CN216071490U - Dry and wet garbage classification and collection box - Google Patents

Abstract

The utility model provides a dry and wet garbage classification and collection box which comprises a box body, wherein a garbage throwing mechanism is arranged on the front end face of the box body, and a garbage monitoring and collecting mechanism is arranged in the box body. The garbage throwing mechanism comprises a wet garbage throwing portion and a dry garbage throwing portion. The wet garbage throwing portion and the dry garbage throwing portion are identical in structure and respectively comprise a garbage throwing port, a throwing trigger assembly and a human-computer interaction assembly. The garbage monitoring and collecting mechanism comprises a wet garbage monitoring and collecting mechanism corresponding to the wet garbage throwing portion and a dry garbage monitoring and collecting mechanism corresponding to the dry garbage throwing portion. The wet garbage monitoring and collecting mechanism comprises a wet garbage front collecting assembly, a mixed loading identification assembly, a wet garbage recycling bin, a mixed loading garbage recycling bin and a wet garbage controller, wherein the wet garbage front collecting assembly corresponds to the wet garbage feeding port. The dry garbage monitoring and collecting mechanism comprises a dry garbage front collecting assembly, a garbage compressing assembly, a dry garbage recycling bin and a dry garbage controller, wherein the dry garbage front collecting assembly corresponds to the dry garbage feeding port.

Description

Dry and wet garbage classification and collection box

Technical Field

The utility model belongs to the technical field of dry and wet garbage classification and recovery, and particularly relates to a dry and wet garbage classification and collection box capable of automatically monitoring and collecting dry and wet garbage.

Background

According to the existing garbage classification method, the household garbage is generally classified into wet garbage, dry garbage, recoverable garbage and harmful garbage. The wet garbage is also called kitchen garbage and organic garbage, namely perishable garbage, and refers to perishable biomass domestic wastes such as food material waste, leftovers, overdue food, melon peel and fruit stone, green plants of flowers, traditional Chinese medicine dregs and the like; the dry garbage has the most abundant composition types, and the wet garbage can be recovered, and the garbage except the harmful garbage belongs to the type.

In order to realize effective treatment of garbage, more and more cities are added into a row and a column for classified garbage throwing, and primary classification is carried out at a throwing source. In order to effectively carry out garbage classification, most cities adopt a mode of regularly and fixedly throwing garbage, residents can only throw garbage in a specific time period every day, and special persons check classification effects in garbage houses to guide and correct the garbage which is not classified on site. However, this method is difficult to implement for a long time and has obvious defects: (1) the time of limiting rubbish throwing in means that rubbish can only be piled up at home, and at the time period of non-rubbish throwing in, rubbish can only be loaded in the plastic bag and placed in indoor one corner, and the time period of waiting for rubbish to deliver comes the back and takes out the open air. If the delivery period is missed, the user can only wait for the next period or even the next day for delivery. After the garbage is putrefactive after being placed for a long time, the emitted air is remained in the room to cause indoor air pollution, which is particularly the case in summer. (2) The mode that the special person inspects in the garbage room is adopted, so that the labor consumption is huge, the effect is not good, and careless omission exists only by observing with human eyes.

In order to develop a garbage classification habit as soon as possible, an integral reward system is released in certain areas, each garbage can room is provided with four intelligent delivery doors, and garbage cans are arranged behind the doors and are respectively used as wet garbage, dry garbage, recoverable garbage and harmful garbage recycling cans. The resident puts in through modes such as punching the card, button, puts in different rubbish to different boxes, and the system can carry out the integral automatically according to the weight that the resident put in different rubbish. Although for some residents who are not interested in the points or the old who do not know how to use the equipment, the point reward system does not necessarily lead the residents to change the habits fundamentally, and the garbage is still mixed together. Even in the case of no supervision, the points are collected, but the garbage is still loaded in a mixed mode.

One of the basic principles of environmental protection is "pollutant remediation", which is often expressed as "pollutant payment". According to this principle, the initial source of domestic waste pollution-the domestic waste producer, should bear the cost of waste disposal. Therefore, the charging of the garbage is a necessary trend, and the garbage classification awareness of residents can be fundamentally improved.

From 1/5/2020, the new edition "regulations on managing domestic waste in Beijing City" was formally implemented. In order to cooperate with the implementation of the regulation, Beijing city also printed the action scheme of classifying domestic garbage and four implementation methods, and the policy of 'flexibility' is advanced in sequence. The charge regulations directly related to the treatment of the domestic garbage are as follows: the eighth local market gradually establishes a domestic garbage treatment charging system with metering charging, classification charging and easy collection according to the principles of multi-discharge multi-payment, less-discharge low-payment, mixed garbage multi-payment and classified garbage low-payment, strengthens charging management and promotes reduction, classification and resource utilization of domestic garbage. The concrete method is established by the city development and reform department meeting the city management, finance and other departments of the city. The unit and the individual who produce the domestic garbage should pay the domestic garbage disposal fee according to the regulations.

However, the currently used intelligent garbage recycling system mainly aims at recyclable garbage, and can only realize the function of card swiping for delivering the garbage, and is difficult to support the policy enforcement. In fact, in all garbage categories, the proportion of dry garbage and wet garbage is the largest, accounting for 70-80% of the total garbage amount, and the generation frequency is high every day. In daily life, the production amount of recoverable garbage and harmful garbage is small, the urgency of immediate treatment is not high, and wet garbage and dry garbage are not high, so the just-needed degree of the two garbage collection systems in residential areas is not high.

SUMMERY OF THE UTILITY MODEL

The utility model is carried out to solve the problems and provides a dry and wet garbage classification collection box which is specially used for classifying and recycling dry garbage and wet garbage. In order to achieve the purpose, the utility model provides the following technical scheme:

in a first aspect of the utility model, a dry and wet garbage classifying and collecting box is provided, which has the following technical characteristics: including rubbish recovery box, be provided with rubbish input mechanism before the box on the terminal surface, inside is provided with rubbish monitoring collection mechanism.

The garbage throwing mechanism comprises a wet garbage throwing portion and a dry garbage throwing portion which are arranged on the left side and the right side respectively. The wet garbage throwing part and the dry garbage throwing part are identical in structure and respectively comprise a garbage throwing opening positioned at the lower end part, a throwing triggering assembly positioned at the middle part and a human-computer interaction assembly positioned at the upper end part. Wherein, rubbish is put in mouthful department and is provided with the door subassembly that can reciprocate.

The garbage monitoring and collecting mechanism comprises a wet garbage monitoring and collecting mechanism corresponding to the wet garbage throwing portion and a dry garbage monitoring and collecting mechanism corresponding to the dry garbage throwing portion.

The wet garbage monitoring and collecting mechanism comprises a wet garbage front collecting assembly, a mixed loading identification assembly, a wet garbage recycling bin, a mixed loading garbage recycling bin and a wet garbage controller, wherein the wet garbage front collecting assembly corresponds to the wet garbage feeding port. The dry garbage monitoring and collecting mechanism comprises a dry garbage front collecting assembly, a garbage compressing assembly, a dry garbage recycling bin and a dry garbage controller, wherein the dry garbage front collecting assembly corresponds to the dry garbage feeding port.

The wet garbage preposed collecting component and the dry garbage preposed collecting component have the same structure and sequentially comprise a tipping bucket, a tipping bucket overturning motor, a telescopic frame and a rotating motor from top to bottom. A bag breaking mechanism is arranged in the tipping bucket, and a weighing mechanism is arranged at the bottom end of the tipping bucket; the rotating motor drives the tipping bucket, the tipping bucket overturning motor and the telescopic frame to integrally rotate.

The mixed loading identification component is arranged opposite to the tipping bucket and comprises a garbage imaging unit. The wet garbage recycling bin and the mixed loading garbage recycling bin are arranged behind the wet garbage prepositive collecting component in parallel; the wet garbage controller receives the trigger signal of the throwing trigger assembly and the image or data information output by the mixed loading identification assembly, and controls the door assembly and the wet garbage pre-collection assembly to act after analysis and processing.

The garbage compression assembly is arranged above the dry garbage recycling bin and comprises a compression block and a compression block moving mechanism; the dry garbage recycling bin is arranged behind the dry garbage pre-collecting assembly; the dry garbage controller receives a trigger signal of the throwing trigger assembly and controls the door assembly and the dry garbage pre-collecting assembly to act.

Further, in the dry and wet garbage classification collection box provided by the utility model, the door assembly comprises a door arranged on a door frame, sliding blocks respectively arranged at the left side end and the right side end of the door, a sliding rail arranged on the door frame and matched with the sliding blocks, an electric push rod fixedly connected with the bottom end of the sliding block, an electromagnetic lock arranged at the top end of the sliding block, a limiting block arranged at the top end of the sliding rail and a reverse pull rod fixedly connected with the door at the bottom end.

Further, in the dry and wet garbage classification collection box provided by the utility model, the throwing trigger assembly comprises an identity identification module and a throwing button, wherein the throwing trigger assembly on the wet garbage side is also provided with a self-checking button. The identity recognition module comprises a card swiping module and a palm print recognition module.

Furthermore, in the dry and wet garbage classification and collection box provided by the utility model, the human-computer interaction assembly comprises a display screen and a face recognition system, and is arranged above the display screen. The display screen is provided with a picture display part, a voice part and a query part, and the picture display part displays the wet garbage type, the characters corresponding to the voice prompt and a query result picture; the voice part sends a voice prompt to a postman according to the control signal of the wet garbage controller; the inquiry part is used for inquiring the junk categories by the deliverer.

Furthermore, in the dry and wet garbage classification collection box provided by the utility model, the tipping bucket is T-shaped and comprises a garbage bearing part corresponding to the garbage throwing opening and a garbage dumping part positioned at the rear side, the depth of the garbage bearing part is greater than that of the garbage dumping part, and the bottom end face of the garbage dumping part is upwards inclined by 30-45 degrees; the wet garbage tipping bucket is also provided with a blowing component which comprises a blowing head arranged on one corner of the tipping bucket, an air pipe arranged at the tail end of the blowing head and an air source arranged in the box body; the bag breaking mechanism is arranged on the side wall of the front end part of the garbage dumping part and is a serrated knife or a special-shaped knife assembly; the upper end and the lower end of the expansion bracket are respectively provided with a mounting plate, the tipping bucket overturning motor is mounted on the upper end mounting plate, and the rotating motor is fixedly connected with the lower end mounting plate; an expansion bracket control push rod is arranged in the expansion bracket.

Furthermore, in the dry and wet garbage classification collection box provided by the utility model, the serrated knife is C-shaped, the bottom end of the serrated knife is fixedly arranged on the side wall of the front end part of the garbage dumping part through a bolt, and the included angle between the serrated knife and the side wall is 20-40 degrees; the special-shaped cutter assembly comprises a special-shaped cutter, an L-shaped fixing frame fixedly connected with the bottom end of the special-shaped cutter, and a mounting plate fixedly connected with the top end of the L-shaped fixing frame, the mounting plate is embedded into a garbage can edge groove, and the top end of the L-shaped fixing frame is provided with a hand injury prevention safety limit. The special-shaped knife comprises a vertical sharp knife positioned in the middle and bent blades arranged at the left end and the right end of the vertical sharp knife, the top end of the vertical sharp knife is provided with a four-edge-angle cutting edge, and the top end of the bent blade is provided with a cutting edge.

Furthermore, in the dry and wet garbage classification collection box provided by the utility model, mounting plates are respectively arranged at the upper end and the lower end of the expansion bracket, a tipping bucket overturning motor is mounted on the upper end mounting plate, and a rotating motor is fixedly connected with the lower end mounting plate;

the U-shaped frame comprises a bottom plate and triangular plates respectively arranged at the left end and the right end of the bottom plate, the top ends of the triangular plates are fixedly connected with the tipping bucket, the weighing sensor is arranged on the bottom plate, and after the garbage is poured into the tipping bucket, the weighing sensor transmits a weight signal to the wet garbage control assembly.

Furthermore, in the dry and wet garbage classification collection box provided by the utility model, overflow monitoring blocks are respectively arranged above the wet garbage collection barrel, the mixed garbage collection barrel and the dry garbage collection barrel. The overflow monitoring block can be an infrared sensor or a camera.

Furthermore, in the dry and wet garbage classification collection box provided by the utility model, cameras are respectively arranged on two sides of the top end part of the front end surface of the garbage recovery box body, so that the environment outside the box body is monitored in real time; fire sprinkler pipe and smoke detector are installed to the inside top of rubbish recovery box, and the deodorizer is installed to the bottom, fire sprinkler pipe totally two, parallel arrangement equally divide on every and do not be provided with a plurality of shower heads.

Furthermore, in the dry and wet garbage classification collection box provided by the utility model, the wet garbage monitoring and collecting mechanism further comprises sorting pincers and a garbage bag recovery barrel, wherein the sorting pincers are inserted on the baffle below the door assembly, and the garbage bag recovery barrel is arranged behind the door frame of the door assembly.

Action and effect of the utility model

Firstly, in the dry and wet garbage classification collection box provided by the utility model, a wet garbage and dry garbage throwing mechanism is arranged on the front end surface of the box body, and a garbage monitoring and collecting mechanism is arranged in the box body. Not only effectively solved the shared proportion of dry rubbish and wet rubbish big, produced frequently high, the problem that the volume of empting is big, for the system that has set up four types of rubbish recovery unit, the flexibility is strong moreover, more accords with the in-service use demand, and manufacturing and use cost are also low.

Secondly, because the subsequent treatment processes of the dry garbage and the wet garbage are different, the treatment cost of the dry garbage per unit weight is higher than that of the wet garbage, and the subsequent treatment of the dry garbage and the wet garbage also has different requirements on the mixing degree. Based on the above, the mixed loading identification component is arranged in the wet garbage monitoring and collecting mechanism to monitor the mixing of the wet garbage, and the cost or other forms of calculation is carried out according to the weighing and mixing degree; the monitoring is not carried out in the dry garbage monitoring and collecting mechanism, the cost calculation is carried out only through weighing, and if other garbage is mixed into the dry garbage, the weight of the dry garbage can be greatly increased, so that the treatment cost is increased, and then residents are forced to classify.

On one hand, the design ensures the purity of the wet garbage from the source, and is beneficial to the smooth proceeding of the subsequent treatment; on the other hand, the technical support of garbage charging is realized, the promotion of the garbage classification consciousness is promoted from the source, and the manufacturing and using cost of the system is saved to the maximum extent.

Drawings

FIG. 1 is a schematic view of the appearance structure of a dry and wet garbage sorting and collecting box in the embodiment of the utility model;

FIG. 2 is a schematic perspective view of a wet garbage throwing portion according to an embodiment of the present invention;

FIG. 3 is a schematic view of the internal structure of the wet and dry garbage classifying and collecting box in the embodiment of the present invention;

FIG. 4 is a schematic structural diagram of a garbage pre-collection assembly in an embodiment of the present invention;

FIG. 5 is a schematic view of another viewing surface of the garbage collection assembly in an embodiment of the present invention;

fig. 6 is a schematic structural diagram of a bag breaking mechanism in an embodiment of the utility model.

Detailed Description

The present invention will be described in detail below with reference to examples and the accompanying drawings. The following examples should not be construed as limiting the scope of the utility model.

According to fig. 1, the dry and wet garbage classification and collection box 100 is similar to a garbage collection box in main structure, a garbage throwing mechanism is arranged on the front end face of the box, and a garbage monitoring and collecting mechanism is arranged inside the box.

The garbage throwing mechanism comprises a wet garbage throwing portion 1 and a dry garbage throwing portion 2 which are respectively arranged on the left side and the right side of the front end face of the box body, and the structures of the wet garbage throwing portion and the dry garbage throwing portion are almost the same. The wet garbage throwing part 1 comprises a wet garbage throwing opening provided with a door assembly 11, a throwing triggering assembly 12 and a human-computer interaction assembly 13 positioned at the upper end part; the dry waste deposit section 2 comprises a dry waste deposit opening provided with a door assembly 21, a deposit triggering assembly 22 and a human machine interaction assembly 23 at an upper end portion.

The door assembly 11 and the door assembly 21 are identical in structure, and the structural composition of the door assembly 11 will be described below. As shown in fig. 2 and fig. 3, the display device comprises a door 111 installed on a door frame, sliders 112 installed at the left and right side ends of the door, a slide rail 113 installed on the door frame and matched with the sliders, an electric push rod 114 fixedly connected with the bottom ends of the sliders, an electromagnetic lock 115 arranged at the top ends of the sliders, a limiting block 116 arranged at the top ends of the slide rail, and a counter-pull rod 117 fixedly connected with the bottom end and the door 111, preferably a counter-pull type gas strut, wherein the top end of the counter-pull type gas strut is fixedly installed on a frame outside the display screen.

In this embodiment, the door of rubbish delivery opening department adopts the mode of reciprocating to open and close, and for the current common movable back and forth's the mode of opening and closing, the door subassembly in this embodiment is bigger with the exposure degree of rubbish delivery opening, the moving speed of control door that also can be more accurate simultaneously.

The size of the door 111 is 460-500 mm, if stainless steel is selected, the weight of the door is about ten kilograms, and the door moves up and down by means of sliding of the sliding block 112 on the sliding rail 113; the electric push rod 114 applies force to the door when the door is closed, and after the action is completed, the electric push rod returns to the original position, the door is locked by the electromagnetic lock and keeps a closed state; design of electromagnetic lock 115 bears a burden and is 50 kilograms, and after the postman accomplished identity identification, control assembly controlled the electromagnetic lock earlier and lost electricity (1 second back is repowered), and the door begins to rely on self gravity to descend this moment, will turn over the pull rod simultaneously and lengthen, carries out the speed limit to the free fall motion of door, avoids the door to descend too fast, accomplishes in 2 ~ 3s and opens the door.

In the embodiment, the reason that the door is opened without depending on the electric push rod is that the electric push rod cannot work at the designed highest speed in consideration of factors such as door opening noise, if the electric push rod is relied on, the whole door opening process needs 7-8 seconds, and the door opening time is easily too long, so that the electric push rod is only adopted to apply force when the door is closed, and the electric push rod only needs 2-3 seconds depending on self gravity when the door is opened.

The wet waste side deposit trigger assembly 12 and the dry waste side deposit trigger assembly 22 each include two parts, an identification and a deposit button. The identity recognition parts are the same, and a palm print recognition module 121 and a card swiping recognition module 122 are respectively arranged; the throwing button parts are slightly different, the throwing trigger component 12 on the wet garbage side comprises a throwing button 123 and a self-checking button 124, and after delivery of the wet garbage, mixed loading identification and judgment are carried out, if mixed loading garbage exists, garbage sorting can be carried out automatically, and the mixed loading self-cleaning function is realized; the throw trigger assembly 22 on the dry trash side is provided with only a throw button.

The human-computer interaction assembly 13 includes a display screen 131 and a face recognition system 132 disposed thereon. The display screen 131 may be an integrated machine, in which a screen display portion, a voice portion, and an inquiry portion are provided. The picture display part is used for displaying wet garbage category propaganda pictures, characters corresponding to voice prompts and inquiry result pictures; the voice part sends a voice prompt to a postman according to the control signal of the wet garbage controller; the inquiry part is used for inquiring the spam category of the postman, the display screen 131 is provided with an inquiry interactive key, and after the postman clicks and inputs the keyword, the picture display part displays the inquiry result. The human-computer interaction component 23 has the same structure, but the picture display content is related to the dry garbage, the recyclable garbage and the harmful garbage, so as to help the deliverer to distinguish the three types of garbage and avoid the recyclable garbage and the harmful garbage from mixing into the dry garbage.

According to fig. 4, the garbage monitoring and collecting mechanism includes auxiliary components such as a fire sprinkler pipe 5, a smoke detector 6, and a deodorizer 7, in addition to the wet garbage monitoring and collecting mechanism 3 corresponding to the wet garbage throwing portion and the dry garbage monitoring and collecting mechanism 4 corresponding to the dry garbage throwing portion.

The wet garbage monitoring and collecting mechanism 3 comprises a wet garbage preposed collecting component 31 corresponding to the wet garbage putting-in opening, a mixed loading identification component 32, a wet garbage recycling bin 33, a mixed loading garbage recycling bin 34, sorting pincers 35, a garbage bag recycling bin 36 and a wet garbage controller. The dry waste monitoring and collecting mechanism 4 comprises a dry waste pre-collecting component 41 corresponding to the dry waste feeding port, a waste compressing component 42, a dry waste recycling bin 43 and a dry waste controller.

The dry garbage monitoring and collecting mechanism 4 is not provided with a mixed loading identification component, because the subsequent treatment of the dry garbage with unit weight consumes more than the subsequent treatment of the wet garbage, the treatment cost of the dry garbage with unit weight is high, the dry garbage with the same volume is lighter than the wet garbage, the recoverable garbage and the harmful garbage, once the policy of garbage treatment payment is implemented, the condition that other garbage, particularly the wet garbage is not mixed into the dry garbage can be automatically stopped, and the mixed loading monitoring of the dry garbage is not needed.

The wet waste pre-collecting assembly 31 has the same structure as the dry waste pre-collecting assembly 41, and the structure of the wet waste pre-collecting assembly 31 will be described below as an example. Referring to fig. 5 and 6, the dump body 311, the dump body turning motor 312, the telescopic frame 313 and the rotating motor 314 are sequentially arranged from top to bottom, and the two guide rods 315 are symmetrically arranged. Mounting plates are respectively arranged at the upper end and the lower end of the telescopic frame 313, the tipping bucket overturning motor 312 is mounted on an upper end mounting plate 316, the rotating motor 314 is fixedly connected with a lower end mounting plate 317, and telescopic frame guide blocks 313a are further arranged at the left side and the right side of the upper end mounting plate.

The dump bin 311 is T-shaped, is rotatably mounted on the guide bar 315 through a hinge shaft or a bearing, and includes a garbage receiving portion 311a corresponding to the garbage input port and a garbage dumping portion 311b located at the rear side. The garbage bearing part 311a is deeper than the garbage dumping part 311b and is used for bearing the delivered garbage, a bag breaking mechanism 318 is arranged in the garbage bearing part, a weighing mechanism 319 is arranged at the lower end of the garbage bearing part, and a purging component 320 is arranged at the top corner of the garbage bearing part; the bottom end face of the garbage dumping part 311b inclines upwards by 30-45 degrees, and the flatness of the garbage dumping part is stronger than that of the garbage bearing part 311a, so that garbage can be conveniently dumped into the garbage can.

The tipping bucket overturning motor 312 comprises a motor and a telescopic shaft arranged on an output shaft of the motor, and overturning of the tipping bucket is realized through the telescopic shaft, so that garbage mixing and dumping are completed during garbage loading and mixed inspection; an expansion bracket control push rod is arranged in the expansion bracket 313. Controlling the expansion and contraction of the expansion bracket and adjusting the height of the tipping bucket 311; the rotating motor 314 is arranged at the lowest end and drives all the components on the rotating motor to rotate, so that the tipping bucket is aligned to the garbage delivery opening before delivering garbage, and the tipping bucket is aligned to the garbage bucket opening before dumping the garbage into the garbage bucket. The two guide rods 315 are symmetrically arranged, and on the one hand, cooperate with the telescopic frame guide block 313a to carry the telescopic frame guide function, and on the other hand, serve as mounting frames for the dump bucket 311.

The bag breaking mechanism 318 is installed on the side wall of the front end part of the garbage dumping part, and the two types of bag breaking mechanisms are provided, one type is a sawtooth knife type shown in fig. 5 and 6, the sawtooth knife is C-shaped, the bottom end of the sawtooth knife is fixedly installed on the side wall of the front end part of the garbage dumping part through a bolt, and the included angle between the sawtooth knife and the side wall is 20-40 degrees. The other type is the special-shaped cutter assembly shown in fig. 6, which comprises a special-shaped cutter 318a, an L-shaped fixing frame 318b fixedly connected with the bottom end of the special-shaped cutter, and a mounting plate 318c fixedly connected with the top end of the L-shaped fixing frame. The mounting plate 318c is embedded in the edge groove of the garbage can, and the top end of the L-shaped fixing frame 318b is provided with a hand injury prevention safety limit 318 d. The special-shaped knife 318a comprises a vertical sharp knife in the middle and bent blades arranged at the left end and the right end of the vertical sharp knife, the top end of the vertical sharp knife is provided with a quadrangular cutting edge, and the top end of the bent blade is provided with a cutting edge. Through experiments, the bag breaking effect of the special-shaped cutter assembly is optimal, the one-time bag breaking success rate is highest, and the mode is optimized.

The weighing mechanism 319 includes a clevis 319a mounted on the upper end mounting plate 316 and a load cell 319b mounted on the clevis. The upper end of the U-shaped frame 319a is fixedly connected with the tipping bucket 311, when garbage is thrown into the tipping bucket, the U-shaped frame is also subjected to pressure, and the weighing sensor 319b collects the pressure signal and transmits the pressure signal to the wet garbage controller to convert the pressure signal into a weight data signal.

The blowing component 320 comprises a blowing head arranged on one corner of the tipping bucket, an air pipe arranged at the tail end of the blowing head and an air source arranged in the box body. The garbage collection device is opened when the tipping bucket dumps garbage to the recovery bucket, and the garbage is swept, so that the garbage is prevented from being attached to the wall of the tipping bucket.

The mix load identification component 32 is disposed opposite the dump bin and includes a trash imaging unit. In the identification process, the garbage is photographed along with the overturning of the tipping bucket, and when the deliverer sorts the garbage again, the pictures are displayed on the display screen 131 for reference.

The wet garbage recycling bin 33 and the mixed loading garbage recycling bin 34 are arranged behind the wet garbage pre-collecting assembly 31 in parallel, and overflow monitoring blocks 37 are arranged on the wet garbage pre-collecting assembly. The wet garbage recycling bin 33 is used for containing wet garbage which is not mixed, the mixed garbage recycling bin 34 is used for containing mixed garbage which is rejected to be sorted again, and other garbage mixed in the wet garbage is sorted out through manual sorting by a cleaner. The overflow monitoring block can be an infrared sensor or a camera, carries out real-time monitoring on the overflow state of the garbage can, transmits a monitoring signal to the wet garbage controller, and sends a reminding signal to a cleaner when the garbage can is filled with the garbage can to enable the cleaner to process the garbage can. In this embodiment, the wet waste controller is preferably a microprocessor, and controls the whole wet waste recycling system.

The sorting clamp 36 is inserted on the baffle below the door assembly, and only the handle is exposed; a disposal bag recycling bin 37 is provided behind the door frame of the door assembly for recycling the disposal bags and sorting out the dry waste.

The dry waste monitoring and collecting mechanism 4 comprises a dry waste pre-collecting component 41 corresponding to the dry waste feeding port, a waste compressing component 42, a dry waste recycling bin 43 and a dry waste controller.

The dry waste pre-collector assembly 41 is of the same construction as the wet waste pre-collector assembly 31. The garbage compressing assembly 42 is arranged above the dry garbage recycling bin 43 and comprises a compressing block and a compressing block moving mechanism, and the dry garbage in the dry garbage recycling bin 43 is compressed after the garbage is dumped in the tipping bin, so that the occupied volume in the bin is reduced. An overflow monitoring block 44 is also provided above the dry trash recycling bin 43. The dry waste controller is the same as the wet waste controller, and preferably a microprocessor controls the whole dry waste recovery system. In this embodiment, only one control component may be provided, and the dry and wet garbage recycling system is controlled at the same time, which may be selected according to actual conditions.

The fire-fighting spray pipe 5 and the smoke detector 6 are both arranged at the top end inside the garbage recycling box body, and the deodorizer 7 is installed at the bottom end. The fire-fighting spray pipes 5 are arranged in parallel, and each fire-fighting spray pipe is provided with a plurality of spray heads 51; the number of the smoke detectors 6 is two, and the smoke detectors are respectively arranged at the left end and the right end; the deodorizers 7 are shared to deodorize the box body.

In addition, cameras are respectively installed on two sides of the top end part of the front end face of the garbage recycling box body, and real-time monitoring is conducted on the environment outside the box body.

Further, the method for classifying and recycling the dry and wet garbage by using the device in the embodiment comprises the following steps:

A) wet garbage classified collection

Step 1, before delivering the garbage, a user swipes a card or performs palm print identification to verify the identity, the electromagnetic lock in the door assembly is controlled by the wet garbage control assembly to lose power, the door is driven by the self gravity to move downwards within 2-3 seconds at a controlled speed through the reverse pull rod, and the delivery opening is exposed.

Step 2, the tipping bucket overturning motor 312 in the wet garbage pre-collecting assembly 31 drives the tipping bucket 311 to overturn outwards, so as to extend the garbage bearing part 311a out of the wet garbage delivery port, and meanwhile, the wet garbage controller controls the display screen 131 to give out voice prompt, so that the wet garbage is delivered into the garbage bearing part after being bagged.

And 3, pressing the self-checking button 123 or the putting button 124 by a deliverer, driving the tipping bucket to turn inwards by the tipping bucket turning motor 312, and after the tipping bucket is turned, pushing the door to ascend by the electric push rod to close the wet garbage delivery opening.

And 4, carrying out photographing image recognition on the wet garbage in the tipping bucket by the mixed loading recognition component 32, and sending a detection result to the wet garbage controller in real time.

If no other garbage is mixed, the expansion bracket 313 extends to lift the tipping bucket 311 to the upper part of the wet garbage recovery barrel 33, and then the rotating motor 314 drives the tipping bucket, the tipping bucket overturning motor and the expansion bracket to integrally rotate 45 degrees towards the direction of the wet garbage recovery barrel, so that the tipping bucket 311 is just opposite to the wet garbage recovery barrel 33; then the tipping bucket overturning motor 312 drives the tipping bucket 311 to overturn inwards to dump the garbage, meanwhile, the weighing mechanism transmits a weight signal to the wet garbage controller, and then the whole body is reset;

under the condition of mixing other garbage, if a delivery button is pressed by a deliverer, the mixed loading and self-cleaning of the deliverer are not given, the wet garbage controller controls the wet garbage preposed collecting component 31 to directly pour the garbage into the mixed loading garbage recycling bin 34, meanwhile, the weighing mechanism transmits a weight signal to the wet garbage controller, and then the wet garbage preposed collecting component 31 is reset integrally; if the delivery person presses the self-checking button 123, the delivery person gives a chance to sort and clear the garbage at one time, and does not dump the garbage at first. The wet garbage controller firstly controls the door to be opened, then the garbage bearing part 311a extends out of the wet garbage delivery opening again, meanwhile, the voice prompts a delivery person to carry out sorting, after the sorting is finished, a delivery button is clicked, the mixed loading identification is carried out again, but the sorting opportunity is not given any more;

and 5, calculating the current garbage treatment cost by the wet garbage controller according to a preset rule according to the condition of whether the wet garbage is mixed, wherein the garbage treatment cost per unit weight is higher under the mixed loading condition. Meanwhile, the identity information of the delivery person is extracted, is combined with the garbage throwing record and is transmitted to a management department system and users, and the users who are mixed with the delivery garbage for multiple times are educated and criticized or punished.

And 6, the overflow monitoring block 35 carries out real-time monitoring on the overflow state of the garbage can in real time, transmits a monitoring signal to the wet garbage controller, and sends a reminding signal to a cleaner to process the garbage can when the garbage can is full.

B) Dry waste recovery

Step 1, before delivering the garbage, a user swipes a card or performs palm print identification to perform identity verification, an electromagnetic lock in a door assembly is controlled by a dry garbage controller to lose power, the door is driven by the self gravity to move downwards within 2-3 seconds at a controlled speed through a reverse pull rod, and a delivery opening is exposed;

step 2, a tipping bucket overturning motor in the dry garbage preposed collecting assembly drives the tipping bucket to overturn outwards, a garbage bearing part extends out of a dry garbage delivery port, a dry garbage controller controls a display screen to send a voice prompt, the dry garbage is wholly thrown into the garbage bearing part, then a throwing button is clicked, the tipping bucket overturning motor drives the tipping bucket to overturn inwards, and after the overturning is completed, an electric push rod pushes a door to ascend, and the dry garbage delivery port is closed;

step 3, the expansion bracket extends to lift the tipping bucket above the dry garbage recycling bin, then the rotating motor drives the tipping bucket, the tipping bucket overturning motor and the expansion bracket to integrally rotate 45 degrees towards the direction of the dry garbage recycling bin, the tipping bucket overturning motor drives the tipping bucket to inwards overturn, the garbage is dumped, and then the position is reset;

and 4, compressing the garbage in the dry garbage recycling bin by the garbage compressing assembly, simultaneously monitoring the filling degree of the garbage in the bin in real time by the overflow monitoring block, and giving an alarm when the bin is full.

And 5, calculating the treatment cost of the current garbage according to the weighing data and preset rules by the dry garbage controller, simultaneously extracting the identity information of a delivery person, combining the information with the garbage throwing record, and transmitting the information to a management department system and a user.

The foregoing shows and describes the general principles, essential features, and advantages of the utility model. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the utility model as defined by the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (9)

1. A dry and wet garbage classification and collection box is characterized by comprising a box body, a garbage throwing mechanism is arranged on the front end surface of the box body, a garbage monitoring and collecting mechanism is arranged in the box body,

wherein the garbage throwing mechanism comprises a wet garbage throwing part and a dry garbage throwing part which are respectively arranged at the left side and the right side, the wet garbage throwing part and the dry garbage throwing part have the same structure and respectively comprise a garbage throwing opening positioned at the lower end part, a throwing triggering assembly positioned at the middle part and a human-computer interaction assembly positioned at the upper end part, the garbage throwing opening is provided with a door assembly capable of moving up and down,

the garbage monitoring and collecting mechanism comprises a wet garbage monitoring and collecting mechanism corresponding to the wet garbage throwing part and a dry garbage monitoring and collecting mechanism corresponding to the dry garbage throwing part;

the wet garbage monitoring and collecting mechanism comprises a wet garbage prepositive collecting component, a mixed loading identification component, a wet garbage recycling bin, a mixed loading garbage recycling bin and a wet garbage controller, wherein the wet garbage prepositive collecting component corresponds to the wet garbage throwing port; the dry garbage monitoring and collecting mechanism comprises a dry garbage prepositive collecting component, a garbage compressing component, a dry garbage recycling bin and a dry garbage controller, wherein the dry garbage prepositive collecting component corresponds to the dry garbage feeding port;

the wet garbage preposed collecting assembly and the dry garbage preposed collecting assembly have the same structure and sequentially comprise a tipping bucket, a tipping bucket overturning motor, a telescopic frame and a rotating motor from top to bottom, a bag breaking mechanism is arranged in the tipping bucket, and a weighing mechanism is arranged at the lower end of the tipping bucket; the rotating motor drives the tipping bucket, the tipping bucket overturning motor and the telescopic frame to integrally rotate,

the mixed loading identification component is arranged right opposite to the tipping bucket and comprises a garbage imaging unit; the wet garbage recycling bin and the mixed loading garbage recycling bin are arranged behind the wet garbage prepositive collecting component in parallel; the wet garbage controller receives a trigger signal of the throwing trigger component and data information output by the mixed loading identification component, and controls the door component and the wet garbage pre-collection component to act;

the garbage compression assembly is arranged above the dry garbage recycling bin and comprises a compression block and a compression block moving mechanism; the dry garbage recycling bin is arranged behind the dry garbage front collecting assembly; the dry garbage controller receives the trigger signal of the throwing trigger assembly and controls the door assembly and the dry garbage pre-collection assembly to act.

2. The wet and dry waste sorting bin of claim 1 further comprising:

the door assembly comprises a door arranged on a door frame, sliders respectively arranged at the left side end and the right side end of the door, a sliding rail arranged on the door frame and matched with the sliders, an electric push rod fixedly connected with the bottom end of the sliders, an electromagnetic lock arranged at the top end of the sliders, a limiting block arranged at the top end of the sliding rail, and a reverse pull rod fixedly connected with the door at the bottom end of the sliding rail.

3. The wet and dry waste sorting bin of claim 1 further comprising:

the throwing triggering assembly comprises an identity recognition module and a throwing button, the throwing triggering assembly on the wet garbage side is further provided with a self-checking button, and the identity recognition module comprises a card swiping module and a palm print recognition module.

4. The wet and dry waste sorting bin of claim 1 further comprising:

the human-computer interaction assembly comprises a display screen and a face recognition system and is arranged above the display screen.

5. The wet and dry waste sorting bin of claim 1 further comprising:

the tipping bucket is T-shaped and comprises a garbage bearing part corresponding to the garbage throwing opening and a garbage dumping part positioned on the rear side, the depth of the garbage bearing part is greater than that of the garbage dumping part, and the bottom end face of the garbage dumping part inclines upwards by 30-45 degrees;

the wet garbage tipping bucket is also provided with a blowing component which comprises a blowing head arranged on one corner of the tipping bucket, an air pipe arranged at the tail end of the blowing head and an air source arranged in the box body;

the bag breaking mechanism is arranged on the side wall of the front end part of the garbage dumping part and is a serrated knife or a special-shaped knife assembly;

the upper end and the lower end of the telescopic frame are respectively provided with a mounting plate, the tipping bucket overturning motor is mounted on the upper end mounting plate, and the rotating motor is fixedly connected with the lower end mounting plate;

an expansion bracket control push rod is installed in the expansion bracket.

6. The wet and dry waste sorting bin of claim 5 further comprising:

the sawtooth knife is C-shaped, the bottom end of the sawtooth knife is fixedly mounted on the side wall of the front end part of the garbage bearing part through a bolt, and an included angle formed between the sawtooth knife and the side wall is 20-40 degrees;

the special-shaped cutter component comprises a special-shaped cutter, an L-shaped fixed frame fixedly connected with the bottom end of the special-shaped cutter, and a mounting plate fixedly connected with the top end of the L-shaped fixed frame, the mounting plate is embedded into the edge groove of the wet garbage recycling bin, the top end of the L-shaped fixed frame is provided with a hand injury prevention safety limit,

the special-shaped knife comprises a vertical sharp knife positioned in the middle and bent blades arranged at the left end and the right end of the vertical sharp knife, the top end of the vertical sharp knife is provided with a four-edge-angle cutting edge, and the top end of each bent blade is provided with a cutting edge.

7. The wet and dry waste sorting bin of claim 1 further comprising:

wherein the weighing mechanism is arranged on an upper end mounting plate at the upper end of the telescopic frame and comprises a U-shaped frame arranged on the upper end mounting plate and a weighing sensor arranged on the U-shaped frame,

the U-shaped frame comprises a bottom plate and triangular plates respectively arranged at the left end and the right end of the bottom plate, the top ends of the triangular plates are fixedly connected with the tipping bucket, and the weighing sensor is arranged on the bottom plate.

8. The wet and dry waste sorting bin of claim 1 further comprising:

wherein, the overflow monitoring blocks are respectively arranged above the wet garbage recycling bin, the mixed garbage recycling bin and the dry garbage recycling bin.

9. The wet and dry waste sorting bin of claim 1 further comprising:

the camera is respectively arranged on two sides of the top end part of the front end face of the box body, and is used for monitoring the environment outside the box body in real time;

the wet garbage monitoring and collecting mechanism further comprises sorting pliers and a garbage bag recycling bin, the sorting pliers are inserted on a baffle below the door assembly, and the garbage bag recycling bin is arranged behind a door frame of the door assembly;

fire sprinkler pipe and smoke detector are installed to the inside top of box, and the deodorizer is installed to the bottom, fire sprinkler pipe totally two, parallel arrangement equally divide on every and do not be provided with a plurality of shower heads.

Images