CN220631934U - Multifunctional cutter management system - Google Patents

Abstract

The utility model belongs to the technical field of kitchen ware management and control, and particularly provides a multifunctional cutter management system which comprises a cutter rest, a host machine and a main board, wherein the cutter rest comprises a cutter rest body and a drawer arranged at the bottom of the cutter rest body; a drawer locking mechanism for controlling the drawer to be opened or locked is arranged in the drawer; the tool rest body is of a hollow structure, and a plurality of tool grooves communicated with the inside of the tool rest body are formed in the top of the tool rest body; a cutter locking mechanism is arranged in the cutter groove; the host computer cutter locking mechanism and the drawer locking mechanism are all electrically connected through the main board. This multi-functional cutter management system can unify accomodate the cutter and accessory simultaneously, and the user of being convenient for seeks the accessory. In addition, the system utilizes the host computer to control the taking and placing of the cutters, realizes the orderly use of the cutters, increases the use safety of the cutters, and is used for guaranteeing the safety of public cutters or household cutters.

Description

Multifunctional cutter management system

Technical Field

The utility model belongs to the technical field of kitchen ware management and control, and particularly relates to a multifunctional cutter management system.

Background

The knife is an indispensable production tool in daily life, and a plurality of kitchen knives for common household use can exist, so that the knife rest is needed to be stored. At present, the common kitchen knife rest has a single structure and is mainly used for accommodating knives with larger volumes such as kitchen knives, bone knives and the like. The knife sharpening bar, the fruit knife, the scissors and other small accessories need to be additionally contained, and the kitchen appliance which is scattered needs to be found out in a time-consuming way when the kitchen appliance is used, so that the kitchen appliance is very inconvenient. In addition, there is a problem of safety of the cutter, especially in public kitchens with openness, management of the cutter needs to be enhanced, and random use of the cutter is limited.

Disclosure of Invention

The utility model aims to solve the problems of disordered storage and potential safety hazard of cutters in the prior art.

The utility model provides a multifunctional tool management system which comprises a tool rest, a host machine and a main board, wherein the tool rest comprises a tool rest body and a drawer arranged at the bottom of the tool rest body; a drawer locking mechanism for controlling the drawer to be opened or locked is arranged in the drawer; the tool rest body is of a hollow structure, and a plurality of tool grooves communicated with the inside of the tool rest body are formed in the top of the tool rest body; a cutter locking mechanism is arranged in the cutter groove; the host computer cutter locking mechanism and the drawer locking mechanism are all electrically connected through the main board.

Specifically, the multifunctional tool management system further comprises a standby power supply; the standby power supply is electrically connected with the main board.

Specifically, the main board is provided with a power socket; the knife rest body is provided with a power switch for controlling the on-off of a power supply.

Specifically, the motherboard is provided with a network interface.

Specifically, an identity recognition device is arranged in the host; the identity recognition device comprises one or more of a face recognition unit, a password recognition unit, a fingerprint recognition unit and a card swiping recognition unit.

Specifically, the multifunctional tool management system further comprises a drawer button arranged on the tool rest body; the drawer button is electrically connected with the drawer locking mechanism.

Specifically, the multifunctional tool management system further comprises a tool button for controlling the tool locking mechanism; the cutter button is electrically connected with the cutter locking mechanism.

Specifically, above-mentioned cutter locking mechanism with drawer locking mechanism all includes the electromagnetic lock, and the electromagnetic lock is connected with the mainboard electricity.

Specifically, the cutter locking mechanism further comprises a photosensitive sensor; the photosensitive sensor is arranged at the bottom of the cutter groove and is in signal connection with the electromagnetic lock.

Specifically, a sterilizing device is arranged in the tool rest body; the disinfection device is electrically connected with the main board.

Compared with the prior art, the utility model has the following advantages and beneficial effects:

the multifunctional cutter management system provided by the utility model can simultaneously and uniformly store cutters and accessories thereof, so that a kitchen is tidier, and a user can find the accessories conveniently. In addition, the multifunctional cutter management system controls the taking and placing of the cutters by using the host machine, so that the cutters are used orderly. The tool is suitable for controlling various common tools in kitchens, is convenient, simple and safe to use, and has good management function on the tools. The standby power supply avoids the risk of system failure caused by sudden power failure, and increases the use safety of the cutter, so as to ensure the safety of public cutters or household cutters.

The present utility model will be described in further detail with reference to the accompanying drawings.

Drawings

Fig. 1 is a front axle schematic diagram of the overall structure of the multifunctional tool management system provided by the utility model.

Fig. 2 is a rear axle schematic diagram of the overall structure of the multifunctional tool management system provided by the utility model.

Fig. 3 is a disassembled view of a tool rest body and a drawer of the multifunctional tool management system provided by the utility model.

Fig. 4 is an exploded view of the multifunctional tool management system provided by the present utility model.

Fig. 5 is a schematic diagram of the main board and the standby power supply of the multifunctional tool management system provided by the utility model.

Fig. 6 is a schematic diagram of a tool slot and a tool locking mechanism of the multifunctional tool management system provided by the utility model.

Reference numerals illustrate: 1. a tool holder body; 2. a power switch; 3. a knife slot; 4. an electromagnetic lock; 5. a photosensitive sensor; 6. a cutter button; 7. a drawer; 8. a drawer button; 9. a host; 10. a main board; 11. a power socket; 12. a network interface; 13. a standby power supply; 14. a fixing frame; 15. a cutter.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the description of the present utility model, it should be understood that the terms "center," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely to facilitate describing the present utility model and simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

The terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first", "a second" may include one or more such features, either explicitly or implicitly; in the description of the present utility model, unless otherwise indicated, the meaning of "a plurality" is two or more.

Referring to fig. 1-4, the present utility model provides a multifunctional tool management system, comprising a tool rest, a host 9 and a main board 10, wherein the tool rest comprises a tool rest body 1 and a drawer 7 arranged at the bottom of the tool rest body 1; a drawer locking mechanism for controlling the drawer 7 to be opened or locked is arranged in the drawer 7; the tool rest body 1 is of a hollow structure, and a plurality of tool grooves 3 communicated with the inside of the tool rest body 1 are formed in the top of the tool rest body; a cutter locking mechanism is arranged in the cutter groove 3; the host 9, the cutter locking mechanism and the drawer locking mechanism are all electrically connected with the main board 10. Optionally, the host 9 is mounted on the tool holder body 1, and the main board 10 is mounted in the tool holder body 1.

The tool rest body 1 provides a chassis part of structural support for the whole system, the tool slot 3 is used for accommodating corresponding tools 15, and the tool locking mechanism in the tool slot 3 is used for locking or unlocking the tools 15 in the tool slot 3. The drawer 7 is used for storing accessories such as knife sharpening bars, fruit knives, scissors and the like. The host 9 plays roles of decryption and management control work and is used for system setting and signaling; the main board 10 is a communication part between the host 9 and other execution parts; the drawer locking mechanism and the cutter locking mechanism are execution modules. Because host computer 9, cutter locking mechanism and drawer locking mechanism all are connected through mainboard 10 electricity, host computer 9 accessible mainboard 10 come the signaling to other parts, and then realize system management. After receiving the working command from the host 9, the cutter locking mechanism and the drawer locking mechanism realize the mutual conversion of unlocking or locking, and manage the drawer 7 and the cutter 15.

In practical application, the multifunctional tool management system firstly inserts the tool 15 into the corresponding tool slot 3, and the tool locking mechanism in the tool slot 3 locks the tool 15 in the tool rest body 1. The accessories are accommodated in the drawer 7, the drawer 7 is closed, and the drawer locking mechanism is started to lock the drawer 7. When the cutter 15 needs to be taken out, the host machine 9 is used for giving a signal to the cutter locking mechanism through the main board 10, the cutter locking mechanism is unlocked, and a user can take out the cutter 15. After the use is finished, the cutter 15 is inserted back into the cutter groove 3, and the cutter locking mechanism locks the cutter 15 again. When the accessories need to be taken, the host computer 9 is utilized to issue a command to the drawer locking mechanism through the main board 10, the drawer locking mechanism is unlocked, the user can open the drawer 7, the accessories are taken, and when the drawer 7 is closed, the drawer locking mechanism locks the drawer 7 again. The bottom plate of the drawer 7 is selectively provided with a plurality of hollowed-out hole bottom plates, a detachable water receiving tray is arranged below the bottom plate, and the inside of the tool rest body 1 is communicated with the drawer 7. The cutter 15 is put back into the cutter groove 3 after being cleaned, water stains attached to the cutter 15 leak to the water receiving tray from the drawer bottom plate, and when the water receiving tray receives the residual water on the cutter 15 to a certain amount, the water receiving tray is disassembled for cleaning.

Further, a power socket 11 is arranged on the main board 10; the tool rest body 1 is provided with a power switch 2. The external power enters the main board 10 through the power socket 11 of the main board 10, and the power switch 2 is used for controlling the on-off of the power supply. Preferably, the main board 10 is further provided with a network interface 12, so that a user can use the network interface 12 to connect to the internet, and view the service condition of the cutter 15 at any time through the networking of external devices such as a mobile phone APP.

In order to avoid the emergency such as power failure, as shown in fig. 5, the multifunctional tool management system further includes a standby power supply 13, where the standby power supply 13 is electrically connected with the motherboard 10, and does not participate in power supply at ordinary times, and only after the power supply is disconnected, the system is powered, and normal operation of the system is ensured during power failure. The standby power supply 13 can be electrically connected and matched with the main board 10 by arranging a charging control unit in the host 9, the standby power supply 13 is set to be charged once in half a month under the electrified state, is automatically cut off after full power supply and does not participate in normal power supply and discharge, so that the service life of a battery is ensured, and meanwhile, the whole system can be driven by timely supplying electric energy when power fails.

Preferably, the host 9 may have an identification device disposed therein. When in first use, the identity information of a user is input through the identity recognition device arranged in the host 9, and the identity recognition device comprises one or more of a face recognition unit, a password recognition unit, a fingerprint recognition unit and a card swiping recognition unit, and can also select a device capable of carrying out identity recognition according to actual conditions, so that the device is not limited. After the identity information is input, the cutter 15 is inserted into the corresponding cutter groove 3, the accessory is placed into the drawer 7, the cutter 15 is locked in the cutter rest body 1 by the cutter locking mechanism in the cutter groove 3, and the drawer 7 is locked by the drawer locking mechanism and cannot be pulled out. When the cutter 15 or the accessory is needed, the identity of the user is verified through the identity recognition device, after the identity verification, the host 9 triggers a signal to the main board 10, the main board 10 receives the signal and then controls the cutter locking mechanism or the drawer locking mechanism to unlock, and the user can take the cutter 15 or open the drawer 7. After the cutter 15 is used, the cutter is inserted into the cutter groove 3, and the cutter locking mechanism locks the cutter 15 again. After the drawer 7 is closed, the drawer locking mechanism locks the drawer 7 again. The time limiting unit can be further arranged in the host machine 9, the cutter taking time is set on the host machine 9 through the time limiting unit according to the cutter taking habit, the cutter 15 can be taken or the drawer 7 can be opened only in the cutter taking time, when the cutter 15 is not taken out or the drawer 7 is opened beyond the cutter taking time, the cutter locking mechanism or the drawer locking mechanism is automatically locked, and the user can take the cutter through identity recognition again, so that the energy consumption of a product is reduced.

In order to better control the opening or closing of the drawer 7, the multifunctional tool management system further comprises a drawer button 8 provided on the tool post body 1; the drawer button 8 is electrically connected with the drawer locking mechanism and the main board 10. The user presses the drawer button 8 to trigger a signal to the main board 10, and after the main board 10 receives the signal, the drawer locking mechanism is controlled to unlock, so that the user can withdraw the drawer 7.

Further, the multifunctional tool management system further comprises a tool button 6 for controlling the tool locking mechanism; the cutter button 6 is electrically connected with the cutter locking mechanism and the main board 10. The number of the cutter buttons 6 is the same as that of the cutter grooves 3, the cutter buttons are in one-to-one correspondence with cutter locking mechanisms in the cutter grooves 3, a user presses the cutter buttons 6 to trigger a signal to the main board 10, and the main board 10 controls the cutter locking mechanisms in the cutter grooves 3 corresponding to the cutter buttons 6 to unlock after receiving the signal, so that the user can take the cutters 15. After the cutter 15 is used, the cutter is inserted into the cutter groove 3, and the cutter locking mechanism locks the cutter 15 again.

In a refined embodiment, indicator lights, preferably LED lights, electrically connected to the main board 10 may be provided on the drawer button 8 and the cutter button 6. When the drawer locking mechanism or the cutter locking mechanism is in an unlocking state, the indicator light flashes. The indicator lights are turned off, so that the drawer locking mechanism or the cutter locking mechanism is in a locking state, on one hand, a user is prompted to take the cutter, on the other hand, the situation that the user thinks that the cutter is unlocked, but when the drawer is actually still in a locking state, the user forcefully takes the cutter or pulls the drawer 7, and damage is caused to the corresponding structure is avoided.

Optionally, the cutter locking mechanism and the drawer locking mechanism each include an electromagnetic lock 4, and the electromagnetic lock 4 is electrically connected with the motherboard 10. The electromagnetic lock 4 works in the principle of power on and power off. When the main board 10 receives signals sent by the host 9, the corresponding electromagnetic lock 4 is controlled, and the electromagnetic lock 4 is controlled to be opened and closed in an on-off mode, so that the control of the cutter 15 and the drawer 7 is realized.

Further, as shown in fig. 6, the tool locking mechanism further includes a photosensitive sensor 5; the photosensitive sensor 5 is arranged at the bottom of the cutter groove 3, is used for sensing whether a cutter 15 is arranged in the cutter groove 3, and is in signal connection with the electromagnetic lock 4. When the cutter 15 is inserted into the cutter slot 3, the light of the notch of the cutter slot 3 is blocked, and the photosensitive sensor 5 positioned below the cutter slot 3 senses that the cutter 15 is inserted, so that a feedback signal is triggered to control the electromagnetic lock 4 to be closed.

Furthermore, a disinfection device, preferably disinfection lamps, are arranged in the tool rest body 1, and the installation positions and the number can be designed according to the internal volume condition of the tool rest body 1; the sterilizing device is electrically connected to the main board 10. The disinfection time of each time can be set in the host 9, the disinfection lamp is controlled by the switch, the light emitting diode is lightened to emit ultraviolet rays, and the interior of the knife rest body 1 is disinfected as required.

In an optimized embodiment, the utility model provides a multifunctional cutter management system, which comprises a cutter rest body 1, a drawer 7, a host 9, a standby power supply 13 and a main board 10;

the tool rest body 1 is of a hollow structure, a sterilizing lamp is arranged in the tool rest body, and a plurality of tool grooves 3 communicated with the inside of the tool rest body 1 are formed in the top of the tool rest body; the back of the tool rest body 1 is provided with a fixing frame 14; an electromagnetic lock 4 and a photosensitive sensor 5 are arranged in the cutter groove 3, and the photosensitive sensor 5 is arranged at the bottom of the cutter groove 3; the top of the cutter rest body 1 is also provided with a plurality of cutter buttons 6 with LED lamps, the cutter buttons 6 are in one-to-one correspondence with the cutter grooves 3 and are electrically connected with the electromagnetic locks 4 in the corresponding cutter grooves 3;

the drawer 7 is arranged at the bottom of the tool rest body 1; an electromagnetic lock 4 for controlling the drawer 7 to be opened or locked is arranged in the drawer 7; the tool rest body 1 is provided with a drawer button 8 which is electrically connected with the electromagnetic lock 4 in the drawer 7;

the host machine 9 is arranged on the tool rest body 1, and a face recognition unit and a password recognition unit are arranged in the host machine 9; the main board 10 is provided with a network interface 12 and a power socket 11, and the tool rest body 1 is provided with a power switch 2 electrically connected with the main board 10; the standby power supply 13 and the main board 10 are both arranged in the tool rest body 1;

the standby power supply 13, the host computer 9, the electromagnetic lock 4, the photosensitive sensor 5, the cutter button 6, the drawer button 8, the LED lamp and the disinfection lamp are all electrically connected with the main board 10, and the host computer 9 sends signals to the components through the main board 10.

When installed, the multifunctional tool management system is fixed on a wall or other firm supporting surface through the fixing frame 14 on the back of the tool rest body 1. When the intelligent tool is used for the first time, an external power supply enters the main board 10 through the power socket 11 of the main board 10, the power switch 2 is used for controlling the power on and off, the host 9 is started after the power is on, an administrator starts to operate, firstly, the system is entered through the password identification unit, the personal face identification information is recorded through the face identification unit, and then the face identification information of other users of the tools 15 is recorded. Meanwhile, an administrator can enter the Internet by utilizing the network interface 12 reserved on the main board 10, and can check the service condition of the system at any time through the mobile phone APP. The standby power supply 13 is charged once in half a month in the electrified state through the host 9 and the main board 10, is automatically cut off after full power supply, does not participate in normal power supply and discharge, ensures the service life of the battery, and can provide electric energy to drive the whole system in time when power failure occurs.

In this system, the host 9 mainly plays a role in decryption and management control work for system setup and signaling; the execution part of the system consists of a cutter button 6, an electromagnetic lock 4 in a cutter groove 3, a photosensitive sensor 5, a drawer button 8 and the electromagnetic lock 4 in the drawer which are matched with a main board 10. When the cutter is used, face recognition verification is firstly carried out through the host machine 9, and after the face recognition verification is passed, the cutter button 6 in front of the corresponding cutter groove 3 is pressed to unlock and take the cutter. The cutter taking time can be set on the host computer 9 according to the cutter using habit, at the moment, the corresponding LED lamp on the cutter button 6 flashes to prompt cutter taking, the cutter must be taken before the set cutter taking time is counted, the overtime electromagnetic lock 4 can be automatically locked, and meanwhile, the LED lamp is extinguished, so that the electric energy loss of a product is reduced. On the contrary, when the cutter is placed, the electromagnetic lock 4 can be triggered to unlock only by pressing the cutter button 6 in front of the cutter slot 3, the synchronous LED is normally on, the cutter 15 is waited to be inserted into the cutter slot 3, when the cutter 15 is inserted into the cutter slot 3, the photosensitive sensor 5 positioned under the cutter slot 3 senses that the cutter is inserted, a feedback signal is sent to the main board 10 in a touch manner, the electromagnetic lock 4 is controlled to be closed, the LED lamp is extinguished, the representative cutter 15 is reset, and the main machine 9 records the whole using process. The drawer 7 is opened and closed similarly, when the drawer button 8 is pressed down, the electromagnetic lock 4 in the drawer 7 is unlocked, the LED lamp flashes, the drawer 7 can be pulled out, and when the drawer 7 is closed, the electromagnetic lock 4 is locked, the LED lamp is extinguished, and the drawer 7 is locked. The disinfection lamp can be set in the host machine 9 for disinfection time each time, and is independently started to carry out disinfection according to the requirement.

The foregoing examples are merely illustrative of the present utility model and are not intended to limit the scope of the present utility model, and all designs that are the same or similar to the present utility model are within the scope of the present utility model.

Claims (10)

1. The utility model provides a multi-functional cutter management system, includes knife rest, host computer (9) and mainboard (10), its characterized in that: the tool rest comprises a tool rest body (1) and a drawer (7) arranged at the bottom of the tool rest body (1); a drawer locking mechanism for controlling the drawer (7) to be opened or locked is arranged in the drawer (7); the tool rest body (1) is of a hollow structure, and a plurality of tool grooves (3) communicated with the inside of the tool rest body (1) are formed in the top of the tool rest body; a cutter locking mechanism is arranged in the cutter groove (3); the main machine (9), the cutter locking mechanism and the drawer locking mechanism are all electrically connected through the main board (10).

2. The multi-function tool management system of claim 1, wherein: also comprises a standby power supply (13); the standby power supply (13) is electrically connected with the main board (10).

3. The multi-function tool management system of claim 1, wherein: a power socket (11) is arranged on the main board (10); the tool rest body (1) is provided with a power switch (2) for controlling the on-off of a power supply.

4. The multi-function tool management system of claim 1, wherein: the main board (10) is provided with a network interface (12).

5. The multi-function tool management system of claim 1, wherein: an identity recognition device is arranged in the host (9); the identity recognition device comprises one or more of a face recognition unit, a password recognition unit, a fingerprint recognition unit and a card swiping recognition unit.

6. The multi-function tool management system of claim 1, wherein: the drawer button (8) is arranged on the knife rest body (1); the drawer button (8) is electrically connected with the drawer locking mechanism.

7. The multi-function tool management system of claim 1, wherein: also comprises a cutter button (6) for controlling the cutter locking mechanism; the cutter button (6) is electrically connected with the cutter locking mechanism.

8. The multi-function tool management system of claim 1, wherein: the cutter locking mechanism and the drawer locking mechanism comprise electromagnetic locks (4), and the electromagnetic locks (4) are electrically connected with the main board (10).

9. The multi-function tool management system of claim 8, wherein: the cutter locking mechanism further comprises a photosensitive sensor (5); the photosensitive sensor (5) is arranged at the bottom of the cutter groove (3) and is in signal connection with the electromagnetic lock (4).

10. The multi-function tool management system of claim 1, wherein: a disinfection device is arranged in the tool rest body (1); the disinfection device is electrically connected with the main board (10).