CN211389444U - Dry powder mortar agitating unit with filtration - Google Patents

Abstract

The utility model discloses a dry powder mortar agitating unit with filtration, its characterized in that: a stirring cavity is arranged on the frame, a first stirring shaft is arranged in the stirring cavity, one end of the first stirring shaft is sequentially provided with a driving motor and a differential gear set, the differential gear set is connected with a second stirring shaft, a stirring knife is arranged on the first stirring shaft, a stirring spiral blade is arranged on the second stirring shaft, a vibrating screen is arranged at the bottom of the first stirring shaft, and a thermal acceleration mechanism is arranged outside the stirring cavity; on one hand, good stirring capacity is provided by the two groups of reversely rotating stirring knives, and meanwhile, the stirring capacity and the mixing uniformity are increased by vibrating and sieving, so that the stirring speed is high, the finished product is uniformly mixed, and the practicability is high; on the other hand, the internal environment of the heating and cooling equipment ensures the stable temperature of the mixer, the working time of the equipment is long, and the equipment is not easy to break down.

Description

Dry powder mortar agitating unit with filtration

Technical Field

The utility model belongs to the agitating unit field, in particular to dry powder mortar agitating unit with filtration.

Background

At present, the development status of stirring devices in China can see that a plurality of production enterprises exist, products are serialized, but the technical level is different, only part of the products are close to the advanced level, some technologies exceed the level of imported chemical stirrers, and part of the products have the advantages of high automation degree, high production capacity, high weighing precision, less investment, good stirring quality, capability of realizing continuous production with multiple bin numbers and multiple matching ratios and high localization degree of a host and main components thereof, but the chemical stirrers in China also have the defects of low whole technical content, large difference of low popularization rate and low intelligence degree, high environmental protection performance and the like.

Although the industrial development of China is very rapid, the stirring device still has many defects, for example, most of the existing stirring devices have the problems of low stirring speed and poor processing efficiency, and cannot control the internal environment of equipment, so that the product quality is poor. Therefore, the present application has innovated and improved the stirring device in regard to the above problems.

The existing stirring device mainly has the following problems:

1. most of the existing stirring devices have the problems of low stirring speed, poor processing efficiency and poor practicability.

2. Most of the existing stirring devices can not control the internal environment of equipment, and the internal temperature is uncertain, thereby influencing the product quality.

Disclosure of Invention

The purpose of the invention is as follows: in order to overcome the defects, the utility model aims to provide a dry powder mortar stirring device with a filtering structure, on one hand, good stirring capacity is provided through two groups of reversely rotating stirring knives, and meanwhile, the stirring capacity and the mixing uniformity are increased through vibration sieving, the stirring speed is high, the finished product is uniformly mixed, and the practicability is high; on the other hand, the internal environment of the heating and cooling equipment ensures the stable temperature of the mixer, the working time of the equipment is long, and the equipment is not easy to break down.

The technical scheme is as follows: in order to achieve the above object, the utility model provides a dry powder mortar agitating unit with filtration, its characterized in that: the method comprises the following steps: the stirring device comprises a frame, a stirring cavity, a first stirring shaft, a driving motor, a second stirring shaft, a differential gear set, a stirring knife, a stirring spiral blade, a vibrating screen and a heat accelerating mechanism, wherein the frame is provided with the stirring cavity, the stirring cavity is internally provided with the first stirring shaft, one end of the first stirring shaft penetrates out of the stirring cavity, one end of the first stirring shaft, which penetrates out of the stirring cavity, is provided with the driving motor, one end of the driving motor is provided with the differential gear set, the differential gear set is connected with the second stirring shaft, the first stirring shaft is hollow, the second stirring shaft is arranged in the first stirring shaft, one end of the second stirring shaft, which is far away from the driving motor, penetrates out of the first stirring shaft, the outer surface of the first stirring shaft is provided with the stirring knife, the outer surface of the second stirring shaft is provided with the, a thermal acceleration mechanism is arranged outside the stirring cavity and wraps the stirring cavity;

the thermal acceleration mechanism comprises a heater, a heating pipe and a heat insulation plate, the heating pipe is arranged on the outer side of the stirring cavity and connected with the heater, the heater is arranged on the outer surface of the stirring cavity, and the heat insulation plate is arranged on the outer side of the heating pipe.

According to the invention, the stirring device is provided with good stirring capacity through the two groups of reversely rotating stirring knives, and meanwhile, the stirring capacity and the mixing uniformity are increased through vibrating and sieving, so that the stirring speed is high, the finished product is uniformly mixed, and the practicability is high.

The vibrating screen comprises a fixed plate, a vibrating motor, a vibrator, a vibrating screen body, a connecting leather membrane and a dustproof sleeve, wherein the fixed plate is arranged on the inner surface of a material mixing cavity, the vibrating motor is arranged on the fixed plate, one end of the vibrating motor is connected with the vibrator, the vibrator is connected with the vibrating motor through a chain, the vibrating screen body is arranged on the vibrator, the connecting leather membrane is arranged on the side edge of the vibrating screen body and is connected with the vibrating screen body and the material mixing cavity, the dustproof sleeve is arranged on the outer side of the vibrating motor and wraps the vibrating motor and the vibrator, one end of the dustproof sleeve is connected to the fixed plate, and the other end of the dustproof sleeve is fixed on the vibrating screen body.

According to the arrangement of the vibrating screen, the vibrating screen is vibrated through the vibrator, the connection leather membrane and the dustproof sleeve are used for sealing the vibrating screen, the stirring capacity and the mixing uniformity of the equipment are improved, and the practicability is high.

The bottom of the material mixing cavity is provided with a damping mechanism, the damping mechanism comprises a floating hydraulic cylinder, a first floating oil way, a second floating oil way, a first floating oil tank, a second floating oil tank and a damping spring, the floating hydraulic cylinder is arranged at the bottom of the material mixing cavity and comprises a cylinder body and a piston, the piston is arranged in the cylinder body, oil ports are arranged on two sides of the piston, a first floating oil way is arranged on the oil port on one side of the piston, a first floating oil tank is arranged at one end of the first floating oil way, the first floating oil tank is arranged on the rack, a second floating oil way is arranged on the oil port on the other side of the piston, a second floating oil tank is arranged at one end of the second floating oil way, the second floating oil tank is arranged on the rack, the floating hydraulic cylinders are provided with a plurality of the floating hydraulic, one end of the damping spring is fixed at the bottom of the mixing cavity, and the other end of the damping spring is fixed on the rack.

According to the invention, the damping mechanism is arranged, and the free floating of the mixing cavity is realized through the floating hydraulic cylinder, so that the transmission of the vibration of the equipment to the outside is reduced, the influence of the outside vibration on the equipment is reduced, the vibration connection between the equipment and the outside is blocked, the possibility of resonance is reduced, and the safety of the equipment is improved; meanwhile, supporting force and the buffering effect on the equipment are provided through the damping spring, the free floating speed and amplitude of the equipment are reduced, and the stability of the equipment is improved.

The top of the material mixing cavity is provided with a plurality of feeding holes, a plurality of spiral-channel material mixing grooves and a material mixing opening, wherein the feeding holes are formed in the outer surface of the material mixing cavity, and one end of each feeding hole is provided with the spiral-channel material mixing grooves. The spiral channel mixing tank is arranged from top to bottom, a material mixing opening is formed in the bottom of the spiral channel mixing tank, and the material mixing opening is funnel-shaped.

According to the invention, the spiral mixing groove and the material combining port are arranged, so that horizontal centrifugal force is provided for materials through the spiral mixing groove, the centrifugal force is eliminated through the material combining port, two times of primary mixing of the materials is realized through two times of force changes, the mixing degree of the materials is improved, and the production efficiency of the equipment is greatly improved.

According to the invention, one end of the mixing spiral blade, which is close to the vibrating screen, is provided with the slow-falling partition plate, the slow-falling partition plate is conical, the center height of the slow-falling partition plate is lower than the edge height of the slow-falling partition plate, the center of the slow-falling partition plate is provided with a through hole, and the screen is arranged in the through hole.

According to the invention, the slow-falling partition plate is arranged, so that the descending speed of the materials can be delayed, the material mixing spiral blade can continuously mix the materials, the mixing uniformity of the materials is improved, the processing speed difference between the vibrating screen and the material mixing spiral blade can be balanced, and the materials are prevented from being accumulated on the vibrating screen.

The mixing cavity is provided with a cooling mechanism, the cooling mechanism comprises a supporting plate, a temperature sensor, an amplifying circuit, a power water tank, a cooling pipe and an electromagnetic on-off valve, the supporting plate is arranged between a first mixing shaft and a second mixing shaft, the supporting plate is provided with the temperature sensor, the temperature sensor is connected with the amplifying circuit, the amplifying circuit is connected with the electromagnetic on-off valve, the temperature sensor is essentially a temperature-sensitive resistor, the temperature sensor and the amplifying circuit form an electric loop, the electric loop is connected with a workshop power supply, and the amplifying circuit is connected with the electromagnetic on-off valve; the power water tank is arranged at the top of the mixing cavity, the power water tank is connected with a cooling pipe, the cooling pipe is arranged on the supporting plate, the cooling pipe is laid between the first mixing shaft and the second mixing shaft, two ends of the cooling pipe are connected into the power water tank, and the electromagnetic opening and closing valve is arranged on the power water tank.

The cooling mechanism provided by the invention realizes automatic detection and automatic control of temperature through the temperature sensor and the electromagnetic opening and closing valve, has high automation degree, does not adopt logic elements and chips, does not relate to programs, has low transformation cost, and is easy to expand market and enterprise sales.

The inner side of the bottom of the first mixing shaft is provided with an oil seal, and the oil seal seals a gap between the first mixing shaft and the second mixing shaft.

The arrangement of the oil seal seals the gap between the two shafts, so that the reduction of the rotating speed and the loss of materials caused by the fact that the materials enter the gap can be avoided, and the cooling mechanism can be protected from being influenced.

Above-mentioned technical scheme can find out, the utility model discloses following beneficial effect has:

1. the utility model discloses in a dry powder mortar agitating unit with filtration, its stirring sword through two sets of counter-rotations provides good stirring ability, sieves its stirring ability and the degree of consistency of mixing of increase through the vibration simultaneously, stirring speed is fast, the finished product misce bene, the practicality is high.

2. The utility model discloses in a dry powder mortar agitating unit with filtration, it has realized automated inspection and the automatic control of temperature through temperature sensor and electromagnetism open and close valve, degree of automation is high, does not adopt logic element and chip simultaneously, does not relate to the procedure, reforms transform with low costsly, easily enlarges market and enterprise's sale.

Drawings

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

fig. 2 is a schematic structural view of the thermal acceleration mechanism of the present invention;

FIG. 3 is a schematic structural diagram of the vibrating screen of the present invention;

FIG. 4 is a schematic structural view of the damping mechanism of the present invention;

FIG. 5 is a schematic structural view of the mixing chamber of the present invention;

fig. 6 is a schematic structural view of the cooling mechanism of the present invention;

fig. 7 is a schematic circuit structure diagram of the cooling mechanism of the present invention;

in the figure: a frame-1, a mixing cavity-2, a feed inlet-21, a spiral-channel mixing groove-22, a mixing port-23, a first mixing shaft-3, a driving motor-4, a second mixing shaft-5, a differential gear set-6, a mixing knife-7, a mixing spiral blade-8, a vibrating screen-9, a fixing plate-91, a vibrating motor-92, a vibrator-93, a vibrating screen body-94, a connecting leather diaphragm-95, a dustproof sleeve-96, a damping mechanism-10, a floating hydraulic cylinder-101, a first floating oil circuit-102, a second floating oil circuit-103, a first floating oil tank-104, a second floating oil tank-105, a damping spring-106, a slow-falling clapboard-11, a cooling mechanism-12, a supporting plate-121, a first floating oil tank-104, a second floating oil tank-106, a slow-lifting, A temperature sensor-122, an amplifying circuit-123, a power water tank-124, a cooling pipe-125, an electromagnetic on-off valve-126, a thermal acceleration mechanism-13, a heater-131, a heating pipe-132 and a thermal insulation board-133.

Detailed Description

The invention will be further elucidated with reference to the drawings and the specific embodiments.

Example 1

As shown in fig. 1, a dry mortar mixing device with a filtering structure comprises: the stirring device comprises a frame 1, a stirring cavity 2, a first stirring shaft 3, a driving motor 4, a second stirring shaft 5, a differential gear set 6, a stirring knife 7, a stirring spiral blade 8, a vibrating screen 9 and a heat accelerating mechanism 13, wherein the stirring cavity 2 is arranged on the frame 1, the first stirring shaft 3 is arranged in the stirring cavity 2, one end of the first stirring shaft 3 penetrates out of the stirring cavity 2, the driving motor 4 is arranged at one end of the first stirring shaft 3 which penetrates out of the stirring cavity 2, the differential gear set 6 is arranged at one end of the driving motor 4, the differential gear set 6 is connected with the second stirring shaft 5, the first stirring shaft 3 is hollow, the second stirring shaft 5 is arranged in the first stirring shaft 3, one end of the second stirring shaft 5, which is far away from the driving motor 4, penetrates out of the first stirring shaft 3, the stirring knife 7 is arranged on the outer surface of the first stirring shaft 3, a vibrating screen 9 is arranged at the bottom of the first stirring shaft 3, the vibrating screen 9 is fixed at the bottom of the stirring cavity 2, a thermal acceleration mechanism 13 is arranged outside the stirring cavity 2, and the thermal acceleration mechanism 13 wraps the stirring cavity 2;

the thermal acceleration mechanism 13 comprises a heater 131, a heating pipe 132 and a heat insulation plate 133, the heating pipe 132 is arranged outside the stirring chamber 2, the heating pipe 132 is connected with the heater 131, the heater 131 is arranged on the outer surface of the stirring chamber 2, and the heat insulation plate 133 is arranged outside the heating pipe 132.

The vibrating screen 9 described in this embodiment includes a fixing plate 91, a vibrating motor 92, a vibrator 93, a vibrating screen body 94, a connecting skin membrane 95 and a dust-proof sleeve 96, the fixing plate 91 is disposed on the inner surface of the mixing chamber 2, the vibrating motor 92 is disposed on the fixing plate 91, one end of the vibrating motor 92 is connected with the vibrator 93, the vibrator 93 is connected with the vibrating motor 92 through a chain, the vibrating screen body 94 is disposed on the vibrator 93, the connecting skin membrane 95 is disposed on the side edge of the vibrating screen body 94, the connecting skin membrane 95 is connected with the vibrating screen body 94 and the mixing chamber 2, the dust-proof sleeve 96 is disposed on the outer side of the vibrating motor 92, the vibrating motor 92 and the vibrator 93 are wrapped by the dust-proof sleeve 96, one end of the dust-proof sleeve 96 is connected to the fixing plate 91, and.

The bottom of the material mixing cavity 2 in this embodiment is provided with a damping mechanism 10, the damping mechanism 10 includes a floating hydraulic cylinder 101, a first floating oil path 102, a second floating oil path 103, a first floating oil tank 104, a second floating oil tank 105 and a damping spring 106, the floating hydraulic cylinder 101 is arranged at the bottom of the material mixing cavity 2, the floating hydraulic cylinder 101 includes a cylinder body and a piston, the cylinder body is internally provided with the piston, oil ports are arranged at two sides of the piston, the first floating oil path 102 is arranged on the oil port at one side of the piston, the first floating oil tank 104 is arranged at one end of the first floating oil path 102, the first floating oil tank 104 is arranged on the frame 1, the second floating oil path 103 is arranged on the oil port at the other side of the piston, the second floating oil tank 105 is arranged at one end of the second floating oil path 103, the second floating oil tank 105 is arranged on the frame, a damping spring 106 is arranged on the outer side of the floating hydraulic cylinder 101, one end of the damping spring 106 is fixed at the bottom of the mixing cavity 2, and the other end of the damping spring 106 is fixed on the frame 1.

In this embodiment, the top of the mixing cavity 2 is provided with a feed inlet 21, a spiral mixing groove 22 and a mixing opening 23, the feed inlet 21 is arranged on the outer surface of the mixing cavity 2, the feed inlet 21 is provided with a plurality of feed inlets, and one end of the feed inlet 21 is provided with the spiral mixing groove 22. The spiral channel mixing tank 22 is arranged up and down, a material mixing opening 23 is formed in the bottom of the spiral channel mixing tank 22, and the material mixing opening 23 is funnel-shaped.

In this embodiment the one end that compounding helical blade 8 is close to vibratory screen 9 be provided with slowly falling baffle 11, slowly falling baffle 11 is the toper, slowly falling baffle 11 central height is less than slowly falling baffle 11 edge height, slowly falling baffle 11 center is provided with the through-hole, be provided with the screen cloth in the through-hole.

The mixing chamber 2 described in this embodiment is provided with a cooling mechanism 12, the cooling mechanism 12 includes a support plate 121, a temperature sensor 122, an amplifying circuit 123, a power water tank 124, a cooling pipe 125, and an electromagnetic on-off valve 126, the support plate 121 is disposed between the first mixing shaft 3 and the second mixing shaft 5, the support plate 121 is provided with the temperature sensor 122, the temperature sensor 122 is connected to the amplifying circuit 123, the amplifying circuit 123 is connected to the electromagnetic on-off valve 126, the temperature sensor 122 is essentially a temperature sensitive resistor, the temperature sensor 122 and the amplifying circuit 123 form an electric circuit, the electric circuit is connected to a workshop power supply, and the amplifying circuit 123 is connected to the electromagnetic on-off valve 126; the power water tank 124 is arranged at the top of the mixing cavity 2, the power water tank 124 is connected with a cooling pipe 125, the cooling pipe 125 is arranged on the support plate 121, the cooling pipe 125 is laid between the first mixing shaft 3 and the second mixing shaft 5, two ends of the cooling pipe 125 are connected in the power water tank 124, and the electromagnetic on-off valve 126 is arranged on the power water tank 124.

In this embodiment, the inner side of the bottom of the first mixing shaft 3 is provided with an oil seal, and the oil seal seals a gap between the first mixing shaft 3 and the second mixing shaft 5.

Example 1

As shown in fig. 1, a dry mortar mixing device with a filtering structure comprises: the stirring device comprises a frame 1, a stirring cavity 2, a first stirring shaft 3, a driving motor 4, a second stirring shaft 5, a differential gear set 6, a stirring knife 7, a stirring spiral blade 8, a vibrating screen 9 and a heat accelerating mechanism 13, wherein the stirring cavity 2 is arranged on the frame 1, the first stirring shaft 3 is arranged in the stirring cavity 2, one end of the first stirring shaft 3 penetrates out of the stirring cavity 2, the driving motor 4 is arranged at one end of the first stirring shaft 3 which penetrates out of the stirring cavity 2, the differential gear set 6 is arranged at one end of the driving motor 4, the differential gear set 6 is connected with the second stirring shaft 5, the first stirring shaft 3 is hollow, the second stirring shaft 5 is arranged in the first stirring shaft 3, one end of the second stirring shaft 5, which is far away from the driving motor 4, penetrates out of the first stirring shaft 3, the stirring knife 7 is arranged on the outer surface of the first stirring shaft 3, a vibrating screen 9 is arranged at the bottom of the first stirring shaft 3, the vibrating screen 9 is fixed at the bottom of the stirring cavity 2, a thermal acceleration mechanism 13 is arranged outside the stirring cavity 2, and the thermal acceleration mechanism 13 wraps the stirring cavity 2;

the thermal acceleration mechanism 13 comprises a heater 131, a heating pipe 132 and a heat insulation plate 133, the heating pipe 132 is arranged outside the stirring chamber 2, the heating pipe 132 is connected with the heater 131, the heater 131 is arranged on the outer surface of the stirring chamber 2, and the heat insulation plate 133 is arranged outside the heating pipe 132.

Example 3

As shown in fig. 3, a dry mortar mixing device with a filtering structure comprises: the stirring device comprises a frame 1, a stirring cavity 2, a first stirring shaft 3, a driving motor 4, a second stirring shaft 5, a differential gear set 6, a stirring knife 7, a stirring spiral blade 8, a vibrating screen 9 and a heat accelerating mechanism 13, wherein the stirring cavity 2 is arranged on the frame 1, the first stirring shaft 3 is arranged in the stirring cavity 2, one end of the first stirring shaft 3 penetrates out of the stirring cavity 2, the driving motor 4 is arranged at one end of the first stirring shaft 3 which penetrates out of the stirring cavity 2, the differential gear set 6 is arranged at one end of the driving motor 4, the differential gear set 6 is connected with the second stirring shaft 5, the first stirring shaft 3 is hollow, the second stirring shaft 5 is arranged in the first stirring shaft 3, one end of the second stirring shaft 5, which is far away from the driving motor 4, penetrates out of the first stirring shaft 3, the stirring knife 7 is arranged on the outer surface of the first stirring shaft 3, a vibrating screen 9 is arranged at the bottom of the first stirring shaft 3, the vibrating screen 9 is fixed at the bottom of the stirring cavity 2, a thermal acceleration mechanism 13 is arranged outside the stirring cavity 2, and the thermal acceleration mechanism 13 wraps the stirring cavity 2;

the thermal acceleration mechanism 13 comprises a heater 131, a heating pipe 132 and a heat insulation plate 133, the heating pipe 132 is arranged outside the stirring chamber 2, the heating pipe 132 is connected with the heater 131, the heater 131 is arranged on the outer surface of the stirring chamber 2, and the heat insulation plate 133 is arranged outside the heating pipe 132.

The vibrating screen 9 described in this embodiment includes a fixing plate 91, a vibrating motor 92, a vibrator 93, a vibrating screen body 94, a connecting skin membrane 95 and a dust-proof sleeve 96, the fixing plate 91 is disposed on the inner surface of the mixing chamber 2, the vibrating motor 92 is disposed on the fixing plate 91, one end of the vibrating motor 92 is connected with the vibrator 93, the vibrator 93 is connected with the vibrating motor 92 through a chain, the vibrating screen body 94 is disposed on the vibrator 93, the connecting skin membrane 95 is disposed on the side edge of the vibrating screen body 94, the connecting skin membrane 95 is connected with the vibrating screen body 94 and the mixing chamber 2, the dust-proof sleeve 96 is disposed on the outer side of the vibrating motor 92, the vibrating motor 92 and the vibrator 93 are wrapped by the dust-proof sleeve 96, one end of the dust-proof sleeve 96 is connected to the fixing plate 91, and.

Example 4

As shown in fig. 4, a dry mortar mixing device with a filtering structure comprises: the stirring device comprises a frame 1, a stirring cavity 2, a first stirring shaft 3, a driving motor 4, a second stirring shaft 5, a differential gear set 6, a stirring knife 7, a stirring spiral blade 8, a vibrating screen 9 and a heat accelerating mechanism 13, wherein the stirring cavity 2 is arranged on the frame 1, the first stirring shaft 3 is arranged in the stirring cavity 2, one end of the first stirring shaft 3 penetrates out of the stirring cavity 2, the driving motor 4 is arranged at one end of the first stirring shaft 3 which penetrates out of the stirring cavity 2, the differential gear set 6 is arranged at one end of the driving motor 4, the differential gear set 6 is connected with the second stirring shaft 5, the first stirring shaft 3 is hollow, the second stirring shaft 5 is arranged in the first stirring shaft 3, one end of the second stirring shaft 5, which is far away from the driving motor 4, penetrates out of the first stirring shaft 3, the stirring knife 7 is arranged on the outer surface of the first stirring shaft 3, a vibrating screen 9 is arranged at the bottom of the first stirring shaft 3, the vibrating screen 9 is fixed at the bottom of the stirring cavity 2, a thermal acceleration mechanism 13 is arranged outside the stirring cavity 2, and the thermal acceleration mechanism 13 wraps the stirring cavity 2;

the thermal acceleration mechanism 13 comprises a heater 131, a heating pipe 132 and a heat insulation plate 133, the heating pipe 132 is arranged outside the stirring chamber 2, the heating pipe 132 is connected with the heater 131, the heater 131 is arranged on the outer surface of the stirring chamber 2, and the heat insulation plate 133 is arranged outside the heating pipe 132.

The bottom of the material mixing cavity 2 in this embodiment is provided with a damping mechanism 10, the damping mechanism 10 includes a floating hydraulic cylinder 101, a first floating oil path 102, a second floating oil path 103, a first floating oil tank 104, a second floating oil tank 105 and a damping spring 106, the floating hydraulic cylinder 101 is arranged at the bottom of the material mixing cavity 2, the floating hydraulic cylinder 101 includes a cylinder body and a piston, the cylinder body is internally provided with the piston, oil ports are arranged at two sides of the piston, the first floating oil path 102 is arranged on the oil port at one side of the piston, the first floating oil tank 104 is arranged at one end of the first floating oil path 102, the first floating oil tank 104 is arranged on the frame 1, the second floating oil path 103 is arranged on the oil port at the other side of the piston, the second floating oil tank 105 is arranged at one end of the second floating oil path 103, the second floating oil tank 105 is arranged on the frame, a damping spring 106 is arranged on the outer side of the floating hydraulic cylinder 101, one end of the damping spring 106 is fixed at the bottom of the mixing cavity 2, and the other end of the damping spring 106 is fixed on the frame 1.

Example 5

As shown in fig. 5, a dry mortar mixing device with a filtering structure comprises: the stirring device comprises a frame 1, a stirring cavity 2, a first stirring shaft 3, a driving motor 4, a second stirring shaft 5, a differential gear set 6, a stirring knife 7, a stirring spiral blade 8, a vibrating screen 9 and a heat accelerating mechanism 13, wherein the stirring cavity 2 is arranged on the frame 1, the first stirring shaft 3 is arranged in the stirring cavity 2, one end of the first stirring shaft 3 penetrates out of the stirring cavity 2, the driving motor 4 is arranged at one end of the first stirring shaft 3 which penetrates out of the stirring cavity 2, the differential gear set 6 is arranged at one end of the driving motor 4, the differential gear set 6 is connected with the second stirring shaft 5, the first stirring shaft 3 is hollow, the second stirring shaft 5 is arranged in the first stirring shaft 3, one end of the second stirring shaft 5, which is far away from the driving motor 4, penetrates out of the first stirring shaft 3, the stirring knife 7 is arranged on the outer surface of the first stirring shaft 3, a vibrating screen 9 is arranged at the bottom of the first stirring shaft 3, the vibrating screen 9 is fixed at the bottom of the stirring cavity 2, a thermal acceleration mechanism 13 is arranged outside the stirring cavity 2, and the thermal acceleration mechanism 13 wraps the stirring cavity 2;

the thermal acceleration mechanism 13 comprises a heater 131, a heating pipe 132 and a heat insulation plate 133, the heating pipe 132 is arranged outside the stirring chamber 2, the heating pipe 132 is connected with the heater 131, the heater 131 is arranged on the outer surface of the stirring chamber 2, and the heat insulation plate 133 is arranged outside the heating pipe 132.

In this embodiment, the top of the mixing cavity 2 is provided with a feed inlet 21, a spiral mixing groove 22 and a mixing opening 23, the feed inlet 21 is arranged on the outer surface of the mixing cavity 2, the feed inlet 21 is provided with a plurality of feed inlets, and one end of the feed inlet 21 is provided with the spiral mixing groove 22. The spiral channel mixing tank 22 is arranged up and down, a material mixing opening 23 is formed in the bottom of the spiral channel mixing tank 22, and the material mixing opening 23 is funnel-shaped.

Example 6

As shown in fig. 6 and 7, a dry mortar mixing apparatus having a filtering structure includes: the stirring device comprises a frame 1, a stirring cavity 2, a first stirring shaft 3, a driving motor 4, a second stirring shaft 5, a differential gear set 6, a stirring knife 7, a stirring spiral blade 8, a vibrating screen 9 and a heat accelerating mechanism 13, wherein the stirring cavity 2 is arranged on the frame 1, the first stirring shaft 3 is arranged in the stirring cavity 2, one end of the first stirring shaft 3 penetrates out of the stirring cavity 2, the driving motor 4 is arranged at one end of the first stirring shaft 3 which penetrates out of the stirring cavity 2, the differential gear set 6 is arranged at one end of the driving motor 4, the differential gear set 6 is connected with the second stirring shaft 5, the first stirring shaft 3 is hollow, the second stirring shaft 5 is arranged in the first stirring shaft 3, one end of the second stirring shaft 5, which is far away from the driving motor 4, penetrates out of the first stirring shaft 3, the stirring knife 7 is arranged on the outer surface of the first stirring shaft 3, a vibrating screen 9 is arranged at the bottom of the first stirring shaft 3, the vibrating screen 9 is fixed at the bottom of the stirring cavity 2, a thermal acceleration mechanism 13 is arranged outside the stirring cavity 2, and the thermal acceleration mechanism 13 wraps the stirring cavity 2;

the thermal acceleration mechanism 13 comprises a heater 131, a heating pipe 132 and a heat insulation plate 133, the heating pipe 132 is arranged outside the stirring chamber 2, the heating pipe 132 is connected with the heater 131, the heater 131 is arranged on the outer surface of the stirring chamber 2, and the heat insulation plate 133 is arranged outside the heating pipe 132.

The mixing chamber 2 described in this embodiment is provided with a cooling mechanism 12, the cooling mechanism 12 includes a support plate 121, a temperature sensor 122, an amplifying circuit 123, a power water tank 124, a cooling pipe 125, and an electromagnetic on-off valve 126, the support plate 121 is disposed between the first mixing shaft 3 and the second mixing shaft 5, the support plate 121 is provided with the temperature sensor 122, the temperature sensor 122 is connected to the amplifying circuit 123, the amplifying circuit 123 is connected to the electromagnetic on-off valve 126, the temperature sensor 122 is essentially a temperature sensitive resistor, the temperature sensor 122 and the amplifying circuit 123 form an electric circuit, the electric circuit is connected to a workshop power supply, and the amplifying circuit 123 is connected to the electromagnetic on-off valve 126; the power water tank 124 is arranged at the top of the mixing cavity 2, the power water tank 124 is connected with a cooling pipe 125, the cooling pipe 125 is arranged on the support plate 121, the cooling pipe 125 is laid between the first mixing shaft 3 and the second mixing shaft 5, two ends of the cooling pipe 125 are connected in the power water tank 124, and the electromagnetic on-off valve 126 is arranged on the power water tank 124.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications can be made without departing from the principles of the present invention, and these modifications should also be regarded as the protection scope of the present invention.

Claims (6)

1. The utility model provides a dry powder mortar agitating unit with filtration which characterized in that: the method comprises the following steps: the stirring device comprises a rack (1), a stirring cavity (2), a first stirring shaft (3), a driving motor (4), a second stirring shaft (5), a differential gear set (6), a stirring knife (7), a stirring spiral blade (8), a vibrating screen (9) and a heat accelerating mechanism (13), wherein the stirring cavity (2) is arranged on the rack (1), the first stirring shaft (3) is arranged in the stirring cavity (2), one end of the first stirring shaft (3) penetrates out of the stirring cavity (2), the driving motor (4) is arranged at the end, penetrating out of the stirring cavity (2), of the first stirring shaft (3), the differential gear set (6) is arranged at one end of the driving motor (4), the differential gear set (6) is connected with the second stirring shaft (5), the first stirring shaft (3) is hollow, the second stirring shaft (5) is arranged in the first stirring shaft (3), and the end, far away from the driving motor (4), of the second stirring shaft (5) penetrates out of the first stirring shaft, a stirring knife (7) is arranged on the outer surface of the first stirring shaft (3), a stirring spiral blade (8) is arranged on the outer surface of the second stirring shaft (5), a vibrating screen (9) is arranged at the bottom of the first stirring shaft (3), the vibrating screen (9) is fixed at the bottom of the stirring cavity (2), a thermal acceleration mechanism (13) is arranged on the outer side of the stirring cavity (2), and the stirring cavity (2) is wrapped by the thermal acceleration mechanism (13);

the thermal acceleration mechanism (13) comprises a heater (131), a heating pipe (132) and a heat insulation plate (133), the heating pipe (132) is arranged on the outer side of the stirring cavity (2), the heating pipe (132) is connected with the heater (131), the heater (131) is arranged on the outer surface of the stirring cavity (2), and the heat insulation plate (133) is arranged on the outer side of the heating pipe (132);

the stirring chamber (2) is provided with a cooling mechanism (12), the cooling mechanism (12) comprises a support plate (121), a temperature sensor (122), an amplifying circuit (123), a power water tank (124), a cooling pipe (125) and an electromagnetic on-off valve (126), the support plate (121) is arranged between the first stirring shaft (3) and the second stirring shaft (5), the support plate (121) is provided with the temperature sensor (122), the temperature sensor (122) is connected with the amplifying circuit (123), the amplifying circuit (123) is connected with the electromagnetic on-off valve (126), the temperature sensor (122) is essentially a temperature-sensitive resistor, the temperature sensor (122) and the amplifying circuit (123) form an electric circuit, the electric circuit is connected with a workshop power supply, and the amplifying circuit (123) is connected with the electromagnetic on-off valve (126); the power water tank (124) is arranged at the top of the stirring cavity (2), the power water tank (124) is connected with a cooling pipe (125), the cooling pipe (125) is arranged on the supporting plate (121), the cooling pipe (125) is laid between the first stirring shaft (3) and the second stirring shaft (5), two ends of the cooling pipe (125) are connected into the power water tank (124), and the electromagnetic opening and closing valve (126) is arranged on the power water tank (124).

2. The dry mortar mixing device with the filtering structure as recited in claim 1, wherein: the vibrating screen (9) comprises a fixing plate (91), a vibrating motor (92), a vibrator (93), a vibrating screen body (94), a connecting leather diaphragm (95) and a dustproof sleeve (96), the fixing plate (91) is arranged on the inner surface of the stirring cavity (2), the vibrating motor (92) is arranged on the fixing plate (91), one end of the vibrating motor (92) is connected with the vibrator (93), the vibrator (93) is connected with the vibrating motor (92) through a chain, the vibrating screen body (94) is arranged on the vibrator (93), the connecting leather diaphragm (95) is arranged on the side edge of the vibrating screen body (94), the connecting leather diaphragm (95) is connected with the vibrating screen body (94) and the stirring cavity (2), the dustproof sleeve (96) is arranged on the outer side of the vibrating motor (92), and the dustproof sleeve (96) wraps the vibrating motor (92) and the vibrator (93), one end of the dustproof sleeve (96) is connected to the fixing plate (91), and the other end of the dustproof sleeve (96) is fixed to the vibrating screen body (94).

3. The dry mortar mixing device with the filtering structure as recited in claim 1, wherein: the bottom of the stirring cavity (2) is provided with a damping mechanism (10), the damping mechanism (10) comprises a floating hydraulic cylinder (101), a first floating oil way (102), a second floating oil way (103), a first floating oil tank (104), a second floating oil tank (105) and a damping spring (106), the floating hydraulic cylinder (101) is arranged at the bottom of the stirring cavity (2), the floating hydraulic cylinder (101) comprises a cylinder body and a piston, the cylinder body is internally provided with the piston, oil ports are arranged on two sides of the piston, the first floating oil way (102) is arranged on the oil port on one side of the piston, one end of the first floating oil way (102) is provided with the first floating oil tank (104), the first floating oil tank (104) is arranged on the rack (1), the second floating oil way (103) is arranged on the oil port on the other side of the piston, one end of the second floating oil way (103) is provided with the second, the second floating oil tank (105) is arranged on the rack (1), the floating hydraulic cylinders (101) are arranged in a plurality of numbers, damping springs (106) are arranged on the outer sides of the floating hydraulic cylinders (101), one ends of the damping springs (106) are fixed to the bottom of the stirring cavity (2), and the other ends of the damping springs (106) are fixed to the rack (1).

4. The dry mortar mixing device with the filtering structure as recited in claim 1, wherein: a feed inlet (21), a spiral mixing groove (22) and a mixing opening (23) are formed in the top of the stirring cavity (2), the feed inlets (21) are formed in the outer surface of the stirring cavity (2), a plurality of feed inlets (21) are formed, and the spiral mixing groove (22) is formed in one end of each feed inlet (21); the spiral channel mixing tank (22) is arranged up and down, a material mixing opening (23) is formed in the bottom of the spiral channel mixing tank (22), and the material mixing opening (23) is funnel-shaped.

5. The dry mortar mixing device with the filtering structure as recited in claim 1, wherein: stirring spiral blade (8) one end that is close to vibratory screen (9) be provided with slowly fall baffle (11), slowly fall baffle (11) and be the toper, slowly fall baffle (11) central height and be less than slowly fall baffle (11) edge height, slowly fall baffle (11) center and be provided with the through-hole, be provided with the screen cloth in the through-hole.

6. The dry mortar mixing device with the filtering structure as recited in claim 1, wherein: the inner side of the bottom of the first stirring shaft (3) is provided with an oil seal, and the oil seal seals a gap between the first stirring shaft (3) and the second stirring shaft (5).

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