CN217829706U - Emulsification development device - Google Patents

Abstract

The utility model discloses a device is developed in emulsification, this device is developed in emulsification includes drum main part, rabbling mechanism, emulsification mechanism and heating mechanism. The cylinder body includes a housing and an internal cavity. The top of the shell is provided with a feed inlet and a waste gas discharge mechanism which are communicated with the inner cavity, the bottom of the side wall of the shell is provided with a discharge outlet which is communicated with the inner cavity, and the inside of the shell is provided with a heat insulation layer and a heating mechanism. The stirring mechanism is arranged at the bottom of the inner cavity, and the emulsifying mechanism is arranged at the top of the inner cavity. The utility model provides a temperature difficult control during current modified asphalt production, emulsification inhomogeneous, manual operation dependence strong, easily produce poison gas influence healthy and the asphalt develops and appear segregation phenomenon scheduling problem easily.

Description

Emulsification development device

Technical Field

The utility model relates to a pitch processing equipment, concretely relates to emulsification device of developing belongs to pitch processing equipment technical field.

Background

At present, most of the production of modified asphalt does not leave the high-speed shearing emulsification process of asphalt, and the modified asphalt (such as rubber powder modified asphalt) produced in a laboratory needs to be prepared only after shearing emulsification of a modifier and melted asphalt at high temperature. The modified asphalt can be emulsified more fully by manual stirring in the emulsifying process, and the temperature is difficult to control at the optimal temperature in the process, so the problems of high-temperature aging of the asphalt and insufficient and uneven emulsification easily occur; the asphalt can easily release toxic gas at high temperature, thus causing damage to human body; after emulsification is finished, the asphalt can be used after being placed in a specific temperature box for development, and the phenomenon of precipitation and segregation of an asphalt modifier is easy to occur in the development process, so that the problem of uneven distribution of the content of the modified asphalt is caused.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art, the utility model provides an emulsification device of developing, the utility model provides a temperature difficult control during current modified asphalt production, emulsification inhomogeneous, manual operation dependence strong, easily produce poison gas influence healthy and pitch development and appear segregation phenomenon scheduling problem easily.

In order to achieve the above object, the utility model adopts the following technical scheme:

an emulsification development device comprises a cylinder main body, a stirring mechanism, an emulsification mechanism and a heating mechanism. The cylinder body includes a housing and an internal cavity. The top of the shell is provided with a feed inlet communicated with the inner cavity and a waste gas discharge mechanism, the bottom of the side wall of the shell is provided with a discharge outlet communicated with the inner cavity, and the inside of the shell is provided with a heat insulation layer and a heating mechanism. The stirring mechanism is arranged at the bottom of the inner cavity, and the emulsifying mechanism is arranged at the top of the inner cavity.

Preferably, the stirring mechanism comprises a stirring motor, a stirring connecting rod and a stirring blade. The stirring motor is fixedly arranged at the center of the bottom wall of the inner cavity. The middle part of the stirring connecting rod is connected with a transmission shaft of a stirring motor. The two ends of the stirring connecting rod are both vertically provided with the stirring blades.

Preferably, the emulsifying mechanism comprises an emulsifying motor, an emulsifying telescopic rotating shaft and an emulsifying head. The emulsification motor is fixedly arranged at the center of the top wall of the inner cavity. The top end of the emulsification flexible rotating shaft is connected with a transmission shaft of an emulsification motor, and the bottom end of the emulsification flexible rotating shaft is connected with an emulsification head. Namely, the emulsifying head is suspended in the inner cavity through the emulsifying telescopic rotating shaft and is positioned above the stirring motor. The rotation direction of the emulsification telescopic rotating shaft is the same as or opposite to that of the stirring blade.

Preferably, the heating mechanism is a heating resistance wire or a heating resistance tube. The heating resistance wires or heating resistance tubes are embedded and installed in the side wall of the shell and are distributed at equal intervals.

Preferably, the emulsification development device further comprises a temperature sensor. The temperature sensor is arranged on the surface of the middle part of the stirring connecting rod.

Preferably, the emulsification development device also comprises a heat insulation base. The heat insulation base is of a round cake-shaped structure, the cylinder main body is fixedly arranged on the upper surface of the heat insulation base, and the center of the bottom of the cylinder main body coincides with the center of the surface of the heat insulation base.

Preferably, the surface radius of the thermal insulation base is larger than the radius of the bottom wall of the cylinder main body. The difference between the radius of the surface of the heat insulation base and the radius of the bottom wall of the cylinder main body is not less than 30mm. And heat insulation materials are filled in the heat insulation base and the heat insulation layer in the shell.

Preferably, the emulsification development device further comprises a controller. The controller sets up on the outer wall of casing to be provided with display screen and control panel on the controller. The controller is connected with the stirring mechanism, the emulsifying mechanism and the heating mechanism through electric signals.

Preferably, a feeding funnel is arranged on the feeding hole. The feeding funnel is a square funnel with a wide upper part and a narrow lower part. A plurality of feeding baffles which are arranged oppositely are also arranged between the feeding hopper and the feeding hole. The upper end of the feeding baffle plates is hinged with the bottom end edge of the feeding hopper. The lower end of each feeding baffle is inclined downwards and can be closed in a contact mode at the central axis of the feeding hole. The back of the inclined plane of the feeding baffle plates is connected with the inner wall of the feeding hole through an independent spring assembly.

Preferably, a discharge baffle is arranged on the discharge hole. One side of the discharging baffle is fixed on the outer wall of the shell on one side of the discharging port through a hinge. And a strip-shaped switch catch is also arranged on the outer wall of the shell on the opposite side of the hinge, one end of the switch catch is movably arranged on the outer wall of the shell through a catch bearing, and the other end of the switch catch is connected with a buckle arranged on the discharge baffle in a clamping manner. The lower side of the discharge port is provided with a discharge guide plate protruding to the outside of the main body.

Preferably, a pair of handles are symmetrically arranged on the upper parts of the outer walls of the two opposite sides of the shell.

Preferably, the exhaust gas discharge mechanism includes an exhaust gas adsorption device provided at a top of the main body and an exhaust pipe provided above the exhaust gas adsorption device.

The utility model provides an emulsification development device is used for the emulsification development of pitch or is used for the emulsification development of modified asphalt.

In the utility model, in the emulsification development process of the modified asphalt, the modified asphalt can not be completely emulsified due to incomplete contact between the modifier in the asphalt and the emulsification head or uneven distribution; and it is difficult to control the temperature of the asphalt by an electric furnace during emulsification; and the development stage after emulsification is finished needs to be replaced into an incubator for operation, and the like. The utility model discloses an evenly inlay in the inside of casing and be provided with controllable heating resistor silk of temperature or heating resistor pipe and heat preservation, the constancy of temperature of production process has been guaranteed in the heating of material in can all-round realization casing inner chamber. Still effectively promote the emulsification degree of modified asphalt through inside setting up emulsification head and stirring vane, and then realize automatic stirring emulsification and develop, saved the manpower, improve production efficiency.

In the utility model, the emulsification motor, the emulsification telescopic rotating shaft and the emulsification head realize the emulsification function; meanwhile, the stirring motor, the stirring connecting rod and the stirring blade realize the stirring function; the heating resistance wire or the heating resistance tube in the shell realizes the heating function. Wherein, the flexible pivot of emulsification can freely stretch out and draw back and rotate, and the height of control emulsification head in the inner chamber and the control emulsification head are rotatory, and then can realize the intensive emulsification to material of the different degree of depth department. Furthermore, the rotating direction of the emulsifying head can be different from that of the stirring blade, so that the stirring and emulsifying effects can be greatly improved.

The utility model discloses in, a pair of handle is installed to casing outer wall bilateral symmetry formula, can make things convenient for the spatial position of this device to remove. Meanwhile, the lower part of the cylinder main body is provided with the heat insulation base, and the radius of the heat insulation base is larger than that of the cylinder main body, so that the stability of the cylinder main body during working can be ensured, and the internal high temperature can not generate adverse influence on the surrounding environment.

The utility model discloses in, still be provided with the controller on the casing outer wall, the controller carries out signal connection with agitator motor, emulsification motor, the flexible pivot of emulsification, heating mechanism and temperature sensor etc. respectively. When the device works, the stirring motor, the emulsifying motor and the emulsifying telescopic rotating shaft can be controlled through a control panel on the controller, so that the rotating speed and the height of the emulsifying head and the rotating speed of the stirring blades can be adjusted; the adjustment of the internal temperature is realized by controlling the heating mechanism and the temperature sensor.

The utility model discloses in, discharge gate department is provided with square baffle, and it is in the same place through hinge and casing external connection, is provided with by bearing pivoted switch separation blade in the offside of hinge, opens the raw materials of square baffle back main part inner chamber and can flow out fast, avoids the cooling solidification that leads to too of a specified duration with air contact time at the in-process that flows for ejection of compact speed. The discharge guide plate fixed on the main body is arranged on the lower side of the baffle plate, so that the convenience in discharging is improved, and the pollution to the surrounding environment and the waste of materials are avoided.

The utility model discloses in, feed inlet department is provided with square feed hopper, and feed hopper's inner wall is the slope wall design of big-end-up inside little, can avoid the heat of the internal intracavity of main part to let out too much when the feeding of being convenient for when the feeding. Further, still be provided with polylith (preferably two) feeding baffle in the feed inlet (be close to feed hopper), and use spring unit as the back support of feeding baffle, thereby make it can only unidirectional rotation (extrude the spring and make two feeding baffles open under the action of gravity of material), avoid having the raw materials to reveal in the use (when not feeding promptly, with two feeding baffles closed under the spring action), increased the convenience and the practicality of this device.

The utility model discloses in, waste gas emission mechanism sets up waste gas adsorption equipment with main part connecting portion, sets up the blast pipe in waste gas adsorption equipment top, can be with gas discharge external pipeline when guaranteeing to adsorb toxic gas, greatly reduced toxic gas to the harm of human body and to the pollution of environment.

In the present invention, generally, the height of the cylinder main body is 380-1000mm, the diameter is 250-600mm, and the thickness is 30mm; the thickness of the heat insulation base is 50mm, and the diameter of the heat insulation base is 310-660mm; the upper edge of the feed inlet is 100-200mm long, the lower edge is 80-160mm long, and the height is 60-100mm; the length of a sleeve of the emulsification telescopic rotating shaft is 120-300mm, the diameter of the emulsification telescopic rotating shaft is 20-30mm, the length of a telescopic rod is 100-400mm, the diameter of the telescopic rod is 15-25mm, the rod can be telescopic in the sleeve, and the lower end of the rod is connected with an emulsification head with the diameter of 100-150mm and the height of 60-100mm; the length of the stirring connecting rod is 180-450mm, the vertical distance between the stirring connecting rod and the inner bottom of the cylinder main body is 20-30mm, two ends of the stirring connecting rod are connected with two stirring blades with the thickness of 10-20mm, the length of 250-750mm and the width of 30-80mm, and the distance between the stirring blades and the inner side wall of the cylinder main body is 20-60mm; the handle is 80-160mm long and 30-50mm wide and is fixed at a position 100-300mm away from the top surface of the cylinder main body. The discharge port is a square outlet with the side length of 50-180 mm.

When the utility model works, raw materials with specific proportion are added into the inner cavity of the main body from the upper side feed inlet, the heating device and the stirring motor are simultaneously started, and the stirring motor drives the stirring connecting rod to rotate by taking the middle point of the stirring connecting rod as the center, thereby realizing the revolution of the stirring blades; and starting the emulsifying motor when the temperature of the raw materials displayed on the controller reaches the temperature required by the test, and adjusting the length of the emulsifying telescopic rotating shaft to enable the emulsifying head to completely enter the raw materials and then start to emulsify. At this in-process, stirring vane can carry out the stirring of different rotational speeds along with setting up of controller, heating device also can carry out the settlement of different temperatures, emulsification head also can carry out the rotation of different rotational speeds, the flexible pivot of emulsification can carry out the flexible of different length for the raw materials obtains intensive mixing, has further promoted the stirring degree of consistency. Can close the emulsification motor after emulsification, develop the raw materials at the constant temperature in the main part inner chamber, open discharge baffle after development is accomplished and make the modified asphalt after abundant emulsification development is accomplished flow from the discharge gate, accomplish emulsification development from this. After the cleaning device is used, the cleaning agent can be poured into the cleaning device from the feeding hole, the stirring motor is started, the cleaning agent is fully stirred in the inner cavity of the main body, the discharging hole is opened after the cleaning is finished, so that waste materials are discharged, and the automatic cleaning function of the cleaning device is realized.

Compared with the prior art, the utility model discloses a beneficial technological effect as follows:

1: the utility model discloses a device is grown in emulsification through the synergism of rabbling mechanism, emulsification mechanism and heating mechanism, and the difficult control of temperature, emulsification are inhomogeneous, the manual operation dependency is strong, easy production poison gas influence healthy and pitch development appearance segregation phenomenon scheduling problem easily when having solved current modified asphalt production.

2: the utility model discloses a device reasonable in design is reliable in emulsification development, has realized abundant emulsification, even stirring, development convenience, can form the modified asphalt that the state is good, the reliability is high, the performance is excellent, can effectively save time and prevent the poisoning phenomenon that probably appears in artificial production process in process of production, improved work efficiency greatly, make things convenient for ejection of compact and quick-witted incasement to wash simultaneously, have simple structure, convenient operation, productivity efficient advantage can be used to laboratory and industrial production modified asphalt etc..

Drawings

Fig. 1 is a schematic view of the three-dimensional structure of the emulsification device of the present invention.

Fig. 2 is a schematic view of the sectional structure of the emulsification device of the present invention.

Fig. 3 is a schematic view of the local structure of the feeding funnel of the emulsification and development device of the present invention.

Fig. 4 is a schematic structural diagram of the discharge baffle of the emulsification development device of the present invention.

Reference numerals: 1: a cylindrical body; 101: a housing; 102: an inner cavity; 103: a feed inlet; 104: a discharge port; 105: a discharging guide plate; 106: a heat-insulating layer; 2: a stirring mechanism; 201: a stirring motor; 202: a stirring connecting rod; 203: a stirring blade; 3: an emulsification mechanism; 301: an emulsification motor; 302: an emulsification telescopic rotating shaft; 303: an emulsifying head; 4: a heating mechanism; 5: a temperature sensor; 6: a thermally insulated base; 7: a controller; 8: a feed hopper; 9: a feed baffle; 901: a spring assembly; 10: a discharge baffle; 1001: a hinge; 1002: buckling; 11: a switch catch; 1101: a catch bearing; 12: a handle; 13: an exhaust gas discharge mechanism; 1301: an exhaust pipe; 1302: an exhaust gas adsorption device.

Detailed Description

The technical solution of the present invention is illustrated below, and the claimed invention includes but is not limited to the following embodiments.

An emulsification device comprises a cylinder body 1, a stirring mechanism 2, an emulsification mechanism 3 and a heating mechanism 4. The cylinder body 1 includes a housing 101 and an inner cavity 102. The top of the casing 101 is provided with a feed inlet 103 communicated with the inner cavity 102 and a waste gas discharge mechanism 13, the bottom of the side wall of the casing 101 is provided with a discharge outlet 104 communicated with the inner cavity 102, and the inside of the casing is provided with an insulating layer 106 and a heating mechanism 4. The stirring mechanism 2 is arranged at the bottom of the inner cavity 102, and the emulsifying mechanism 3 is arranged at the top of the inner cavity 102.

Preferably, the stirring mechanism 2 includes a stirring motor 201, a stirring link 202, and a stirring blade 203. The stirring motor 201 is fixedly arranged at the center of the bottom wall of the inner cavity 102. The middle part of the stirring link 202 is connected with the transmission shaft of the stirring motor 201. The stirring blades 203 are vertically installed at both ends of the stirring connecting rod 202.

Preferably, the emulsifying mechanism 3 includes an emulsifying motor 301, an emulsifying telescopic rotating shaft 302 and an emulsifying head 303. The emulsification motor 301 is fixedly arranged at the center of the top wall of the inner cavity 102. The top end of the emulsification telescopic rotating shaft 302 is connected with the transmission shaft of the emulsification motor 301, and the bottom end of the emulsification telescopic rotating shaft 302 is connected with the emulsification head 303. That is, the emulsifying head 303 is suspended in the inner cavity 102 by the emulsifying telescopic rotating shaft 302 and is located above the stirring motor 201. The rotation direction of the emulsification telescopic rotating shaft 302 is the same as or opposite to the rotation direction of the stirring blade 203.

Preferably, the heating mechanism 4 is a heating resistance wire or a heating resistance tube. The heating resistance wires or heating resistance tubes are embedded and installed in the side wall of the shell 101 and are distributed at equal intervals.

Preferably, the emulsion development device further includes a temperature sensor 5. The temperature sensor 5 is installed on the middle surface of the agitating connecting rod 202.

Preferably, the emulsification development device also comprises a heat insulation base 6. The heat insulation base 6 is of a round cake-shaped structure, the cylinder body 1 is fixedly arranged on the upper surface of the heat insulation base 6, and the center of the bottom of the cylinder body 1 coincides with the center of the surface of the heat insulation base 6.

Preferably, the surface radius of the thermal insulation base 6 is larger than the bottom wall radius of the cylinder main body 1. The difference between the radius of the surface of the heat insulation base 6 and the radius of the bottom wall of the cylinder body 1 is not less than 30mm. The heat insulation base 6 and the shell inner heat insulation layer 106 are filled with heat insulation materials.

Preferably, the emulsion development device further comprises a controller 7. The controller 7 is disposed on an outer wall of the housing 101, and a display screen and a control panel are disposed on the controller 7. And the controller 7 is in electrical signal connection with the stirring mechanism 2, the emulsifying mechanism 3 and the heating mechanism 4.

Preferably, the feed inlet 103 is provided with a feed hopper 8. The feeding funnel 8 is a square funnel with a wide upper part and a narrow lower part. A plurality of oppositely arranged feeding baffles 9 are arranged between the feeding funnel 8 and the feeding hole 103. The upper ends of the feeding baffle plates 9 are hinged with the bottom end edge part of the feeding hopper 8. The lower ends of the feeding baffle plates 9 are all inclined downwards and can be closed in a contact mode at the central axis of the feeding hole 103. The back parts of the inclined surfaces of the feeding baffles 9 are connected with the inner wall of the feeding hole 103 through independent spring assemblies 901.

Preferably, the discharge hole 104 is provided with a discharge baffle 10. One side of the discharge baffle 10 is fixed on the outer wall of the shell 101 at the side of the discharge hole 104 through a hinge 1001. A strip-shaped switch baffle 11 is further arranged on the outer wall of the shell 101 opposite to the hinge 1001, one end of the switch baffle 11 is movably mounted on the outer wall of the shell 101 through a baffle bearing 1101, and the other end of the switch baffle 11 is connected with a buckle 1002 arranged on the discharging baffle 10 in a clamping manner. The discharge guide 105 protruding to the outside of the main body 1 is provided at the lower side of the discharge hole 104.

Preferably, a pair of handles 12 are symmetrically disposed on the upper portions of the outer walls of the opposite sides of the housing 101.

Preferably, the exhaust gas discharge mechanism 13 includes an exhaust gas adsorption device 1302 provided on the top of the main body 1 and an exhaust pipe 1301 provided above the exhaust gas adsorption device 1302.

Example 1

As shown in fig. 1 to 4, an emulsification device includes a cylindrical main body 1, a stirring mechanism 2, an emulsification mechanism 3, and a heating mechanism 4. The cylinder body 1 includes a housing 101 and an inner cavity 102. The top of the shell 101 is provided with a feeding hole 103 communicated with the inner cavity 102, the bottom of the side wall of the shell 101 is provided with a discharging hole 104 communicated with the inner cavity 102, and the shell is internally provided with a heat-insulating layer 106 and a heating mechanism 4. The stirring mechanism 2 is arranged at the bottom of the inner cavity 102, and the emulsifying mechanism 3 is arranged at the top of the inner cavity 102.

Example 2

Embodiment 1 is repeated except that the stirring mechanism 2 includes a stirring motor 201, a stirring link 202, and a stirring blade 203. The stirring motor 201 is fixedly arranged at the center of the bottom wall of the inner cavity 102. The middle part of the stirring link 202 is connected with the transmission shaft of the stirring motor 201. The stirring blades 203 are vertically installed at both ends of the stirring connecting rod 202.

Example 3

Example 2 is repeated except that the emulsifying mechanism 3 includes an emulsifying motor 301, an emulsifying telescopic rotating shaft 302 and an emulsifying head 303. The emulsification motor 301 is fixedly arranged at the center of the top wall of the inner cavity 102. The top end of the emulsification telescopic rotating shaft 302 is connected with the transmission shaft of the emulsification motor 301, and the bottom end of the emulsification telescopic rotating shaft 302 is connected with the emulsification head 303. That is, the emulsifying head 303 is suspended in the inner cavity 102 by the emulsifying telescopic rotating shaft 302 and is located above the stirring motor 201. The rotation direction of the emulsification telescopic rotating shaft 302 is the same as the rotation direction of the stirring blade 203.

Example 4

Example 2 was repeated except that the rotation direction of the emulsification telescopic rotating shaft 302 was opposite to the rotation direction of the stirring blade 203.

Example 5

Example 4 is repeated except that the heating means 4 is a heating resistance wire. The heating resistance wires are embedded and installed on the side wall of the shell 101 and are arranged at equal intervals.

Example 6

Example 4 was repeated except that the heating means 4 was a heating resistance tube. The heating resistor pipes are embedded and installed inside the side walls, bottom walls and top wall of the casing 101.

Example 7

Example 6 was repeated except that the emulsion development apparatus further included a temperature sensor 5. The temperature sensor 5 is installed on the middle surface of the agitating connecting rod 202.

Example 8

Example 7 was repeated except that the emulsion growth apparatus further included a heat insulating base 6. The heat insulation base 6 is of a round cake-shaped structure, the cylinder body 1 is fixedly arranged on the upper surface of the heat insulation base 6, and the center of the bottom of the cylinder body 1 coincides with the center of the surface of the heat insulation base 6.

Example 9

Example 8 was repeated except that the radius of the surface of the insulating base 6 was larger than the radius of the bottom wall of the cylinder body 1. The difference between the radius of the surface of the heat insulation base 6 and the radius of the bottom wall of the cylinder body 1 is not less than 30mm. The heat insulation base 6 and the shell inner heat insulation layer 106 are filled with heat insulation materials.

Example 10

Example 9 was repeated except that the emulsion development apparatus further included a controller 7. The controller 7 is disposed on an outer wall of the housing 101, and a display screen and a control panel are disposed on the controller 7. And the controller 7 is in electric signal connection with the stirring mechanism 2, the emulsifying mechanism 3 and the heating mechanism 4.

Example 11

Example 10 was repeated except that the feed inlet 103 was provided with a feed hopper 8. The feeding funnel 8 is a square funnel with a wide upper part and a narrow lower part. A plurality of oppositely arranged feeding baffles 9 are arranged between the feeding hopper 8 and the feeding hole 103. The upper ends of the feeding baffle plates 9 are hinged with the bottom end edge part of the feeding hopper 8. The lower ends of the feeding baffle plates 9 are all inclined downwards and can be closed in a contact mode at the central axis of the feeding hole 103. The back parts of the inclined surfaces of the feeding baffles 9 are connected with the inner wall of the feeding hole 103 through independent spring assemblies 901.

Example 12

Example 11 was repeated except that the discharge port 104 was provided with a discharge baffle 10. One side of the discharge baffle 10 is fixed on the outer wall of the shell 101 at the side of the discharge hole 104 through a hinge 1001. A strip-shaped switch baffle 11 is further arranged on the outer wall of the shell 101 opposite to the hinge 1001, one end of the switch baffle 11 is movably mounted on the outer wall of the shell 101 through a baffle bearing 1101, the other end of the switch baffle 11 is connected with a buckle 1002 arranged on the discharging baffle 10 in a clamping manner, and a discharging guide plate 105 protruding out of the main body 1 is arranged on the lower side of the discharging port 104.

Example 13

Example 12 is repeated except that a pair of handles 12 are symmetrically provided on the upper portions of the outer walls of the opposite sides of the housing 101.

Example 14

Example 13 is repeated except that the exhaust gas discharge mechanism 13 includes an exhaust gas adsorption device 1302 provided on the top of the main body 1 and an exhaust pipe 1301 provided above the exhaust gas adsorption device 1302.

Claims (10)

1. An emulsification development device, which is characterized in that: the emulsifying development device comprises a cylinder main body (1), a stirring mechanism (2), an emulsifying mechanism (3) and a heating mechanism (4); the cylinder body (1) comprises a shell (101) and an inner cavity (102); a feed inlet (103) communicated with the inner cavity (102) and a waste gas discharge mechanism (13) are formed in the top of the shell (101), a discharge outlet (104) communicated with the inner cavity (102) is formed in the bottom of the side wall of the shell (101), and a heat insulation layer (106) and a heating mechanism (4) are arranged inside the shell; the stirring mechanism (2) is arranged at the bottom of the inner cavity (102), and the emulsifying mechanism (3) is arranged at the top of the inner cavity (102).

2. The emulsion development apparatus according to claim 1, wherein: the stirring mechanism (2) comprises a stirring motor (201), a stirring connecting rod (202) and stirring blades (203); the stirring motor (201) is fixedly arranged at the center of the bottom wall of the inner cavity (102); the middle part of the stirring connecting rod (202) is connected with a transmission shaft of a stirring motor (201); and the two ends of the stirring connecting rod (202) are both provided with the stirring blades (203) in a vertical shape.

3. The emulsion development apparatus according to claim 2, wherein: the emulsifying mechanism (3) comprises an emulsifying motor (301), an emulsifying telescopic rotating shaft (302) and an emulsifying head (303); the emulsifying motor (301) is fixedly arranged at the center of the top wall of the inner cavity (102); the top end of the emulsification telescopic rotating shaft (302) is connected with a transmission shaft of an emulsification motor (301), and the bottom end of the emulsification telescopic rotating shaft (302) is connected with an emulsification head (303); namely, the emulsifying head (303) is suspended in the inner cavity (102) through the emulsifying telescopic rotating shaft (302) and is positioned above the stirring motor (201); the rotation direction of the emulsification telescopic rotating shaft (302) is the same as or opposite to the rotation direction of the stirring blade (203).

4. The emulsion development apparatus according to claim 3, wherein: the heating mechanism (4) is a heating resistance wire or a heating resistance tube; the heating resistance wires or heating resistance tubes are embedded and installed on the side wall of the shell (101) and are distributed at equal intervals.

5. The emulsion development apparatus according to claim 4, wherein: the emulsification development device also comprises a temperature sensor (5); the temperature sensor (5) is arranged on the surface of the middle part of the stirring connecting rod (202).

6. The emulsion development apparatus according to claim 5, wherein: the emulsification development device also comprises a heat insulation base (6); the heat insulation base (6) is of a round cake-shaped structure, the cylinder main body (1) is fixedly arranged on the upper surface of the heat insulation base (6), and the center of the bottom of the cylinder main body (1) is overlapped with the center of the surface of the heat insulation base (6).

7. The emulsion development apparatus according to claim 6, wherein: the surface radius of the heat insulation base (6) is larger than the radius of the bottom wall of the cylinder main body (1); the difference between the surface radius of the heat insulation base (6) and the bottom wall radius of the cylinder main body (1) is not less than 30mm; and heat insulation materials are filled in the heat insulation base (6) and the heat insulation layer (106) in the shell.

8. The emulsion development apparatus according to claim 7, wherein: the emulsification development device also comprises a controller (7); the controller (7) is arranged on the outer wall of the shell (101), and a display screen and a control panel are arranged on the controller (7); and the controller (7) is in electrical signal connection with the stirring mechanism (2), the emulsifying mechanism (3) and the heating mechanism (4).

9. The emulsion development apparatus according to claim 8, wherein: a feeding hopper (8) is arranged on the feeding hole (103); the feeding hopper (8) is a square hopper with a wide upper part and a narrow lower part; a plurality of feeding baffles (9) which are oppositely arranged are also arranged between the feeding hopper (8) and the feeding hole (103); the upper ends of the feeding baffles (9) are hinged with the bottom end edge part of the feeding hopper (8); the lower ends of the feeding baffles (9) are all inclined downwards and can be closed in a contact manner at the central axis of the feeding hole (103); the back parts of the inclined surfaces of the feeding baffles (9) are connected with the inner wall of the feeding hole (103) through independent spring assemblies (901).

10. The emulsion development apparatus according to claim 9, wherein: a discharge baffle (10) is arranged on the discharge hole (104); one side of the discharging baffle (10) is fixed on the outer wall of the shell (101) positioned on one side of the discharging hole (104) through a hinge (1001); a strip-shaped switch baffle (11) is further arranged on the outer wall of the shell (101) opposite to the hinge (1001), one end of the switch baffle (11) is movably mounted on the outer wall of the shell (101) through a baffle bearing (1101), and the other end of the switch baffle (11) is connected with a buckle (1002) arranged on the discharging baffle (10) in a clamping manner; a discharge guide plate (105) protruding to the outside of the main body (1) is arranged on the lower side of the discharge hole (104); a pair of handles (12) are symmetrically arranged at the upper parts of the outer walls of two opposite sides of the shell (101); the exhaust gas discharge mechanism (13) comprises an exhaust gas adsorption device (1302) arranged at the top of the main body (1) and an exhaust pipe (1301) arranged above the exhaust gas adsorption device (1302).

Images