CN214856464U - Automatic cleaning and sterilizing machine - Google Patents

Abstract

The utility model relates to an automatic cleaning and sterilizing machine, include: the input area and the cleaning area are arranged along the vertical direction or a set angle, are transmitted by the gravity of the workpiece and are sequentially arranged; a disinfection area and a storage area which are arranged along the vertical direction or a set angle, are transmitted by the gravity of the workpiece and are sequentially arranged or combined; the workpieces are conveyed between the cleaning area and the disinfection area by the gravity of the workpieces; the cleaning device is correspondingly arranged in the cleaning area to clean the workpiece; the sterilizing device is correspondingly arranged in the sterilizing area to sterilize the workpieces; the isolation mechanism is arranged between the cleaning area and the disinfection area; and the control device is connected with the cleaning device, the disinfection device and the blocking mechanism. The automatic cleaning and sterilizing machine has the advantages of high automation degree, convenience in use, small size, small occupied area, high complete machine space utilization rate, low manufacturing cost, high efficiency, wide application range and low labor cost.

Description

Automatic cleaning and sterilizing machine

Technical Field

The utility model relates to a cleaning and disinfecting machine, more specifically say, relate to an automatic cleaning and disinfecting machine.

Background

In daily life, various tableware and containers are needed everyday, and if the disposable tableware or containers are used, a large amount of resources are consumed, and a large amount of garbage is produced. Disposable tableware and containers are becoming less popular with the trend of increasingly stringent environmental requirements, however reusable tableware and containers require cleaning and sterilization after each use, and particularly common tableware, such as tableware in restaurants, must be sterilized to be sufficiently safe. The existing washing and disinfecting machines, which can be called general-purpose type, such as household dish-washing machines, commercial dish-washing machines and the like, have the following disadvantages:

1: the assembly line type commercial dish washing machine needs to be manually placed into the assembly line one by one, the other end needs to be manually taken out one by one for being collected, the same is true for the household dish washing machine, the positions of the household dish washing machine need to be placed one by one according to the supports inside the dish washing machine, and the automation degree is not high enough.

2, the household dish washing machine or some commercial dish washing machines are inflexible to use, for example, 4 sets of clean bowls and chopsticks are arranged in the dish washing machine, when 2 sets of the bowls and chopsticks are used, the 2 sets of bowls and chopsticks are put back to the dish washing machine for washing, only 2 choices are available at this time, firstly, the unused clean bowls and chopsticks in the dish washing machine are taken out, secondly, the used bowls and chopsticks and the used chopsticks are put together for washing, the first method is troublesome, and the second method is waste. Neither is an optimal solution, i.e. the use is not flexible.

2: most tableware or containers can be stacked (such as bowls, dishes, cups and the like), but the tableware or containers cannot be stacked together when placed in various dishwashers, the stacked tableware or containers cannot be washed cleanly and need to be scattered, and the household dishwashers are in the same state during washing and storage, so that the utilization rate of the inner space of the dishwashers is low. The whole machine has large volume.

3: in some situations, only one or more kinds of tableware or other containers need to be cleaned and disinfected. For example, only one cup cleaning machine is needed on the side of a water dispenser, and the universal machines are not suitable, so that the problems of high price, large volume, low efficiency, low automation degree and the like exist. These applications require machines that are small, low cost, efficient, and highly automated.

4: in public occasions, self-service use cannot be realized. This may be necessary in some situations. For unattended self-service equipment (such as public drinking water machines, beverage machines and the like), due to the fact that no proper cleaning and disinfecting machine is available, disposable cups are basically equipped, and the cups are just needed and used at high frequency. Therefore, the cup (such as a stainless steel cup) which can be repeatedly used for many times is adopted, the matched machine can automatically clean and disinfect, and the machine is matched on a water dispenser, a beverage dispenser and a food machine or is combined with the machines into a whole, so that the cup becomes significant, and has the advantages of practicability and good environmental protection effect.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide an improved automatic cleaning and sterilizing machine.

The utility model provides a technical scheme that its technical problem adopted is: constructing an automatic cleaning and disinfecting machine comprising:

the input area and the cleaning area are arranged along the vertical direction or a set angle, are transmitted by the gravity of the workpiece and are sequentially arranged;

a disinfection area and a storage area which are arranged along the vertical direction or a set angle, are transmitted by the gravity of the workpiece and are sequentially arranged or combined; the workpiece is conveyed between the cleaning area and the disinfection area by the gravity of the workpiece;

the cleaning device is correspondingly arranged in the cleaning area to clean the workpiece;

the sterilizing device is correspondingly arranged in the sterilizing area and is used for sterilizing the workpiece;

the isolation mechanism is arranged between the cleaning area and the disinfection area;

and the control device is connected with the cleaning device, the disinfection device and the isolation mechanism.

Preferably, the device also comprises a conveying track arranged along the vertical direction or at a set angle;

the input area, the cleaning area, the disinfection area and the storage area are sequentially arranged in the conveying track along the conveying direction of the conveying track and are separated by the isolation mechanism.

Preferably, the device further comprises a conveying track arranged along the vertical direction or at a set angle, a first receiving container arranged at one end of the conveying track, and a second receiving container arranged at the other end of the conveying track;

the cleaning area and the disinfection area are sequentially arranged in the conveying track along the conveying direction of the conveying track;

a first input port for putting the workpiece and an output port for allowing the workpiece to enter the cleaning area in the transmission track are formed in the first accommodating container; the input area is formed on the inner side of the first container; the isolation mechanism is arranged between the output port and the cleaning area of the transmission track;

the second receiving container is provided with a second input port for the workpieces sterilized in the sterilizing area in the conveying track to enter; the isolation mechanism is arranged between the second input port and the disinfection area in the transmission track.

Preferably, the first receiving container is detachably connected with the transfer rail;

and/or the second receiving container is detachably connected with the transmission track.

Preferably, a blocking mechanism is further included, which is arranged between the input area and the washing area, and/or between the washing area and the disinfection area, and/or between the disinfection area and the storage area;

the blocking mechanism comprises a first driving assembly connected with the control device and a sliding block driven by the first driving assembly to move towards the end part of the workpiece in a telescopic mode so as to block the workpiece from falling;

the sliding block is an iron core, and the first driving component is an electromagnet which is attracted to or disconnected from the iron core;

or the blocking mechanism further comprises a first transmission component which is connected with the first driving component and the sliding block, is driven by the first driving component to transmit, and drives the sliding block to move towards the end part of the workpiece in a telescopic mode so as to block the workpiece from falling; the first driving assembly is a first driving motor, and the first transmission assembly is a transmission screw rod connected with an output shaft of the first driving motor; the sliding block is sleeved on the transmission screw rod and is in threaded connection with the transmission screw rod.

Preferably, the isolation mechanism comprises a second driving component connected with the control device, a second transmission component connected with the second driving component and driven by the second driving component to transmit, and an isolation door connected with the second transmission component and driven by the second transmission component to open and close to isolate the adjacent region or communicate the adjacent region.

Preferably, the second driving mechanism comprises a second driving motor and a first driving gear connected with the second driving motor;

the second transmission assembly comprises a first inner gear ring which is sleeved on the periphery of the first driving gear, is meshed with the first driving gear and is driven by the first driving gear to transmit;

the isolation door comprises a rotary table which is connected with the first inner gear ring and is driven by the first inner gear ring to rotate and is annular, a plurality of guide grooves which are arranged on the rotary table at intervals along the circumferential direction of the rotary table and are driven by the rotary table to rotate and are inclined, and a plurality of door plates which are arranged corresponding to the guide grooves and can form an opening and closing structure;

the door plate is slidably arranged in the guide groove.

Preferably, the input area, the cleaning area, the sterilizing area, and/or the storage area are provided with a separating mechanism that separates a plurality of the workpieces arranged in a stack;

the separating mechanism comprises a third driving component, a third transmission component which is connected with the third driving component and driven by the third driving component to transmit, and a separating piece which is connected with the third transmission component, driven by the third transmission component to telescopically insert between two adjacent workpieces and separate the two workpieces so that one of the workpieces falls;

the third driving mechanism comprises a third driving motor and a second driving gear connected with the third driving motor;

the third transmission assembly comprises a second inner gear ring which is sleeved on the outer ring of the second driving gear, is meshed with the second driving gear and is driven by the second driving gear to transmit;

the separating piece is meshed with the second inner gear ring and is driven to rotate by the second inner gear ring;

the separator includes the reference column, follows a plurality of separation pieces that the circumference interval of reference column set up, the thickness of separation piece is towards keeping away from the direction subassembly of reference column reduces the setting.

Preferably, a damping mechanism for buffering the falling of the workpieces is arranged in the input area, the cleaning area, the sterilizing area and/or the storage area;

the damping mechanism comprises at least two groups of buffer assemblies which are arranged at intervals along the circumferential direction of the input area, the cleaning area, the disinfection area and/or the storage area; each group of buffer components comprises a first fixed wheel and a second fixed wheel which are arranged at intervals along the transmission direction and are arranged side by side, and a toothed belt is sleeved on the first fixed wheel and the second fixed wheel and comprises a plurality of elastic clamping teeth which are arranged at intervals along the transmission direction and are arranged side by side;

or the damping mechanism comprises at least two groups of buffer assemblies which are arranged at intervals along the circumferential direction of the input area, the cleaning area, the disinfection area and/or the storage area; each group of buffer memory components can comprise a plurality of elastic sheets which are arranged on the inner side wall of the input area, the cleaning area, the disinfection area and/or the storage area, are arranged at intervals along the transmission direction and are obliquely arranged side by side;

or the damping mechanism comprises at least two groups of soft rubber screw rods which are circumferentially arranged at intervals along the input area, the cleaning area, the disinfection area and/or the storage area;

alternatively, the damping mechanism comprises at least two groups of buffer assemblies arranged at intervals along the circumferential direction of the input area, the cleaning area, the disinfection area and/or the storage area, and each group of buffer assemblies can comprise a plurality of damping blocking structures arranged at intervals side by side.

Preferably, the washing device also comprises a water supply assembly connected with the washing device to supply washing liquid to the washing device;

and/or, further comprises a drainage component communicated with the cleaning area to drain the waste water of the cleaning area;

and/or, also include setting up in the said sterilizing area and drying apparatus connected with said controlling device;

and/or, the device also comprises a steering mechanism which is arranged between the cleaning area and the disinfection area or between the disinfection area and the storage area and is used for steering the workpieces;

and/or the cleaning device comprises one or more of an electric brush, an ultrasonic cleaner and a spraying assembly;

and/or the sterilizing device comprises one or more of an electric heating high-temperature sterilizer, an ultraviolet sterilizer and an ozone sterilizer.

Preferably, a first rotating bracket which is used for placing a plurality of groups of workpieces and can be rotatably arranged is arranged on the input area; the first rotating bracket is provided with a first support frame which is arranged corresponding to each group of workpieces;

the storage area is provided with a plurality of groups of second rotating supports which are used for placing the workpieces and can be rotatably arranged, and the second rotating supports are provided with second support frames which correspond to the workpieces in each group.

Implement the utility model discloses an automatic cleaning and sterilizing machine has following beneficial effect: the automatic cleaning and disinfecting machine comprises an input area, a cleaning area, a disinfecting area and a storage area, wherein the input area and the cleaning area are arranged along the vertical direction or at a set angle and are transmitted by the gravity of a workpiece and are sequentially arranged; and the workpieces are transmitted between the cleaning area and the disinfection area by means of the gravity of the workpieces, so that the automatic cleaning and disinfection of the workpieces can be realized.

Drawings

The invention will be further explained with reference to the drawings and examples, wherein:

FIG. 1 is a schematic view of a part of an automatic cleaning and disinfecting machine according to a first embodiment of the present invention;

FIG. 2 is a schematic view of the blocking mechanism of the automatic cleaning and disinfecting machine of FIG. 1 engaged with the conveying track;

FIG. 3 is a schematic view of the isolation mechanism of the automatic washer disinfector of FIG. 1 in a closed state;

FIG. 4 is a schematic view of the isolation mechanism of the automatic washer disinfector of FIG. 1 in an open state;

FIG. 5 is a schematic view of the separating mechanism of the automatic cleaning and disinfecting machine of FIG. 1 separating a workpiece;

FIG. 6 is a schematic view of a part of an automatic cleaning and disinfecting machine according to a second embodiment of the present invention;

FIG. 7 is a schematic view of a part of an automatic cleaning and disinfecting machine according to a third embodiment of the present invention;

FIG. 8 is a schematic view of a first rotating rack of the automatic washer disinfector of FIG. 7;

FIG. 9 is a schematic view of a part of an automatic cleaning and disinfecting machine according to a fourth embodiment of the present invention;

FIG. 10 is a schematic view of a part of an automatic cleaning and disinfecting machine according to a fifth embodiment of the present invention;

FIG. 11 is a schematic view of a part of an automatic cleaning and disinfecting machine according to a sixth embodiment of the present invention;

FIG. 12 is a schematic view of a part of an automatic cleaning and disinfecting machine according to a seventh embodiment of the present invention;

FIG. 13 is a schematic view of the steering mechanism of the automatic washer disinfector of FIG. 14;

FIG. 14 is a schematic view of a part of an eighth embodiment of an automatic cleaning and disinfecting machine according to the present invention;

FIG. 15 is a schematic view of a third rotating rack of the automatic washer disinfector of FIG. 14;

FIG. 16 is a schematic structural view of a disk structure of an automatic cleaning and disinfecting machine according to a ninth embodiment of the present invention;

FIG. 17 is a schematic structural view of a damping mechanism of an automatic cleaning and disinfecting machine according to a tenth embodiment of the present invention;

FIG. 18 is a schematic structural view of a damping mechanism of an automatic washer-disinfector according to an eleventh embodiment of the present invention.

Detailed Description

In order to clearly understand the technical features, objects, and effects of the present invention, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Fig. 1 shows a first embodiment of the automatic cleaning and disinfecting machine of the present invention. The automatic cleaning and disinfecting machine can be used for automatically cleaning and disinfecting a workpiece 100, the workpiece 100 can be tableware, cups or other articles, and the cups or tableware can also be made of materials such as plastics, ceramics, stainless steel or glass. The automatic cleaning and sterilizing machine does not need manual intervention for cleaning and sterilizing, and can automatically clean and sterilize the workpiece 100. The automatic cleaning and sterilizing machine can be used for household, commercial or public places. The automatic cleaning and sterilizing machine has the advantages of high automation degree, convenience in use, small size, small occupied area, high complete machine space utilization rate, low manufacturing cost, high efficiency, wide application range and low labor cost.

Further, as shown in FIG. 1, in the present embodiment, the automatic washer disinfector may include an input area A, a cleaning area B, a disinfection area C, and a storage area D. The input area a, the cleaning area B, the sterilizing area C and the storage area D may be sequentially arranged in a vertical direction. The work 100 may be input from the input area a, cleaned through the cleaning area B, sterilized through the sterilizing area C, and finally stored in the storage area D. The work 100 in the input area a, the cleaning area B, the sterilizing area C, and the storage area D may be transferred by its own weight. Of course, it is understood that in other embodiments, the input area a, the cleaning area B, the sterilizing area C, and the storage area D may be sequentially disposed along a set angle and transferred by means of their own weight. The input area A, the cleaning area B, the disinfection area C and the storage area D are sequentially arranged along the vertical direction or the set angle, so that the volume and the floor area of the whole automatic cleaning and disinfecting machine can be reduced, and the application range of the automatic cleaning and disinfecting machine can be enlarged. In addition, the work 100 is transferred in the input area a, the cleaning area B, the sterilizing area C, and the storage area D by means of its own weight, so that the structure of the automatic cleaning and sterilizing machine can be simplified, the manufacturing cost of the automatic cleaning and sterilizing machine can be saved, and the automation level of the automatic cleaning and sterilizing machine can be improved. The input area a, the cleaning area B, the disinfection area C and the storage area D may be combined or further subdivided in different applications. In this embodiment, the workpiece 100 may be a cup.

Further, in the present embodiment, the automatic cleaning and disinfecting machine may include a cabinet, and the transfer rail 10, the blocking mechanism 20, the isolation mechanism 30, the cleaning device 40, the disinfecting device 60, and the control device 1 are disposed on the cabinet. In some embodiments, the transfer rail 10 may be disposed in a vertical direction or at a set angle. The transfer rail 10 may be used to form the input area a, the cleaning area B, the sterilizing area C, and the storage area D, and may be used to transfer the workpieces 100. The blocking mechanism 20 is located between two areas which are adjacently arranged, and specifically, in the embodiment, the blocking mechanism 20 can be arranged between the input area a and the cleaning area B; a blocking mechanism 20 can be arranged between the cleaning area B and the disinfection area C; a barrier mechanism 20 may also be provided between the sterile zone C and the storage zone D. It will be appreciated that in other embodiments, the blocking mechanism 20 may be omitted and the isolation mechanism 30 may be used to block and isolate. The isolation mechanism 30 may be disposed in the conveying track 10 between two adjacently disposed areas, specifically, in the present embodiment, the isolation mechanism 30 may be disposed between the input area a and the cleaning area B; an isolation mechanism 30 can be arranged between the cleaning area B and the disinfection area C; an isolation mechanism 30 may also be disposed between the sterilization zone C and the storage zone D. The cleaning device 40 may be disposed in the cleaning region B, and may be used to clean the workpiece 100. The sterilization device 60 may be disposed in the sterilization zone C, and may be used to sterilize the workpiece 100. The control device 1 can be connected to the cleaning device 40, the disinfecting device 60, the blocking mechanism 20 and the isolating mechanism 30, and can control the cleaning device 40, the disinfecting device 60, the blocking mechanism 20 and the isolating mechanism 30. In the present embodiment, the control device 1 may have a separate control device 11, and it is understood that, in other embodiments, the control device 1 may be integrated with other machines, such as the complete machine control device 11 of a water dispenser, a beverage machine, etc.

The transfer rail 10 may have a hollow structure with openings at both ends. In some embodiments, the transfer rail 10 may be cylindrical. It is understood that in other embodiments, the transfer rail 10 may not be limited to being cylindrical. In this embodiment, the input area a, the cleaning area B, the sterilizing area C and the storage area D may be sequentially disposed in the conveying track 10 along the conveying direction of the conveying track 10, and may be separated by the blocking mechanism 20 and/or the separating mechanism 30.

The input area a may be used for storing workpieces to be processed, may be used for storing one workpiece 100, or may be used for stacking a plurality of workpieces 100. The user or professional puts the tableware or cups or other articles to be cleaned into the input area a according to the regulations, puts them in order according to the regulations, and arranges them in line so as to enter the next procedure. The input area a can set the input number of the input area a according to the needs of different occasions, for example, set one input, when a workpiece 100 is put into the input area a, and the counting device knows that the number in the input area a is one through detection, the control device 1 can drive the blocking mechanism 20 and the isolating mechanism 30 to open, the input area a and the cleaning area B are conducted, the workpiece 100 can fall to the cleaning area B through self gravity, and then enter the next process, in some embodiments, the number can also be set to be plural, when a plurality of workpieces 100 are put into the input area a and reach a certain number, the control device 1 can drive the blocking mechanism 20 and the isolating mechanism 30 to open, the time for opening the blocking mechanism 20 and the isolating mechanism 30 can be set to allow only one workpiece 100 to fall, for example, the opening time of the blocking mechanism 20 and the isolating mechanism 30 can be set to 1s, therefore, the workpieces 100 can enter the next process one by one, the input area A can be flexibly arranged, and intelligent operation can be realized.

The cleaning area B is an area where the workpieces 100 are cleaned, and the cleaning area B may be configured to individually clean the workpieces 100 falling one by one, or may simultaneously clean a plurality of workpieces 100. The cleaning area B can be flexibly arranged and can realize intelligent operation. In some embodiments, the cleaning zone B may be further subdivided into a plurality of sub-zones. For example, the cleaning device is divided into two sub-areas, wherein one sub-area can be cleaned by cleaning liquid with cleaning agent at high temperature and high pressure, and the other sub-area can be cleaned and washed by clean water.

In some embodiments, the cleaning device 40 can also be disposed on the sidewall of the cleaning region B. In some embodiments, the cleaning device 40 may be a spray assembly that sprays cleaning liquid or clean water onto the inner and outer surfaces of the workpiece 100 to clean the workpiece 100, and the spray assembly may include a spray head and a water pipe connected to the spray head. In some embodiments, the cleaning device 40 is not limited to include a spray assembly, and in other embodiments, the cleaning device may be an electric brush or an ultrasonic cleaner, or a combination of two or more of an electric brush, an ultrasonic cleaner, or a spray assembly.

In some embodiments, the automatic washer disinfector may also include a water supply assembly 50. The water supply assembly 50 is connectable to the cleaning device 40 and is configured to provide a cleaning solution to the cleaning device 40, wherein the cleaning solution may include water with detergent or clear water. The water supply assembly 50 may include a pressurizing pump 51 and a water tank 52, the pressurizing pump 51 may be connected to the water tank 52 and the water pipe, and may pump the water in the water tank 52 into the water pipe, and the water tank 52 may be disposed on the cabinet of the automatic washer disinfector. In some embodiments, the automatic washer disinfector may further include a drain assembly which may communicate with the washing zone B and drain the waste water of the washing zone B. In some embodiments, the drain assembly may include a drain in communication with the wash zone B and a waste water tank 2 in communication with the drain. The waste tank 2 can be used to contain waste water which can be dumped when full. Of course, it will be appreciated that in other embodiments, the drain assembly may also include a suction pump disposed on the drain pipe. The suction pump may be used to pump the waste water out of the washing zone B. Through setting up this water supply assembly 50 and this drainage subassembly can be convenient for the user directly to use this self-cleaning sterilizer, need not the installation promptly, insert the electricity and can use, it is very convenient. Under special circumstances, the sewage after cleaning can be collected, filtered and reused for cleaning, so that the machine is convenient to install, a water inlet pipe or a water outlet pipe does not need to be connected, and water is saved.

The sterilization zone C can be used to sterilize cleaned workpieces. In some embodiments, a drying device (for ultraviolet and ozone disinfection, a drying device is not needed for high-temperature disinfection) can be further arranged in the disinfection area, and the drying device can be used for drying cleaned workpieces. The sterilization zone may be configured to individually sterilize the workpieces 100 falling one by one, or to simultaneously sterilize a plurality of workpieces 100. The disinfection area C can be flexibly arranged and can realize intelligent operation. In some embodiments, the sterilization device 60 can be used to sterilize the workpieces in the sterilization zone C, and the sterilization device 60 can be connected to the control device 1 and can be operated by the control device 1. In some embodiments, the disinfecting device 60 may be an ultraviolet sterilizer, but it is understood that in other embodiments, the disinfecting device 60 may not be limited to an ultraviolet sterilizer, and may be an electric heat sterilizer, an ozone sterilizer. Of course, a combination of two or more of an ultraviolet sterilizer, an electric heat high temperature sterilizer, or an ozone sterilizer may be also possible.

The storage area D can be used for safely storing the sterilized workpieces 100 for a long time, and an output port can be arranged on the storage area D and can output the qualified workpieces 100 at any time. In some embodiments, for example, an ozone sterilization mode or an ultraviolet sterilization mode or a combination of the two sterilization modes, which have no high temperature, can be used at any time after sterilization is completed, or can be used for sterilization by adding non-sterilized workpieces and sterilized workpieces together at any time, so that the storage area D and the sterilization area C can be combined into one area, and the sterilization area C can also take the role of the storage area D into consideration.

As shown in fig. 2, in the present embodiment, the blocking mechanism 20 may be plural, and the plural blocking mechanisms 20 may be arranged at intervals along the circumferential direction of the conveying track 10. The plurality of blocking mechanisms 20 can block the workpiece 100 from falling in a plurality of directions. In some embodiments, the blocking mechanism 20 may include a first drive assembly 21, and a slider 22. The first driving component 21 can be connected to the control device 1, and can drive the sliding block 22 to extend and contract along the radial direction of the conveying track 10, and the sliding block 22 can be connected to the first driving component 21, and can be driven by the first driving component 21 to extend and contract towards the end of the workpiece 100, so as to prevent the workpiece 100 from falling. In some embodiments, the slide 22 may be an iron core, and the first driving component 20 may be an electromagnet, which attracts the iron core when the electromagnet is in a power-on state, so as to drive the iron core to move away from the workpiece 100. The iron core can be reset in the state that the electromagnet is powered off, and the iron core can be in a state that the workpiece 100 is prevented from falling. The plurality of blocking mechanisms 20 operate simultaneously, and the workpiece 100 can be blocked by the iron cores of the plurality of blocking mechanisms 20 and does not slide down, so that the workpiece can stay in the corresponding area. It is understood that in other embodiments, the first driving assembly 21 of the blocking mechanism 20 may not be limited to an electromagnet, and the sliding block 22 may not be limited to an iron core.

It is understood that, in some embodiments, the blocking mechanism 20 may further include a first transmission component connected to the first driving component 21 and the sliding block 22, and the first transmission component may be driven by the first driving component 21, so as to drive the sliding block 22 to move in a telescopic manner toward the end of the workpiece 100 to block the workpiece 100 from dropping.

Further, as shown in fig. 3 and 4, in the present embodiment, the isolation mechanism 30 may include a second driving assembly, a second transmission assembly, and an isolation door 31. The second driving component can be connected with the control device 1 and can be switched on or switched off by the control device 1. The second transmission assembly can be connected with the first driving assembly and can be driven by the second driving assembly to transmit, the isolation door 31 can be connected with the second transmission assembly and can be driven by the second transmission assembly to open and close, and therefore adjacent areas can be isolated or communicated. Further, in some embodiments, the second driving assembly may include a second driving motor and a first driving gear, and the first driving gear may be sleeved on an output shaft of the first driving motor and may be driven by the first driving motor to rotate. The first driving gear can be connected with the second transmission component and can drive the second transmission component to transmit. In some embodiments, the second drive component may comprise a first ring gear; the first inner gear ring can be sleeved on the periphery of the first driving gear and can be meshed with the first driving gear, and the first driving gear rotates to drive the first inner gear ring to rotate. The isolation door 31 may be disposed on the first inner gear ring, and the isolation door 31 may include a rotating plate 311, a plurality of guide grooves 312, and a plurality of door panels 313. The rotary plate 311 may be annular, and the rotary plate 311 may be located on the first inner gear ring, and may be fixedly connected to the first inner gear ring or integrally formed with the first inner gear ring. The plurality of guide slots 312 may be disposed on the turntable 311 at intervals along the circumferential direction of the turntable 311, and may be driven by the turntable 311 to rotate. The guide slots 312 may be disposed corresponding to the door panels 313 one by one and connected to the door panels 313 one by one. The guide groove 312 may be obliquely disposed to guide the door panel 313. The door panel 313 is slidably disposed in the guide groove 312, and may be in a fan shape, and the door panels 313 may form an opening and closing structure and may be joined together to form a circular shape. The rotation of the rotary plate 311 drives all the guide slots 312 to rotate, and further drives the door panel 313 to open and close, thereby opening or closing the passage between adjacent areas. The isolation door 31 is of a centrosymmetric structure, attractive in structure and convenient to arrange in a whole machine. In some embodiments, the specific structure of the adjustment mechanism 11 may also be referenced to the isolation mechanism 30.

In this embodiment, the cleaning device 40 may be disposed on the isolation door 31, and specifically, the spraying component may be disposed on the isolation door 31 and may form an integral structure with the isolation door 31, and may move together with the isolation door to prevent the cleaning device 40 from obstructing the falling of the cup.

As shown in fig. 5, in this embodiment, the automatic cleaning and disinfecting machine may further include a separating mechanism 70 disposed in the input area a, the cleaning area B, the disinfecting area C and/or the storage area, wherein the separating mechanism 70 may be used to separate a plurality of workpieces 100 stacked in a stacked manner, thereby facilitating transportation and cleaning and disinfecting. The separating mechanism 70 may be an electric cup dropping device, and may be used to separate and stack a cup tightly, and may block the cup, or may forcibly separate the cup located at the bottom, so as to facilitate the dropping of the cup. Of course, it will be appreciated that in other embodiments, the detachment mechanism 70 may be disposed in any one or more of the regions.

Specifically, in the present embodiment, the separating mechanism 70 may include a third driving assembly, a third transmission assembly, and a separating member. The third driving component drives the third transmission component to transmit, and can be connected with the control device 1. In some embodiments, the third drive assembly may include a third drive motor and a second drive gear. The second driving gear may be connected to the third driving motor, and specifically, in some embodiments, the second driving gear may be sleeved on an output shaft of the third driving motor. The third transmission assembly can be connected with the third driving assembly and can be driven by the third driving assembly to transmit. In some embodiments, the third transmission element may be a second ring gear, and the second ring gear may be sleeved on the outer ring of the second driving gear and may be engaged with the second driving gear. The second driving gear rotates to drive the second inner gear ring to rotate. In this embodiment, the separating member may be disposed on the second inner gear ring and may be engaged with the second inner gear ring, and the second inner gear ring may rotate to drive the separating member to rotate. The separating piece can be a plurality of separating pieces which are arranged at intervals along the circumferential direction of the second inner gear ring. In some embodiments, the separating member may include a positioning pillar 71 and a separating sheet 72, and the positioning pillar 71 may be disposed inside the second inner ring gear. The separating sheet 72 may be helical, and may be multiple, the separating sheets 72 may be arranged at intervals along the circumferential direction of the positioning column 71, and the interval between two adjacent separating sheets 72 may form a tooth socket to engage with the second ring gear. In some embodiments, the thickness of the separating sheet 72 decreases in a direction away from the positioning post 71, the separating member rotates, the separating sheet 72 can cut into the gap between the two workpieces 100 overlapped with each other, the separating member continues to rotate, and the separating sheet 72 continues to cut into the gap to separate the two overlapped workpieces 100.

As shown in fig. 1, the working principle of this embodiment is that, firstly, used cups are placed upside down in the input area a, when the number of the cups in the input area a reaches a first set number, the control device 1 starts to work, a start instruction is sent to the blocking mechanism 20 and the isolating mechanism 30 between the input area a and the cleaning area B, the electromagnet is energized to suck the iron core back, and meanwhile, the second driving gear is driven by the second driving motor to rotate so as to drive the first inner gear ring to rotate towards the first direction, so as to drive the isolating door 31 to open, and the first cup falls into the cleaning area B under the action of gravity. Control device 1 can control this electro-magnet outage in the twinkling of an eye, lets subsequent cup blocked, only falls a cup, drives second drive gear through second driving motor simultaneously and rotates and then drive this first ring gear and rotate towards the second direction to drive this dodge gate 31 and close, at this moment, control device 1 can send start instruction to this water supply assembly 50 and belt cleaning device 40, and in this embodiment, this booster pump 51 pressurization is gone into the washing liquid to this raceway pump again through this spraying assembly blowout. When the cleaning of the cleaning device 40 reaches a set time, i.e., the cleaning is completed, the specific cleaning device 40 may be set according to the condition of the workpiece 100. After the cleaning, the control device 1 can send a starting instruction to the blocking mechanism 20 and the isolating mechanism 30 of the cleaning area B and the disinfection area C, the electromagnet sucks the iron core back in the electrified state, the isolating door 31 is opened at the same time, and the cups can fall into the disinfection area C until the number of the cups in the disinfection area C reaches a second set number. This controlling means 1 can send the instruction of closing to this washing district B and this disinfection district C, this washing district B and the electro-magnet outage between the disinfection district C, this iron core resets, this isolating gate 31 closes, the disinfection subassembly in this disinfection district C begins work, until reaching and setting for the disinfection time, after the disinfection finishes, controlling means 1 can send the start instruction to stop gear 20 and isolating gear 30 between this disinfection district C and this storage area D, the electro-magnet circular telegram, the iron core is inhaled back, isolating gate 31 is opened, the cup can fall into storage area D one by one or once only. It should be noted that, if the disinfection area C is disinfected at high temperature, the disinfection area C can be cooled and then dropped into the storage area D, or directly dropped into the storage area D to be cooled, and the disinfection area C can be taken out for use when being touched by a hand.

Fig. 6 shows a second embodiment of the present invention, which is different from the first embodiment in that the input area a and the storage area D may be separate areas, which are detachably disposed from the washing area B and the sterilizing area C. In some embodiments, the automatic washer disinfector may further include a transfer rail 10, the transfer rail 10 may be in a vertical direction, and the washing zone B and the disinfection zone C may be sequentially disposed in the transfer rail 10 in the transfer direction of the transfer rail 10. Of course, it is understood that the transfer rail 10 may be inclined along a set angle. The input area a and the storage area D are detachably disposed at both ends of the transfer rail 10. In some embodiments, the automatic washer disinfector may further include a first receiving container 200, and a second receiving container 300, the first receiving container 200 may be disposed at one end of the transfer rail 10, and particularly, may be disposed at the upper end of the transfer rail 10, the first receiving container 200 may be used to store the unwashed and disinfected workpiece 100, and the workpiece 100 may fall into the transfer rail 10 by its own weight. The second receiving container 300 may be disposed at the other end of the transfer rail 10, and in particular, may be disposed at the lower end of the transfer rail 10, and the second receiving container 300 may be used to store the cleaned and sterilized workpiece 100. The input area a may be formed in the first receiving container 200, and the storage area D may be formed in the second receiving container 300. The first receiving container 200 and the second receiving container 300 can be detachably connected to the conveying track 10, and specifically, the first receiving container 200 and the second receiving container 300 can directly rest on the conveying track 10, or can be detachably connected to the conveying track 10 by providing a connecting structure. In some embodiments, the connecting structure may be a snap-fit structure. In some embodiments, the first receiving container 200 and the second receiving container 300 may be both cylindrical.

In this embodiment, a receiving cavity may be formed inside the first receiving container 200, a first input port 201 may be disposed on the first receiving container 200, and the first input port 201 may be located at the top of the first receiving container 200, which may be used for receiving the workpiece 100, but it should be understood that in other embodiments, the first input port 201 may not be limited to being disposed at the top of the first receiving container 200. In some embodiments, the first container 200 may further have an output port 202, and the output port 202 may be located at the bottom of the first container 200 and may be used for outputting the workpiece 100 into the cleaning region B in the transfer rail 10. The output port 202 may be provided with a movable door plate, which may be detachably connected to the first receiving container 200, specifically, may be connected to the first receiving container 200 by providing a clamping structure, and the movable door plate may seal the output port 202 before the first receiving container 200 is butted to the conveying rail 10, and may play a role of supporting the workpiece 100 located in the first receiving container 200, and when the first receiving container 200 is butted to the conveying rail 10, the movable door plate may be detached from the output port 202 of the first receiving container 200. In some embodiments, a blocking mechanism 20 and an isolation mechanism 30 may be disposed between the output port 202 and the cleaning zone B of the transfer rail 10. Specifically, the blocking mechanism 20 and the isolation mechanism 30 may be close to the butt joint of the transfer rail 10 and the first receiving container 200, which may block and support the workpiece in the first receiving container 200 before the automatic washer disinfector is started.

In this embodiment, a receiving cavity may be formed inside the second receiving container 300, and a second input port 301 may be disposed on the second receiving container 300; the second input port 301 may be disposed at the top of the second receiving container 300, which is accessible for the sterilized workpieces 100 in the sterilizing region C of the transfer rail 10. The second input port 301 and the disinfection region C in the transportation rail 10 can be blocked and isolated by disposing a blocking mechanism 20 and an isolating mechanism 30, and the blocking mechanism 20 and the isolating mechanism 30 can be disposed at the lower end opening of the transportation rail 10.

In this embodiment, during the actual use of the automatic cleaning and disinfecting machine, and in the occasion of large cleaning amount, the cleaning needs the water supply of tap water pipe, and the sewage after cleaning needs to be discharged to the sewer, and at this moment, the machine not only needs to be plugged in electricity, but also needs to be placed to a proper position. In addition, in an office area, for example, in an office unit or an office building, a plurality of offices are provided on one floor, each office generally has a water dispenser, but it is not necessary to provide one such automatic cleaning and disinfecting machine on each water dispenser, on one hand, the cost is high, and on the other hand, the installation conditions may be difficult to satisfy, so that only one or a few automatic cleaning and disinfecting machines can be installed at a suitable place on one floor, by splitting the input area a and the storage area D, each water dispenser in each office area can be matched with one first storage container 200 and one second storage container 300, a user can take out the cleaned and disinfected cups from the second storage container 300, and the used cups can be placed into the first storage container 200. When the first receiving container 200 is full or the number of cups in the first receiving container 200 reaches a set number, the first receiving container 200 can be taken to the conveying track 10 and mounted at the upper end of the conveying track 10, and when the cups of the second receiving container 300 are lighted, another second receiving container 300 can be taken out from the lower part of the conveying track 10 and then placed beside the water dispenser. The cleaning machine is separated from the water dispenser, and only the first containing container 200 and the second containing container 300 are arranged at the side of the water dispenser, so that a water supply or drainage system or even a power supply system is not required to be additionally arranged at the side of the water dispenser, the installation and the use of a user are facilitated, and the use cost and the manufacturing cost of the automatic cleaning and disinfecting machine are reduced.

In some embodiments, the input area a, the cleaning area B, the sterilizing area C, and the storage area D may be plural, the plural input areas a, the cleaning area B, the sterilizing area C, and the storage area D may be disposed in the chassis, and the input areas a, the cleaning area B, the sterilizing area C, and the storage area D may be disposed in a one-to-one correspondence manner, and by disposing the plural areas in correspondence, it is possible to facilitate simultaneous or separate cleaning and sterilization of different workpieces 100.

Fig. 7 and 8 show a third embodiment of the automatic cleaning and disinfecting machine of the present invention, which is different from the second embodiment in that a first rotating bracket 400 can be disposed on the input area a under the condition of too large cleaning amount, and the first rotating bracket 400 can be rotatably disposed on the conveying track 10, and can be used for placing multiple groups of workpieces 100, so as to clean and disinfect a large number of workpieces 100. In some embodiments, the first rotating bracket 400 may include a first rotating shaft 401, a first supporting bracket 403, and a first connecting rod 402, wherein the first rotating shaft 401 may be rotated by a driving motor by being connected to the driving motor. The number of the first connecting rods 402 may be multiple, and the multiple first connecting rods 402 may be arranged at intervals along the circumferential direction of the first rotating shaft 401, and may be arranged in one-to-one correspondence with the first supporting frames 403. The number of the first supporting frames 403 may be plural, and each supporting frame 403 may be connected to a first connecting rod 402 and may be disposed corresponding to a group of workpieces 100. The first support frame 403 may be cylindrical, and has openings at two ends, and a movable door panel may be disposed at the lower end opening. The first rotating bracket 400 is driven by the driving motor to rotate to drive the first supporting bracket 403 to rotate above the conveying track 10, and the movable door panel can be opened when facing the conveying track 10. The first rotary bracket 400 can continuously clean a large number of workpieces 100, and the cleaning speed is increased.

In case of an excessive cleaning amount, a second rotating bracket 500 may be disposed on the storage area D, and the second rotating bracket 500 may be rotatably disposed below the conveying track 10 and may be used for placing a plurality of groups of workpieces 100, so as to store a large number of workpieces 100. In some embodiments, the second rotating bracket 500 may include a second rotating shaft 501, a second supporting frame 503, and a second connecting rod 502, wherein the second rotating shaft 501 may be connected to a driving motor, and driven by the driving motor to rotate. The number of the second connecting rods 502 can be multiple, and the multiple second connecting rods 502 can be arranged at intervals along the circumferential direction of the second rotating shaft 501, and can be arranged in one-to-one correspondence with the second supporting frames 503. The number of the second supporting frames 503 may be plural, and each supporting frame 503 may be connected to a second connecting rod 502 and may be disposed corresponding to a group of workpieces 100. The second supporting frame 503 may be cylindrical, and has openings at two ends, and a movable door plate may be disposed at the lower end opening. The second rotating bracket 500 is driven by the driving motor to rotate to drive the second supporting frame 503 to rotate to the lower side of the conveying track 10, and when the second rotating bracket faces the conveying track 10, the movable door panel can be opened. More workpieces 100 can be stored by the second rotating support 500.

Fig. 9 shows a fourth embodiment of the automatic washer disinfector of the present invention, which is different from the first embodiment in that the tableware or cup can be fragile articles, such as ceramic products or glass products. The present embodiment takes a ceramic plate as an example. The automatic cleaning and sterilizing machine may further include a damping mechanism 80 provided in the input area a, the cleaning area B, the sterilizing area C, and the storage area D. It will be appreciated that in other embodiments, the damping mechanism 80 may be disposed in any one or more regions, and is not limited to being disposed in all regions. The damping mechanism 80 can increase the resistance of the workpiece 100 to falling, and buffer the falling of the workpiece 100, so as to prevent the workpiece 100 from being damaged due to too fast falling. Further, in this embodiment, the damping mechanism 80 may include at least two sets of buffer components; the at least two groups of buffer memory components can be arranged along the circumferential interval of the input area A, the cleaning area B, the disinfection area C and the storage area D, and can realize buffer memory of the workpiece 100 from multiple directions, so that the falling resistance of the workpiece 100 is increased, and the workpiece 100 can stably fall. In this embodiment, each set of buffer members may include a first fixed pulley 81, a second fixed pulley 82, and a toothed belt. The first fixed pulley 81 and the second fixed pulley 82 may be spaced apart and arranged side by side in the conveying direction. The toothed belt can be sleeved on the first fixed pulley 81 and the second fixed pulley 82. The toothed belt may include a belt body and a plurality of elastic latches 831 spaced apart and arranged side by side along a transmission direction on the belt body. The workpiece 100 may fall down the resilient latch 831 on the toothed belt one by one under its own weight. Two damping mechanisms 80 between two areas disposed adjacently are disposed in close proximity. In some embodiments, the first fixed wheel 81 may be connected to a driving motor, and may be driven by the driving motor to rotate, and each time the damping mechanism 80 operates, one tooth may be released, the workpieces 100 slide down for a certain distance, and a slight gap may exist between every two workpieces 100 due to the clamping on the elastic clamping teeth of the toothed belt, so that the workpieces 100 may not collide together, thereby preventing the workpieces 100 from being damaged due to falling too fast.

Fig. 10 shows a fifth embodiment of the automatic cleaning and disinfecting machine of the present invention, which is different from the fourth embodiment in that each buffer assembly may include a plurality of elastic pieces 84, the elastic pieces 84 may be disposed on the inner side walls of the input area a, the cleaning area B, the disinfecting area C and the storage area D, and may be disposed side by side along the conveying direction, and may be disposed downward inclined with respect to the conveying direction, which may be used to increase the resistance of the workpiece 100 to fall, so that the workpiece 100 falls smoothly. The workpieces 100 are allowed to fall down along the elastic pieces 84 one by their own weight.

Fig. 11 shows a sixth embodiment of the automatic cleaning and disinfecting machine of the present invention, which is different from the fifth embodiment in that the damping mechanism 80 can include at least two sets of soft rubber screws 85, the at least two sets of soft rubber screws 85 can be disposed along the circumferential interval of the input area a, the cleaning area B, the disinfecting area C and the storage area D, and the soft rubber screws 85 can be connected to the motor and driven by the motor to rotate. The threads on the soft rubber screw 85 can keep a proper distance between the workpieces 100 and can slowly descend.

It is understood that in other embodiments, the damping mechanism 80 may be omitted, the conveying rail 10 may be cylindrical, the cross-sectional dimension of the conveying rail 10 may be slightly larger than that of the workpiece 100, the workpiece 100 may be tightly attached to the inner side wall of the conveying rail 10, and the falling speed of the workpiece 100 may be slowed down by using the air resistance below the workpiece 100.

Fig. 12 to 13 show a seventh embodiment of the automatic cleaning and disinfecting machine of the present invention, which is different from the first embodiment in that the conveying track 10 can be omitted, and the steering mechanism 90 can include a material receiving frame 92 and a fifth driving component connected to the material receiving frame 92 to drive the material receiving frame 92 to rotate. The material receiving frame 92 can be disposed in the cleaning area B, and the fifth driving assembly can be connected to the control device 1 and can be used to drive the material receiving frame to rotate. The receiving rack 92 is used for receiving the workpiece 100 transmitted from the input area a and rotating the workpiece 100 to a set angle. The material receiving frame 92 may include a hollow cylinder 921 having two through ends, a limiting flange 923 disposed at an opening of one end of the cylinder 921 and extending inward, and a rotating shaft 922 disposed on a side wall of the cylinder 921 and extending to two sides. The cylinder 921 can be used to form the cylinder for receiving the workpiece 100 input from the input area a, the shaft 922 can be connected to the fifth driving component, and can be driven by the fifth driving component to rotate, in some embodiments, the shaft 922 can be mounted on a sidewall of a chassis, and can be rotatably connected to the chassis by a bearing, so as to drive the cylinder 921 to rotate. The fifth driving assembly may include a driving motor and a worm gear connected to the driving motor, and the worm gear may be connected to the rotation shaft 922. The driving motor can be a stepping motor or a common speed reducing motor so as to facilitate the positioning of the material receiving frame 92 to stop at a set angle.

The spraying components can be arranged at the top corners of the input area A, the number of the spraying components can be two, the two spraying components can be arranged in a diagonal manner, so that the spraying components can correspond to the workpiece 100 and completely avoid the falling path of the cup, the workpiece 100 can be inclined to avoid influencing drainage, and after the cleaning is finished, the material receiving frame 92 can turn the inclined workpiece 100 to enable the opening of the inclined workpiece 100 to face upwards.

In all embodiments, the input area a, the cleaning area B, the sterilizing area C, and the storage area D are not limited to be arranged in a vertical direction, and may be set to have a slope of less than 90 degrees, and the cleaned workpiece may still slide down along the rail by gravity, and the same function may be achieved.

In all embodiments, the isolation door 31 may adopt various structures and methods, and may be selected as appropriate according to needs, and may be a single door horizontal sliding switch, a double-door horizontal opposite sliding switch, a single-turning door, or a double-turning door. Or a mechanical aperture door (the door is characterized by central symmetry) of fig. 16, and the isolation door 31 can effectively isolate each area when being closed and allow a workpiece to pass when being opened, and has the advantages of simple structure, reliable work, low cost and the like. The plurality of isolation doors 31 can also be driven by sharing one driving motor, so that the cost is saved, namely, the driving motor is connected with the isolation doors 31 of the isolation mechanisms 30 through a clutch device, and the driving force of the motor can be switched on and off through the clutch device. In some embodiments, the driving component for driving the isolation door 31 may be a motor and transmission screw and nut combination, a motor and gear transmission combination, an electromagnet, a hydraulic oil cylinder or an air cylinder, etc.

Fig. 14 and 15 show an eighth embodiment of the automatic cleaning and disinfecting machine of the present invention, which is different from the second embodiment in that the conveying track 10 can be omitted, the workpiece 100 can be a cup with a handle, the cup can not be stacked tightly, in order to avoid the height of the whole machine being too high, a third rotating support 600 can be disposed in the disinfecting area C, the third rotating support 600 can include a third rotating shaft 601 and a plurality of third support frames 602 disposed along the circumferential direction of the third rotating shaft 601, and the third rotating shaft 601 can be connected with the driving motor. Each third support 602 may have a hollow cylindrical shape, and a receiving cavity may be formed in the third support 602 and may be configured to receive a cup with a handle. After the cleaning is completed, the third rotating shaft 601 can be driven to rotate, so as to drive the third supporting frame 602 to rotate, thereby facilitating the cups to fall into the accommodating cavity one by one automatically. In some embodiments, the chambers may form a storage area D where the work 100 may be left to stand for use after sterilization, and a sterilizing device 60, such as an ultraviolet sterilizing device, may be provided in each chamber, which may be operated and shut down for a set time. It is understood that in other embodiments, the plurality of third support frames 602 may share one disinfection device 60, and the disinfection device 60 may be an ozone disinfection device, which may input ozone into the accommodating cavity to be disinfected through a distribution valve and a pipeline. In some embodiments, the accommodating cavities can be communicated with each other and can share one ozone disinfection device, and in some embodiments, can share one hot air drying device. By arranging the workpieces 100 along the circumference, the height of the whole machine can be reduced, and the workpieces 100 can be conveniently taken and placed.

Fig. 16 shows a ninth embodiment of the utility model automatic washer-disinfector, which differs from the eighth embodiment in that the third rotating bracket 600 can be replaced by a disc structure 700. The disc structure 700 may be provided with a plurality of receiving spaces 701, and the plurality of receiving spaces 701 may be used for receiving a plurality of cups with handles. In some embodiments, the center of the disc structure 700 may be located at the central axis of the cleaning region, and the disc structure 700 may have a mechanical push rod disposed thereon. After the cleaning, the workpiece 100 may fall into the center of the disc structure 700, and the mechanical pushing rod may push the workpiece 100 located at the center of the disc structure 700 into the empty receiving space 701. The workpiece can automatically slide into the vacant containing space at the edge by utilizing the inclination of the center height and the edge height without a mechanical push rod. In some embodiments, the input area a and/or the storage area D may also be provided with the disc structure 700.

Fig. 17 shows a tenth embodiment of the automatic cleaning and disinfecting machine of the present invention, which is different from the fifth embodiment in that each group of buffer assemblies can include a plurality of damping blocking structures 86, the damping blocking structures 86 can be a plurality of, the damping blocking structures 86 can be arranged side by side and at intervals in the longitudinal direction, the workpieces 100 can be released one by setting the damping blocking structures 86, so that the workpieces 100 fall one by one, and the damping blocking structures 86 can play a role in buffering and can keep the distance between the workpieces 100, and in some embodiments, the specific structure of the damping blocking structures 86 can refer to the blocking structures 20.

Fig. 18 shows the utility model discloses an eleventh embodiment of automatic cleaning sterilizer, its difference with this first embodiment lies in, at the delivery outlet of reservoir D, can not set up isolation mechanism and stop mechanism, and the delivery outlet sets up a soft rubber ring 800, and the cup falls down the card on the soft rubber ring, can make the reservoir be in encapsulated situation, and is not contaminated, plays the effect that stops the cup whereabouts and keep apart the reservoir, catches the cup and forces down to pull when getting the cup, can strut the soft rubber ring and take out the cup. Of course, in some embodiments, isolation mechanisms and blocking mechanisms may also be added.

This automatic cleaning sterilizer need not to adopt fixed process, also need not to adopt horizontal assembly line, but adopts each region of vertical overall arrangement, the way of perpendicular assembly line, but does not need the conveyer belt, but utilizes the gravity of work piece 100 self, and the cooperation of stop gear 20 and isolating mechanism 30 in addition, one-step from the eminence toward whereabouts, realize each station, the switching in each region, and each region is all kept apart at the during operation, guarantee each region independent operation, each does not influence each other.

In summary, the novel cleaning and disinfecting machine has the following advantages.

1: the mechanical transmission structure is less, the structure is simple, and the cost is low. The tableware slides downwards by skillfully utilizing the gravity of the tableware and moves to each station by the cooperation of the blocking device without a complex, heavy and expensive conveying belt.

2: small size and compact structure. The tableware can be closely overlapped when being sterilized, stored and input, the whole machine has compact structure and small volume, and in addition, a horizontal assembly line is converted into a vertical assembly line, and the height space is fully utilized, so the occupied area is small and the volume is small.

3: the automatic degree is high, say that the machine that carries out cleaning and disinfection to the cup specially, can dispose on the water dispenser, can accomplish the work that cleaning and disinfection stored fully automatically, only need by the user take out the cup by oneself and put back the input area after using when needing and retrieve the mouth can, need not arrange any professional workman to operate the machine completely, can be accomplished by the user is self-service, further reduce use cost.

4: the control device 1 functions as a human brain to command and control each subsystem, device and component, and receives and collects parameters of each part, and the control device 11 is used for controlling the blocking mechanism 20, the isolating mechanism 30, the cleaning device 40, the disinfecting device 60 and the like. Almost all components are controlled by the control device 11 to coordinate with each other, so as to ensure the safe and normal operation of the machine. The control device 11 of the machine can also be accessed to the internet and the internet of things, and an operator can remotely monitor each working state, each parameter, the use condition of a user, whether the machine is in fault or not and the like of the machine in real time at a system background.

It is to be understood that the foregoing examples merely represent preferred embodiments of the present invention, and that the description thereof is more specific and detailed, but not intended to limit the scope of the invention; it should be noted that, for those skilled in the art, the above technical features can be freely combined, and several modifications and improvements can be made without departing from the concept of the present invention, which all belong to the protection scope of the present invention; therefore, all changes and modifications that come within the meaning and range of equivalency of the claims are to be embraced within their scope.

Claims (10)

1. An automatic cleaning and disinfecting machine, characterized by comprising:

an input area (A) and a cleaning area (B) which are arranged along the vertical direction or a set angle, are transmitted by the gravity of the workpiece (100) and are arranged in sequence;

a disinfection area (C) and a storage area (D) which are arranged along the vertical direction or a set angle, are transmitted by means of the gravity of the workpiece (100) and are arranged in sequence or combined; the workpiece (100) is conveyed between the cleaning area (B) and the disinfection area (C) by means of the gravity of the workpiece (100);

a cleaning device (40) which is correspondingly arranged in the cleaning area (B) and is used for cleaning the workpiece (100);

a sterilizing device (60) disposed in the sterilizing zone (C) and sterilizing the workpiece (100);

an isolation mechanism (30) disposed between the cleaning zone (B) and the sterilizing zone (C);

and the control device (1) is connected with the cleaning device (40), the disinfection device (60) and the isolation mechanism (30).

2. The automatic washer disinfector of claim 1, further comprising a transfer track (10) disposed in a vertical direction or at a set angle;

the input area (A), the cleaning area (B), the disinfection area (C) and the storage area (D) are sequentially arranged in the conveying track (10) along the conveying direction of the conveying track (10) and are separated by the isolation mechanism (30).

3. The automatic cleaning and disinfecting machine of claim 1 further comprising a transfer rail (10) disposed in a vertical direction or at a set angle, a first receiving container (200) disposed at one end of the transfer rail (10), and a second receiving container (300) disposed at the other end of the transfer rail (10);

the cleaning area (B) and the disinfection area (C) are sequentially arranged in the conveying track (10) along the conveying direction of the conveying track (10);

a first input port (201) for putting the workpiece (100) in and an output port (202) for enabling the workpiece (100) to enter the cleaning area (B) in the conveying track (10) are formed in the first accommodating container (200); the input area (A) is formed inside the first container (200); the isolation mechanism (30) is arranged between the output port (202) and the cleaning area (B) of the conveying track (10);

the second receiving container (300) is provided with a second input port (301) for the workpiece (100) sterilized in the sterilizing area (C) in the conveying track (10) to enter; the isolation mechanism (30) is arranged between the second input port (301) and the disinfection area (C) in the conveying track (10).

4. The machine according to claim 3, characterised in that the first container (200) is removably connected to the transfer track (10);

and/or the second receiving container (300) is detachably connected with the conveying track (10).

5. The automatic washer disinfector according to claim 1, further comprising a blocking mechanism (20) arranged between said input zone (a) and said washing zone (B), and/or between said washing zone (B) and said disinfection zone (C), and/or between said disinfection zone (C) and said storage zone (D);

the blocking mechanism (20) comprises a first driving assembly (21) connected with the control device (1) and a sliding block (22) driven by the first driving assembly (21) to move in a telescopic mode towards the end portion of the workpiece (100) so as to block the workpiece (100) from falling;

the sliding block (22) is an iron core, and the first driving component (21) is an electromagnet attracted with or disconnected from the iron core.

6. The automatic cleaning and disinfecting machine of claim 1 wherein said isolation mechanism (30) comprises a second driving assembly connected to said control device (1), a second transmission assembly connected to said second driving assembly and driven by said second driving assembly, and an isolation door (31) connected to said second transmission assembly and driven by said second transmission assembly to open and close to isolate or communicate with adjacent areas;

the second driving mechanism comprises a second driving motor and a first driving gear connected with the second driving motor;

the second transmission assembly comprises a first inner gear ring which is sleeved on the periphery of the first driving gear, is meshed with the first driving gear and is driven by the first driving gear to transmit;

the isolation door (31) comprises a rotating disc (311) which is connected with the first inner gear ring and driven by the first inner gear ring to rotate and is annular, a plurality of guide grooves (312) which are arranged on the rotating disc (311) at intervals along the circumferential direction of the rotating disc (311) and driven by the rotating disc (311) to rotate and incline, and a plurality of door panels (313) which are arranged corresponding to the guide grooves (312) and can form an opening and closing structure;

the door panel (313) is slidably disposed in the guide groove (312).

7. The automatic washer disinfector according to claim 1, wherein said input zone (a), said washing zone (B), said disinfection zone (C), and/or said storage zone (D) are provided with separating means (70) for separating a plurality of said work pieces (100) arranged in a stack;

the separating mechanism (70) comprises a third driving component, a third transmission component which is connected with the third driving component and driven by the third driving component to transmit, and a separating piece which is connected with the third transmission component and driven by the third transmission component to telescopically insert between two adjacent workpieces (100) and separate the two workpieces (100) so that one of the workpieces (100) falls;

the third driving mechanism comprises a third driving motor and a second driving gear connected with the third driving motor;

the third transmission assembly comprises a second inner gear ring which is sleeved on the outer ring of the second driving gear, is meshed with the second driving gear and is driven by the second driving gear to transmit;

the separating piece is meshed with the second inner gear ring and is driven to rotate by the second inner gear ring;

the separating piece comprises a positioning column (71) and a plurality of separating sheets (72) arranged at intervals along the circumferential direction of the positioning column (71), and the thickness of each separating sheet (72) is reduced towards the direction away from the positioning column (71).

8. The automatic washer disinfector according to claim 1, wherein damping means (80) for damping the fall of said workpieces (100) are provided in said input zone (a), said washing zone (B), said disinfection zone (C) and/or said storage zone (D);

the damping mechanism (80) comprises at least two groups of buffer components arranged at intervals along the circumferential direction of the input area (A), the cleaning area (B), the disinfection area (C) and/or the storage area (D); each group of buffer components comprises a first fixed wheel (81) and a second fixed wheel (82) which are arranged at intervals along the transmission direction and are arranged side by side, a toothed belt (83) is sleeved on the first fixed wheel (81) and the second fixed wheel (82), and the toothed belt (83) comprises a plurality of elastic latch teeth (831) which are arranged at intervals along the transmission direction and are arranged side by side;

or, the damping mechanism (80) comprises at least two groups of buffer components arranged at intervals along the circumferential direction of the input area (A), the cleaning area (B), the disinfection area (C) and/or the storage area (D); each group of buffer components can comprise a plurality of elastic sheets (84) which are arranged on the inner side wall of the input area (A), the cleaning area (B), the disinfection area (C) and/or the storage area (D) and are arranged at intervals along the transmission direction and are obliquely arranged side by side; or the damping mechanism (80) comprises at least two groups of soft rubber screw rods (85) which are arranged at intervals along the circumferential direction of the input area (A), the cleaning area (B), the disinfection area (C) and/or the storage area (D);

alternatively, the damping mechanism (80) comprises at least two sets of buffer assemblies arranged at intervals along the circumference of the input area (a), the cleaning area (B), the disinfection area (C), and/or the storage area (D), and each set of buffer assemblies may comprise a plurality of damping blocking structures (86) arranged at intervals and side by side.

9. The automatic washer disinfector of claim 1, further comprising a water supply assembly (50) connected to said cleaning device (40) to supply cleaning fluid to said cleaning device (40);

and/or, further comprising a drainage assembly in communication with the washing zone (B) for draining the waste water of the washing zone (B);

and/or, further comprising a drying device arranged in the disinfection area (C) and connected with the control device (1);

and/or further comprising a steering mechanism (90) arranged between the cleaning area (B) and the sterilizing area (C) or between the sterilizing area (C) and the storage area (D) to steer the workpiece (100);

and/or the cleaning device (40) comprises one or more of an electric brush, an ultrasonic cleaner and a spraying assembly;

and/or the disinfection device (60) comprises one or more of an electric heating high-temperature disinfector, an ultraviolet disinfector and an ozone disinfector.

10. The automatic cleaning and disinfecting machine of claim 1 wherein said input area (a) is provided with a first rotatable support (400) for holding a plurality of groups of said workpieces (100) and rotatably disposed thereon; the first rotating bracket (400) is provided with a first supporting frame (403) which is arranged corresponding to each group of workpieces (100);

the storage area (D) is provided with a plurality of groups of second rotating supports (500) which are used for placing the workpieces (100) and can be arranged in a rotating mode, and the second rotating supports (500) are provided with second supporting frames (503) which are arranged corresponding to the workpieces (100) in each group.

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