CN105942136B

CN105942136B - A full-automatic material system device of frying for multiaxis

Info

Publication number: CN105942136B
Application number: CN201610403123.9A
Authority: CN
Inventors: 赵星
Original assignee: Individual
Current assignee: Individual
Priority date: 2016-06-08
Filing date: 2016-06-08
Publication date: 2023-04-28
Anticipated expiration: 2036-06-08
Also published as: CN105942136A

Abstract

The invention discloses a full-automatic material stir-frying device for multiple industries, which comprises a cylindrical container, a scraper piston mechanism and a stirring and feeding mechanism, wherein the scraper piston mechanism is arranged on the cylindrical container; the cylindrical container comprises a cold and hot processing area with a feed inlet, a discharging area with a discharge outlet and a mechanical cleaning area with a sewage outlet; the cylinder container is connected with a scraper piston mechanism which can move and rotate under the action of the stirring and feeding mechanism in a sliding fit manner. The automatic cleaning device is simple in structure and convenient to manufacture and use, can process and discharge various foods, and can conveniently and rapidly realize automatic cleaning of the device; meanwhile, the cooking heating device is combined to be used, so that the cooking heating device can be used for processing foods needing to be steamed, cooked and fried in multiple complex procedures.

Description

A full-automatic material system device of frying for multiaxis

Technical Field

The invention relates to a food frying device, belongs to the technical field of food processing equipment, and particularly relates to a full-automatic material frying device for multiple industries.

Background

The cold and hot processing of materials is accompanied with the birth of human beings and has long been. At present, small amount of accurate feed proportioning cold and hot processing, chinese herbal medicine formula proportioning, tea and dried fruit hot processing, diet cooking and the like are all completed by a mechanical device which is accurate, fully automatic and capable of performing cold and hot processing, and no equipment capable of achieving the purpose is available in the existing market. Particularly on food products, is particularly prominent and is always a major problem facing humans. China is a long-history country and thousands of years of food culture enjoys the world of reputation. The cooking of Chinese dishes is experienced and fire-proof, which is difficult for the average person to master. For example, what is a "few" in the recipe. In addition, the environmental improvement and the efficiency improvement of food processing are modern requirements of a fast society. The existing manual food processing modes are traditional and backward, the existing automatic cooking machine has the problems of complex structure, huge volume, incapability of accurately controlling the fire and the throwing of seasonings and few types of cooking, and the manual interaction modes cannot be adopted to achieve the full-automatic and remote control food processing modes, so that the actual life needs of people are difficult to meet.

In the existing food processing equipment, although the existing food processing equipment can realize the manufacturing procedures of steaming, boiling, frying and the like of a certain food, the existing food processing equipment cannot well realize the efficient and automatic production of the food, and is inconvenient for the food processing equipment to clean in time after each food is processed.

Disclosure of Invention

Aiming at the defects in the prior art, the technical problem to be solved by the invention is to provide a full-automatic material frying device for multiple industries, which can well realize the automatic processing of foods with multiple food materials and is convenient for automatic cleaning.

In order to solve the technical problems, the invention adopts the full-automatic material stir-frying device for multiple industries, which comprises a cylindrical container, a scraper piston mechanism and a stirring and feeding mechanism; the cylindrical container comprises a cold and hot processing area with a feed inlet, a discharging area with a discharge outlet and a mechanical cleaning area with a sewage outlet; the cylinder container is connected with a scraper piston mechanism which can move and rotate under the action of the stirring and feeding mechanism in a sliding fit manner.

In a preferred embodiment of the invention, the scraper piston mechanism comprises two cylindrical sealing plates; a plurality of scraping plates are arranged between the cylindrical sealing plates; the radial outer edge of the cylindrical sealing plate is provided with a sealing ring; the cylindrical sealing plate is fixedly connected with the stirring and feeding mechanism.

In a preferred embodiment of the present invention, the agitation feed mechanism includes a rotary agitation power mechanism capable of rotating the scraper piston mechanism around the central axis of the cylindrical vessel and a movement feed power mechanism capable of reciprocating the scraper piston mechanism along the central axis of the cylindrical vessel; one end of the rotary stirring power mechanism is connected with the movable feeding power mechanism, and the other end of the rotary stirring power mechanism is connected with the cylindrical sealing plate of the scraper piston mechanism.

In a preferred embodiment of the invention, the rotary stirring power mechanism comprises a base, a transmission shaft and a power element, wherein the base is connected with the movable feeding power mechanism; the power element is fixedly connected to the base; one end of the transmission shaft is connected with the power element, and the other end of the transmission shaft penetrates through the cylindrical container to be connected with the scraper piston mechanism; the center axes of revolution of both the drive shaft and the squeegee piston mechanism are collinear.

In a preferred embodiment of the invention, the feed inlet of the cold and hot processing zone is provided with a feed reversing device; and an exhaust port and an auxiliary feed port are also arranged on the cylindrical container shell of the cold and hot processing area.

In a preferred embodiment of the invention, the discharge port of the discharging area is provided with a material separating and filtering device and/or a material steering device; and a water inlet is also arranged on the cylindrical container shell of the blanking area.

In a preferred embodiment of the invention, a cleaning device for cleaning the scraper piston mechanism is arranged in the mechanical cleaning zone; the cleaning device comprises a power mechanism and a rotary brush; the rotary hairbrush is hinged on the cylindrical container shell of the mechanical cleaning area; the rotary hairbrush is connected with the output end of the power mechanism.

In a preferred embodiment of the invention, the power mechanism comprises a drive gear and a gear transmission mechanism; the driving gear is fixedly connected with the scraper piston mechanism; the power input shaft of the gear transmission mechanism is provided with an annular gear which can be meshed with the driving gear; and the power output shaft of the gear transmission mechanism is connected with the rotary hairbrush.

In a preferred embodiment of the invention, the gear drive comprises a carrier, a drive housing with an annular gear, a central wheel with an annular gear which can be meshed with the drive gear, a gear which can be meshed with the annular gear of the drive housing; the bracket is fixedly connected to the shell of the cylindrical container; the center of the bracket is connected with the center wheel; the two ends of the bracket are connected with the rotary hairbrush; the center wheel is connected with the transmission cover in a matched manner through a flat key; the gear is connected with the end part of the rotary hairbrush and meshed with the inner gear ring of the transmission cover.

In a preferred embodiment of the invention, an insulating sealing ring is arranged between the cold and hot working zone and the blanking zone.

The beneficial effects of the invention are as follows: the automatic cleaning device is simple in structure and convenient to manufacture and use, can process and discharge various foods, and can conveniently and rapidly realize automatic cleaning of the device; meanwhile, the cooking heating device is combined to be used, so that the cooking heating device can be used for processing foods needing to be steamed, cooked and fried in multiple complex procedures.

Drawings

FIG. 1 is a schematic diagram of a fully automatic material frying device for multiple industries according to an embodiment of the present invention;

FIG. 2 is a front view of a fully automatic material frying apparatus for multiple industries, according to an embodiment of the present invention;

FIG. 3 is a top view of a fully automatic material frying apparatus for multiple industries, according to an embodiment of the present invention;

FIG. 4 is a cross-sectional view A-A (fried state) of the embodiment of the present invention shown in FIG. 3 for a multi-industry fully automatic material frying apparatus;

FIG. 5 is a cross-sectional view A-A (blanking state) of the embodiment of the present invention shown in FIG. 3, illustrating a fully automatic material frying apparatus for multiple industries;

FIG. 6 is a cross-sectional view A-A (cleaning state) of the embodiment of the present invention shown in FIG. 3, illustrating a fully automatic material frying apparatus for multiple industries;

FIG. 7 is a front view of a scraper piston mechanism of a fully automatic material frying apparatus for multiple industries according to an embodiment of the present invention;

FIG. 8 is a top view of a scraper piston mechanism of a fully automatic material frying apparatus for multiple industries according to an embodiment of the present invention;

FIG. 9 is a schematic view of a mechanical cleaning device for a multi-industry fully automatic material frying device according to an embodiment of the present invention;

FIG. 10 is a cross-sectional view of a mechanical cleaning device for a multi-industry fully automatic material frying device, in accordance with the embodiment of the present invention;

FIG. 11 is a schematic view of a cylindrical container structure and heat-insulating sealing ring for a multi-industry fully automatic material frying device according to an embodiment of the present invention;

in the figure: 1-a cylindrical container; 2-a scraper piston mechanism; 3-a stirring and feeding mechanism; 4-a mechanical cleaning device; 5-a feeding turnover device; 6-exhaust port; 7-an auxiliary feed inlet; 8-a material separation and filtration device; 9-a material steering device; 10-a water inlet; 11-an insulating sealing ring; 101-a cold and hot processing area; 102-a blanking area; 103-a mechanical cleaning zone; 201-a cylindrical sealing plate; 202-scraping plate; 203-a sealing ring; 204-a drive gear; 301-rotating a stirring power mechanism; 302-moving a feed power mechanism; 3011-a base; 3012-a drive shaft; 3013-a power element; 1031-rotating the brush; 1032—a stent; 1033-a drive housing; 1034-a central wheel; 1035-a gear; 501-a spherical shell; 502-a spherical rotating body; 503-a power drive; 801-a base; 802-spherical filter element.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

As can be seen from the structural schematic diagrams of a full-automatic material frying device for multiple industries shown in fig. 1 and 3, the full-automatic material frying device for multiple industries of the present invention comprises a cylindrical container 1, a scraper piston mechanism 2 and a stirring and feeding mechanism 3; the cylindrical container 1 comprises a cold and hot processing area 101 with a feeding hole, a discharging area 102 with a discharging hole and a mechanical cleaning area 103 with a sewage draining hole which are adjacently arranged in sequence, wherein the three working areas of the cylindrical container can be processed by one material part and directly used, or can be respectively processed by a plurality of material parts and then combined for use, and a heat insulation sealing ring 11 is arranged between the cold and hot processing area and the discharging area, as shown in fig. 11; the cylindrical container 1 is connected with a scraper piston mechanism 2 in a sliding fit manner; the scraper piston mechanism 2 can move and rotate along the central axis of the cylindrical container 1 under the action of the stirring and feeding mechanism 3; finishing the processing, blanking and finally cleaning the inside of the device of the food through the feeding movement of the scraper piston mechanism 2; the processing of the food is achieved by the working rotary movement of the scraper piston means 2 in the cold and hot processing zone 101. The scraper piston mechanism 2 comprises two cylindrical sealing plates 201; a plurality of scrapers 202 are arranged between the scraper piston mechanisms 2; the radial outer edge of the cylindrical sealing plate 201 is provided with a sealing ring 203, so that a closed cavity is formed between the cylindrical sealing plate 201 and the inner wall of the cylindrical container 1; one end of a cylindrical sealing plate 201 of the scraper piston mechanism 2 is provided with a guide rod and a guide rod connecting sleeve, and the cylindrical sealing plate 201 is connected with the stirring and feeding mechanism 3 through the guide rod connecting sleeve; the other end is provided with a driving gear 204; the cylindrical container 1, the two cylindrical sealing plates 201, the guide rod connecting sleeve and the rotation central axis of the driving gear 204 are all collinear. When the scraper piston mechanism 2 is located in any area of the cold and hot processing area 101, the blanking area 102 or the mechanical cleaning area 103, two cylindrical sealing plates 201 and the inner wall of the cylindrical container 1 can form a closed chamber, so that food processing or device cleaning can be realized.

The agitation feeding mechanism 3 includes a rotary agitation power mechanism 301 and a movement feeding power mechanism 302; the rotary stirring power mechanism 301 can move back and forth under the action of the mobile feeding power mechanism 302; the movable feeding power mechanism 302 comprises a feeding slide seat, the lower part of the feeding slide seat is fixedly connected with a plurality of linear bearing slide seats, the linear bearing slide seats are respectively connected with two cylindrical shaft support rails with certain lengths, and the linear bearing slide seats can linearly slide on the two cylindrical shaft support rails, so that the feeding slide seat is driven to linearly move for feeding. Two cylindrical shaft support rails are fixed on the support. One end of the upper part of the support is fixed with a gear shaft through a slewing bearing, and a synchronous belt driven gear is penetrated in the gear shaft. The other end of the upper part of the support is connected with a synchronous belt driving gear adjusting bracket, a synchronous belt driving gear is fixed on the synchronous belt driving gear adjusting bracket, and the synchronous belt driving gear and a synchronous belt driven gear are in meshed connection and transmission through a synchronous belt. The synchronous belt is fixedly connected with the feeding slide seat. The synchronous belt driving gear adjusting bracket can adjust and move on the support along the direction of the cylindrical shaft support rails through adjusting screws so as to adjust the tensioning degree of the synchronous belt, when the movable feeding power mechanism 302 works, the synchronous belt driving gear rotates to drive the synchronous belt to move, the synchronous belt moves to drive the feeding sliding seat to slide relatively on the two cylindrical shaft support rails through the linear bearing sliding seat, and the feeding sliding seat does linear reciprocating motion along the rotation center line of the scraper piston mechanism, so that the power transmission of the linear motion of the scraper piston mechanism along the rotation center line of the scraper piston mechanism is indirectly provided; the rotary stirring power mechanism 301 comprises a base 3011 connected with a mobile feeding power mechanism 302, a transmission shaft 3012 and a power element 3013; the power element 3013 is fixedly connected to the base 3011; one end of a transmission shaft 3012 is connected with a power element 3013, and the other end of the transmission shaft penetrates through the cylindrical container 1 to be connected with a guide rod connecting sleeve on the cylindrical sealing plate 201; the center axes of rotation of both the drive shaft 3012 and the squeegee piston mechanism 2 are collinear. The moving feeding power mechanism 302 is not limited to the structure given in the present invention as long as the moving feeding power mechanism 301 can push the rotating stirring power mechanism 301 to reciprocate in the horizontal direction, and three working states of the moving feeding power mechanism 302 shown in fig. 4 to 6 are shown in fig. 4 to 6, respectively, a state that the scraper piston mechanism 2 is located in the cold and hot processing area 101 for processing food, a state that the scraper piston mechanism 2 is located in the blanking area 102 for blanking processed food, and a state that the scraper piston mechanism 2 is located in the mechanical cleaning area 103 for cleaning the scraper; when the scraper piston mechanism 2 is positioned in the mechanical cleaning area 103 for cleaning, the cold and hot processing area 101 and the blanking area 102 can also spray high-temperature high-pressure atomized clean water to wash oil stains in the container.

The feeding port of the cold and hot processing area 101 is provided with a feeding turnover device 5; the cylindrical container shell of the cold and hot processing area 101 is also provided with an exhaust port 6 and an auxiliary feed port 7; the auxiliary feed port can provide liquid and solid auxiliary materials for the cylindrical container, and cold, heat, high-pressure water and low-pressure water or gas, and the cold of the cold and hot processing area 101 of the cylindrical container 1 is derived from low-temperature air or low-temperature water entering the auxiliary feed port 7 and conducts cold conduction to materials; the heat is derived from one or more heat sources on the outer wall of the cylindrical vessel 1 cold and hot processing area 101, and is transferred through the heat conduction of the vessel wall, so that the heat energy is transferred to the materials in the vessel; the feeding turnover device 5 comprises a spherical shell 501, a spherical rotator 502 with an inner hole and a power driving device 503; the spherical shell 501 is internally matched and connected with the spherical rotator 502; the spherical rotating body 502 is rotatable about the central axis of the power drive means by the power drive means 503. The outer side of the cold and hot processing area 101 is connected with a heating temperature control device, and the heating source has two heating modes, namely a heating mode of a liquefied gas combustion furnace and a heating mode of an electromagnetic oven. Food processing can be achieved by heating the container walls. Temperature control device, humidity sensor device, electronic switch control circuit, thermal power control device, etc. When feeding, the main material (liquid, solid, liquid-solid mixture) is loaded in the main material container, the main material container is locked on the feeding hole of the main material turning device through the main material container locking device, the opening of the feeding hole is connected with the spherical inner hole channel of the main material turning device, and when the spherical rotating body turns 180 degrees, the main material in the main material container can be completely poured into the cold and hot processing area 101 of the hollow cylindrical closed container. The auxiliary feed inlet 7 is provided with an atomization nozzle for supplying water and flavoring.

The discharging hole of the discharging area 102 is provided with a material separating and filtering device 8; the cylindrical container shell of the blanking area 102 is also provided with a water inlet 10, and the water inlet 10 can provide liquid and solid auxiliary materials, cold and hot water or high and low pressure water or gas for the cylindrical container 1. The material separation and filtration device 8 comprises a base 801 and a spherical filter element 802; the base 801 is provided with a spherical hole and a driving mechanism; the spherical filter element is matched and arranged in the spherical hole and is connected with a driving mechanism on the base 801; the spherical filter element 802 is provided with a blanking through hole and an oil filtering hole; the spherical filter element 802 can rotate around the central axis of the driving mechanism under the action of the driving mechanism to drive the spherical shell to rotate 90 degrees along the axial lead of the main bearing shaft and the bearing shaft, so as to complete the function conversion of filtration and non-filtration. The water inlet 10 of the blanking area 102 can provide liquid and solid auxiliary materials for the cylindrical container 1, and cold, hot, high and low pressure water or gas is mainly used for cleaning the blanking area.

As shown in fig. 9; a mechanical cleaning device 4 which is used for cleaning the scraper piston mechanism 2 and can be in butt joint linkage with the cleaning scraper piston mechanism 2 is arranged in the mechanical cleaning area 103; the mechanical cleaning device 4 includes a power mechanism and a rotary brush 1031; the rotary brush 1031 is hinged to the cylindrical container housing of said mechanical washing zone 103; the rotary brush 1031 is connected to the output end of the power mechanism. The power mechanism comprises a driving gear 204 and a gear transmission mechanism; the driving gear 204 is fixedly connected with the scraper piston mechanism 2; the power input shaft of the gear transmission mechanism is provided with an annular gear which can be meshed with the driving gear 204; a power output shaft of the gear transmission mechanism is connected with the rotary brush 1031; the gear drive mechanism includes a bracket 1032, a drive housing 1033 with an annular gear, a central wheel 1034 with an annular gear engageable with the drive gear 204, and a gear 1035 engageable with the annular gear of the drive housing 1033; the bracket 1032 is fixedly connected to the shell of the cylindrical container 1; the center of the bracket 1032 is connected with a center wheel 1034; the two ends of the bracket 1032 are connected with a rotary brush 1031; the center wheel 103 is connected with the transmission cover 1033 through a flat key in a matching way; the gear 1035 is connected to an end of the rotary brush 1031 and is meshed with an inner gear ring of the driving housing 1033. The various components of the gear train are not limited to the structure pointed out by the present invention, as the center wheel 1034 may include bearings and small ring gears attached thereto; the transmission cover 1033 comprises a large sealing ring and a large inner gear ring fixedly connected with the large sealing ring; the rotary brush 1031 comprises a brush seat shaft connected with the gear 1035 through a flat key, a plurality of brushes are fixed on the outer circle of the middle part of the brush seat shaft along the circumferential radial direction, the two ends of the brush seat shaft are respectively fixed on the support and the shell of the cylindrical container through bearings, the brush seat shaft can rotate along the axis of the brush seat shaft, and the gear is collinear with the central axis of the brush seat shaft; the whole mechanism can also be a planetary gear mechanism and the like, so long as the power of the rotary stirring power mechanism can be converted into the rotary motion of the rotary brush. Two rotating brushes arranged in the mechanical cleaning area 103 can collide with the scraping plate for friction when rotating at high speed, and meanwhile, the piston body of the scraping plate is cleaned by directly flushing high-temperature and high-pressure water entering through a high-temperature and high-pressure water vapor collision head on the mechanical cleaning area 103; after the water is washed, hot air drying is carried out, and finally, the scraper piston body returns to the cold and hot processing area 101 for standby.

The invention can form a stir-frying mixed heating unit through combination, wherein the stir-frying mixed heating unit comprises a primary processing unit and a secondary processing unit, the primary processing unit is formed by connecting a plurality of full-automatic material stir-frying devices disclosed by the invention in parallel, and the plurality of primary processing units can be all full-automatic material stir-frying devices with stir-frying functions; the reprocessing unit is a full-automatic material stir-frying device with a stir-frying function, and the primary processing unit and the reprocessing unit are connected in series through a material steering device. When the food processed by the primary processing unit is not needed to be processed, the food can be directly discharged from the furnace for eating through the control of the material steering device, and if the food processed by the primary processing unit needs to be processed again, the food can be guided into the secondary processing unit through the control of the material steering device for returning to the furnace for steaming or stir-frying; the stir-frying mixing heating unit can be used in a mixing and overlapping way. For the reprocessing unit, a cooking heating device for food automatic processing equipment is generally adopted, which only comprises a frying function, and because the set of mechanism is more convenient to process and manufacture and the food is not steamed after being fried, the reprocessing unit generally uses a fully-automatic material frying device for the food automatic processing equipment, which only comprises the frying function (namely, a scraper fine-tuning mechanism is not arranged on the stirring and feeding mechanism 3, and the scraper is directly fixedly connected on the cylindrical sealing plate). The primary processing unit can be used in combination with steaming and frying as required.

It should be understood that the foregoing is only specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that may be easily contemplated by those skilled in the art within the scope of the present invention should be covered by the present invention.

Claims

1. A full-automatic material stir-frying device for multiple industries comprises a cylindrical container (1), a scraper piston mechanism (2) and a stirring and feeding mechanism (3); the method is characterized in that: the cylindrical container (1) comprises a cold and hot processing area (101) with a feed inlet, a discharging area (102) with a discharge outlet and a mechanical cleaning area (103) with a sewage outlet which are sequentially arranged; the cylindrical container (1) is connected with a scraper piston mechanism (2) which can move and rotate under the action of the stirring and feeding mechanism (3) in a sliding fit manner; the scraper piston mechanism (2) comprises two cylindrical sealing plates (201); a plurality of scrapers (202) are arranged between the cylindrical sealing plates (201); the radial outer edge of the cylindrical sealing plate (201) is provided with a sealing ring (203); the cylindrical sealing plate (201) is fixedly connected with the stirring and feeding mechanism (3); the stirring and feeding mechanism (3) comprises a rotary stirring power mechanism (301) capable of enabling the scraper piston mechanism (2) to revolve around the central axis of the cylindrical container (1) and a moving and feeding power mechanism (302) capable of enabling the scraper piston mechanism (2) to reciprocate along the central axis of the cylindrical container (1); one end of the rotary stirring power mechanism (301) is connected with the movable feeding power mechanism (302), and the other end of the rotary stirring power mechanism (301) is connected with a cylindrical sealing plate (201) of the scraper piston mechanism (2); a heat insulation sealing ring (11) is arranged between the cold and hot processing area (101) and the blanking area (102).

2. The full-automatic material frying device for multiple industries according to claim 1, wherein: the rotary stirring power mechanism (301) comprises a base (3011) connected with the mobile feeding power mechanism (302), a transmission shaft (3012) and a power element (3013); the power element (3013) is fixedly connected to the base (3011); one end of the transmission shaft (3012) is connected with the power element (3013), and the other end of the transmission shaft penetrates through the cylindrical container (1) to be connected with the scraper piston mechanism (2); the center axes of rotation of the transmission shaft (3012) and the scraper piston mechanism (2) are collinear.

3. The full-automatic material frying device for multiple industries according to claim 1, wherein: a feed opening of the cold and hot processing area (101) is provided with a feed overturning device (5); the cylindrical container shell of the cold and hot processing area (101) is also provided with an exhaust port (6) and an auxiliary feed port (7).

4. The full-automatic material frying device for multiple industries according to claim 1, wherein: a material separation and filtration device (8) is arranged at a discharge hole of the discharging area (102); the cylindrical container shell of the blanking area (102) is also provided with a water inlet (10).

5. The full-automatic material frying device for multiple industries according to claim 1, wherein: a mechanical cleaning device (4) for cleaning the scraper piston mechanism (2) is arranged in the mechanical cleaning area (103); the mechanical cleaning device (4) comprises a power mechanism and a rotary brush (1031); the rotary brush (1031) is hinged on the cylindrical container shell of the mechanical cleaning area (103); the rotary brush (1031) is connected with the output end of the power mechanism.

6. The full-automatic material frying device for multiple industries according to claim 5, wherein: the power mechanism comprises a driving gear (204) and a gear transmission mechanism; the driving gear (204) is fixedly connected with the scraper piston mechanism (2); the power input shaft of the gear transmission mechanism is provided with an annular gear which can be meshed with the driving gear (204); the power output shaft of the gear transmission mechanism is connected with the rotary hairbrush (1031).

7. The full-automatic material frying device for multiple industries according to claim 6, wherein: the gear transmission mechanism comprises a bracket (1032), a transmission cover (1033) with an annular gear, a central wheel (1034) with the annular gear which can be meshed with the driving gear (204), and a gear (1035) which can be meshed with the annular gear of the transmission cover (1033); the bracket (1032) is fixedly connected to the shell of the cylindrical container (1); the center of the bracket (1032) is connected with the center wheel (1034); the rotary hairbrush (1031) is connected to two ends of the bracket (1032); the center wheel (1034) is connected with the transmission cover (1033) in a flat key fit manner; the gear (1035) is connected with the end part of the rotary brush (1031) and meshed with the inner gear ring of the transmission cover (1033).