CN114653260A

CN114653260A - Temperature control type active carbon forming and stirring device

Info

Publication number: CN114653260A
Application number: CN202210255272.0A
Authority: CN
Inventors: 安主金
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-03-15
Filing date: 2022-03-15
Publication date: 2022-06-24

Abstract

The invention belongs to the technical field of active carbon processing, and particularly relates to a temperature control type active carbon forming and stirring device which comprises a stirring blade, a stirring tank and a driving device fixedly installed at the top of the stirring tank, wherein the stirring blade is sleeved below the driving device, an inner tank is arranged inside the stirring tank, a plurality of connecting rings are embedded in the surface of the inner tank, heating wires are arranged outside the bottoms of the connecting rings, the stirring blade comprises a fixing sleeve, an inner rod and an outer rod, the outer rod is sleeved outside the inner rod, a baffle is arranged at one end, away from the inner rod, of the outer rod, an elastic connecting device which is abutted against the inner sides of the connecting rings is embedded in the bottom of the baffle, an inclined plane is arranged at the top of the outer rod, and a guide sheet is arranged at the top of the outer rod. According to the invention, the stirring device can be heated along with the amount of materials to be processed in the feeding process, so that the energy waste is reduced, the damage of heating on the stirring device is reduced, and the finished product rate of the active carbon processing is improved.

Description

Temperature control type active carbon forming and stirring device

Technical Field

The invention belongs to the technical field of active carbon processing, and particularly relates to a temperature control type active carbon forming and stirring device.

Background

Activated carbon is produced by heating an organic raw material (husk, coal, wood, etc.) in the absence of air to reduce non-carbon components (this process is called carbonization), and then reacting with a gas to erode the surface and produce a structure with developed micropores (this process is called activation). Since the activation process is a microscopic process, i.e., the surface erosion of a large amount of molecular carbides is a point-like erosion, the surface of the activated carbon is caused to have countless fine pores. The diameter of micropores on the surface of the activated carbon is mostly between 2 nm and 50nm, even a small amount of activated carbon has a large surface area, the surface area of each gram of activated carbon is 500m to 1500m2, and the application of the activated carbon is almost based on the characteristic of the activated carbon.

Activated carbon is at the in-process of processing, need carry out the intensification and handle, consequently need use control by temperature change formula activated carbon processingequipment to need supplementary cooperation agitating unit to process, at the in-process of activated carbon processing, through stirring the solid activated carbon that will wait to mix, mix with it through stirring with the solid reagent that will react with the activated carbon phase, heat again simultaneously, be used for promoting the homogeneous degree of activated carbon and reagent.

The problems existing in the prior art are as follows:

because the agitating unit of heating and stirring an organic whole can all start and heat in the course of working to make the raw materials fully heated, and in the in-service use process, can meet the unable condition full with the material of agitating unit more, therefore in the use, unnecessary heating can lead to local high temperature, can cause the damage to agitating unit on the one hand, and on the other hand probably leads to the raw materials processing unqualified because the temperature is too high, still can be owing to the extravagant energy of local excessive heating in addition.

Disclosure of Invention

The invention aims to provide a temperature control type activated carbon forming and stirring device which can heat materials to be processed in the feeding process of the stirring device, further reduce energy waste, reduce the damage of heating on the stirring device and improve the finished product rate of activated carbon processing.

The technical scheme adopted by the invention is as follows:

a temperature control type active carbon forming stirring device comprises a stirring tank and a driving device fixedly arranged on the top of the stirring tank;

the stirring blade is sleeved below the driving device;

the inner tank is arranged in the stirring tank, a plurality of connecting rings are embedded in the surface of the inner tank, and heating wires are arranged on the outer sides of the bottoms of the connecting rings;

the stirring blade comprises a fixed sleeve, an inner rod and an outer rod, the outer rod is sleeved outside the inner rod, a baffle is arranged on the side surface of the outer rod, an elastic connecting device which is abutted against the inner side of the connecting ring is embedded at the bottom of the baffle of the outer rod, an inclined plane is arranged at the top of the outer rod, a guide piece is arranged at the top of the outer rod, and the width of the guide piece is gradually reduced from the top to the bottom of the inclined plane on the outer rod;

elastic connection device includes slider, fifth wheel, second connecting rod, third connecting rod and resilient means again, the fifth wheel rotary type inlays to be established inside the slider, just the fifth wheel outside is connected with the inboard laminating of go-between, the slider deviates from go-between one side and resilient means fixed connection, resilient means is including being used for elastic connection slider and the connecting plate and the spring of outer pole, the spring is two tower shape structures, one side of the relative fixed plate of connecting in spring both sides is equipped with the direction inclined plane.

The driving device comprises a driving motor and a transmission device in transmission connection with the driving motor, the driving device is fixedly sleeved at the top of the stirring tank through a supporting frame, the top of the supporting frame is provided with a communication control module, and the bottom of the transmission device is rotatably connected with a driving rod for fixedly connecting the stirring blades.

The bottom in the agitator tank outside is equipped with the discharging pipe, agitator tank bottom fixedly connected with base, the bottom fixed connection of inner tank bottom and agitator tank inside, go-between and heater strip both ends are connected in proper order in turn.

The inside metallic channel of having seted up of actuating lever, the inside bottom of agitator tank is provided with rotatory cover seat, the actuating lever bottom is rotated through rotatory cover seat and agitator tank and is connected, the connecting hole has been seted up in the fixed cover outside, the metallic channel is seted up along the axial of actuating lever, and communicates with the connecting hole, and is a plurality of interior even fixed connection of pole is in fixed cover outside, the adjacent fixed cover one end of interior pole is extended and is equipped with the sixth connecting rod that is used for pegging graft with the connecting hole.

The distance between the inner side of the top of the guide piece and the fixed sleeve is smaller than the distance between the inner side of the bottom of the guide piece and the fixed sleeve.

The side surfaces of the baffle plates and the inner sides of the connecting rings are in matched arc shapes and are in clearance fit with each other.

The end cover that deviates from fixed cover in the interior pole outside is equipped with the sealing washer, the sealing washer closely laminates at the outer pole inner wall.

The inner rod is internally provided with a fifth connecting rod fixedly connected with a sixth connecting rod, the fifth connecting rod is movably inserted inside the fifth connecting rod, the fourth connecting rod deviates from one end of the fifth connecting rod and is inserted inside the third connecting rod, the third connecting rod is fixedly connected with the outer rod, the third connecting rod deviates from one end of the fifth connecting rod and is contacted with the second connecting rod, the second connecting rod deviates from one end of the third connecting rod and is provided with a first connecting rod, and the end part of the first connecting rod is contacted with the top of the connecting wheel.

The connecting wheel comprises a rotating shaft and a metal rotating wheel fixedly connected with the rotating shaft, the metal rotating wheel is a cylindrical body with two protruding ends, an upper insulating sleeve is sleeved at the top of the metal rotating wheel, a lower insulating sleeve is sleeved at the bottom of the metal rotating wheel, and the metal rotating wheel is in contact with the first connecting rod through the top.

The inside central processing unit module, communication module, circuit switch control module that still include of communication control module, the metal runner is provided with the contact induction module.

The invention has the technical effects that:

according to the invention, the driving device is arranged at the top of the stirring tank, and the driving motor and the transmission device for driving are arranged at the top of the driving device, so that the driving rod is driven to rotate through the matching of the driving motor and the transmission device in the use process.

According to the invention, after the driving rod is supported by the supporting frame and the transmission device at the top, the rotary limiting is carried out at the bottom of the driving rod through the rotary sleeve seat, the bottom of the wire groove arranged in the driving rod is sealed, so that materials are prevented from entering the wire groove, the heating wire for heating the materials is arranged in the stirring tank, and the connecting ring can be used for supporting the heating wire, so that the heating effect on the materials is realized.

In the invention, because the top of the outer rod is provided with the inclined plane, the top of the inclined plane is provided with the guide sheet, and the distance between the inner side of the top of the guide sheet and the fixed sleeve is smaller than the distance between the side of the guide sheet and the fixed sleeve, further, in the process of rotating the stirring blade around the driving rod, when the material exists at the top of the outer rod, due to the gravity of the material and the extrusion force of the material on the inner side surface of the guide sheet generated by the material in the rotating process of the stirring blade, the guide sheet can be pushed to move towards one end away from the fixed sleeve by extrusion, and then the outer rod is driven to be separated from the outer side of the inner rod by the guide sheet, after one end of the outer rod, which is far away from the inner rod, is contacted with the inner side of the connecting ring, induced current is generated by the metal rotating wheel, and is connected with electric signals of the elastic connecting device, the second connecting rod, the third connecting rod, the fourth connecting rod, the fifth connecting rod and the sixth connecting rod through a lead arranged in the lead groove, and transmits the electric signal of the sixth connecting rod to the communication control module, through the inside central processing unit module of communication control module to control circuit switch control module and open and shut, highly transmitting the material through communication module afterwards, on the other hand still can assign the instruction to central processing unit module through communication module, and then control opening and shutting of circuit switch control module.

In the invention, in the process that the outer rod extends towards the inner side surface of the connecting ring, in order to avoid the interference of corresponding charges generated by the activated carbon on the induction module, before the end part of the outer rod is not contacted with the inner side surface of the connecting ring, the slide block is pushed by the elastic device to separate the second connecting rod and the third connecting rod which are contacted with each other, after the end part of the outer rod is contacted with the inner side surface of the connecting ring, the elastic connecting device is extruded by the connecting ring to move the elastic connecting device towards the inside of the outer rod and gradually contact the second connecting rod with the end part of the third connecting rod, the connecting fixing plates at two sides of the elastic device gradually extrude the spring in the moving process, and because the guide inclined surfaces are arranged at one sides of the two sides of the spring opposite to the connecting fixing plates, the spring can be extruded and reduced along the guide inclined surfaces in the process that the two sides of the connecting fixing plates extrude the spring, because the spring is in a double-tower-shaped structure, the side surface of the spring can be attached to the connecting and fixing plate, and the spring is extruded and then closely attached to the surface of the opposite side of the connecting and fixing plate, so that the minimum extrusion thickness of the spring is realized.

According to the invention, the bulges are arranged on the two sides of the metal rotating wheel, the upper insulating sleeve and the lower insulating sleeve are respectively sleeved at the two ends of the metal rotating wheel, the metal rotating wheel is insulated and protected through the upper insulating sleeve and the lower insulating sleeve, the friction force is improved for the connecting wheel through the upper insulating sleeve and the lower insulating sleeve, the direct contact type friction between the connecting wheel and the connecting ring is avoided, the danger is avoided, in addition, the baffle is arranged at the top of one end of the outer rod deviating from the inner rod, the rotation process of the elastic connecting device can be protected, and the contact and conduction between the elastic connecting device and the connecting ring are prevented from being influenced by the materials clamped between the elastic connecting device and the connecting ring.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a cross-sectional view of the present invention;

FIG. 3 is an enlarged view of the invention at A in FIG. 2;

FIG. 4 is a schematic view of the construction of the inner vessel according to the present invention;

FIG. 5 is a schematic view of the structure of the coupling ring and the heating wire according to the present invention;

FIG. 6 is an assembly view of the stirring vane of the present invention;

FIG. 7 is an enlarged view of the structure of the stirring vanes of the present invention;

FIG. 8 is an enlarged view of the invention at B in FIG. 7;

FIG. 9 is a schematic view showing the internal structure of a stirring vane of the present invention;

FIG. 10 is a schematic view of the construction of the elastic connecting means of the present invention;

FIG. 11 is an enlarged view of the invention at C in FIG. 10

Fig. 12 is an exploded view of the fifth wheel of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

1. a stirring tank; 101. a discharge pipe; 102. a base; 103. an inner tank; 104. a connecting ring; 105. a heating wire; 106. rotating the sleeve seat;

2. a drive device; 201. a drive motor; 202. a transmission device; 203. a communication control module; 204. a support frame; 205. a drive rod; 206. a wire guide groove;

3. stirring blades; 301. fixing a sleeve; 302. an inner rod; 303. an outer pole; 3031. a seal ring; 3032. a baffle plate;

304. an elastic connection means; 3041. a slider;

3042. a connecting wheel; 30421. a metal runner; 30422. a rotating shaft; 30423. an insulating sleeve is arranged; 30424. a lower insulating sleeve;

3043. a first connecting rod; 3044. a second connecting rod; 3045. a third connecting rod; 3046. a fourth connecting rod; 3047. a fifth connecting rod; 3048. a sixth connecting rod;

3049. an elastic device; 30491. connecting the fixed plate; 30492. a spring; 30493. a guide slope;

305. connecting holes; 306. a guide piece.

Detailed Description

In order that the objects and advantages of the invention will be more clearly understood, the following description is given in conjunction with the accompanying examples. It is to be understood that the following text is merely illustrative of one or more specific embodiments of the invention and does not strictly limit the scope of the invention as specifically claimed.

As shown in fig. 1 and 2, a temperature-controlled activated carbon forming and stirring device comprises a stirring blade 3, a stirring tank 1 and a driving device 2 fixedly installed at the top of the stirring tank 1, wherein the stirring blade 3 is sleeved below the driving device 2.

Further, drive arrangement 2 includes driving motor 201 again and the transmission 202 of being connected with driving motor 201 transmission, and drive arrangement 2 is fixed cup jointing at agitator tank 1 top through the support frame 204 that sets up, and communication control module 203 is installed at the support frame 204 top, and transmission 202 bottom is rotated and is connected with the actuating lever 205 that is used for fixed connection stirring leaf 3.

According to the structure, the driving device 2 is arranged at the top of the stirring tank 1, and the driving motor 201 and the transmission device 202 for driving are arranged at the top of the driving device 2, so that in the using process, the driving rod 205 is driven to rotate through the matching of the driving motor 201 and the transmission device 202, and the driving device 2 further comprises the support frame 204, so that the support frame 204 provides a supporting function for the driving motor 201, the transmission device 202, the communication control module 203 and the driving rod 205, and provides a fixing function for the driving rod 205, and the stability of the driving rod 205 in the rotating process is ensured.

The transmission 202 includes a gear fixedly mounted on the output shaft of the driving motor 201 and at the end of the driving rod 205, and the two gears are engaged with each other.

Referring to fig. 3-5, an inner tank 103 is arranged inside the stirring tank 1, a plurality of connecting rings 104 are embedded on the surface of the inner tank 103, and heating wires 105 are arranged outside the bottoms of the connecting rings 104.

Further, a discharge pipe 101 is arranged at the bottom of the outer side of the stirring tank 1, a base 102 is fixedly connected to the bottom of the stirring tank 1, the bottom of the inner tank 103 is fixedly connected to the bottom of the inner part of the stirring tank 1, and a connecting ring 104 and two ends of the heating wire 105 are sequentially and alternately connected.

According to the structure, the heating wires 105 used for heating the materials are arranged inside the stirring tank 1, and the connecting ring 104 can be used for supporting the heating wires 105, so that the heating effect on the materials is realized.

Referring to fig. 6-8, the stirring vane 3 includes a plurality of fixed sleeves 301, an inner rod 302 and an outer rod 303, the fixed sleeves 301 are fixedly mounted on the driving rod 205, the outer rod 303 is sleeved outside the inner rod 302, a baffle 3032 is disposed on a side surface of the outer rod 303, the outer rod 303 is disposed at the bottom of the baffle 3032 and is embedded with an elastic connection device 304 which is abutted to the inner side of the connection ring 104, an inclined surface is disposed at the top of the outer rod 303, a guide plate 306 is disposed at the top of the outer rod 303, and the width of the guide plate 306 is gradually reduced from the top to the bottom of the inclined surface on the outer rod 303.

Further, the distance between the inside of the top of guide plate 306 and harness 301 is smaller than the distance between the inside of the bottom of guide plate 306 and harness 301.

According to the structure, because the top of the outer rod 303 is provided with the inclined plane, and the top of the inclined plane is provided with the guide plate 306, and the distance between the inner side of the top of the guide plate 306 and the fixing sleeve 301 is smaller than the distance between the inner side of the bottom of the guide plate 306 and the fixing sleeve 301, namely, the guide plate 306 extends obliquely from top to bottom to the outer side, so that in the rotating process of the stirring blade 3 around the driving rod 205, after the material exists at the top of the outer rod 303, the guide plate 306 can be pushed to move away from one end of the fixing sleeve 301 through extrusion due to the gravity of the material and the extrusion force of the material on the inner side surface of the guide plate 306 in the rotating process of the stirring blade 3, and then the outer rod 303 is driven to be separated from the outer side of the inner rod 302 through the guide plate 306.

Referring to fig. 6, 7 and 9, a wire guide 206 is formed inside the driving rod 205, a rotating sleeve seat 106 is arranged at the bottom inside the stirring tank 1, the bottom of the driving rod 205 is rotatably connected with the stirring tank 1 through the rotating sleeve seat 106, a fixing sleeve 301 is fixedly mounted on the driving rod 205, a connecting hole 305 is formed outside the fixing sleeve 301, the wire guide 206 is formed along the axial direction of the driving rod 205 and is communicated with the connecting hole 305, a plurality of inner rods 302 are uniformly and fixedly connected outside the fixing sleeve 301, and a sixth connecting rod 3048 for being connected with the connecting hole 305 in an inserting mode is arranged at one end, adjacent to the fixing sleeve 301, of each inner rod 302 in an extending mode.

According to the structure, after the driving rod 205 is supported by the supporting frame 204 and the transmission device 202 at the top, the rotating sleeve seat 106 arranged at the bottom of the driving rod 205 through the bottom of the stirring tank 1 is in rotating type limiting, and the wire groove 206 arranged inside the driving rod 205 is sealed at the bottom, so that the material is prevented from entering the wire groove 206.

Referring to fig. 9-11, the elastic connection device 304 further includes a slider 3041, a connection wheel 3042, a second connection rod 3044, a third connection rod 3045 and an elastic device 3049, the slider 3041 is slidably connected inside the outer rod 303, the connection wheel 3042 is rotatably embedded inside the slider 3041, the outer side of the connection wheel 3042 is attached to the inner side of the connection ring 104, the slider 3041 is fixedly connected to the elastic device 3049 at a side away from the connection ring 104, the elastic device 3049 includes a connection fixing plate 30491 and a spring 30492 for elastically connecting the slider 3041 and the outer rod 303, the spring 30492 is in a double-tower structure, guide inclined surfaces 30493 are provided at two sides of the spring 30492 opposite to the connection fixing plate 30491, and after the spring 30492 is pressed, the guide inclined surfaces 30493 at two ends of the spring 30492 are gradually attached to opposite sides of the connection fixing plate 30491, so that the guide inclined surfaces 30493 are used for pressing the spring 30492 to attach to one of the connection fixing plates 30491.

Further, a sixth connecting rod 3048 is embedded inside one end of the adjacent fixing sleeve 301, a fifth connecting rod 3047 fixedly connected to the sixth connecting rod 3048 is installed inside the inner rod 302, a fourth connecting rod 3046 is movably inserted inside the fifth connecting rod 3047, an end of the fourth connecting rod 3046 away from the fifth connecting rod 3047 is inserted inside the third connecting rod 3045, the third connecting rod 3045 is fixedly connected to the outer rod 303, an end of the third connecting rod 3045 away from the fifth connecting rod 3047 contacts with the second connecting rod 3044, an end of the second connecting rod 3044 away from the third connecting rod 3045 is provided with a first connecting rod 3043, and an end of the first connecting rod 3043 contacts with a top of the connecting wheel 3042.

According to the above structure, in the process that the outer rod 303 extends towards the inner side surface of the connection ring 104, in order to prevent the activated carbon from generating corresponding charges to interfere the sensing module, before the end of the outer rod 303 is not in contact with the inner side surface of the connection ring 104, the slider 3041 is pushed by the elastic device 3049 to separate the second connecting rod 3044 and the third connecting rod 3045 which are in contact with each other, when the end of the outer rod 303 is in contact with the inner side surface of the connection ring 104, the elastic connecting device 304 is pushed by the connection ring 104 to move the elastic connecting device 304 towards the inside of the outer rod 303, and gradually make the second connecting rod 3044 and the third connecting rod 3045 contact with each other, the connection fixing plates 30491 at both sides of the elastic device 3049 gradually push the spring 30492 in the process of moving, because the guide inclined surfaces 30493 are arranged at the opposite sides of the connection fixing plates 30491 at both sides of the spring 30492, so in the process of pressing the spring 30492 at both sides of the connection fixing plates 30491, the spring 30492 can be compressed and shrunk along the guiding inclined surface 30493, and because the spring 30492 has a double-tower structure, the side surface of the spring 30492 can be attached to the connecting and fixing plate 30491, and after being compressed, the spring 30492 can be closely attached to the surface of the connecting and fixing plate 30491 on the opposite side, so that the minimum compression thickness of the spring 30492 can be realized.

The communication control module 203 further includes a central processing unit module, a communication module, and a circuit switch control module, and the metal wheel 30421 is provided with a contact sensing module.

According to the above structure, after the end of the outer rod 303 departing from the inner rod 302 contacts with the inner side of the connection ring 104, an induced current is generated through the metal runner 30421, and the induced current passes through the first connection rod 3043, the second connection rod 3044, the third connection rod 3045, the fourth connection rod 3046, the fifth connection rod 3047 and the sixth connection rod 3048 in turn to be electrically connected, and the sixth connection rod 3048 is electrically transmitted to the communication control module 203 through the conducting wire arranged inside the conducting wire groove 206, and passes through the central processing module inside the communication control module 203, and controls the opening and closing of the circuit switch control module, and then the material height is transmitted through the communication module.

Referring to fig. 5, 9 and 12, the side surface of the blocking plate 3032 and the inner side of the connection ring 104 are in an arc shape and are in clearance fit with each other.

Furthermore, a sealing ring 3031 is sleeved at one end of the outer side of the inner rod 302, which is away from the fixing sleeve 301, and the sealing ring 3031 is tightly attached to the inner wall of the outer rod 303.

Further, the connecting wheel 3042 includes a rotating shaft 30422 and a metal wheel 30421 fixedly connected thereto, the metal wheel 30421 is a cylindrical body with two ends provided with protrusions, an upper insulating sleeve 30423 is sleeved on the top of the metal wheel 30421, a lower insulating sleeve 30424 is sleeved on the bottom of the metal wheel 30421, and the metal wheel 30421 is in contact with the first connecting rod 3043 through the top.

According to the above structure, since the two sides of the metal rotating wheel 30421 are provided with the protrusions, and the two ends of the metal rotating wheel 30421 are respectively sleeved with the upper insulating sleeve 30423 and the lower insulating sleeve 30424, firstly, the metal rotating wheel 30421 is insulated and protected by the upper insulating sleeve 30423 and the lower insulating sleeve 30424, and the connecting wheel 3042 is lifted by the upper insulating sleeve 30423 and the lower insulating sleeve 30424, so as to avoid direct contact friction between the connecting wheel 3042 and the connecting ring 104 and danger, in addition, the top of the end of the outer rod 303 away from the inner rod 302 is provided with the baffle 3032, so that the rotation process of the elastic connecting device 304 can be protected, and the material is prevented from being clamped between the elastic connecting device 304 and the connecting ring 104 to affect the contact and conduction between the elastic connecting device 304 and the connecting ring 104.

The working principle of the invention is as follows: after the driving rod 205 is supported by the supporting frame 204 and the transmission device 202 at the top, the bottom of the driving rod 205 is rotatably limited by the rotating sleeve seat 106 arranged at the bottom inside the stirring tank 1, the bottom of the wire groove 206 arranged inside the driving rod 205 is sealed to prevent the material from entering the wire groove 206, the heating wire 105 for heating the material is arranged inside the stirring tank 1, and the connecting ring 104 can be used for supporting the heating wire 105, so that the heating effect on the material is realized;

in the process that the stirring blade 3 rotates around the driving rod 205, when there is a material on the top of the outer rod 303, due to the gravity of the material and the extrusion force of the material on the inner side surface of the guide plate 306 generated by the stirring blade 3 in the rotation process, the guide plate 306 can be pushed to move towards the end away from the fixed sleeve 301 by the extrusion, so as to drive the outer rod 303 to separate from the outer side of the inner rod 302 by the guide plate 306, when the end of the outer rod 303 away from the inner rod 302 contacts with the inner side of the connecting ring 104, an induced current is generated by the metal runner 30421, and the induced current passes through the elastic connecting device 3043, the second connecting rod 3044, the third connecting rod 3045, the fourth connecting rod 3046, the fifth connecting rod 3047 and the sixth connecting rod 3048 to be electrically connected, and the electrical signal of the sixth connecting rod 3048 is transmitted to the communication control module 203 by the lead arranged inside of the lead groove 206, and passes through the central processor module inside the communication control module 203, the circuit switch control module is controlled to be opened and closed, then the height of the materials is transmitted through the communication module, and on the other hand, the communication module can give an instruction to the central processing unit module so as to control the opening and closing of the circuit switch control module;

in the process that the outer rod 303 extends towards the inner side surface of the connection ring 104, in order to prevent the activated carbon from generating corresponding charges to interfere the sensing module, before the end of the outer rod 303 is not in contact with the inner side surface of the connection ring 104, the slider 3041 is pushed by the elastic device 3049 to separate the second connecting rod 3044 and the third connecting rod 3045 which are in contact with each other, when the end of the outer rod 303 is in contact with the inner side surface of the connection ring 104, the elastic connecting device 304 is squeezed by the connection ring 104 to move the elastic connecting device 304 towards the inside of the outer rod 303, and gradually make the second connecting rod 3044 and the end of the third connecting rod 3045 contact with each other, the connection fixing plates 30491 at both sides of the elastic device 3049 gradually squeeze the spring 30492 in the moving process, because the guide inclined surfaces 30493 are arranged at the opposite sides of the connection fixing plates 30491 at both sides of the spring 30492, in the process that the fixing plates 30491 at both sides squeeze the spring 30492, the spring 30492 can be extruded and shrunk along the guiding inclined surface 30493, because the spring 30492 is in a double-tower structure, the guiding inclined surfaces 30493 are arranged on one sides of the two sides of the spring 30492 opposite to the connecting and fixing plates 30491, and after the spring 30492 is extruded, the guiding inclined surfaces 30493 on the two ends of the spring 30492 are gradually attached to the opposite sides of the connecting and fixing plates 30491, so that the guiding inclined surfaces 30493 are used for attaching the spring 30492 to one of the connecting and fixing plates 30491 after being extruded, and the minimum extruding thickness of the spring 30492 is realized.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that those skilled in the art can make various improvements and modifications without departing from the principle of the present invention, and these improvements and modifications should also be construed as the protection scope of the present invention. Structures, devices, and methods of operation not specifically described or illustrated herein are generally practiced in the art without specific recitation or limitation.

Claims

1. The utility model provides a control by temperature change formula active carbon shaping agitating unit which characterized in that includes:

the stirring device comprises a stirring tank (1) and a driving device (2) fixedly arranged at the top of the stirring tank (1);

the stirring blade (3), the stirring blade (3) is sleeved below the driving device (2);

an inner tank (103) is arranged in the stirring tank (1), a plurality of connecting rings (104) are embedded in the surface of the inner tank (103), and heating wires (105) are arranged on the outer side of the bottom of each connecting ring (104);

the stirring blade (3) comprises a fixed sleeve (301), an inner rod (302) and an outer rod (303), the outer rod (303) is sleeved on the outer side of the inner rod (302), a baffle (3032) is arranged on the side surface of the outer rod (303), an elastic connecting device (304) which is abutted to the inner side of the connecting ring (104) is embedded in the bottom of the baffle (3032) of the outer rod (303), an inclined plane is arranged at the top of the outer rod (303), a guide sheet (306) is arranged at the top of the outer rod (303), and the guide sheet (306) is gradually reduced in width from the top to the bottom of the inclined plane on the outer rod (303);

the elastic connecting device (304) further comprises a sliding block (3041), a connecting wheel (3042), a second connecting rod (3044), a third connecting rod (3045) and an elastic device (3049), the sliding block (3041) is connected to the inside of the outer rod (303) in a sliding mode, the connecting wheel (3042) is embedded in the sliding block (3041) in a rotating mode, the outer side of the connecting wheel (3042) is connected with the inner side of the connecting ring (104) in a fitting mode, and one side, away from the connecting ring (104), of the sliding block (3041) is fixedly connected with the elastic device (3049);

the elastic device (3049) comprises a connecting fixing plate (30491) and a spring (30492), wherein the connecting fixing plate (30491) is used for elastically connecting the sliding block (3041) and the outer rod (303), the spring (30492) is of a double-tower-shaped structure, guide inclined planes (30493) are arranged on two sides of the spring (30492) opposite to one side of the connecting fixing plate (30491), and the guide inclined planes (30493) are used for enabling the spring (30492) to be attached to one connecting fixing plate (30491) after being extruded.

2. The temperature-controlled activated carbon forming and stirring device as claimed in claim 1, wherein: drive arrangement (2) include driving motor (201) again and drive arrangement (202) of being connected with driving motor (201) transmission, drive arrangement (2) are fixed cup jointing at agitator tank (1) top through support frame (204) that set up, communication control module (203) are installed at support frame (204) top, drive arrangement (202) bottom is rotated and is connected with actuating lever (205) that are used for fixed connection stirring leaf (3).

3. The temperature-controlled activated carbon forming and stirring device as claimed in claim 1, wherein: the bottom in agitator tank (1) outside is equipped with discharging pipe (101), agitator tank (1) bottom fixedly connected with base (102), inner tank (103) bottom and the inside bottom fixed connection of agitator tank (1), go-between (104) and heater strip (105) both ends are connected in proper order in turn.

4. The temperature-controlled activated carbon forming and stirring device as claimed in claim 2, wherein: the utility model discloses a multifunctional stirring tank, including actuating lever (205), actuating lever (205) inside has been seted up wire casing (206), the inside bottom of agitator tank (1) is provided with rotatory cover seat (106), actuating lever (205) bottom is rotated through rotatory cover seat (106) and agitator tank (1) and is connected, fixed cover (301) fixed mounting is on actuating lever (205), connecting hole (305) have been seted up in fixed cover (301) outside, wire casing (206) are seted up along the axial of actuating lever (205), and communicate with connecting hole (305), and are a plurality of interior pole (302) even fixed connection is in fixed cover (301) outside, the adjacent fixed cover (301) one end of interior pole (302) extends and is equipped with sixth connecting rod (3048) that is used for pegging graft with connecting hole (305).

5. The temperature-controlled activated carbon forming and stirring device as claimed in claim 1, wherein: the distance between the inner side of the top of the guide sheet (306) and the fixing sleeve (301) is smaller than the distance between the inner side of the bottom of the guide sheet (306) and the fixing sleeve (301).

6. The temperature-controlled activated carbon forming and stirring device as claimed in claim 1, wherein: the side surface of the baffle plate (3032) and the inner side of the connecting ring (104) are in matched arc shapes and are in clearance fit with each other.

7. The temperature-controlled activated carbon forming and stirring device as claimed in claim 1, wherein: the outer side of the inner rod (302) is away from one end of the fixed sleeve (301) and is sleeved with a sealing ring (3031), and the sealing ring (3031) is tightly attached to the inner wall of the outer rod (303).

8. The temperature-controlled activated carbon forming and stirring device as claimed in claim 1, wherein: the sixth connecting rod (3048) is embedded inside one end of an adjacent fixing sleeve (301), a fifth connecting rod (3047) fixedly connected with the sixth connecting rod (3048) is installed inside the inner rod (302), a fourth connecting rod (3046) is movably inserted inside the fifth connecting rod (3047), one end of the fourth connecting rod (3046) departing from the fifth connecting rod (3047) is inserted inside the third connecting rod (3045), the third connecting rod (3045) is fixedly connected with the outer rod (303), one end of the third connecting rod (3045) departing from the fifth connecting rod (3047) is in contact with the second connecting rod (3044), one end of the second connecting rod (3044) departing from the third connecting rod (3045) is provided with a first connecting rod (3043), and the end of the first connecting rod (3043) is in contact with the top of the connecting wheel (3042).

9. The temperature-controlled activated carbon forming and stirring device as claimed in claim 1, wherein: the connecting wheel (3042) comprises a rotating shaft (30422) and a metal rotating wheel (30421) fixedly connected with the rotating shaft, wherein the metal rotating wheel (30421) is a cylindrical body with two ends provided with protrusions, an upper insulating sleeve (30423) is sleeved on the top of the metal rotating wheel (30421), a lower insulating sleeve (30424) is sleeved on the bottom of the metal rotating wheel (30421), and the metal rotating wheel (30421) is in contact with the first connecting rod (3043) through the top.

10. The temperature-controlled activated carbon forming and stirring device as claimed in claim 9, wherein: the communication control module (203) comprises a central processing unit module, a communication module and a circuit switch control module, and the metal rotating wheel (30421) is provided with a contact induction module.