CN112923380A - Automatic loading device of garbage incinerator - Google Patents

Abstract

The invention discloses an automatic loading device of a garbage incinerator, which comprises an incineration mechanism, a feeding mechanism, a compression mechanism and a loading mechanism, wherein garbage enters two groups of rotating plates on the loading mechanism through a feeding pipe on the feeding mechanism, when the garbage is full, a mechanical group in the feeding mechanism operates to drive a material stopping plate to move upwards for separation, then the mechanical group in the filling mechanism operates to drive the rotating plate to rotate, when the rotating plate rotates to the lower part of the compression mechanism, the mechanical group in the compression mechanism operates to compress the garbage, after the garbage is compressed, the rotating plate is rotated to the upper part of the incinerator, then the mechanical group in the loading mechanism operates to drive the two groups of rotating plates to open and close, when the two groups of rotating plates are in an open state, the garbage is loaded into the incinerator, the device is provided with the multiunit and holds the device, has realized burning furnace's high efficiency through the transposition and has filled, and the device still possesses the characteristics that the integrated level is high, degree of automation is high.

Description

Automatic loading device of garbage incinerator

Technical Field

The invention relates to the field of waste incineration, in particular to an automatic filling device of a waste incinerator.

Background

Human beings can produce a large amount of rubbish in life, and the mode of treatment of most rubbish still carries out incineration disposal to rubbish, as in the prior art, application number CN2018208851833, is named: the utility model discloses a waste incinerator's utility model discloses a waste incinerator, including waste incinerator, heat exchanger, circulation tank and air-blower, one side that waste incinerator is close to the upper end is provided with hydraulic pressure pay-off mouth, and the opposite side that waste incinerator is close to lower extreme position department is provided with the ignition mouth, the position department fixed mounting that waste incinerator is located ignition mouth below has two sets of support frames, waste incinerator's bottom is provided with the tuyere, be connected with the blast pipe between waste incinerator and the air-blower, and the exit at the air-blower is connected to the one end of blast pipe, the other end of blast pipe is connected in the position department that waste incinerator is close to the tuyere. A waste incinerator, be equipped with ashes separation carousel and cooling tower, can conveniently discharge the ashes that form after the rubbish burning, this novel waste incinerator can reduce the ambient temperature around the incinerator, the protection ecological environment still needs the manual work to load rubbish, need occupy a large amount of manpower and materials, consequently, the invention provides a waste incinerator automatic loading device, can realize the compression and the automatic loading of rubbish, has increased incineration efficiency when greatly practicing thrift the cost.

Disclosure of Invention

In order to solve the technical problems, the technical scheme adopted by the invention is as follows: an automatic loading device of a garbage incinerator, comprising: burn mechanism, feed mechanism, compression mechanism and filling mechanism, burn the mechanism including burning furnace subassembly and support, burning furnace subassembly sets up on the support, feed arrangement fixed mounting is on burning the support of mechanism, feed arrangement is including ending material mechanism and feeding casing, ends material mechanism and sets up on feeding casing for the control ejection of compact, filling mechanism rotates and installs on the support, filling mechanism sets up in burning furnace top and feed mechanism below, filling mechanism is including the installation main part and hold the device, hold the device setting in the installation main part, compression device sets up on the support, rubbish falls into filling mechanism from feed arrangement, burns in compressing the back transmission to burning furnace subassembly by compression mechanism, filling mechanism includes a plurality of devices that hold.

Further, the support include the device backup pad, device backup pad fixed mounting on device fixed foot board, be equipped with slider, connecting plate, motor backup pad in the device backup pad, burn burning furnace connecting plate, fixed mounting has the transposition motor in the motor backup pad, transposition motor control filling device, and compressing mechanism slidable mounting is on the slider, and fixed mounting has a feeding structure on the connecting plate, burns burning furnace assembly on the burning furnace connecting plate.

Furthermore, the incinerator component comprises an incinerator, the incinerator is fixed on the support through an incinerator connecting plate, a fire spraying box and a smoke exhaust pipeline are arranged on the side face of the incinerator, and a filling pipeline is arranged above the incinerator.

Further, feed mechanism's feeding casing fixed mounting on the connecting plate, the feeding casing include the feeding slide, the feeding slide set up on the connecting plate, be provided with feeding pipeline fixed plate on the feeding slide, fixed mounting has the feeding pipeline on the feeding pipeline fixed plate, end the setting of material mechanism on the feeding slide.

Furthermore, end material mechanism including ending the flitch, end flitch slidable mounting on the feeding slide, end and be equipped with the rack on the flitch, the rack forms rack and pinion cooperation with the straight-teeth gear, straight-teeth gear fixed mounting is on the output shaft of ending the material motor, ends the material motor through ending material motor fixed plate fixed mounting on the feeding slide.

Further, compressing mechanism include the chute board, chute board slidable mounting on the slider, be equipped with driven rack on the chute board, driven rack forms the rack and pinion cooperation with the initiative straight-teeth gear, the initiative straight-teeth gear rotates through the power supply drive of fixing in the device backup pad, fixed mounting has the fixed plate on the chute board, the middle part of fixed plate is equipped with the spring and holds up the pole fixed plate, the coaxial spring that is equipped with on the spring holds up the pole, the one end fixed mounting of spring holds up the pole fixed plate on the spring, the other end and compression board slider fixed connection, compression board slider slidable mounting is on the fixed plate, compression board slider slidable mounting is on the spring holds up the pole, fixed mounting has the compression board on the compression board slider.

Further, the installation main part of loading mechanism include the shifting block connecting plate, the shifting block connecting plate rotate with the device backup pad and be connected, shifting block connecting plate central point puts and rotates and installs the rotation axis, the output shaft fixed connection of rotation axis and transposition motor, the one end fixed mounting of rotating connecting rod is on the rotation axis, the other end and the shift fork of rotating connecting rod rotate and be connected, the one end of shift fork is equipped with U type opening, the other end is equipped with the hole of rectangular shape, be equipped with on the shifting block connecting plate with hold the same shifting block of device quantity, fixed mounting has the shift fork slider on one of them shifting block, fixed mounting has the slider connecting axle on the shift fork slider, the shift fork slider sets up in the rectangular shape hole of shift fork, be equipped with the shifting block in the U type opening, one side.

Further, hold the device include connecting plate down, lower connecting plate fixed mounting under on the connecting groove board, be equipped with the tie-beam on the connecting plate down, the both ends of tie-beam are equipped with the side fixed plate, rotate between two side fixed plates and install two and load the commentaries on classics board, every tip cover of loading the commentaries on classics board is equipped with the gear, loads the commentaries on classics board rotation by motor drive gear control.

Compared with the prior art, the invention has the beneficial effects that:

(1) the loading mechanism is provided with a plurality of groups of containing devices, so that the incineration work efficiency is improved.

(2) The invention is provided with the feeding mechanism, realizes automatic feeding, solves the problem of manual filling, and is provided with the compression device to improve the combustion efficiency and correspondingly save the area of the incinerator.

(3) The invention has compact structure and high integration level, and is convenient for popularization.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

FIG. 2 is a schematic view of the incineration mechanism of the present invention.

Fig. 3 is a schematic structural diagram of the feeding mechanism of the present invention.

FIG. 4 is a schematic view of the internal structure of the feeding mechanism of the present invention.

Fig. 5 is a schematic view of the internal assembly structure of the compressing mechanism of the present invention.

FIG. 6 is a schematic view of the internal assembly of the loading mechanism of the present invention.

FIG. 7 is a schematic view of the loading mechanism of the present invention.

Detailed Description

The present invention will be further described with reference to specific examples, which are illustrative of the invention and are not to be construed as limiting the invention.

An automatic loading device of a garbage incinerator as shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6 and fig. 7 comprises an incineration mechanism 1, a feeding mechanism 2, a compression mechanism 3 and a loading mechanism 4.

The incineration mechanism 1 includes a device support plate 102, a slider 103, a connection plate 104, and an index motor 106.

The feed mechanism 2 includes a feed chute 201.

The compression mechanism 3 includes a compression motor support plate 302.

The charging mechanism 4 includes a slider connecting shaft 401 and a rotating shaft 407.

The device supporting plate 102 is fixedly arranged on the two groups of device fixing foot plates 101, the sliding block 103 is fixedly connected with the inner side surface of the device supporting plate 102, the connecting plate 104 is fixedly arranged on the device supporting plate 102, the indexing motor 106 is fixedly arranged on the motor supporting plate 105, the feeding slide way 201 is fixedly connected with the connecting plate 104, the slide groove plate 301 is slidably arranged on the sliding block 103, the compression motor supporting plate 302 is fixedly arranged on the device supporting plate 102, the sliding block connecting shaft 401 is rotatably arranged in a middle shaft hole of the device supporting plate 102, the rotating shaft 407 is fixedly connected with the rotating connecting rod 406, and the rotating shaft 407 is fixedly connected with the indexing.

The incinerator loading device incineration mechanism 1 also comprises a device fixing foot plate 101, a motor supporting plate 105, an indexing motor 106, an incinerator connecting plate 107, an incinerator 108, a flaming box supporting plate 109, a flaming box 110, a flaming pipeline 111, a smoke exhaust pipeline 112 and a loading pipeline fixing plate 113, the device fixing foot plates 101 are provided with two groups, the motor supporting plate 105 is fixedly arranged on the device supporting plate 102, the incinerator connecting plate 107 is fixedly arranged on the device supporting plate 102, the incinerator 108 is fixedly arranged on the incinerator connecting plate 107, the flaming box supporting plate 109 is fixedly arranged on the side surface of the incinerator 108, the flaming box 110 is fixedly connected with the flaming box supporting plate 109, two ends of a flaming pipeline 111 are respectively fixedly connected with the flaming box 110 and the incinerator 108, the smoke exhaust pipeline 112 is fixedly arranged on the side surface of the incinerator 108, the filling pipeline fixing plate 113 is fixedly arranged on the incinerator 108, and the filling pipeline 114 is fixedly connected with the filling pipeline fixing plate 113.

The feeding mechanism 2 further comprises a feeding pipeline fixing plate 202, a feeding pipeline 203, a material stopping plate sliding block 204, a material stopping plate 205, a material stopping motor fixing plate 206, a material stopping motor 207, a straight gear 208 and a rack 209, wherein the feeding pipeline fixing plate 202 is fixedly arranged on the feeding slideway 201, the feeding pipeline 203 is fixedly connected with the feeding pipeline fixing plate 202, the material stopping plate sliding block 204 is slidably arranged on the inner side of the feeding slideway 201, two ends of the material stopping plate 205 are fixedly connected with the material stopping plate sliding block 204, the material stopping motor fixing plate 206 is fixedly arranged on the lower surface of the feeding slideway 201, the material stopping motor 207 is fixedly arranged on the material stopping motor fixing plate 206, the straight gear 208 is fixedly arranged on an output shaft of the material stopping motor 207, the material stopping motor 207 is a power source, when the material stopping motor 207 rotates, the straight gear 208 is driven to rotate, the rack 209 is fixedly arranged on the upper surface of the material stopping plate 205, the rack 209, the spur gear 208 drives the stopper plate 205 to move when rotating.

The compression mechanism 3 further comprises a chute plate 301, a compression motor 303, a driving spur gear 304, a driven rack 305, a fixing plate 306, a spring holding rod fixing plate 307, a spring holding rod 308, a spring 309, a compression plate limiting block 310, a compression plate sliding block 311 and a compression plate 312, wherein the compression motor 303 is fixedly arranged on a compression motor supporting plate 302, the driving spur gear 304 is fixedly arranged on an output shaft of the compression motor 303, the compression motor 303 is a power source and drives the driving spur gear 304 to rotate when the compression motor 303 is started, the chute plate 301 is driven to move when the driving spur gear 304 rotates, the driven rack 305 is fixedly arranged on the chute plate 301, the driven rack 305 and the driving spur gear 304 form a gear-rack fit, the fixing plate 306 is fixedly arranged on the chute plate 301, the spring holding rod fixing plate 307 is fixedly arranged on the fixing plate 306, the spring holding rod 308 is fixedly arranged on a side surface of the spring holding rod fixing plate 307, the springs 309 are coaxially arranged on the spring support rods 308, the compression plate limiting blocks 310 are fixedly arranged on the side surfaces of the fixed plates 306, the compression plate sliding blocks 311 are slidably arranged on the fixed plates 306, and the compression plates 312 are fixedly connected with the compression plate sliding blocks 311.

The filling mechanism 4 further comprises a shifting fork slide block 402, a connecting fixed plate 403, a shifting fork 404, a connecting rod connecting shaft 405, a rotating connecting rod 406, a shifting block connecting plate 408, a shifting block 409, a lower connecting groove plate 410, a lower connecting plate 411, a connecting beam 412, a side fixed plate 413, a filling motor supporting plate 414, a filling motor 415, a left driving spur gear 416, a right driven shaft 417, a right driven spur gear 418, a filling rotating plate 419 and an upper driven spur gear 420, the shifting fork slide block 402 is fixedly connected with the sliding block connecting shaft 401, the shifting fork slide block 402 is fixedly arranged on the connecting fixed plate 403, the shifting fork 404 is slidably arranged on the shifting fork slide block 402, the shifting fork 404 is arranged above the connecting fixed plate 403, the connecting rod connecting shaft 405 is rotatably arranged in a shaft hole of the shifting fork 404, the rotating connecting rod 406 is fixedly arranged on the connecting rod 405, the indexing motor 106 is a power, a shifting block connecting plate 408 is rotatably connected with a rotating shaft 407, a shifting block 409 is fixedly installed on the shifting block connecting plate 408, the shifting fork 404 is driven to rotate and move when a rotating link 406 rotates, the shifting block 409 is driven to shift and move when the rotating link 406 moves, a lower connecting groove plate 410 is fixedly installed on the shifting block connecting plate 408, a lower connecting plate 411 is fixedly connected with the lower connecting groove plate 410, a connecting beam 412 is fixedly connected with the lower connecting plate 411, a side fixing plate 413 is fixedly installed on the connecting beam 412, a filling motor supporting plate 414 is fixedly installed on the side surface of the side fixing plate 413, a filling motor 415 is fixedly installed on the filling motor supporting plate 414, a left driving spur gear 416 is fixedly installed on an output shaft of the filling motor 415, the filling motor 415 is a power source, the left driving spur gear 416 is driven to rotate when the filling motor 415 rotates, a right driven shaft 417 is rotatably installed on the side fixing plate 413, the right driven spur gear, the right driven spur gear 418 and the left driving spur gear 416 form gear meshing, the right driven spur gear 418 is driven to rotate when the left driving spur gear 416 rotates, two filling rotary plates 419 are arranged, the two filling rotary plates are respectively rotatably arranged in shaft holes on the left side and the right side of the side fixing plate 413, two groups of upper driven spur gears 420 are arranged and are respectively and fixedly arranged on the two groups of filling rotary plates 419, each group of driven spur gears 420 respectively form gear matching with the left driving spur gear 416 and the right driven spur gear 418, and the two groups of upper driven spur gears 420 are driven to rotate when the left driving spur gear 416 and the right driven spur gear 418 rotate.

Claims (8)

1. An automatic loading device of a garbage incinerator, comprising: burning mechanism, feed mechanism, compression mechanism and filling mechanism, burning mechanism include burning furnace subassembly and support, burning furnace subassembly sets up on the support, feed arrangement fixed mounting is on burning the support of mechanism, feed arrangement is including ending material mechanism and feeding casing, ends material mechanism and sets up on feeding casing for the control ejection of compact, filling mechanism rotates and installs on the support, filling mechanism sets up in burning furnace top and feed mechanism below, filling mechanism includes the installation main part and holds the device, holding the device setting in the installation main part, compression device sets up on the support, rubbish falls into filling mechanism from feed arrangement, burns in compressing the back transmission to burning furnace subassembly by compression mechanism, filling mechanism includes a plurality of devices that hold.

2. An automatic charging device of a garbage incinerator according to claim 1, characterized in that: the support include the device backup pad, device backup pad fixed mounting on device fixed foot board, be equipped with slider, connecting plate, motor support board in the device backup pad, burn burning furnace connecting plate, fixed mounting has the transposition motor in the motor support board, transposition motor control filling device, compression mechanism slidable mounting is on the slider, fixed mounting has feeding structure on the connecting plate, burns burning furnace assembly of fixed mounting on the burning furnace connecting plate.

3. An automatic charging device of a garbage incinerator according to claim 2, characterized in that: the incinerator component comprises an incinerator, the incinerator is fixed on a support through an incinerator connecting plate, a fire spraying box and a smoke exhaust pipeline are arranged on the side face of the incinerator, and a filling pipeline is arranged above the incinerator.

4. An automatic charging device of a garbage incinerator according to claim 2, characterized in that: the feeding mechanism's feeding casing fixed mounting on the connecting plate, the feeding casing include the feeding slide, the feeding slide setting on the connecting plate, be provided with the feeding pipeline fixed plate on the feeding slide, fixed mounting has the feeding pipeline on the feeding pipeline fixed plate, end the setting of material mechanism on the feeding slide.

5. An automatic charging device of a garbage incinerator according to claim 4, characterized in that: end material mechanism including ending the flitch, end flitch slidable mounting on the feeding slide, end and be equipped with the rack on the flitch, the rack forms rack and pinion cooperation with the straight-teeth gear, straight-teeth gear fixed mounting ends on the output shaft of material motor, ends the material motor through ending material motor fixed plate fixed mounting on the feeding slide.

6. An automatic charging device of a garbage incinerator according to claim 2, characterized in that: compressing mechanism include the chute board, chute board slidable mounting on the slider, be equipped with driven rack on the chute board, driven rack forms the rack and pinion cooperation with the initiative straight-teeth gear, the initiative straight-teeth gear rotates through fixing the power supply drive in the device backup pad, fixed mounting has the fixed plate on the chute board, the middle part of fixed plate is equipped with the spring and holds up the pole fixed plate, the coaxial spring that is equipped with on the spring holds up the pole, the one end fixed mounting of spring holds up the pole fixed plate on the spring, the other end and compression board slider fixed connection, compression board slider slidable mounting is on the fixed plate, compression board slider slidable mounting is on the spring holds up the pole, fixed mounting has the compression board on the compression board slider.

7. An automatic charging device of a garbage incinerator according to claim 2, characterized in that: the installation main part of loading mechanism include the shifting block connecting plate, the shifting block connecting plate rotate with the device backup pad and be connected, shifting block connecting plate central point puts and rotates and installs the rotation axis, the output shaft fixed connection of rotation axis and transposition motor, the one end fixed mounting of rotating connecting rod is on the rotation axis, the other end of rotating connecting rod rotates with the shift fork and is connected, the one end of shift fork is equipped with U type opening, the other end is equipped with the hole of rectangular shape, be equipped with on the shifting block connecting plate and hold the shifting block that device quantity is the same, fixed mounting has the shift fork slider on one of them shifting block, fixed mounting has the slider connecting axle on the shift fork slider, the shift fork slider sets up in the rectangular shape hole of shift fork, be equipped with the shifting block in the U type.

8. An automatic charging device of a garbage incinerator according to claim 7, characterized in that: the device that holds include connecting plate down, lower connecting plate fixed mounting under on the connection frid, be equipped with the tie-beam on the connecting plate down, the both ends of tie-beam are equipped with the side fixed plate, rotate between two side fixed plates and install two and load the commentaries on classics board, every tip cover that loads the commentaries on classics board is equipped with the gear, loads the commentaries on classics board by motor drive gear control and rotates.

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