CN116272629A - Stirring and guiding mechanism for pesticide processing - Google Patents

Abstract

The invention relates to the technical field of pesticide processing equipment, in particular to a stirring and guiding mechanism for pesticide processing. According to the stirring and guiding mechanism for pesticide processing, the inner guide cylinder and the inner lifting sealing cylinder controlled by the lifting motor are fixedly connected in the main processing tank, the inner and outer double-chamber design is adopted, and different chambers for middle stirring and mixing and lateral thread conveying are utilized for carrying out, so that the stirring stroke in equipment is improved, the mixing is more uniform, and the mixing effect is greatly improved; the overhead transmission gear set for transmitting and connecting the main driving motor, the longitudinal driving rod and the spiral guide vane is fixed on the top end of the main processing tank through bolts, the main driving motor synchronously drives the stirring and conveying mechanism to operate, and the transmission efficiency is greatly improved.

Description

Stirring and guiding mechanism for pesticide processing

Technical Field

The invention relates to the technical field of pesticide processing equipment, in particular to a stirring and guiding mechanism for pesticide processing.

Background

Pesticides are agricultural chemicals used to control plant diseases and insect pests and to regulate plant growth. Widely used for agriculture, forestry and animal husbandry production, agricultural pest control and epidemic prevention, etc. Pesticides are widely classified into various types according to the purpose and chemical organization. The plant pesticide belongs to one branch in the category of biological pesticides, and the plant pesticide is a plant source preparation which prevents or reduces the harmful organisms such as diseases, insects, weeds and the like from being harmful after the plant is used for the receptor plant according to a certain method by utilizing the stability components contained in the plant.

The current plant pesticide is to mix processing through carrying out the crushed aggregates with multiple plant, needs to mix the stirring through rabbling mechanism to its mixed raw materials in the course of working, and traditional rabbling mechanism is mostly single cavity mechanism, and stirring and row material operation can only go on alone, leads to stirring compounding inefficiency, and the stirring structure is fixed moreover, can't adjust, and the compounding mode is very single.

Disclosure of Invention

The invention aims to solve the technical problems that: in order to solve the problems in the prior art, the improved stirring and guiding mechanism for pesticide processing is provided, and the problems that the traditional stirring mechanism is a single-cavity mechanism, stirring and discharging operations can only be carried out independently, so that the stirring and mixing efficiency is low, the stirring structure is fixed, the stirring structure cannot be adjusted, and the mixing mode is quite single are solved.

The technical scheme adopted for solving the technical problems is as follows: a stirring guide mechanism for pesticide processing, includes main processing jar, main driving motor, elevator motor and accommodate motor, main processing jar on the top surface on fixedly connected with inside guide cylinder, inside guide cylinder below be provided with by elevator motor control's inside lift seal cylinder, inside vertical driving rod that installs by main driving motor control that is located inside lift seal cylinder vertically, vertical driving rod lateral surface on bolt fastening have side stirring vane, vertical driving rod lateral surface on the activity be equipped with outside linkage, main processing jar inside be located inside guide cylinder outside activity be equipped with by main driving motor control's spiral guide vane, main processing jar top bolt fastening be used for transmission connection main driving motor, vertical driving rod and spiral guide vane's overhead drive gear train.

The center position of the inner top surface of the main processing tank is provided with a top transmission through hole, and the center position of the inner bottom surface of the main processing tank is provided with a bottom assembly blind hole.

The vertical actuating lever top, bottom central point put and all be fixed with the side direction assembly pole coaxially, outside link gear including the cover outside assembly section of thick bamboo on the side direction assembly pole lateral surface, the centrifugal stirring of bolt fastening on the outside assembly section of thick bamboo lateral surface scrape from blade and the bolt fastening scrape from the bottom linkage frame of blade top lower extreme at centrifugal stirring, main processing jar interior bottom surface correspond inside lift seal section of thick bamboo position and seted up annular lift groove.

The upper surface of the inner lifting sealing cylinder is provided with an upward-protruding integrated structure linkage rod, a longitudinal linkage groove matched with the linkage rod is formed in the arc surface on the outer side of the inner guiding cylinder, the upper end of the main processing tank is provided with a top linkage frame controlled by a lifting motor, and the top linkage frame is fixedly connected with the top end of the linkage rod through bolts.

The overhead transmission gear set comprises an external transmission box fixedly mounted at the upper end of a main processing tank through a bolt, and a driving gear, a first transmission gear, a second transmission gear, a first driven gear and a second driven gear which are movably mounted in the external transmission box through a longitudinal rotating shaft, wherein the main driving motor is fixedly mounted at the upper end of the external transmission box through the bolt, the driving gear is coaxially fixed on the rotating shaft at the lower end of the main driving motor, the first driven gear is coaxially fixed on a lateral assembly rod at the top end of the longitudinal driving rod and is coaxially fixed with the lateral assembly rod, the driving gear and the first driven gear are connected through transmission of the first transmission gear, and the driving gear and the second driven gear are connected through transmission of the second transmission gear.

The spiral guide vane comprises an outer adjusting cylinder movably assembled on the arc surface at the outer side of the inner guiding cylinder, a bottom assembling frame fixed at the lower end of the outer adjusting cylinder and a spiral guide vane fixed on the outer side of the outer adjusting cylinder and the outer side of the bottom assembling frame, and an annular adjusting tooth slot is formed in the top end of the arc surface at the outer side of the outer adjusting cylinder.

The inner top surface of the main processing tank is movably provided with an internal rotating gear through a longitudinal adjusting rod, and the second driven gear is coaxially fixed at the top end of the longitudinal adjusting rod.

The automatic sealing device is characterized in that a lateral discharging hole of a built-in sealing ball valve is formed in the upper end of the arc-shaped surface on the inner side of the main processing tank, an external material guide pipe is fixedly connected to the outer side surface of the main processing tank, and the adjusting motor is inserted into the sealing ball valve through a lower end rotating shaft and is coaxially connected with the sealing ball valve.

The beneficial effects of the invention are as follows:

(1) According to the stirring and guiding mechanism for pesticide processing, the inner guide cylinder and the inner lifting sealing cylinder controlled by the lifting motor are fixedly connected in the main processing tank, the inner and outer double-chamber design is adopted, and different chambers for middle stirring and mixing and lateral thread conveying are utilized for carrying out, so that the stirring stroke in equipment is improved, the mixing is more uniform, and the mixing effect is greatly improved;

(2) The overhead transmission gear set for transmitting and connecting the main driving motor, the longitudinal driving rod and the spiral guide vane is fixed at the top end of the main processing tank through bolts, and the main driving motor synchronously drives the stirring and conveying mechanism to operate, so that the transmission efficiency is greatly improved;

(3) The lifting motor drives the internal lifting sealing cylinder and the external linkage mechanism to synchronously lift through the top linkage frame, so that the communication state of the internal and external chambers is freely regulated, the stirring position of the internal stirring chamber can be changed as required, the bottom material is conveniently scraped away when the internal and external chambers are communicated, the external material conveying chamber is discharged through rotation centrifugation, powder accumulation in the stirring chamber is avoided, and the material discharging effect is improved.

(4) The annular lifting groove matched with the inner lifting sealing cylinder is formed in the inner bottom surface of the main processing tank, the descending type adjusting is adopted to control the communication and sealing states of the inner cavity and the outer cavity, so that the flatness of the inner wall under the opening and closing state is guaranteed, the operation of the inner transmission mechanism is not influenced, the space layout is more reasonable, and the use is more convenient.

Drawings

The invention will be further described with reference to the drawings and examples.

Fig. 1 is an internal cross-sectional view of the present invention.

Fig. 2 is a top view of a spiral guide vane in accordance with the present invention.

Fig. 3 is an internal cross-sectional view of the assembled end of the overhead drive gear assembly of the present invention.

Detailed Description

The invention will now be described in further detail with reference to the accompanying drawings. The drawings are simplified schematic representations which merely illustrate the basic structure of the invention and therefore show only the structures which are relevant to the invention.

The stirring and guiding mechanism for pesticide processing shown in fig. 1, 2 and 3 comprises a main processing tank 1, a main driving motor 2, a lifting motor 3 and an adjusting motor 4, wherein an inner guide cylinder 5 is fixedly connected to the inner top surface of the main processing tank 1, an inner lifting sealing cylinder 6 controlled by the lifting motor 3 is arranged below the inner guide cylinder 5, a longitudinal driving rod 7 controlled by the main driving motor 2 is longitudinally arranged inside the inner lifting sealing cylinder 6 inside the inner guide cylinder 5, a lateral stirring blade 8 is fixedly bolted to the outer side surface of the longitudinal driving rod 7, an external linkage mechanism is movably arranged on the outer side surface of the longitudinal driving rod 7, a spiral guide blade 9 controlled by the main driving motor 2 is movably arranged outside the inner guide cylinder 5 inside the main processing tank 1, and a top-mounted transmission gear set for connecting the main driving motor 2, the longitudinal driving rod 7 and the spiral guide blade 9 is fixedly arranged at the top end of the main processing tank 1.

An arc-shaped feeding pipe for guiding materials is fixedly arranged at the upper end of the main processing tank 1, so that independent metal powder is conveniently guided into the middle cavity.

Further, in order to cooperate movable assembly, top transmission through-hole 10 has been seted up to top surface central point in the main processing jar 1, bottom assembly blind hole 11 has been seted up to bottom surface central point in the main processing jar 1, further, in order to cooperate control lift and cooperation lift accomodate, guarantee the stability of lift process, the leakproofness and flatness, vertical actuating lever 7 top, bottom central point all coaxial fixed with side direction assembly pole 12, outside linkage includes the cover outside assembly section of thick bamboo 13 on the side direction assembly pole 12 lateral surface, the centrifugal stirring of bolt fastening on the outside assembly section of thick bamboo 13 lateral surface is scraped and leaves blade 14 top lower extreme bottom linkage frame 15 at centrifugal stirring to bolt fastening, annular lift groove 16 has been seted up to main processing jar 1 bottom surface corresponds inside lift seal section of thick bamboo 6 position.

Further, in order to cooperate the top to adjust the lift, the upper surface of the inner lift sealing cylinder 6 is provided with an upward protruding integral structure linkage rod 17, a longitudinal linkage groove 18 matched with the linkage rod 17 is formed in the outer arc surface of the inner guide cylinder 5, the upper end of the main processing tank 1 is provided with a top linkage frame 19 controlled by the lift motor 3, and the top linkage frame 19 is fixedly connected with the top end of the linkage rod 17 through bolts.

Further, for cooperation fixed assembly, the installation screw hole of built-in installation bolt is offered on the gangbar 17 top, then the inside vertical pilot hole of seting up of top gangbar 19, then installation bolt runs through vertical pilot hole with top gangbar 19 and gangbar 17 fixed connection, further, for cooperation top gear drive, overhead drive gear group includes the outside transmission box 20 at main processing jar 1 upper end through bolt fixed mounting, drive gear 21 through vertical pivot movable mounting in outside transmission box 20 inside, first drive gear 22, second drive gear 23, first driven gear 24 and second driven gear 25, main drive motor 2 passes through bolt fixed mounting in outside transmission box 20 upper end, drive gear 21 coaxial fixation is in main drive motor 2 lower extreme pivot, first driven gear 24 coaxial fixation is on the side direction pilot rod 12 on vertical drive rod 7 top coaxial fixation with side direction pilot rod 12, drive gear 21 and first driven gear 24 pass through first drive gear 22 transmission connection between drive gear 21 and the second driven gear 25, drive gear through second drive gear 23 transmission connection.

Further, in order to cooperate to carry out longitudinal mixing and discharging on the powder guided out by the inner cavity, the spiral guiding-away blade 9 comprises an outer adjusting cylinder 26 movably assembled on the arc surface at the outer side of the inner guiding cylinder 5, a bottom assembling frame 27 fixed at the lower end of the outer adjusting cylinder 26, and a spiral guiding-away blade 28 fixed on the outer side surfaces of the outer adjusting cylinder 26 and the bottom assembling frame 27, and an annular adjusting tooth slot 29 is formed at the top end of the arc surface at the outer side of the outer adjusting cylinder 26.

Further, in order to cooperate to lead to the spiral and leave blade 9 and adjust rotation, the top surface is equipped with inside rotation gear 31 through the longitudinal adjustment pole 30 activity in the main processing jar 1, and the coaxial fixed on the longitudinal adjustment pole 30 top of second driven gear 25, and further, in order to cooperate to adjust the side discharge gate, the side direction discharge hole of built-in sealed ball valve 32 has been seted up to the inboard arcwall face upper end of main processing jar 1, fixedly connected with outside guide tube 33 on the main processing jar 1 lateral surface, accommodate motor 4 inserts sealed ball valve 32 and sealed ball valve 32 coaxial coupling through the lower extreme pivot.

Working principle: the main driving motor 2 synchronously drives the longitudinal driving rod 7 and the spiral guide-away blade 9 to synchronously operate, the lifting motor 3 plays a role of driving the top linkage frame 19 and the linkage rod 17 to synchronously lift, so that the lifting state of the inner lifting sealing cylinder 6 in the annular lifting groove 16 is changed, the lifting sealing cylinder 6 descends, the inner cavity is communicated with the outer cavity, the lifting sealing cylinder 6 ascends, the inner cavity and the outer cavity are closed, the regulating motor 4 plays a role of rotating and regulating the sealing ball valve 32, and the sealing ball valve is used for conveniently matching with the spiral guide-away blade 9 to laterally discharge.

The first transmission gear 22 and the second transmission gear 23 can control the separation and engagement states by installing the lifting push rod at the upper end of the external transmission box 20, so that the whole equipment is more flexible to control, when the inner side or the outer side cavity does not contain powder, the transmission state can be disconnected, thereby reducing the energy consumption, enabling the whole equipment to be more skilled, and the lifting push rod at the corresponding position can be controlled by arranging gravity sensing controllers at the bottoms of the inner side and the outer side cavity to realize the purpose of automatic control.

According to the stirring and guiding mechanism for pesticide processing, the inner guide cylinder 5 and the inner lifting sealing cylinder 6 controlled by the lifting motor 3 are fixedly connected in the main processing tank 1, the inner and outer double-chamber design is adopted, and different chambers for middle stirring and mixing and lateral thread feeding are utilized, so that the stirring stroke in equipment is improved, the mixing is more uniform, and the mixing effect is greatly improved; the top end of the main processing tank 1 is fixedly provided with a top transmission gear set for transmitting and connecting the main driving motor 2, the longitudinal driving rod 7 and the spiral guide vane 9 by bolts, and the main driving motor 2 synchronously drives the stirring and conveying mechanism to operate, so that the transmission efficiency is greatly improved; the lifting motor 3 drives the internal lifting sealing cylinder 6 and the external linkage mechanism to synchronously lift through the top linkage frame 19, so that the communication state of the internal and external chambers is freely regulated, the stirring position of the internal stirring chamber can be changed as required, the bottom material is conveniently scraped away when the internal and external chambers are communicated, the powder is discharged into the external material conveying chamber through rotation and centrifugation, powder accumulation in the stirring chamber is avoided, and the material discharging effect is improved. The annular lifting groove 16 matched with the inner lifting sealing cylinder 6 is formed in the inner bottom surface of the main processing tank 1, the connection and sealing states of the inner cavity and the outer cavity are controlled by descending type adjustment, so that the flatness of the inner wall in the opening and closing state is guaranteed, the operation of an internal transmission mechanism is not influenced, the space layout is more reasonable, and the use is more convenient.

With the above-described preferred embodiments according to the present invention as an illustration, the above-described descriptions can be used by persons skilled in the relevant art to make various changes and modifications without departing from the scope of the technical idea of the present invention. The technical scope of the present invention is not limited to the description, but must be determined according to the scope of claims.

Claims (8)

1. A stirring guide mechanism for pesticide processing, includes main processing jar (1), main driving motor (2), elevator motor (3) and accommodate motor (4), characterized by: the novel spiral guide device is characterized in that an inner guide cylinder (5) is fixedly connected to the inner top surface of the main processing tank (1), an inner lifting sealing cylinder (6) controlled by a lifting motor (3) is arranged below the inner guide cylinder (5), a longitudinal driving rod (7) controlled by a main driving motor (2) is longitudinally arranged inside the inner lifting sealing cylinder (6), lateral stirring blades (8) are fixedly arranged on the outer side surface of the longitudinal driving rod (7) through bolts, an external linkage mechanism is movably assembled on the outer side surface of the longitudinal driving rod (7), a spiral guide vane (9) controlled by the main driving motor (2) is movably assembled outside the inner guide cylinder (5) inside the main processing tank (1), and a top transmission gear set for connecting the main driving motor (2), the longitudinal driving rod (7) and the spiral guide vane (9) is fixedly arranged on the top end of the main processing tank (1) through bolts.

2. The stirring and guiding mechanism for pesticide processing according to claim 1, wherein: the center position of the inner top surface of the main processing tank (1) is provided with a top transmission through hole (10), and the center position of the inner bottom surface of the main processing tank (1) is provided with a bottom assembly blind hole (11).

3. A stirring and guiding mechanism for pesticide processing as set forth in claim 3, wherein: the vertical actuating lever (7) top, bottom central point put and all coaxial be fixed with side direction assembly pole (12), outside linkage including cover outside assembly section of thick bamboo (13) on side direction assembly pole (12) lateral surface, the centrifugal stirring of bolt fastening on outside assembly section of thick bamboo (13) lateral surface scrape from blade (14) and bolt fastening scrape from bottom linkage frame (15) of blade (14) top lower extreme at centrifugal stirring, main processing jar (1) interior bottom surface correspond inside lift seal section of thick bamboo (6) position and seted up annular lift groove (16).

4. A stirring and guiding mechanism for pesticide processing as set forth in claim 3, wherein: the upper surface of the inner lifting sealing cylinder (6) is provided with an upward-protruding integrated structure linkage rod (17), a longitudinal linkage groove (18) matched with the linkage rod (17) is formed in the outer arc surface of the inner guide cylinder (5), the upper end of the main processing tank (1) is provided with a top linkage frame (19) controlled by the lifting motor (3), and the top linkage frame (19) is fixedly connected with the top end of the linkage rod (17) through bolts.

5. A stirring and guiding mechanism for pesticide processing as set forth in claim 3, wherein: the overhead transmission gear set comprises an external transmission box (20) fixedly mounted at the upper end of a main processing tank (1) through bolts, a driving gear (21), a first transmission gear (22), a second transmission gear (23), a first driven gear (24) and a second driven gear (25) which are movably mounted in the external transmission box (20) through longitudinal rotating shafts, the main driving motor (2) is fixedly mounted at the upper end of the external transmission box (20) through bolts, the driving gear (21) is coaxially fixed on the rotating shaft at the lower end of the main driving motor (2), the first driven gear (24) is coaxially fixed on a lateral assembly rod (12) at the top end of a longitudinal driving rod (7) and is coaxially fixed with the lateral assembly rod (12), the driving gear (21) is in transmission connection with the first driven gear (24) through the first transmission gear (22), and the driving gear (21) is in transmission connection with the second driven gear (25) through the second transmission gear (23).

6. The stirring and guiding mechanism for pesticide processing according to claim 1, wherein: the spiral guide vane (9) comprises an outer adjusting cylinder (26) movably assembled on the outer arc surface of the inner guiding cylinder (5), a bottom assembling frame (27) fixed at the lower end of the outer adjusting cylinder (26) and a spiral guide vane (28) fixed on the outer side surfaces of the outer adjusting cylinder (26) and the bottom assembling frame (27), and an annular adjusting tooth slot (29) is formed in the top end of the outer arc surface of the outer adjusting cylinder (26).

7. The stirring and guiding mechanism for pesticide processing as set forth in claim 5, wherein: the inner top surface of the main processing tank (1) is movably provided with an internal rotating gear (31) through a longitudinal adjusting rod (30), and the second driven gear (25) is coaxially fixed at the top end of the longitudinal adjusting rod (30).

8. The stirring and guiding mechanism for pesticide processing according to claim 1, wherein: the automatic feeding and discharging device is characterized in that a lateral discharging hole of a built-in sealing ball valve (32) is formed in the upper end of an arc-shaped surface on the inner side of the main processing tank (1), an external material guide pipe (33) is fixedly connected to the outer side of the main processing tank (1), and the adjusting motor (4) is inserted into the sealing ball valve (32) through a rotating shaft at the lower end and is coaxially connected with the sealing ball valve (32).

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