knife holes, and the slide plate 2 is located between the top wall of the tool holder body 1 and the fixed partition plate 3 and can be opposite to the knife The top wall of the frame body 1 is moved such that the first knife hole 11 and the second knife hole 21 are offset from each other;

The driving device comprises a rack 41 disposed on a lower surface of the sliding plate 2, a driving pulley 48 meshing with the rack, and a motor 42 disposed under the sliding plate 2;

The motor 42 is provided with a driving pulley 49. The driving pulley 49 drives the driving pulley 48 to rotate by the belt and finally drives the sliding plate 2 to move back and forth.

While the invention has been shown and described with reference to the embodiments of the embodiments Therefore, it is to be understood that the invention is not to be construed as limited by the scope of the appended claims.

Claims

A smart tool holder, comprising: a tool holder body (1), a tool locking mechanism for locking or unlocking between the tool and the tool holder body (1), and a driving tool locking mechanism for locking or releasing The locking drive device, the control device (12) for controlling the operation of the drive device, and the power source (6); the top wall of the tool holder body (1) is provided with a plurality of first knife holes (11).
The smart tool holder according to claim 1, wherein the tool locking mechanism is a sliding plate (2) slidably disposed in the tool holder body (1), and the sliding plate (2) is provided with a plurality of first plates. a second hole (21) corresponding to the knife hole (11), the slide plate (2) being movable relative to the top wall of the tool holder body (1) such that the first knife hole (11) and the second knife hole (21) Misalignment between each other.
The smart tool holder according to claim 1, wherein the tool locking mechanism is a sliding plate (2) slidably disposed in the tool holder body (1) and a fixed partition fixed in the tool holder body (1). The plate (3) and the sliding plate (2) are provided with a plurality of second cutting holes (21) corresponding to the first cutting holes (11), and the fixed partitions (3) are provided with a plurality of first and second holes a third hole (31) corresponding to the knife hole (11), the slide plate (2) being located between the top wall of the tool holder body (1) and the fixed partition (3) and capable of being opposite to the tool holder body ( 1) The movement of the top wall causes the first knife hole (11) and the second knife hole (21) to be misaligned with each other between the second knife hole (21) and the second knife hole (31).
A smart tool holder according to claim 2 or 3, wherein said driving means comprises a rack (41) disposed on a lower surface of the slider (2) and a motor (42) disposed under the slider (2) ;

The motor (42) is provided with a transmission gear (43), and the transmission gear (43) meshes with the rack (41) to drive the sliding plate (2) to move back and forth.
The smart tool holder according to claim 3, wherein the driving device comprises a first magnet (22) disposed on the sliding plate (2) and disposed at a relative position of the inner side wall of the tool holder body (1). a second magnet (13) and a magnetic conversion mechanism for controlling attraction or repulsive force between the first magnet (22) and the second magnet (13), the magnetic conversion mechanism switching the first magnet (22) and Gravity or repulsive force between the second magnet (13) to control the sliding plate (2) relative to the top wall of the tool holder body (1) Horizontally reciprocating sliding.
The smart tool holder according to claim 5, wherein the first magnet (22) and the second magnet (13) are permanent magnets, and the two poles of the second magnet (13) are respectively located at upper and lower ends thereof. The magnetic conversion mechanism is a rack (41) disposed on the second magnet (13) and a motor (42) disposed on an inner sidewall of the holder body (1); the motor (42) is provided The transmission gear (43), the transmission gear (43) and the rack (41) mesh to drive the second magnet (13) to move up and down.
The smart tool holder according to claim 5, wherein the second magnet (13) is an electromagnet, the first magnet (22) is a permanent magnet, and the magnetic conversion mechanism is for controlling the second magnet ( 13) Magnetic control circuit (14).
A smart tool holder according to claim 2 or 3, wherein said driving means comprises a rack (41) disposed on a lower surface of the slider (2), a drive sprocket (46) engaged with the rack, and a motor (42) disposed under the sliding plate (2); the motor (42) is provided with a driving sprocket (47), and the driving sprocket (47) drives the driving sprocket (46) to rotate through the chain and finally drives the sliding plate ( 2) Move back and forth.
A smart tool holder according to claim 2 or 3, wherein said driving means comprises a rack (41) disposed on a lower surface of the slider (2), a drive pulley (48) engaged with the rack, and a setting a motor (42) under the sliding plate (2); the motor (42) is provided with a driving pulley (49), and the driving pulley (49) drives the driving pulley (48) to rotate by the belt and finally drives the sliding plate (2) to move back and forth .
A smart tool holder according to any one of claims 1-3, characterized in that the control device (12) is a fingerprint recognition device for controlling the locking or unlocking of the tool locking mechanism.
A smart tool holder according to any one of claims 1-3, characterized in that said control device (12) is an NFC device for controlling the locking or unlocking of the tool locking mechanism.
A smart tool holder according to any one of claims 1-3, characterized in that said control device (12) is an RFID device for controlling the locking or unlocking of the tool locking mechanism.
The smart tool holder according to any one of claims 1 to 3, characterized in that: the control device The setting (12) is an image recognition device for controlling the locking or unlocking of the tool locking mechanism.
A smart tool holder according to any one of claims 1 to 3, characterized in that the control device (12) is a voice recognition device for controlling the locking or unlocking of the tool locking mechanism.
The smart tool holder according to any one of claims 1 to 3, wherein the control device (12) is a card and a card slot for placing the card, and the driving device is controlled when the card is inserted into the card slot. The lock between the tool and the tool holder body (1) is unlocked, and the control drive device locks between the tool and the tool holder body (1) when the card is pulled out of the card slot.
The smart tool holder according to any one of claims 1-3, wherein the control device (12) is a key and a lock corresponding to the key, and the drive device controls the tool and the tool holder when the lock is opened. The body (1) is unlocked between the two, and the control drive device locks between the cutter and the tool holder body (1) when the lock is locked.
A smart tool holder according to any of claims 1-3, further comprising a mobile terminal for remotely controlling the locking or unlocking of the tool locking mechanism.
The smart tool holder according to claim 17, wherein the control device (12) is a Bluetooth device for communicating with the mobile terminal, and controls the driving device to the tool when the Bluetooth device receives the unlock command issued by the mobile terminal. The lock is released from both the tool holder body (1), and the drive device locks between the tool and the tool holder body (1) when the Bluetooth device receives the lock command from the mobile terminal.
The smart tool holder according to claim 17, wherein the control device (12) is a WIFI device for communicating with the mobile terminal, and the control device controls the tool when the WIFI device receives the unlock command issued by the mobile terminal. The lock is released from the holder body (1), and the drive device locks between the cutter and the holder body (1) when the WIFI device receives the lock command issued by the mobile terminal.
The smart tool holder according to claim 17, wherein said control device (12) is a GSM device for communicating with a mobile terminal, and controls the driving device to the tool when the GSM device receives the unlock command issued by the mobile terminal. The lock is released from both the tool holder body (1), and the drive device locks between the tool and the tool holder body (1) when the GSM device receives the lock command from the mobile terminal.
A smart tool holder according to any one of claims 1-3, further comprising a delay module for delaying control of locking between the tool and the tool holder body (1).
The intelligent tool holder according to any one of claims 1 to 3, characterized in that: the first knife hole (11), the second knife hole (21) and/or the third knife hole (31) A rubber layer (5) is arranged on the inner wall surface.
The smart tool holder according to any one of claims 1-3, characterized in that the power source (6) is a rechargeable battery, a power plug or a button battery.
The smart tool holder according to claim 4, further comprising an emergency unlocking mechanism for releasing the tool holder lock when the power source fails, the emergency unlocking mechanism being coupled to the transmission gear (43) and driving the transmission gear ( 43) Turn to reset the slide (2).
The intelligent tool holder according to claim 24, wherein the emergency unlocking mechanism is a rotating shaft (44) whose one end is connected to the transmission gear (43), and the other end of the rotating shaft (44) is provided with a hole groove ( 45), the hole groove (45) is exposed outside the tool holder body (1).