CN118373097A - Intelligent landscape classification buried barrel - Google Patents

Abstract

The invention relates to the technical field of dustbin, in particular to an intelligent landscape classification buried barrel which comprises an underground support arranged in a well, wherein a lifting table capable of moving up and down is arranged in the underground support, a lifting support is arranged on the lifting table, an external plate is arranged at the top of the lifting support, a plurality of classification barrels are arranged on the external plate in an array manner, recovery cabins are respectively and correspondingly arranged below the classification barrels, a moving wheel is arranged at the bottom of the recovery cabin and used for moving on the lifting table, and an out-cabin lifting assembly is arranged on the underground support and the lifting table support. Compared with the traditional garbage recycling station, the garbage recycling station has the advantages that occupied space can be greatly reduced, attractiveness is improved, when garbage is recycled, the garbage recycling station is lifted through the outer lifting hydraulic rod, the outer transverse plate is driven to ascend, the outer transverse plate is pulled to move while ascending, the lifting table is pulled to ascend to above the ground, and then each recycling bin is pushed out, so that garbage can be recycled, and the recycling bin is conveniently brought back to be cleaned.

Description

Intelligent landscape classification buried barrel

Technical Field

The invention relates to the technical field of garbage cans, in particular to an intelligent landscape classification buried barrel.

Background

In daily life and work of people, waste is inevitably generated, so that the method is an essential ring for municipal engineering for proper treatment of the waste. The traditional garbage throwing barrel or throwing box is open in most of structure, the function is relatively simple, the garbage throwing barrel or throwing box is arranged on the ground in a public area, the stock is small, the garbage throwing barrel or throwing box is not sealed, a large amount of public areas are occupied, the environment is attractive, garbage classification is mainly marked as recyclable garbage and unrecoverable garbage, subdivision is insufficient, wet garbage such as living garbage or kitchen garbage is only an open type containing device, sewage cross flow is extremely easy to generate, the environment is polluted by ozone, mosquitoes, ants, flies, insects, cockroaches and the like can be bred if the garbage is not cleaned timely, the garbage in a station needs to be frequently collected and transported away, and high transportation cost is generated.

The Chinese patent application number 202210393962.2 discloses a buried multifunctional intelligent classification dustbin, which comprises a dustbin body, an identification system and a classification device; the box body comprises a classification cabin and a storage cabin; the upper part of the classification cabin is provided with a throwing port; a plurality of inner cylinders are arranged in the storage cabin, and a cover plate capable of being opened downwards is arranged at the upper end of each inner cylinder; the identification system comprises a camera arranged at one side of the throwing port, a main board control electrically connected with the camera and a control mechanism arranged in the classifying cabin; the classifying device comprises a plurality of telescopic arms which are arranged on the circumferential side wall of the classifying cabin and a plurality of pushing plates which are arranged corresponding to the telescopic arms, and the telescopic arms are connected with the control mechanism. Thereby realizing automatic classification of garbage.

However, the present inventors have found that the prior art has at least the following problems:

when transporting the rubbish of accomodating and retrieving, need take out rubbish in the bin with the help of other instruments to because the fixed mounting of bin leads to the washing degree of difficulty to the bin is very big.

Disclosure of Invention

Therefore, the invention aims to provide an intelligent landscape classification buried bucket, which solves the problems that garbage is difficult to take out and cleaning in a cabin in the prior art.

Based on the above object, the invention provides an intelligent landscape classification buried bucket, which comprises an underground support installed in a well, wherein a lifting table capable of moving up and down is installed in the underground support, a lifting support is installed on the lifting table, an external plate is installed at the top of the lifting support, a plurality of classification barrels are arranged on the external plate in an array manner, recovery cabins are respectively and correspondingly arranged below the classification barrels, a movable wheel is installed at the bottom of the recovery cabin and used for moving on the lifting table, an extracabin lifting assembly is installed on the underground support and the lifting table support, the extracabin lifting assembly comprises an extracabin lifting hydraulic rod fixedly installed at the bottom of the underground support, an extracabin transverse plate is connected to the top of the extracabin lifting hydraulic rod, an extracabin guide rail is fixedly connected to the extracabin transverse plate, an extracabin guide rod is adaptively connected to the extracabin guide rod, the extracabin guide rod is fixedly installed on the underground support, an extracabin rotating shaft is installed on the extracabin transverse plate, an extracabin chain is wound on the extracabin rotating shaft, one end of the extracabin chain is connected with an extracabin fixedly installed at the bottom of the underground support, and the other end of the extracabin chain is fixedly connected with a lifting rod, and the extracabin is fixedly connected with a connecting block.

The recovery cabin comprises a cabin body, the bracket is installed to the internal bottom surface of cabin, install the roll-over stand that can overturn on the bracket, install the hydraulic stem that emptys on the roll-over stand, it has the storage barrel to empty the hydraulic stem hinge, under the storage barrel put the flat condition, bottom surface and bracket contact, the storage barrel is the inclined plane with the roll-over stand contact surface, empty the hydraulic stem and be used for driving the storage barrel upset, the storage barrel upset in-process, bottom does not interfere with the bracket, the bracket both ends are connected with the intrabay lifting unit who is used for lifting the bracket respectively, the intrabay lifting unit includes two sets of intrabay connecting blocks with cabin bottom fixed connection and two sets of roll-over stands with bracket tip fixed connection, is connected with the intrabay chain between intrabay connecting blocks and the roll-over stand, the intrabay lifting hydraulic stem is installed to the bracket bottom, and the intrabay lifting hydraulic stem top is connected with the intrabay diaphragm, installs two sets of intrabay pivots on the intrabay diaphragm, installs the sprocket with intrabay chain looks adaptation in the intrabay pivot, intrabay chain middle part winds around locating on, external electric drive sprocket board is used for overturning between lifting support and the external spindle.

Optionally, the guide rail is installed respectively to cabin body both sides, and the guide rail includes two parallel arrangement's square post, and cabin interior lifting hydraulic rod both sides rear is located to two square posts, and cabin interior lifting hydraulic rod includes urceolus and output, and the fixed cover in urceolus top is equipped with the cabin interior and inserts the piece, and cabin interior inserts a piece middle part and is connected with the location slider, and the location slider inserts to between two square post guide rails, and cabin interior inserts piece both ends respectively fixedly connected with cabin interior fixed plate, cabin interior fixed plate screw thread installation on the guide rail.

Optionally, the transverse plate middle part in cabin is installed the reference column, and the reference column is connected with the stopper towards guide rail one side, and the stopper adaptation is installed in the guide rail.

Optionally, two groups of guide plates are respectively installed at two ends of the bracket, the two groups of guide plates are matched with the guide rail, and the two groups of guide plates clamp the guide rail from two sides.

Optionally, the storage barrel includes vertical setting up in its inside reposition of redundant personnel wall, and reposition of redundant personnel wall bottom and the inclined plane bottom fixed connection of storage barrel, and the reposition of redundant personnel wall is about the storage barrel inside to be rivers chamber and rubbish chamber, and rubbish chamber internally mounted has solid baffle, and solid baffle separates rubbish chamber into solid storage area and water storage layer from top to bottom, has seted up multiunit waterlogging caused by excessive rainfall hole on the solid baffle, communicate between water storage layer and the rivers chamber, contained angle is a between inclined plane and the reposition of redundant personnel wall of storage barrel, the upset of empting hydraulic stem drive storage barrel has first angle and second angle, and first angle is greater than 90-a and is less than 90, and the second angle is greater than 90.

Optionally, movable mounting has the kickboard in the aquifer, and the kickboard separates into the buffer layer between aquifer upper portion and the solid baffle, install the hole stopper of multiunit and waterlogging caused by excessive rainfall hole looks adaptation on the kickboard for when the kickboard rises to offseting with the solid baffle, the multiunit is leaked the hole on the kickboard for flow into the aquifer with liquid rubbish, solid baffle bottom is equipped with push switch, and push switch electric connection has alarm signal transmitter and electromagnetic lock, and alarm signal transmitter is used for transmitting alarm signal to the dispatch center, electromagnetic lock is used for sealing classification section of thick bamboo.

Optionally, a chute is formed in the inner wall of the solid storage area, a sliding block is mounted on the solid partition plate, the sliding block is mounted in the chute in an adaptive manner, a plurality of groups of elastic supporting pieces are mounted in the chute, and the elastic supporting pieces are gradually increased from top to bottom.

Optionally, the elastic support piece is including setting up the holding tank at the sliding tray rear, and array installs multiunit installation axle about in the holding tank, and the epaxial cover of installation is equipped with the torsional spring, and the torsional spring top-down elasticity that a plurality of installation epaxial covers were established increases gradually, installs the link on the installation axle, and the torsional spring makes the link have the trend of keeping the level, and the link articulates there is the supporting terminal, and the link is in the link upper surface with the supporting terminal articulation point for the supporting terminal can upwards overturn for the link, can not overturn downwards for the link, the link terminal surface is in the holding tank, does not contact with the sliding block.

Optionally, external board bottom is connected with contradicts the telescopic link, and contradicts the telescopic link bottom and is connected with two sets of clamp plate sleeves that correspond, installs the expansion plate in the clamp plate sleeve, and the cover is equipped with reset spring on the contradicting telescopic link, and the range finder is installed to external board bottom, and the range finder is used for detecting the distance between clamp plate sleeve and the external board, install deflection sensor on the link, deflection sensor and range finder electric connection have processing unit, and processing unit is used for confirming the position of solid baffle according to deflection sensor to calculate the extrusion force of the rubbish that receives according to the range finder, and then estimate the weight range of solid rubbish on the solid baffle, processing unit signal connection has dispatch center. .

The invention has the beneficial effects that: the invention provides an intelligent landscape classification buried barrel, which is characterized in that an underground bracket is arranged underground, an external plate is arranged on the ground, a plurality of classification barrels are arranged on the external plate, so that garbage can be classified and put in, the classified and put garbage enters a recovery cabin corresponding to the classification barrels through different classification barrels, compared with a traditional garbage recovery station, the occupied space can be greatly reduced, the attractiveness is improved, when the garbage in the recovery cabin is fully filled, the garbage is lifted through an out-of-cabin lifting hydraulic rod, an out-of-cabin transverse plate is driven to lift, the out-of-cabin transverse plate is lifted, meanwhile, an out-of-cabin chain is pulled to move, one end of the out-of-cabin chain is fixedly connected with the underground bracket, the other end of the out-of-cabin chain is pulled to lift the ground, and then each recovery cabin is pushed out, so that the garbage can be recovered, and the recovery cabin is conveniently brought back for cleaning.

Drawings

In order to more clearly illustrate the invention or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only of the invention and that other drawings can be obtained from them without inventive effort for a person skilled in the art.

FIG. 1 is a schematic perspective view of an intelligent landscape classification buried bucket according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of the working state of an intelligent landscape classification buried bucket according to an embodiment of the invention;

FIG. 3 is a schematic side view showing the working state of an intelligent landscape classification buried bucket according to an embodiment of the present invention;

FIG. 4 is a schematic side view of a second embodiment of the present invention showing the working state of an intelligent landscape classification buried bucket;

FIG. 5 is a schematic side view of a recycling bin of an intelligent landscape classification buried bucket according to an embodiment of the present invention;

FIG. 6 is a schematic front view of a recycling bin of an intelligent landscape classification buried bucket according to an embodiment of the present invention;

FIG. 7 is a perspective view of a recycling bin of an intelligent landscape classification buried bucket according to an embodiment of the invention;

FIG. 8 is an enlarged partial schematic view of portion A of FIG. 7;

FIG. 9 is a schematic side view showing the working state of a recycling bin of an intelligent landscape classification buried bucket according to an embodiment of the present invention;

FIG. 10 is a front view showing the working state of a recycling bin of an intelligent landscape classification buried bucket according to an embodiment of the present invention;

FIG. 11 is a perspective view showing the working state of a recycling bin of an intelligent landscape classification buried bucket according to an embodiment of the present invention;

FIG. 12 is a schematic view of the internal structure of a recycling bin of an intelligent landscape classification buried bucket according to an embodiment of the invention;

FIG. 13 is a schematic view showing the internal structure of a recycling bin in the working state of an intelligent landscape classification buried bucket according to an embodiment of the invention;

fig. 14 is a partially enlarged schematic view of the portion B in fig. 13.

Marked in the figure as:

11. An underground support; 12. an off-board lifting assembly; 13. a lifting table; 14. a lifting bracket; 15. an external plate; 16. a classifying cylinder; 17. an electric rotating shaft; 18. a connecting seat; 21. a recovery cabin; 22. a fixing seat; 1201. the hydraulic rod is lifted outside the cabin; 1202. an extravehicular transverse plate; 1203. an extravehicular rotating shaft; 1204. lifting the connecting block; 1205. an extravehicular chain; 1206. an extravehicular connecting block; 1207. an extravehicular guide rod; 1208. an off-board guide rail; 101. a cabin body; 105. a guide rail; 106. positioning a sliding block; 121. the telescopic rod is abutted; 122. a return spring; 124. a pressing plate sleeve; 125. a telescoping plate; 201. a storage barrel; 202. pouring a hydraulic rod; 210. a solid separator; 211. a draining hole; 212. a solids receiving zone; 213. a floating plate; 214. a hole plug; 215. a water leakage hole; 216. a buffer layer; 217. an aquifer; 218. a water flow chamber; 219. a diverter wall; 220. a sliding block; 221. a torsion spring; 222. a connection end; 223. a support end; 301. a bracket; 302. a roll-over stand; 303. a guide plate; 401. an in-cabin lifting assembly; 402. lifting a hydraulic rod in the cabin; 403. an intra-cabin cross plate; 404. a cabin rotating shaft; 405. an intra-cabin chain; 406. connecting blocks in the cabin; 407. an in-cabin fixing plate; 408. the block is inserted into the cabin.

Detailed Description

The present invention will be further described in detail with reference to specific embodiments in order to make the objects, technical solutions and advantages of the present invention more apparent.

It is to be noted that unless otherwise defined, technical or scientific terms used herein should be taken in a general sense as understood by one of ordinary skill in the art to which the present invention belongs. The terms "first," "second," and the like, as used herein, do not denote any order, quantity, or importance, but rather are used to distinguish one element from another. The word "comprising" or "comprises", and the like, means that elements or items preceding the word are included in the element or item listed after the word and equivalents thereof, but does not exclude other elements or items. The terms "connected" or "connected," and the like, are not limited to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", etc. are used merely to indicate relative positional relationships, which may also be changed when the absolute position of the object to be described is changed.

As shown in fig. 1 to 4, an embodiment of the present invention provides an intelligent landscape classification buried bucket, comprising an underground support 11 installed in a well, a lifting table 13 installed in the underground support 11 and capable of moving up and down, a lifting support 14 installed on the lifting table 13, an external plate 15 installed on the top of the lifting support 14, a plurality of classification cylinders 16 arranged on the external plate 15 in an array, recovery tanks 21 respectively and correspondingly arranged below the classification cylinders 16, a moving wheel installed at the bottom of the recovery tanks 21 for moving on the lifting table 13, an off-cabin lifting assembly 12 installed between the underground support 11 and the lifting table 13, the off-cabin lifting assembly 12 comprising an off-cabin lifting hydraulic rod 1201 fixedly installed at the bottom of the underground support 11, the top of the cabin outer lifting hydraulic rod 1201 is connected with a cabin outer transverse plate 1202, the cabin outer transverse plate 1202 is fixedly connected with a cabin outer guide rail 1208, the cabin outer guide rail 1208 is connected with a cabin outer guide rod 1207 in an adapting mode, the cabin outer guide rod 1207 is fixedly installed on the underground support 11, the cabin outer transverse plate 1202 is provided with a cabin outer rotating shaft 1203, the cabin outer rotating shaft 1203 is wound with a cabin outer chain 1205, one end of the cabin outer chain 1205 is connected with a cabin outer connecting block 1206, the cabin outer connecting block 1206 is fixedly installed at the bottom of the underground support 11, the other end of the cabin outer chain 1205 is fixedly connected with a lifting connecting block 1204, the lifting connecting block 1204 is fixedly connected with a connecting seat 18, and the connecting seat 18 is fixedly connected with the lifting table 13.

In the use, through installing underground support 11 in the pit, the ground is located to external board 15, a plurality of classification section of thick bamboo 16 that are equipped with on the external board 15, be convenient for carry out classification input to rubbish, the rubbish of classification input enters into rather than corresponding recovery cabin 21 through different classification section of thick bamboo 16, for traditional rubbish recycle bin, the reduction occupation of land space that can be great, and promote the aesthetic property, when the rubbish in the recovery cabin 21 is filled with the back, then promote through extravehicular lifting hydraulic rod 1201, drive extravehicular diaphragm 1202 and rise, extravehicular diaphragm 1202 rises, when pulling extravehicular chain 1205 and remove, extravehicular chain 1205 one end and underground support 11 fixed connection, the other end pulling promotes stage 13 and rises above ground, later release each recovery cabin 21, can retrieve rubbish, and conveniently carry recovery cabin 21 back to wash.

In some alternative embodiments, the underground bracket 11 is provided with a fixing seat 22 for fixing the recovery tank 21.

As shown in fig. 1 to 14, in some optional embodiments, the recovery cabin 21 includes a cabin body 101, a bracket 301 is installed on the bottom surface inside the cabin body 101, a tiltable roll-over stand 302 is installed on the bracket 301, a dumping hydraulic rod 202 is installed on the roll-over stand 302, the dumping hydraulic rod 202 is hinged with a storage barrel 201, in a flat state of the storage barrel 201, the bottom surface contacts with the bracket 301, the contact surface of the storage barrel 201 and the roll-over stand 302 is an inclined surface, the dumping hydraulic rod 202 is used for driving the storage barrel 201 to turn over, the bottom does not interfere with the bracket 301 in the turning process of the storage barrel 201, two ends of the bracket 301 are respectively connected with an intra-cabin lifting assembly 401 for lifting the bracket 301, the intra-cabin lifting assembly 401 includes two groups of intra-cabin connecting blocks 406 fixedly connected with the bottom of the cabin body 101 and two groups of roll-over stands 302 fixedly connected with the end portions of the bracket 301, an intra-cabin lifting hydraulic rod 402 is connected between the intra-cabin connecting blocks 406 and the roll-over stand 302, the bottom of the bracket 301 is installed with an intra-cabin lifting hydraulic rod 402, the top of the intra-cabin lifting hydraulic rod 402 is connected with an intra-cabin plate 403, the intra-cabin plate 403 is installed on the outer side plate 403, the intra-cabin lifting assembly is installed between the two groups of the inner side chains 405 and the outer side plate is installed on the outer side of the inner side of the cabin frame 405 is provided with a chain frame 405, and the inner side of the inner cabin frame 15 is installed between the inner side of the cabin frame 15 is provided with a frame 15, and the inner frame is installed between the inner side of the inner frame 15 and the inner frame is 15 is installed, and the inner frame is 15 is a frame is 15, and the middle is installed.

When the garbage in the storage barrel 201 is fully stored, the external plate 15 is turned backwards through the electric rotating shaft 17, the in-cabin lifting hydraulic rod 402 is started, the in-cabin transverse plate 403 is driven to move upwards, in the process of moving upwards the in-cabin transverse plate 403, the middle part of the in-cabin chain 405 is supported on the in-cabin rotating shaft 404, the in-cabin transverse plate 403 moves upwards to drive the in-cabin rotating shaft 404 to move upwards, as the two ends of the in-cabin chain 405 are respectively fixed on the cabin body 101 and the bracket 301, the cabin body 101 is fixedly installed in the installation well, when the in-cabin transverse plate 403 rises, the chain wheel stretches the in-cabin chain 405 to drive the bracket 301 to rise, so that the storage barrel 201 rises to a wellhead, then the dumping hydraulic rod 202 is started, the two ends of the dumping hydraulic rod 202 are respectively hinged with the overturning frame 302 and the storage barrel 201, so that the garbage in the storage barrel 201 is dumped out, and meanwhile, as the overturning frame 302 has a certain height, the mouth of the storage barrel 201 has a certain distance from the ground, and the dumped garbage truck is convenient to store the dumped garbage from the lower side. Compared with the prior art, the depth required by lifting the buried box is greatly reduced by arranging the in-cabin lifting assembly 401, so that the depth of the mounting well is reduced, and the later mounting and maintenance of the buried box are facilitated.

In some optional embodiments, as shown in fig. 1-14, the two sides of the cabin body 101 are respectively provided with a guide rail 105, the guide rails 105 include two square columns arranged in parallel, the two square columns are arranged behind two sides of the cabin lifting hydraulic rod 402, the cabin lifting hydraulic rod 402 includes an outer cylinder and an output end, the top of the outer cylinder is fixedly sleeved with an cabin inserting block 408, the middle of the cabin inserting block 408 is connected with a positioning slide block 106, the positioning slide block 106 is inserted between the two square column guide rails 105, two ends of the cabin inserting block 408 are respectively fixedly connected with a cabin fixing plate 407, and the cabin fixing plates 407 are mounted on the guide rails 105 in a threaded manner. The cabin lifting hydraulic rod 402 is fixedly installed in parallel with the guide rail 105, so that the stability of the storage barrel 201 in the lifting process is improved.

In some alternative embodiments, as shown in fig. 5-12, a positioning column is installed in the middle of the cross plate 403 in the cabin, and a stopper is connected to one side of the positioning column, which faces the guide rail 105, and the stopper is adapted to be installed in the guide rail 105. For improving the stability of the up and down movement of the cross plate 403 in the cabin.

In some alternative embodiments, as shown in fig. 5-12, two sets of guide plates 303 are respectively mounted at two ends of the bracket 301, where the two sets of guide plates 303 are adapted to the guide rail 105, and the two sets of guide plates 303 clamp the guide rail 105 from two sides. In use, the bracket 301 is stably lifted and lowered by clamping and sliding the guide rail 105 by the two groups of guide plates 303.

In some alternative embodiments, as shown in fig. 8-10, the storage barrel 201 includes a dividing wall 219 vertically disposed inside the storage barrel 201, the bottom of the dividing wall 219 is fixedly connected with the bottom end of the inclined surface of the storage barrel 201, the dividing wall 219 divides the inside of the storage barrel 201 into a water flow cavity 218 and a garbage cavity, a solid partition 210 is installed inside the garbage cavity, the solid partition 210 vertically divides the garbage cavity into a solid storage area 212 and a water storage layer 217, a plurality of groups of draining holes 211 are formed in the solid partition 210, the water storage layer 217 is communicated with the water flow cavity 218, an included angle between the inclined surface of the storage barrel 201 and the dividing wall 219 is a, the dumping hydraulic rod 202 drives the storage barrel 201 to overturn by a first angle and a second angle, the first angle is greater than 90 ° -a less than 90 °, and the second angle is greater than 90 °.

When the passersby discards garbage to the inside of the storage barrel 201, solid garbage is left on the solid partition 210, liquid garbage flows into the water storage layer 217 through the draining hole 211, so that solid-liquid separation of the garbage is achieved, the speed of garbage spoilage is slowed down, the risk of smell generation of garbage bubbles in the liquid is reduced, when garbage is collected and dumped, the dumping hydraulic rod 202 drives the storage barrel 201 to overturn, the storage barrel 201 rotates around the hinging point of the dumping frame 302 by taking the tangent plane length of the inclined plane of the storage barrel 201 as a radius, the storage barrel 201 can not be interfered with the movement of the bracket 301 in the overturning process due to the arrangement of the inclined plane, the inclined plane of the water flow cavity 218 is overturned to the top end downwards in the overturning process of a first angle, the top end of the dividing wall 219 of the solid storage area 212 is overturned upwards, so that the liquid garbage is dumped firstly, then the solid garbage in the solid storage area 212 is overturned to a second angle, and the solid garbage in the solid storage area 212 is dumped, so that solid-liquid separation of the collecting end of the garbage is realized.

In some alternative embodiments, as shown in fig. 1-14, a floating plate 213 is movably installed in the water storage layer 217, the floating plate 213 separates the upper portion of the water storage layer 217 from the solid partition 210 into a buffer layer 216, a plurality of groups of hole plugs 214 matched with the draining holes 211 are installed on the floating plate 213 and are used for blocking the draining holes 211 when the floating plate 213 ascends to be propped against the solid partition 210, a plurality of groups of water leakage holes 215 are formed on the floating plate 213 and are used for flowing liquid garbage into the water storage layer 217, a push switch is arranged at the bottom of the solid partition 210 and is electrically connected with an alarm signal emitter and an electromagnetic lock, and the alarm signal emitter is used for emitting alarm signals to a dispatching center, and the electromagnetic lock is used for closing the classification cylinder 16. When the garbage is used, when the garbage contains more liquid, for example, the garbage is near a snack stall in a scenic spot and the soup in food is more, the floating plate 213 is quickly lifted, so that the draining hole 211 is plugged, at the moment, the pressing switch at the bottom of the solid partition plate 210 is triggered by contact with the floating plate 213, the alarm signal transmitter transmits an alarm signal to the dispatching center to remind a person to process as soon as possible, and meanwhile, the corresponding classifying cylinder 16 is not closed and is not stored, so that solid-liquid mixing of the garbage is prevented until the person is unlocked by remote control. The control can adopt network communication, when personnel can timely process or other buried barrels work normally nearby, the classifying barrel 16 is closed, the classifying barrel 16 is temporarily disabled, and when personnel cannot timely process and other buried barrels are not available nearby, the classifying barrel 16 is opened for convenience of tourists.

In some alternative embodiments, as shown in fig. 10-14, a chute is formed on the inner wall of the solid storage area 212, a sliding block 220 is mounted on the solid partition 210, the sliding block 220 is adaptively mounted in the chute, a plurality of groups of elastic supporting members are mounted in the chute, and the elastic supporting members gradually increase from top to bottom. Through being provided with multiunit elastic support piece to set up solid baffle 210 as can reciprocate, can be according to the proportion of solid rubbish and liquid rubbish, automatically regulated solid accomodate district 212 and the space proportion of water storage 217, when the solid rubbish in the solid accomodate district 212 is more, then solid baffle 210 receives the weight generally bigger, and at this moment, solid baffle 210 descends more to reduce the volume of water storage 217, realize dynamic adjustment, promote interior space utilization.

In some alternative implementations, as shown in fig. 8-10, the elastic supporting member includes a receiving groove that is opened at the rear of the sliding groove, a plurality of groups of mounting shafts are mounted in the receiving groove in an up-down array, torsion springs 221 are sleeved on the mounting shafts, the torsion springs 221 sleeved on the plurality of mounting shafts gradually increase from top to bottom, a connecting end 222 is mounted on the mounting shafts, the torsion springs 221 enable the connecting end 222 to have a tendency of keeping horizontal, the connecting end 222 is hinged with a supporting end 223, a hinge point between the connecting end 222 and the supporting end 223 is located on the upper surface of the connecting end 222, the supporting end 223 can be turned upwards relative to the connecting end 222, and cannot be turned downwards relative to the connecting end 222, and an end face of the connecting end 222 is located in the receiving groove and is not contacted with the sliding block 220. In use, the sliding block 220 is placed on the supporting end 223, the solid partition plate 210 is supported by the supporting ends 223, when the weight of the garbage on the solid partition plate 210 increases, the connecting end 222 and the supporting end 223 rotate downwards together, the sliding block 220 falls onto the elastic supporting piece below, when the weight of the garbage on the solid partition plate 210 increases continuously, the solid partition plate 210 descends gradually until the solid partition plate abuts against the floating plate 213, and in the garbage pouring process, the connecting end 222 and the supporting end 223 are hinged to be positioned on the upper surface of the connecting end 222, and under the action of gravity of the solid partition plate 210, the accommodating barrel 201 slides towards the opening direction of the accommodating barrel 201 until the garbage returns to the highest position, so that the next use is facilitated.

In some alternative implementations, as shown in fig. 8-10, the bottom of the external board 15 is connected with a supporting telescopic rod 121, the bottom of the supporting telescopic rod 121 is connected with two corresponding pressing board sleeves 124, a telescopic plate 125 is installed in the pressing board sleeve 124, a return spring 122 is sleeved on the supporting telescopic rod 121, a range finder is installed at the bottom of the external board 15 and is used for detecting the distance between the pressing board sleeve 124 and the external board 15, a deflection sensor is installed on the connecting end 222, the deflection sensor and the range finder are electrically connected with a processing unit, the processing unit is used for determining the position of the solid partition board 210 according to the deflection sensor, calculating the extrusion force of the garbage received by the telescopic plate 125 according to the range finder, further estimating the weight range of the solid garbage on the solid partition board 210, and the processing unit is connected with a dispatching center through signals.

The classifying cylinder 16 is provided with an induction valve, when no person discards the garbage, the induction valve is normally closed, the normal close is carried out by stretching out and propping the telescopic plate 125 in the pressing plate sleeve 124 in use, and then the garbage in the solid containing area 212 is extruded downwards together, so that the volume of the garbage in the solid containing area 212 is reduced, meanwhile, the garbage storage space can be reserved for the person discarding the garbage next time, as the bearing force of each group of elastic supporting pieces is known, after the position of the solid partition plate 210 is determined by the deflection sensor, the weight range and the volume range of the garbage on the solid partition plate 210 can be estimated after the compression length of the reset spring 122 between the pressing plate sleeve 124 and the external plate 15 is determined, the weight of the garbage is larger than the supporting weight of the previous group of elastic supporting pieces, the difference between the supporting weight of the current elastic supporting pieces and the compression elastic force of the reset spring 122 is smaller, the estimated garbage weight range is transmitted to the dispatching center through the processing unit, and the collection route of the garbage truck of the dispatching center is convenient, and the overweight and the excessive volume are avoided.

The working principle of the invention is as follows: in the use, through installing underground support 11 in the pit, the ground is located to external board 15, a plurality of classification section of thick bamboo 16 that are equipped with on the external board 15, be convenient for carry out classification input to rubbish, the rubbish of classification input enters into rather than corresponding recovery cabin 21 through different classification section of thick bamboo 16, for traditional rubbish recycle bin, the reduction occupation of land space that can be great, and promote the aesthetic property, when the rubbish in the recovery cabin 21 is filled with the back, then promote through extravehicular lifting hydraulic rod 1201, drive extravehicular diaphragm 1202 and rise, extravehicular diaphragm 1202 rises, when pulling extravehicular chain 1205 and remove, extravehicular chain 1205 one end and underground support 11 fixed connection, the other end pulling promotes stage 13 and rises above ground, later release each recovery cabin 21, can retrieve rubbish, and conveniently carry recovery cabin 21 back to wash.

When the passersby discards garbage to the inside of the storage barrel 201, solid garbage is left on the solid partition 210, liquid garbage flows into the water storage layer 217 through the draining hole 211, so that solid-liquid separation of the garbage is achieved, the speed of garbage spoilage is slowed down, the risk of smell generation of garbage bubbles in the liquid is reduced, when garbage is collected and dumped, the dumping hydraulic rod 202 drives the storage barrel 201 to overturn, the storage barrel 201 rotates around the hinging point of the dumping frame 302 by taking the tangent plane length of the inclined plane of the storage barrel 201 as a radius, the storage barrel 201 can not be interfered with the movement of the bracket 301 in the overturning process due to the arrangement of the inclined plane, the inclined plane of the water flow cavity 218 is overturned to the top end downwards in the overturning process of a first angle, the top end of the dividing wall 219 of the solid storage area 212 is overturned upwards, so that the liquid garbage is dumped firstly, then the solid garbage in the solid storage area 212 is overturned to a second angle, and the solid garbage in the solid storage area 212 is dumped, so that solid-liquid separation of the collecting end of the garbage is realized.

Through being provided with multiunit elastic support piece to set up solid baffle 210 as can reciprocate, can be according to the proportion of solid rubbish and liquid rubbish, automatically regulated solid accomodate district 212 and the space proportion of water storage 217, when the solid rubbish in the solid accomodate district 212 is more, then solid baffle 210 receives the weight generally bigger, and at this moment, solid baffle 210 descends more to reduce the volume of water storage 217, realize dynamic adjustment, promote interior space utilization.

In use, the garbage in the solid accommodating area 212 is extruded through the pressing plate sleeve 124, so that the volume of the garbage in the solid accommodating area 212 is reduced, meanwhile, a garbage storage space can be reserved for the next person who discards the garbage, as the bearing force of each group of elastic supporting pieces is known, after the position of the solid partition 210 is determined by the deflection sensor, the weight range and the volume range of the garbage on the solid partition 210 can be estimated after the compression length of the return spring 122 between the pressing plate sleeve 124 and the external plate 15 is determined, the weight of the garbage is greater than the supporting weight of the previous group of elastic supporting pieces and is smaller than the difference between the supporting weight of the current elastic supporting pieces and the compression elastic force of the return spring 122, and the estimated garbage weight range is sent to the dispatching center through the processing unit, so that the dispatching center can plan a garbage collection route of a garbage truck conveniently, and overweight and oversized garbage can be avoided.

Those of ordinary skill in the art will appreciate that: the discussion of any of the embodiments above is merely exemplary and is not intended to suggest that the scope of the invention (including the claims) is limited to these examples; the technical features of the above embodiments or in the different embodiments may also be combined within the idea of the invention, the steps may be implemented in any order and there are many other variations of the different aspects of the invention as described above, which are not provided in detail for the sake of brevity.

The present invention is intended to embrace all such alternatives, modifications and variances which fall within the broad scope of the appended claims. Therefore, any omission, modification, equivalent replacement, improvement, etc. of the present invention should be included in the scope of the present invention.

Claims (10)

1. The utility model provides an intelligence view is categorised buries bucket, be applied to in the well, a serial communication port, including installing underground support (11) in the well, install lifting table (13) that can reciprocate in the underground support (11), install lifting support (14) on lifting table (13), external board (15) are installed at lifting support (14) top, the array is provided with a plurality of categorised section of thick bamboo (16) on external board (15), a plurality of categorised section of thick bamboo (16) below is provided with recovery cabin (21) respectively correspondingly, the removal wheel is installed to recovery cabin (21) bottom, be used for removing on lifting table (13), underground support (11) and lifting table (13) leg mount have cabin outside hoisting component (12), cabin outside hoisting component (12) are including fixed mounting in cabin outside lifting rod (1201) of underground support (11) bottom, cabin outside lifting rod (1201) top is connected with cabin outside diaphragm (1202), cabin outside guide rail (1208) are connected with on external diaphragm (1202) fixedly, cabin outside guide rail (1208) adaptation is connected with cabin outside (1207), cabin outside guide rod (1203) are installed in cabin outside link (1205) are installed on the fixed link chain (1205) outside cabin (1205), the cabin outer connecting block (1206) is fixedly arranged at the bottom of the underground support (11), the other end of the cabin outer chain (1205) is fixedly connected with the lifting connecting block (1204), the lifting connecting block (1204) is fixedly connected with the connecting seat (18), and the connecting seat (18) is fixedly connected with the lifting table (13).

2. The intelligent landscape classification buried bucket according to claim 1, wherein the recycling bin comprises a bin body (101), a bracket (301) is installed on the inner bottom surface of the bin body (101), a turnover frame (302) capable of being turned over is installed on the bracket (301), a pouring hydraulic rod (202) is installed on the turnover frame (302), the pouring hydraulic rod (202) is hinged with a storage bucket (201), the bottom surface of the storage bucket (201) is in contact with the bracket (301) in a flat state, the contact surface of the storage bucket (201) and the turnover frame (302) is an inclined surface, the pouring hydraulic rod (202) is used for driving the storage bucket (201) to turn over, the bottom of the storage bucket (201) does not interfere with the bracket (301) in the turning process, two ends of the bracket (301) are respectively connected with an intra-bin lifting assembly (401) for lifting the bracket (301), the intra-bin lifting assembly (401) comprises two groups of intra-bin (406) fixedly connected with the bottom of the bin body (101) and two groups of intra-bin (406) fixedly connected with the end of the bracket (301), the intra-bin (302) is in contact with the bracket (301), a connecting block (402) is connected with the intra-bin (301), a link bar (402) is connected with the intra-bin (405) in a connecting block (402), two groups of cabin rotating shafts (404) are arranged on the cabin transverse plate (403), chain wheels matched with cabin chains (405) are arranged on the cabin rotating shafts (404), the middle part of each cabin chain (405) is wound on the corresponding chain wheel, and an electric rotating shaft (17) is arranged between the lifting support (14) and the external plate (15) and used for overturning the external plate (15).

3. The intelligent landscape classification buried bucket according to claim 2, wherein guide rails (105) are respectively installed on two sides of the cabin body (101), each guide rail (105) comprises two square columns which are arranged in parallel, each square column is arranged behind two sides of the cabin inner lifting hydraulic rod (402), each cabin inner lifting hydraulic rod (402) comprises an outer barrel and an output end, an inner cabin insertion block (408) is fixedly sleeved on the top of the outer barrel, a positioning sliding block (106) is connected to the middle of each inner cabin insertion block (408), each positioning sliding block (106) is inserted between two square column guide rails (105), two ends of each inner cabin insertion block (408) are fixedly connected with inner cabin fixing plates (407), and each inner cabin fixing plate (407) is installed on each guide rail (105) in a threaded mode.

4. An intelligent landscape classification buried bucket according to claim 3, characterized in that a locating column is mounted in the middle of the transverse plate (403) in the cabin, a limiting block is connected to one side of the locating column, facing the guide rail (105), of the locating column, and the limiting block is mounted in the guide rail (105) in an adapting mode.

5. An intelligent landscape classifying buried bucket according to claim 3, characterized in that two groups of guide plates (303) are respectively arranged at two ends of the bracket (301), the two groups of guide plates (303) are matched with the guide rail (105), and the two groups of guide plates (303) clamp the guide rail (105) from two sides.

6. The intelligent landscape classification buried bucket according to claim 2, wherein the storage bucket (201) comprises a division wall (219) vertically arranged in the storage bucket, the bottom of the division wall (219) is fixedly connected with the bottom end of an inclined plane of the storage bucket (201), the division wall (219) divides the inside of the storage bucket (201) into a water flow cavity (218) and a garbage cavity in a left-right mode, a solid partition plate (210) is arranged in the garbage cavity, the solid partition plate (210) divides the garbage cavity into a solid storage area (212) and a water storage layer (217) up and down, a plurality of groups of draining holes (211) are formed in the solid partition plate (210), the water storage layer (217) is communicated with the water flow cavity (218), an included angle between the inclined plane of the storage bucket (201) and the division wall (219) is a, the dumping hydraulic rod (202) drives the storage bucket (201) to overturn to have a first angle and a second angle, and the first angle is larger than 90 ° -a is smaller than 90 °.

7. The intelligent landscape classification buried bucket according to claim 6, wherein a floating plate (213) is movably installed in the water storage layer (217), the floating plate (213) separates the upper portion of the water storage layer (217) from the solid partition plate (210) into a buffer layer (216), a plurality of groups of hole plugs (214) matched with the draining holes (211) are installed on the floating plate (213) and used for blocking the draining holes (211) when the floating plate (213) rises to abut against the solid partition plate (210), a plurality of groups of water leakage holes (215) are formed in the floating plate (213) and used for flowing liquid garbage into the water storage layer (217), a pressing switch is arranged at the bottom of the solid partition plate (210), an alarm signal emitter and an electromagnetic lock are electrically connected to the pressing switch, and the alarm signal emitter is used for emitting alarm signals to a dispatching center, and the electromagnetic lock is used for sealing the classification cylinder (16).

8. The intelligent landscape classification buried bucket according to claim 7, wherein a chute is formed in the inner wall of the solid storage area (212), a sliding block (220) is mounted on the solid partition board (210), the sliding block (220) is mounted in the chute in an adapting manner, a plurality of groups of elastic supporting members are mounted in the chute, and the elastic supporting members gradually increase from top to bottom.

9. The intelligent landscape classification buried bucket according to claim 8, wherein the elastic supporting member comprises a containing groove arranged at the rear of the sliding groove, a plurality of groups of installation shafts are arranged in the containing groove in an up-down array mode, torsion springs (221) are sleeved on the installation shafts, the elasticity of the torsion springs (221) sleeved on the installation shafts is gradually increased from top to bottom, connecting ends (222) are arranged on the installation shafts, the torsion springs (221) enable the connecting ends (222) to have a trend of keeping horizontal, the connecting ends (222) are hinged with supporting ends (223), the hinge points of the connecting ends (222) and the supporting ends (223) are located on the upper surface of the connecting ends (222), the supporting ends (223) can be turned upwards relative to the connecting ends (222) and cannot be turned downwards relative to the connecting ends (222), and the end faces of the connecting ends (222) are located in the containing groove and are not contacted with the sliding blocks (220).

10. The intelligent landscape classification buried bucket according to claim 9, wherein the bottom of the external plate (15) is connected with a supporting telescopic rod (121), the bottom of the supporting telescopic rod (121) is connected with two corresponding groups of pressing plate sleeves (124), the telescopic plate (125) is installed in the pressing plate sleeves (124), a return spring (122) is sleeved on the supporting telescopic rod (121), the bottom of the external plate (15) is provided with a range finder, the range finder is used for detecting the distance between the pressing plate sleeves (124) and the external plate (15), the connecting end (222) is provided with a deflection sensor, the deflection sensor and the range finder are electrically connected with a processing unit, the processing unit is used for determining the position of the solid partition plate (210) according to the deflection sensor, calculating the extrusion force of garbage received by the range finder, estimating the weight range of the solid garbage on the solid partition plate (210), and the processing unit is connected with a dispatching center in a signal manner.