CN114166016B - Sustainable reinforced high Wen Zhuaiyao - Google Patents

Abstract

The invention relates to a height Wen Zhuaiyao, in particular to a sustainable charging height Wen Zhuaiyao. The material can be continuously added into the rotary kiln, the material does not need to be stopped for feeding, the working efficiency is high, and the sustainable feeding height Wen Zhuaiyao is convenient. The utility model provides a sustainable reinforced high Wen Zhuaiyao, includes base, u template and guiding axle etc. and the rigid coupling has the u template in base top left side, and the rotary cross-under has the guiding axle between the upper portion of both sides around the u template. The invention pours a proper amount of material into the rotary kiln, starts the rotary kiln to calcine the material at high temperature, and then starts the rotary mechanism, the rotary mechanism operates to drive the rotary kiln to rotate, the rotary kiln rotates to calcine the material at high temperature comprehensively, and the material can be continuously added into the rotary kiln to calcine at high temperature through the blanking mechanism, so that the material is not required to be added in a stopping way, the rotary kiln is convenient to use, and the working efficiency is high.

Description

Sustainable reinforced high Wen Zhuaiyao

Technical Field

The invention relates to a height Wen Zhuaiyao, in particular to a sustainable charging height Wen Zhuaiyao.

Background

In the production industries of building materials, metallurgy, chemical industry, environmental protection and the like, most of the materials are required to be calcined, so that the materials can be processed into a usable state, a rotary kiln is required to be used for calcining the materials, and the rotary kiln can be used for calcining the materials at high temperature.

The Chinese patent with the application number of CN202110868604.8 discloses a rotary kiln with a material turning function, which comprises: the kiln comprises a kiln head, a roller and a kiln tail, wherein the roller is obliquely arranged on the kiln head and the kiln tail, the kiln further comprises a mounting shaft and a turning mechanism, a linkage piece is arranged on the inner wall of the roller and used for driving the turning mechanism to perform turning operation, the turning mechanism comprises a rotating ring sleeve and two limiting sliding seats, three telescopic frame bodies are arranged on the rotating ring sleeve, a telescopic baffle plate is arranged in the telescopic frame bodies, a secondary propelling component is arranged in a mounting groove, a sealing cover is arranged at the inner side end of the telescopic baffle plate, the telescopic frame bodies are communicated with the rotating ring sleeve, and the two limiting sliding seats are arranged on the mounting shaft at intervals; the right lower side wall of the installation shaft is provided with an ejecting assembly, the installation shaft is installed on the kiln head and the kiln tail, the installation shaft is coaxial with the roller, and the material turning mechanism is rotatably arranged on the installation shaft. According to the invention, the continuous turning of dangerous waste materials is realized, so that the dangerous waste materials are heated uniformly in the roller, and the materials can be calcined in the patent, but when the materials are fed, the rotary kiln is stopped to feed the materials, so that the working efficiency is low, and the materials are continuously put in by hands, so that the process is troublesome.

Therefore, it is necessary to design and develop a high Wen Zhuaiyao which can continuously add materials into the rotary kiln, does not need to stop feeding, has high working efficiency and is convenient for sustainable feeding.

Disclosure of Invention

In order to overcome the defects that the material can be calcined, but the material is required to be added by stopping the rotary kiln during feeding, so that the working efficiency is low, and the material is continuously put into the rotary kiln by hands and is troublesome, the invention provides the high Wen Zhuaiyao which can continuously add the material into the rotary kiln, does not need to stop feeding, has high working efficiency and is convenient for sustainable feeding.

The invention is realized by the following technical approaches:

the utility model provides a sustainable reinforced high Wen Zhuaiyao, including the base, u template, the guiding axle, the swing frame, hollow frame, the rotary kiln, the lid, the feeder hopper, rotary mechanism, guiding mechanism and unloading mechanism, the U template of fixedly connected with in the left side of base top, the cross-under that rotates has the guiding axle between the upper portion of both sides around the u template, the fixed cover in guiding axle middle part is equipped with the swing frame, swing frame right side top rigid coupling has hollow frame, hollow frame right-hand member is connected with the rotary kiln through the bearing frame rotation, the rotary kiln right-hand member is connected with the lid through the screw thread rotation, the intercommunication has the feeder hopper in the middle of the hollow frame top, be connected with guiding mechanism between the outer right side of rotary kiln and the base right part, install rotary mechanism between swing frame and the rotary kiln middle part, hollow frame internal connection has the unloading mechanism that is used for calcining the material in the rotary kiln of discharging into.

Further, rotary mechanism is including L template, biax motor, gear and outer ring gear, and the peripheral direction rigid coupling in the middle part is had outer ring gear outside the rotary kiln, and the rigid coupling has L template in the middle of the bottom outside the swing frame, installs biax motor in the L template, and the output shaft end rigid coupling on biax motor right side has the gear that is used for driving outer ring gear pivoted, and the gear meshes with outer ring gear.

Further, guiding mechanism is including sliding seat, fastening bolt, montant, sliding sleeve and swivel becket, sliding cross-under has the sliding seat between the base front and back both sides right part, the symmetry rigid coupling has the montant around the sliding seat top, the slip type cover is equipped with the sliding sleeve on the montant, swivel becket is connected with between the inner of front and back both sides sliding sleeve and is used for driving the wobbling swivel becket of swivel becket, swivel becket pivoted suit is on the outer right side of swivel becket, both sides all are connected with the fastening bolt that is used for carrying out spacing to the sliding seat through the screw thread pivoted around the base top right side, fastening bolt is located the sliding seat left side, fastening bolt and sliding seat contact.

Further, the unloading mechanism is including slide bar, framework and swing board, and the framework has been placed to the slip in the hollow frame, and rotary type is connected with the swing board that is used for carrying out spacing to the material between the left side lower part of both sides face around the framework, and hollow frame lateral surface middle part slip is connected with the slide bar, and the slide bar right side is connected with the framework left side, and the slide bar left end runs through hollow frame left side middle part.

Further, the device further comprises a limiting mechanism for limiting the swinging plate, the limiting mechanism comprises a push rod, a first spring, a connecting rod, a limiting plate and a fixed block, the middle of the right side of the top in the hollow frame is fixedly connected with the fixed block for limiting the frame, the left side face of the sliding rod is connected with the push rod in an embedded sliding mode, the first spring is connected between the right end of the push rod and the inner side of the sliding rod, the connecting rod is fixedly connected with the right end of the push rod in a front-back symmetrical mode, the tail end of the connecting rod penetrates through the left side of the hollow frame and the left side and the right side of the frame, the limiting plate for limiting the swinging plate is fixedly connected between the tail ends of the connecting rods on the front side and the rear side, and the bottom end of the limiting plate is in contact with the right end of the swinging plate.

Further, the driving mechanism for driving the push rod to move is further arranged, the driving mechanism comprises a transmission assembly, a grooved driving ring, a rotating shaft, a disc and a fixing rod, the rotating shaft is connected in the middle of the upper side of the left part of the swinging frame in a penetrating manner, the transmission assembly is connected between the left end of the rotating shaft and the left output shaft end of the double-shaft motor, the transmission assembly consists of two belt pulleys and a flat belt, one belt pulley is fixedly sleeved at the left end of the rotating shaft, the other belt pulley is fixedly sleeved at the left output shaft end of the double-shaft motor, the flat belt is wound between the two belt pulleys, the right end of the rotating shaft is fixedly connected with the disc, the right side surface of the disc is fixedly connected with the grooved driving ring for driving the fixing rod to move left and right along the circumferential direction, the fixing rod is placed between grooves on the front side and the rear side of the grooved driving ring, and the middle of the fixing rod is fixedly connected with the left end of the push rod.

Further, still including being used for with material intermittent type exhaust intermittent type discharge mechanism, intermittent type discharge mechanism is including the mount, the charging hopper, the u type pole, the second spring, the contact frame, the ratchet strip, the discharging pipe, movable tube, the ratchet, the putty, the guide block, the lug ring, third spring, arc piece and trigger piece, the rigid coupling has the mount between the both ends around the swing frame left portion, the rigid coupling has the charging hopper that is used for the material to place between the three tip in mount right side, the charging hopper top intercommunication has the discharging pipe, it has the guide way to open in the discharging pipe, the intraductal rotary type of discharging is connected with the movable tube, movable tube slidable sleeve is in the outside lower part of charging hopper, the middle rigid coupling in movable tube outside lower part has the arc piece, the arc piece is located the guide way, movable tube outside upper portion has the ratchet along circumference rigid coupling, the rigid coupling has the guide block between the inside front and back both sides face lower part of movable tube, the cross-over connection has the guide block for blocking the material in the movable tube, the lever lower part contacts with movable tube inner wall, there is the charging hopper between the third spring lower part and the guide block bottom, the hopper top intercommunication has the guide slot, the inside is used for driving the ratchet strip has the contact between the ratchet strip to the side around the side to the inside the side of the ratchet strip, the side has the ratchet strip to drive the contact between the side around the side of the ratchet strip to the two sides around the side.

Further, the sliding seat is characterized by further comprising a pedal, limiting blocks and fourth springs, wherein the limiting blocks used for limiting the sliding seat are symmetrically connected on the right side of the bottom of the base in a sliding mode, the limiting blocks are located on the left side of the sliding seat, the pedal is fixedly connected between the bottom ends of the limiting blocks on the front side and the rear side of the bottom of the base, the fourth springs are symmetrically connected between the front side of the top of the pedal and the front side of the right side of the bottom of the base, and the fourth springs are symmetrically connected between the rear side of the top of the pedal and the rear side of the right side of the bottom of the base.

Further, the device also comprises a hole rod, a guide sleeve, a reel and a stay wire, wherein the middle part of the right side surface in the base is fixedly connected with the guide sleeve, the hole rod is connected in a sliding mode in the guide sleeve in a penetrating mode, the reel is fixedly connected with the bottom end of the hole rod, the stay wire for driving the sliding seat to move rightwards is wound on the reel, and the tail end of the stay wire is fixedly connected with the front side of the lower portion of the right side surface of the sliding seat.

Compared with the prior art, the invention has the remarkable advantages that:

1. the rotary kiln is started to calcine the materials at high temperature, the rotary mechanism is started again, the rotary mechanism is operated to drive the rotary kiln to rotate, the rotary kiln rotates to calcine the materials at high temperature comprehensively, and the materials can be continuously added into the rotary kiln to calcine at high temperature through the discharging mechanism, so that the materials are not required to be added in a stopping mode, and the rotary kiln is convenient to use and high in working efficiency.

2. When the material drops to the framework, can promote stop gear and remove to the right so that the framework removes to the right, stop gear loosens the swing board when moving to suitable position to the right, and the swing board then quick messenger material drops to the rotary kiln in, so for the material in the framework can be quick drops to the rotary kiln in by high temperature calcination, improves charging efficiency.

3. Under the effect of intermittent type discharge mechanism, can make the material intermittent type drop to the feeder hopper in, just so make the material drop to the rotary kiln in by high temperature calcination, so, need not operating personnel constantly pour the material into in the feeder hopper, labour saving and time saving.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

Fig. 3 is a schematic perspective view of a first part of the present invention.

Fig. 4 is a schematic view of a first partially cut-away structure of the present invention.

FIG. 5 is an enlarged schematic view of section A of the present invention.

Fig. 6 is a schematic view of a second partially cut-away structure of the present invention.

Fig. 7 is a schematic view of a third partially cut-away configuration of the present invention.

Fig. 8 is a schematic view of a fourth partially cut-away structure of the present invention.

Fig. 9 is a schematic perspective view of a second part of the present invention.

Fig. 10 is a schematic perspective view of a third portion of the present invention.

Fig. 11 is a schematic view of a fifth partial cross-sectional structure of the present invention.

Fig. 12 is a schematic perspective view of a fourth portion of the present invention.

Fig. 13 is a schematic perspective view of a fifth portion of the present invention.

Fig. 14 is a schematic view of a sixth partially cut-away configuration of the present invention.

Fig. 15 is a schematic perspective view of a sixth part of the present invention.

Fig. 16 is a schematic view of a seventh partially cut-away configuration of the present invention.

Fig. 17 is a schematic view of an eighth partially cut-away configuration of the present invention.

Fig. 18 is a schematic view of a ninth partially cut-away structure of the present invention.

Wherein the above figures include the following reference numerals: 1. base, 2, u-shaped plate, 3, guide shaft, 4, swing frame, 5, hollow frame, 6, rotary kiln, 7, cover, 8, feed hopper, 9, rotary mechanism, 91, L-shaped plate, 92, double-shaft motor, 93, gear, 94, outer gear ring, 10, guide mechanism, 101, slide seat, 102, fastening bolt, 103, vertical rod, 104, sliding sleeve, 105, rotary ring, 11, blanking mechanism, 111, sliding rod, 112, frame, 113, swing plate, 12, limit mechanism, 121, push rod, 122, first spring, 123, connecting rod, 124, limit plate, 125, fixed block, 13, driving mechanism, 131, transmission assembly, 132, slotted drive ring, 133, spindle, 134, disk, 135, fixed rod, 14, intermittent discharge mechanism, 141, fixed mount, 142, hopper, 143, u-shaped rod, 144, second spring, 145, contact mount, 146, ratchet bar, 147, discharge tube, 148, movable tube, 149, ratchet, 1410, blocking rod, 1411, guide block, 1412, bump ring, 1413, third spring, 1414, guide slot, 1415, arc block, 1416, trigger block, 15, pedal, 16, stopper, 17, fourth spring, 18, perforated rod, 19, guide sleeve, 20, reel, 21, pull wire.

Detailed Description

The invention is further elucidated below in connection with the drawings of the description, and embodiments of the invention are given in connection with the drawings of the description.

Example 1

The utility model provides a sustainable reinforced high Wen Zhuaiyao, including base 1, u template 2, guiding axle 3, swing frame 4, hollow frame 5, rotary kiln 6, lid 7, feeder hopper 8, rotary mechanism 9, guiding mechanism 10 and unloading mechanism 11, please see that fig. 1, fig. 2, fig. 3, fig. 4, fig. 11 and fig. 18 show, U template 2,u is installed through the cross-under of rotatable guiding axle 3 between the upper portion of both sides around template 2 to the left side of base 1, swing frame 4 is equipped with to the fixed cover in guiding axle 3 middle part, hollow frame 5 is installed through welded connection's mode at swing frame 4 right side top, hollow frame 5 right-hand member is connected with rotary kiln 6 through the bearing frame pivoted, rotary kiln 6 right-hand member is connected with lid 7 through the screw thread pivoted, the intercommunication has feeder hopper 8 in the middle of hollow frame 5 top, be connected with guiding mechanism 10 between rotary kiln 6 outside right side and the base 1 right part, when guiding mechanism 10 moves left, guiding mechanism 10 can realize driving rotary kiln 6 and swing down, swing in the middle part 4 and rotary kiln 9 is installed to the rotary mechanism 9 when rotary mechanism is driven to the rotary kiln 11 when rotary mechanism is driven to the rotary mechanism is rotated to the realization, the material 11 is realized to the rotary kiln 11 when the rotary mechanism is rotated down.

The rotary mechanism 9 comprises an L-shaped plate 91, a double-shaft motor 92, a gear 93 and an outer gear ring 94, as shown in fig. 1 and 2, the outer gear ring 94 is mounted on the outer middle portion of the rotary kiln 6 in a circumferential direction through a welding connection mode, the L-shaped plate 91 is mounted on the outer bottom portion of the swinging frame 4 in a welding connection mode, the double-shaft motor 92 is mounted in the inner bottom portion of the L-shaped plate 91, the gear 93 is fixedly connected with the end portion of an output shaft on the right side of the double-shaft motor 92, the gear 93 is meshed with the outer gear ring 94, and when the gear 93 rotates, the gear 93 can drive the outer gear ring 94 to rotate.

The guiding mechanism 10 comprises a sliding seat 101, fastening bolts 102, vertical rods 103, sliding sleeves 104 and a rotating ring 105, as shown in fig. 1 and 2, the sliding seat 101 is connected between the front and rear right parts of the base 1 in a sliding manner, the vertical rods 103 are symmetrically arranged in a welding connection manner on the front and rear of the top of the sliding seat 101, the sliding sleeves 104 are sleeved on the vertical rods 103 in a sliding manner, the rotating ring 105 is rotatably connected between the inner ends of the sliding sleeves 104 on the front and rear sides, the rotating ring 105 is rotatably sleeved on the outer right side of the rotary kiln 6, when the rotating ring 105 moves, the rotating ring 105 can drive the rotary kiln 6 to swing, the fastening bolts 102 are connected on the front and rear right sides of the top of the base 1 in a threaded rotation manner, the fastening bolts 102 are positioned on the left side of the sliding seat 101 and are in contact with the sliding seat 101, and the fastening bolts 102 can limit the sliding seat 101.

The blanking mechanism 11 comprises a slide bar 111, a frame 112 and a swinging plate 113, as shown in fig. 2, 3, 8, 11 and 18, the frame 112 is slidably arranged in the hollow frame 5, the swinging plate 113 is rotatably connected between the lower parts of the left side and the left side of the front side and the rear side of the frame 112, when the material falls into the frame 112, the swinging plate 113 can limit the material, the middle part of the left side of the outer side of the hollow frame 5 is slidably connected with the slide bar 111, the right side of the slide bar 111 is connected with the left side of the frame 112, and the left end of the slide bar 111 penetrates through the middle part of the left side of the hollow frame 5.

Firstly, an operator twists the cover 7 to reversely move rightwards to be separated from contact with the rotary kiln 6, then when a proper amount of material is poured into the rotary kiln 6, the movable cover 7 contacts the right end of the rotary kiln 6, the twisting cover 7 positively rotates leftwards to block the material in the rotary kiln 6 through the movement and reset of the threads, the rotary kiln 6 is started to heat the material, the rotary mechanism 9 is started again, the rotary mechanism 9 drives the rotary kiln 6 to rotate, the rotary kiln 6 is driven to rotate, the material is fully calcined, when the rotary kiln 6 continues to calcine the material at a high temperature, the operator can pour the proper amount of material into the feed hopper 8, the material in the feed hopper 8 falls into the hollow frame 5, the material in the hollow frame 5 falls onto the blanking mechanism 11, when the blanking mechanism 11 is filled with the proper amount of material, the blanking mechanism 11 is pushed to move rightwards, the blanking mechanism 11 is driven to move rightwards, the blanking mechanism 11 is not limited by the hollow frame 5, the blanking mechanism 11 is enabled to fall into the rotary kiln 6 to be calcined, and then the blanking mechanism 11 is pulled leftwards to repeatedly move to the right, and the proper amount of material can be repeatedly calcined at the high temperature, and the proper amount of material can be repeatedly added into the rotary kiln 6. When the material in the rotary kiln 6 is calcined, the collecting container is placed on the right side of the base 1, the rotary kiln 6 is closed, the rotary kiln 6 stops calcining the material at high temperature, the rotary mechanism 9 is closed, the rotary mechanism 9 stops driving the rotary kiln 6 to rotate, the guiding mechanism 10 is pulled to move leftwards, the guiding mechanism 10 moves leftwards to drive the rotary kiln 6 to swing downwards, when the rotary kiln 6 swings downwards to a proper position, the guiding mechanism 10 is stopped, the rotary cover 7 can be twisted to reversely move rightwards to be separated from the rotary kiln 6 through threads, the calcined material in the rotary kiln 6 falls into the collecting container, when the material in the rotary kiln 6 falls into the collecting container, the guiding mechanism 10 moves rightwards to reset, the guiding mechanism 10 moves rightwards to drive the rotary kiln 6 to swing upwards to reset, a proper amount of material can be poured into the rotary kiln 6 again, the rotary cover 7 is contacted with the right end of the rotary kiln 6, the rotary cover 7 rotates leftwards to reset through threads, and the rotary cover 7 can be repeatedly reset to continuously calcine the material at high temperature.

When the rotary kiln 6 is started to calcine materials at high temperature, the double-shaft motor 92 is started to rotate forward, the gear 93 is driven to rotate forward by the double-shaft motor 92, the outer gear ring 94 is driven to rotate reversely by the gear 93 to rotate forward, the rotary kiln 6 is driven to rotate reversely by the outer gear ring 94, and the rotary kiln 6 also calcines the materials at high temperature comprehensively. When the high-temperature calcination of the material is completed, the rotary kiln 6 is closed, the high-temperature calcination of the material is stopped by the rotary kiln 6, the double-shaft motor 92 is closed, the double-shaft motor 92 stops driving the gear 93 to rotate positively, the gear 93 stops driving the outer gear ring 94 to rotate reversely, and the outer gear ring 94 also stops driving the rotary kiln 6 to rotate reversely. Thus, the material can be comprehensively calcined.

When the high-temperature calcination of the materials is completed, the rotary kiln 6 is closed, the rotary kiln 6 stops calcining the materials at high temperature, the torsion fastening bolt 102 reversely rotates and moves upwards through threads, the torsion fastening bolt 102 stops moving upwards, the sliding seat 101 is pulled to move leftwards when the fastening bolt 102 moves upwards and does not limit the sliding seat 101, the sliding seat 101 moves leftwards to drive the vertical rod 103 to move leftwards, the vertical rod 103 moves leftwards to drive the sliding sleeve 104 to move downwards, the sliding sleeve 104 moves downwards to drive the rotating ring 105 to move downwards, the rotary kiln 6 swings downwards to a proper position, when the rotary kiln 6 swings downwards, the sliding seat 101 stops moving leftwards, the rotating ring 105 stops driving the rotary kiln 6 to swing downwards, namely the torsion cover 7 reversely moves rightwards and is separated from the rotary kiln 6 through threads, the calcined materials in the rotary kiln 6 fall into a collecting container, when the calcined materials in the rotary kiln 6 completely fall into the collecting container, the sliding seat 101 moves rightwards to reset, the sliding seat 101 moves rightwards to drive the reset 103 to reset rightwards, the sliding seat 103 moves rightwards to reset, the sliding sleeve 104 moves rightwards to drive the rotating ring 105 to reset, the rotating ring 105 moves rightwards to drive the reset 102 to reset, and the rotating ring 105 moves upwards to drive the reset ring 105 to reset to swing upwards to reset the rotating ring 101 to swing upwards, and the rotary kiln 101 swings to reset to swing upwards, and the rotary kiln 101 is fastened to swing upwards.

When the rotary kiln 6 rotates to perform comprehensive high-temperature calcination on materials, an operator can pour a proper amount of materials into the feed hopper 8, the materials in the feed hopper 8 fall into the hollow frame 5, the materials in the hollow frame 5 fall into the frame 112, the swinging plate 113 limits the materials, when a proper amount of materials are filled in the frame 112, the sliding rod 111 is pushed to move rightwards, the sliding rod 111 is moved rightwards to drive the frame 112 to move rightwards, the frame 112 is moved rightwards to drive the swinging plate 113 to move rightwards, when the swinging plate 113 is moved rightwards to be out of contact with the hollow frame 5, the swinging plate 113 does not block the materials due to the action of gravity, the materials in the frame 112 fall into the rotary kiln 6 and are calcined at high temperature, when all the materials in the frame 112 fall into the rotary kiln 6, the sliding rod 111 is pulled to move leftwards to reset, the sliding rod 111 is moved leftwards to drive the frame 112 to move leftwards to reset, the frame 112 is reset to reset, the swinging plate 113 is driven to move leftwards to be in contact with the hollow frame 5, the hollow frame 5 is enabled to swing upwards to reset, and the sliding rod 111 is stopped to move leftwards, so that the materials can be repeatedly added into the rotary kiln 6 to be calcined at high temperature.

Example 2

On the basis of embodiment 1, the device further comprises a limiting mechanism 12, the limiting mechanism 12 comprises a push rod 121, a first spring 122, a connecting rod 123, a limiting plate 124 and a fixed block 125, as shown in fig. 6, 7, 11, 15, 16 and 17, the fixed block 125 is mounted in the middle of the right side of the inner top of the hollow frame 5 in a bolt connection manner, when the hollow frame 5 moves rightwards to be in contact with the fixed block 125, the fixed block 125 can limit the frame 112, the left side surface of the slide rod 111 is in embedded sliding connection with the push rod 121, the first spring 122 is connected between the right end of the push rod 121 and the inner side of the slide rod 111, the connecting rod 123 is mounted in a front-rear symmetrical manner at the right end of the push rod 121, the tail end of the connecting rod 123 penetrates through the left side of the hollow frame 5 and the left side of the frame 112, the limiting plate 124 is mounted between the tail ends of the connecting rods 123 at the front-rear sides in a welding connection manner, the bottom end of the limiting plate 124 contacts with the right end of the swing plate 113, and the limiting plate 124 can limit the swing plate 113.

The driving mechanism 13 further comprises a driving mechanism 13, the driving mechanism 13 comprises a transmission assembly 131, a grooved driving ring 132, a rotating shaft 133, a disc 134 and a fixing rod 135, as shown in fig. 1, 2, 3, 4, 6, 7, 9 and 10, the rotating shaft 133 is rotatably connected in the middle of the upper left side of the swinging frame 4, the transmission assembly 131 is connected between the left end of the rotating shaft 133 and the left end of the output shaft end of the double-shaft motor 92, the transmission assembly 131 consists of two belt pulleys and a flat belt, one belt pulley is fixedly sleeved at the left end of the rotating shaft 133, the other belt pulley is fixedly sleeved at the left end of the output shaft end of the double-shaft motor 92, the flat belt is wound between the two belt pulleys, the disc 134 is mounted at the right end of the rotating shaft 133 in a welding connection manner, the grooved driving ring 132 is mounted at the right side of the disc 134 in a circumferential welding connection manner, the fixing rod 135 is slidably mounted between the grooves at the front and the rear sides of the grooved driving ring 132, and when the grooved driving ring 132 rotates, the grooved driving ring 132 can realize the left and right and left movement of the fixing rod 135, and the middle of the fixing rod 135 is mounted in a welding manner with the left end of the push rod 121.

The intermittent discharging mechanism 14 is further included, the intermittent discharging mechanism 14 includes a fixing frame 141, a charging hopper 142, a u-shaped rod 143, a second spring 144, a contact frame 145, a ratchet bar 146, a discharging pipe 147, a movable pipe 148, a ratchet wheel 149, a blocking rod 1410, a guide block 1411, a bump ring 1412, a third spring 1413, an arc block 1415 and a trigger block 1416, as shown in fig. 1, 2, 3, 4, 6, 7, 8, 9, 10, 11, 12, 13 and 14, the fixing frame 141 is mounted between the front and rear ends of the left part of the swinging frame 4 in a welding connection manner, the charging hopper 142 is mounted between the right three ends of the fixing frame 141 in a welding connection manner, an operator can pour a proper amount of material into the charging hopper 142, the top end of the charging hopper 8 is communicated with the discharging pipe 147, the discharging pipe 147 is internally provided with a guide groove 1414, the movable pipe 148 is rotationally connected with the discharging pipe 147, the movable tube 148 is slidingly sleeved at the lower part of the outer side of the charging hopper 142, an arc block 1415 is arranged in the middle of the lower part of the front side of the outer side of the movable tube 148 in a welding connection manner, the arc block 1415 is positioned in a guide groove 1414, when the arc block 1415 rotates, the arc block 1415 can drive the movable tube 148 to move through the guide groove 1414, a ratchet 149 is arranged at the upper part of the outer side of the movable tube 148 in a circumferential welding connection manner, a guide block 1411 is fixedly connected between the lower parts of the front side and the rear side of the inner side of the movable tube 148, a blocking rod 1410 is connected in a sliding manner in the middle part of the guide block 1411, the lower part of the blocking rod 1410 is contacted with the inner wall of the movable tube 148, when materials fall into the movable tube 148, a third spring 1413 is wound between the lower part of the blocking rod 1410 and the bottom of the guide block 1411, a trigger block 1416 is arranged between the lower parts of the left side and the right side of the inner side of the charging hopper 142 in a welding connection manner, when the blocking rod 1410 moves upwards to be in contact with the triggering block 1416, the triggering block 1416 can limit the blocking rod 1410, a u-shaped rod 143 is connected to the lower side of the rear part of the fixing frame 141 in a sliding mode in a penetrating mode, a second spring 144 is connected between the middle part of the left side surface in the u-shaped rod 143 and the lower side of the rear part of the left side surface of the fixing frame 141, a contact frame 145 is installed between two ends of the right side of the u-shaped rod 143 in a welding connection mode, a ratchet bar 146 is fixedly connected between two ends of the front side of the contact frame 145, the ratchet bar 146 is meshed with the ratchet wheel 149, when the ratchet bar 146 moves rightwards, the ratchet bar 146 can drive the ratchet wheel 149 to rotate positively, a lug ring 1412 is fixedly connected to the right side surface of the disc 134 in the circumferential direction, and when the lug ring 1412 rotates positively to be in contact with the contact frame 145, the lug ring 1412 can drive the contact frame 145 to move rightwards.

When the rotary kiln 6 rotates to perform comprehensive high-temperature calcination on materials, the push rod 121 can be pushed to move rightwards, the push rod 121 is driven to move rightwards by the first spring 122, the slide rod 111 moves rightwards to drive the frame 112 to move rightwards, the frame 112 drives the swinging plate 113 to move rightwards, when the frame 112 moves rightwards to be in contact with the fixed block 125, the fixed block 125 limits the frame 112, the frame 112 stops moving rightwards to stop moving the swinging plate 113 rightwards, the push rod 121 is continuously pushed to move rightwards, the first spring 122 is compressed, the push rod 121 moves rightwards to drive the connecting rod 123 to move rightwards, the connecting rod 123 moves rightwards to drive the limiting plate 124 to move rightwards, the limiting plate 124 moves rightwards to be out of contact with the swinging plate 113, and the swinging plate 113 can swing downwards rapidly under the action of gravity to enable the materials in the frame 112 to drop into the rotary kiln 6, when all the materials in the frame 112 drop into the rotary kiln 6, the push rod 121 is loosened, the push rod 121 moves leftwards for a certain distance and drives the limiting plate 124 to move leftwards to reset to be in contact with the frame 112 through the connecting rod 123 under the action of the first spring 122, the push rod 121 is pulled to move leftwards to reset, the push rod 121 moves leftwards to reset and drives the slide rod 111 to move leftwards to reset through the first spring 122, the slide rod 111 resets and drives the frame 112 to move leftwards to reset, the frame 112 resets and drives the swinging plate 113 to move leftwards to reset, the swinging plate 113 moves leftwards to be in contact with the hollow frame 5, the hollow frame 5 enables the swinging plate 113 to swing upwards to reset, and the swinging plate 113 swings upwards to reset from the limiting plate 124 to slide over to reset under the action of the first spring 122, so that the limiting plate 124 continues to limit the swinging plate 113. Thus, the materials in the frame 112 can quickly fall into the rotary kiln 6 to be calcined at high temperature, and the feeding efficiency is improved.

When the double-shaft motor 92 is started, the double-shaft motor 92 further drives the transmission assembly 131 to rotate forward, the transmission assembly 131 rotates forward to drive the rotating shaft 133 to rotate forward to drive the disc 134 to rotate forward, the disc 134 rotates forward to drive the grooved driving ring 132 to rotate forward, the grooved driving ring 132 rotates forward to drive the fixing rod 135 to move left and right through the groove, the fixing rod 135 moves left and right to drive the push rod 121 to move left and right, when the push rod 121 moves right, materials in the frame 112 fall into the rotary kiln 6 to be calcined at a high temperature, and when the push rod 121 moves left, the frame 112 drives the swinging plate 113 to move left to reset, so that the materials continuously fall into the rotary kiln 6 to be calcined at a high temperature repeatedly. When the material in the rotary kiln 6 is calcined at high temperature, the double-shaft motor 92 is turned off, the double-shaft motor 92 stops driving the transmission assembly 131 to rotate forward, the transmission assembly 131 stops driving the disc 134 to rotate forward through the rotating shaft 133, the disc 134 stops driving the grooved driving ring 132 to rotate forward, and the grooved driving ring 132 also stops driving the push rod 121 to move left and right through the fixing rod 135. Thus, the pushing rod 121 is not required to be pulled by an operator to move left and right for discharging, and the discharging is convenient and quick.

Firstly, an operator pours a proper amount of materials into the charging hopper 142, the materials in the charging hopper 142 fall into the movable tube 148 and are blocked by the blocking rod 1410, when the double-shaft motor 92 is started, the disc 134 rotates forward to drive the lug ring 1412 to rotate forward, when the lug ring 1412 rotates forward to contact with the contact frame 145, the lug ring 1412 drives the contact frame 145 to move rightwards, the contact frame 145 moves rightwards to drive the u-shaped rod 143 to move rightwards, the second spring 144 is compressed, the contact frame 145 moves rightwards to drive the ratchet bar 146 to move rightwards, the ratchet bar 146 moves rightwards to drive the ratchet wheel 149 to rotate forward, the ratchet wheel 149 rotates forward to drive the movable tube 148 to rotate forward, the movable tube 148 rotates forward to drive the arc block 1415 to rotate forward, the arc block 1415 rotates forward to slide in the guide groove 1414, when the arc block 1415 rotates forward to contact with the inclined surface of the guide groove 1414, the guide groove 1415 moves upwards, the arc block 1415 moves upwards to drive the movable tube 148 to move upwards, when the movable tube 148 moves upwards to drive the guide block 1411 to move upwards, the guide block 1411 moves upwards to drive the blocking rod 1410 to move upwards through the third spring 1413, when the blocking rod 1410 moves upwards to be in contact with the trigger block 1416, the trigger block 1416 limits the blocking rod 1410, the guide block 1411 continues to move upwards to enable the third spring 1413 to be stretched, simultaneously, when the movable tube 148 continues to move upwards to be out of contact with the blocking rod 1410, the blocking rod 1410 does not block the material in the movable tube 148, the material in the movable tube 148 falls into the discharge tube 147, the material in the discharge tube 147 falls into the feed hopper 8, the material also falls into the frame 112 to be limited by the swinging plate 113, when the bump ring 1412 continues to rotate forwards to be out of contact with the contact frame 145, the u-shaped rod 143 moves leftwards to drive the contact frame 145 to move leftwards to reset, the contact frame 145 moves leftwards to drive the ratchet bar 146 to move leftwards to reset, the ratchet bar 146 moves leftwards to slide on the ratchet wheel 149, the ratchet bar 146 stops driving the ratchet wheel 149 to rotate forwards, the movable tube 148 also stops driving the arc-shaped block 1415 to rotate forwards, the arc-shaped block 1415 stops moving upwards through the guide groove 1414, the movable tube 148 moves downwards to reset to drive the arc-shaped block 1415 to move downwards to reset due to the action of gravity, meanwhile, the movable tube 148 moves downwards to reset to drive the guide block 1411 to move downwards to reset, the guide block 1411 moves downwards to reset to drive the blocking rod 1410 to move downwards through the third spring 1413, and when the blocking rod 1410 moves downwards to be out of contact with the triggering block 1416, the blocking rod 1410 moves upwards to reset to be in contact with the inner wall of the movable tube 148 due to the action of the third spring 1413, the blocking rod 1410 continuously blocks materials in the movable tube 148, so that a proper amount of materials can fall into the feed hopper 8 continuously, and the materials fall into the frame 112 to be driven into the rotary kiln 6 to be calcined. When the dual-shaft motor 92 is turned off, the disc 134 stops driving the cam ring 1412 to rotate forward, the contact frame 145 stops moving the ratchet bar 146 left and right, and the movable tube 148 stops moving up and down. So, need not operating personnel constantly pour the material into feeder hopper 8 in, labour saving and time saving.

Example 3

On the basis of embodiment 1 and embodiment 2, still include footboard 15, stopper 16 and fourth spring 17, please refer to fig. 2, fig. 4 and fig. 5 and show, the bottom right side of base 1 is connected with stopper 16 in the fore-and-aft symmetry slidingtype, stopper 16 is located the sliding seat 101 left side, stopper 16 can realize carrying out the spacing to sliding seat 101, install footboard 15 through welded connection's mode between the stopper 16 bottom of fore-and-aft both sides, be connected with fourth spring 17 between footboard 15 top front side and the bottom right side front portion of base 1 bilateral symmetry, also be connected with fourth spring 17 bilateral symmetry between footboard 15 top rear side and the bottom right side rear portion of base 1.

Still including foraminiferous pole 18, guide pin bushing 19, reel 20 and act as go-between 21, please see the mode that fig. 2 and 6 show, guide pin bushing 19 is installed through welded connection in the middle part of the interior right flank of base 1, and the cross-under of guide pin bushing 19 has foraminiferous pole 18, and reel 20 is installed through welded connection's mode to foraminiferous pole 18 bottom, and reel 20 is last to wind and to act as go-between 21, and act as go-between 21 tail end and slide 101 right flank lower part front side fixed connection, when act as go-between 21 is rolled up, act as go-between 21 can realize driving slide 101 to remove the reset to the right.

Firstly, an operator twists the fastening bolt 102 to reversely move upwards through threads, the fastening bolt 102 moves upwards without limiting the sliding seat 101, when the sliding seat 101 needs to be pulled to move leftwards, the operator can step on the pedal 15 to move downwards, the fourth spring 17 is stretched, the pedal 15 moves downwards to drive the limiting block 16 to move downwards, and when the limiting block 16 moves downwards without blocking the sliding seat 101, the pedal 15 is stopped to be stepped on, and then the sliding seat 101 can be pulled to move leftwards. When the sliding seat 101 moves rightwards to reset, the pedal 15 can be loosened, and the pedal 15 moves upwards to drive the limiting block 16 to move upwards to reset due to the action of the fourth spring 17, and the limiting block 16 moves upwards to reset to limit the sliding seat 101. Thus, the sliding seat 101 is limited or not limited without the need of an operator to twist the fastening bolt 102 to rotate, and convenience and rapidness are realized.

When the operator pulls the sliding seat 101 to move leftwards, the sliding seat 101 also drives the pull wire 21 to move leftwards, the pull wire 21 moves leftwards to drive the reel 20 to rotate forwards, the reel 20 rotates forwards to drive the perforated rod 18 to rotate forwards, and when the sliding seat 101 stops moving leftwards, the sliding seat 101 stops driving the pull wire 21 to move leftwards, and the reel 20 stops driving the perforated rod 18 to rotate forwards. When the sliding seat 101 needs to be pulled to move rightwards for resetting, an operator passes through the hole of the hole rod 18 by using the rod, then pulls the rod to drive the hole rod 18 to rotate reversely, the reel 20 is driven to rotate reversely by the reverse rotation of the hole rod 18, the pull wire 21 is wound by the reverse rotation of the reel 20, the pull wire 21 is wound to drive the sliding seat 101 to move rightwards for resetting, and the rod is stopped from pulling the rod to drive the hole rod 18 to rotate reversely, so that the rod is pulled out from the hole rod 18. Thus, the operator can more conveniently drive the sliding seat 101 to move rightwards for resetting.

Finally, it is necessary to state that: the foregoing is provided to assist in understanding the technical solutions of the present invention, and is not to be construed as limiting the scope of protection of the present invention; insubstantial modifications and variations from the above teachings are within the scope of the invention as claimed.

Claims (6)

1. The utility model provides a sustainable reinforced high Wen Zhuaiyao, including base (1), u template (2), guiding axle (3), swing frame (4), hollow frame (5), rotary kiln (6), lid (7) and feeder hopper (8), base (1) top left side rigid coupling has u template (2), the cross-under that rotates has guiding axle (3) between the upper portion of both sides around u template (2), fixed cover in middle part of guiding axle (3) is equipped with swing frame (4), hollow frame (5) are fixedly connected with at swing frame (4) right side top, hollow frame (5) right-hand member is connected with rotary kiln (6) through the bearing frame rotation type, rotary kiln (6) right-hand member is connected with lid (7) through screw thread rotation type, feed hopper (8) are connected with in the middle of hollow frame (5) top, characterized by still including rotary mechanism (9), guiding mechanism (10) and unloading mechanism (11), be connected with between rotary kiln (6) outer right side and base (1) right part and be used for playing guiding effect, install rotary mechanism (9) between swing frame (4) and rotary kiln (6) middle part, be used for calcining material in the hollow frame (6) and be connected with rotary mechanism (11) and be used for calcining material in the rotary kiln (6).

The rotary mechanism (9) comprises an L-shaped plate (91), a double-shaft motor (92), a gear (93) and an outer gear ring (94), wherein the outer gear ring (94) is fixedly connected with the outer middle part of the rotary kiln (6) along the circumferential direction, the L-shaped plate (91) is fixedly connected with the middle of the outer bottom part of the swinging frame (4), the double-shaft motor (92) is mounted in the inner bottom part of the L-shaped plate (91), the gear (93) for driving the outer gear ring (94) to rotate is fixedly connected with the end part of an output shaft on the right side of the double-shaft motor (92), and the gear (93) is meshed with the outer gear ring (94);

the guiding mechanism (10) comprises a sliding seat (101), fastening bolts (102), vertical rods (103), sliding sleeves (104) and rotating rings (105), wherein the sliding seat (101) is connected between the right parts of the front side and the rear side of the base (1) in a sliding mode, the vertical rods (103) are fixedly connected to the top of the sliding seat (101) in a front-back symmetrical mode, the sliding sleeves (104) are sleeved on the vertical rods (103) in a sliding mode, the rotating rings (105) used for driving the rotary kiln (6) to swing are connected between the inner ends of the sliding sleeves (104) in the front side and the rear side in a rotating mode, the rotating rings (105) are sleeved on the right side outside the rotary kiln (6) in a rotating mode, the fastening bolts (102) used for limiting the sliding seat (101) are connected to the front side and the rear side of the top of the base (1) in a threaded rotating mode, and the fastening bolts (102) are positioned on the left side of the sliding seat (101) and are in contact with the sliding seat (101);

the blanking mechanism (11) comprises a sliding rod (111), a frame body (112) and a swinging plate (113), the frame body (112) is placed in the hollow frame (5) in a sliding mode, the swinging plate (113) used for limiting materials is rotatably connected between the lower parts of the left sides of the front side and the rear side of the frame body (112), the middle part of the left side of the outer side of the hollow frame (5) is connected with the sliding rod (111) in a sliding mode, the right side of the sliding rod (111) is connected with the left side of the frame body (112), and the left end of the sliding rod (111) penetrates through the middle part of the left side of the hollow frame (5).

2. The high Wen Zhuaiyao capable of continuously feeding materials according to claim 1, further comprising a limiting mechanism (12) for limiting the swinging plate (113), wherein the limiting mechanism (12) comprises a push rod (121), a first spring (122), a connecting rod (123), a limiting plate (124) and a fixed block (125), the middle of the right side of the top in the hollow frame (5) is fixedly connected with the fixed block (125) for limiting the frame (112), the left side face of the sliding rod (111) is in embedded sliding connection with the push rod (121), a first spring (122) is connected between the right end of the push rod (121) and the inner side of the sliding rod (111), connecting rods (123) are symmetrically fixedly connected with the right end of the push rod (121) front and back, the tail ends of the connecting rods (123) penetrate through the left side of the hollow frame (5) and the left side of the frame (112), the limiting plate (124) for limiting the swinging plate (113) is fixedly connected between the tail ends of the connecting rods (123) on the front and back sides, and the bottom end of the limiting plate (124) is in contact with the right end of the swinging plate (113).

3. The continuously-feeding high Wen Zhuaiyao according to claim 2, further comprising a driving mechanism (13) for driving the push rod (121) to move, wherein the driving mechanism (13) comprises a transmission assembly (131), a grooved driving ring (132), a rotating shaft (133), a disc (134) and a fixing rod (135), the rotating shaft (133) is rotatably connected in the middle of the upper left side of the swinging frame (4), the transmission assembly (131) is connected between the left end of the rotating shaft (133) and the left output shaft end of the double-shaft motor (92), the transmission assembly (131) consists of two belt pulleys and a flat belt, one belt pulley is fixedly sleeved at the left end of the rotating shaft (133), the other belt pulley is fixedly sleeved at the left output shaft end of the double-shaft motor (92), the flat belt is wound between the two belt pulleys, the disc (134) is fixedly connected with the right end of the rotating shaft (133), the right side of the disc (134) is fixedly connected with the grooved driving ring (132) for driving the fixing rod (135) to move left and right, the fixing rod (135) is slidably arranged between the grooves on the front side and the rear side of the driving ring (132), and the middle of the fixing rod (121) is fixedly connected with the left end of the push rod.

4. The sustainable charging height Wen Zhuaiyao according to claim 3, further comprising an intermittent discharging mechanism (14) for intermittently discharging materials, wherein the intermittent discharging mechanism (14) comprises a fixed frame (141), a charging hopper (142), a u-shaped rod (143), a second spring (144), a contact frame (145), a ratchet bar (146), a discharging pipe (147), a movable pipe (148), a ratchet wheel (149), a blocking rod (1410), a guide block (1411), a bump ring (1412), a third spring (1413), an arc-shaped block (1415) and a trigger block (1416), the fixed frame (141) is fixedly connected between the front end and the rear end of the left part of the swing frame (4), the charging hopper (142) for placing materials is fixedly connected between the three ends of the right side of the fixed frame (141), the top end of the charging hopper (8) is communicated with the discharging pipe (147), a guide groove (1414) is formed in the discharging pipe (147), the movable pipe (148) is rotationally connected with the movable pipe (148), the movable pipe (148) is sleeved on the lower outer side of the charging hopper (142), the middle lower side of the movable pipe (148) is fixedly connected with the ratchet wheel (1415) along the outer side of the arc-shaped block (1415), a guide block (1411) is fixedly connected between the lower parts of the front side and the rear side of the movable tube (148), a blocking rod (1410) used for blocking materials in the movable tube (148) is connected between the middle part of the guide block (1411) in a sliding mode, the lower part of the blocking rod (1410) is in contact with the inner wall of the movable tube (148), a third spring (1413) is wound between the lower part of the blocking rod (1410) and the bottom of the guide block (1411), a trigger block (1416) used for limiting the blocking rod (1410) is fixedly connected between the lower parts of the left side and the right side of the hopper (142), a u-shaped rod (143) is connected between the middle part of the left side of the inner side of the u-shaped rod (143) and the lower side of the left side of the fixed frame (141), a contact frame (145) is fixedly connected between the right side of the u-shaped rod (143), a ratchet (146) used for driving a ratchet wheel (149) to rotate positively is fixedly connected between the front side of the contact frame (145), the ratchet (146) is meshed with the ratchet wheel (149), and the disc (134) is circumferentially fixedly connected with a contact frame (1412) along the right side.

5. The high Wen Zhuaiyao capable of continuously feeding materials according to claim 4 is characterized by further comprising a pedal (15), limiting blocks (16) and fourth springs (17), wherein the limiting blocks (16) used for limiting the sliding seat (101) are symmetrically connected on the right side of the bottom of the base (1) in a sliding mode, the limiting blocks (16) are located on the left side of the sliding seat (101), the pedal (15) is fixedly connected between the bottoms of the limiting blocks (16) on the front side and the rear side, the fourth springs (17) are symmetrically connected between the front side of the top of the pedal (15) and the front side of the right side of the bottom of the base (1), and the fourth springs (17) are symmetrically connected between the rear side of the top of the pedal (15) and the rear side of the right side of the bottom of the base (1).

6. The sustainable charging height Wen Zhuaiyao of claim 5, further comprising a perforated rod (18), a guide sleeve (19), a reel (20) and a pull wire (21), wherein the guide sleeve (19) is fixedly connected to the middle part of the right side surface in the base (1), the perforated rod (18) is connected to the guide sleeve (19) in a sliding mode in a penetrating mode, the reel (20) is fixedly connected to the bottom end of the perforated rod (18), the pull wire (21) for driving the sliding seat (101) to move rightwards is wound on the reel (20), and the tail end of the pull wire (21) is fixedly connected with the front side of the lower portion of the right side surface of the sliding seat (101).