CN208727361U - A kind of bio-feritlizer mixing machine - Google Patents

Abstract

The utility model discloses a kind of bio-feritlizer mixing machine, it include: agitator tank, installs case, the first spur rack, driving box and agitating paddle, the agitator tank includes agitator tank ontology, feeding cylinder, discharge barrel, bottom cover and latch assembly, and the feeding cylinder, agitator tank ontology and discharge barrel are from top to bottom sequentially arranged and are connected；The bottom cover is covered in the lower openings of the discharge barrel, and one side and the lower edge of the discharge barrel are hinged, another side is connect with the discharge barrel by the latch assembly；The installs case is set to agitator tank body exterior side；The installs case includes the first back side panel, the first left plate and the first right side plate, first left plate and first right side plate are individually fixed in the left and right ends of first back side panel, and first right side plate is fixedly connected with the left side outer wall of the agitator tank ontology；First spur rack is horizontally disposed along the length direction of first back side panel, and is firmly connected with it.

Description

A kind of bio-feritlizer mixing machine

Technical field

The utility model relates to bio-fertilizer production equipments, and in particular to a kind of bio-feritlizer mixing machine.

Background technique

Then existing bio-fertilizer is equipped with microbial inoculum and inorganic fertilizer mixes all based on organic matter.To improve this extensively The general and traditional situation of kind, biological fertilizer products have then much surmounted existing concept.It will be enlarged by can provide work Object nutrition, and soil can be improved；Also reply soil carries out disinfection simultaneously, i.e., is decomposed and eliminated using biological (mainly microorganism) The pollutant of the products such as pesticide (insecticide and fungicide), herbicide and petrochemical industry in soil, and soil is risen simultaneously To repair.The bio-feritlizer of narrow sense refers to microorganism (bacterium) fertilizer, abbreviation bacterial manure, also known as microbial inoculant.It is As the microorganism with special efficiency through made of everfermentation (artificial training system), containing a large amount of beneficial microbes, after being manured into soil, Or it is capable of fixing the nitrogen in air, or the nutrient in energy activating soil, improve the nutrient environment of plant, or the life in microorganism In active procedure, active material is generated, the specified microorganisms product of plant growth is stimulated.

Existing bio-fertilizer usually requires to ferment after mixing with microorganism, is manually stirred, large labor intensity, and And it can not uniformly mix.

Utility model content

The purpose of the utility model is to overcome above-mentioned technical deficiencies, provide a kind of bio-feritlizer mixing machine, solve existing It is manually stirred in technology, large labor intensity, and can not mixed uniformly technical problem.

To reach above-mentioned technical purpose, the technical solution of the utility model provides a kind of bio-feritlizer mixing machine, comprising: stirs Mix case, installs case, the first spur rack, driving box and agitating paddle, the agitator tank include agitator tank ontology, feeding cylinder, discharge barrel, Bottom cover and latch assembly, the feeding cylinder, agitator tank ontology and discharge barrel are from top to bottom sequentially arranged and are connected；The bottom cover It covers in the lower openings of the discharge barrel, and the lower edge of one side and the discharge barrel is hinged, another side and institute Discharge barrel is stated to connect by the latch assembly；The installs case is set to agitator tank body exterior side；The installation Case includes the first back side panel, the first left plate and the first right side plate, and first left plate and first right side plate are solid respectively Left side outer wall due to the left and right ends of first back side panel, and first right side plate and the agitator tank ontology is fixed Connection；First spur rack is horizontally disposed along the length direction of first back side panel, and is firmly connected with it；The driving Case includes driving box ontology, servo motor, first rotating shaft, the second shaft, the first spur gear, the second spur gear, first bevel gear And second bevel gear, the driving box ontology are slidably connected with first back side panel, and its glide direction is parallel to described One spur rack；The first rotating shaft is parallel to the first spur rack arrangement, and rotates and connect with the inner wall of the driving box ontology It connects；The drive shaft of the servo motor and one end of the first rotating shaft are fixedly and coaxially connected, and drive its rotation；Described first Bevel gear and the first spur gear are fixedly and coaxially connected with the first rotating shaft；Second shaft arranges vertically, and with it is described The rotation connection of driving box ontology；Second spur gear is coaxially fixed on the upper end of second shaft, second spur gear It is meshed with first spur rack；The second bevel gear is coaxially fixed on the lower end of second shaft, second cone Gear is meshed with the first bevel gear；The agitating paddle includes shaft, stirring blade, third spur gear and swivel becket；Institute It states shaft and is parallel to the first spur rack arrangement, and the left end of the shaft is set to the outside of the agitator tank ontology, institute The right end sliding for stating shaft, which is arranged on the left side wall that sliding eye and the agitator tank ontology are arranged on first right side plate, to be set The sliding eye set, and extend to the inside of the agitator tank ontology；The stirring blade is fixedly connected on the right end of the shaft； The third spur gear is coaxially fixed on the left end of the shaft, and the third spur gear is meshed with first spur gear； The swivel becket rotates coaxially the left end for being connected to the shaft, and with its axial restraint, and the side of the swivel becket with The driving box ontology is fixedly connected.

Compared with prior art, the beneficial effects of the utility model include: that the servo motor drives the first rotating shaft Rotation, the first rotating shaft drive the first bevel gear being firmly connected with it and the first spur gear to rotate synchronously, and described the Gear drives the third spur gear rotation always, and then drives the agitating paddle rotation；Described in the first bevel gear drives Second bevel gear rotation, and then drive second shaft rotation, second shaft drive described the be firmly connected with it The rotation of two spur gears, since second spur gear is meshed with first spur rack, when second spur gear rotation, It will drive the driving box ontology to move along first spur rack, be connected to the shaft since the swivel becket rotates coaxially Left end, and with its axial restraint, and the side of the swivel becket is fixedly connected with the driving box ontology, therefore works as the drive When dynamic case ontology is moved along the length direction of first spur rack, it will drive the agitating paddle and move in the same direction；The utility model In the servo motor positive and negative rotation can drive the agitating paddle positive and negative rotation, while driving the agitating paddle axial past along it Multiple movement alleviates the labor intensity of worker so that the mixing of bio-fertilizer is more uniform, while also avoiding manpower stirring.

Detailed description of the invention

Fig. 1 is the first view stereo structural schematic diagram of the utility model embodiment 1.

Fig. 2 is the partial schematic sectional view of Fig. 1.

Fig. 3 is that the schematic perspective view after agitator tank and agitating paddle is removed in Fig. 1.

Fig. 4 is the schematic elevation view of Fig. 2.

Fig. 5 is the second view stereo structural schematic diagram of the utility model embodiment 1.

Fig. 6 is the partial enlargement diagram in Fig. 5 at B.

Fig. 7 is the schematic diagram of internal structure of the utility model embodiment 2.

Specific embodiment

In order to make the purpose of the utility model, technical solutions and advantages more clearly understood, below in conjunction with attached drawing and implementation Example, the present invention will be further described in detail.It should be appreciated that specific embodiment described herein is only used to explain The utility model is not used to limit the utility model.

Embodiment 1:

Fig. 1~6 are please referred to, the present embodiment provides a kind of bio-feritlizer mixing machines, comprising: agitator tank 1, installs case 2, first Spur rack 3, the second spur rack 4, driving box 5, agitating paddle 6, upper limit blend stop 7 and lower limit blend stop 8.

The agitator tank 1 includes agitator tank ontology 11, feeding cylinder 12, discharge barrel 13, bottom cover 14 and latch assembly 15, described Feeding cylinder 12, agitator tank ontology 11 and discharge barrel 13 are from top to bottom sequentially arranged and are connected；The bottom cover 14 is covered in described The lower openings of discharge barrel 13, and the lower edge of one side and the discharge barrel 13 is hinged, another side and the discharging Cylinder 13 is connected by the latch assembly 15；Specifically, the latch assembly 15 includes the first docking section 151, the second docking section 152 and inserted link 153, first docking section 151 and second docking section 152 are tubular, 151 edge of the first docking section A side on the bottom cover 14 far from its hinged end arranges that second docking section 152 is set under the discharge barrel 13 Portion edge, and be coaxially disposed with first docking section 151；The inserted link passes through second docking section 152 and institute according to 153 times State the first docking section 151.

The installs case 2 is set to the 11 outside side of agitator tank ontology；The installs case 2 includes the first back side panel 21, the first left plate 22 and the first right side plate 23, first left plate 22 and first right side plate 23 are individually fixed in institute The left and right ends of the first back side panel 21 are stated, and the left side outer wall of first right side plate 23 and the agitator tank ontology 11 is fixed Connection.

First spur rack 3 is horizontally disposed along the length direction of first back side panel 21, and is firmly connected with it.

Second spur rack 4 parallel arrangement in the lower section of first spur rack 3, and second spur rack 4 with First back side panel 21 is fixedly connected.

The driving box 5 includes driving box ontology 5a, servo motor 5b, first rotating shaft 5c, the second shaft 5d, third shaft 5e, the 4th shaft 5f, the first spur gear 5g, the second spur gear 5h, the 4th spur gear 5j, the 5th spur gear 5k, the 6th spur gear 5m, first bevel gear 5n, second bevel gear 5p, third hand tap gear 5q and the 4th bevel gear 5r；The driving box ontology 5a and institute It states the first back side panel 21 to be slidably connected, and its glide direction is parallel to first spur rack 3；The driving box ontology 5a includes Second epipleural 5a1, the second lower side panel 5a2, the second left plate 5a3 and the second right side plate 5a4, the second epipleural 5a1 with The second lower side panel 5a2 or more is positioned opposite；The second left plate 5a3 and the second right side plate 5a4 or so are with respect to cloth It sets；The upper and lower side of the second left plate 5a3 is solid with the left side of the second epipleural 5a1, the second lower side panel 5a2 respectively Fixed connection；The upper and lower side of the second right side plate 5a4 right side with the second epipleural 5a1, the second lower side panel 5a2 respectively Side is fixedly connected；The first rotating shaft 5c is parallel to first spur rack 3 and arranges, the right end of the first rotating shaft 5c with it is described The inner wall of second right side plate 5a4 is rotatablely connected；The servo motor 5b is fixedly installed on the second left plate 5a3, described The drive shaft of servo motor 5b and the left end of the first rotating shaft 5c are fixedly and coaxially connected, and drive its rotation；First cone Gear 5n, the first spur gear 5g and the 4th spur gear 5j are fixedly and coaxially connected with the first rotating shaft 5c；Second shaft 5d arranges vertically, and the second shaft 5d and the second epipleural 5a1 are rotatablely connected, and with its axial restraint；Described second Spur gear 5h is coaxially fixed on the upper end of the second shaft 5d, and the second spur gear 5h is nibbled with 3 phase of the first spur rack It closes；The second bevel gear 5p is coaxially fixed on the lower end of the second shaft 5d, the second bevel gear 5p and described first Bevel gear 5n is meshed.

The third shaft 5e is parallel to first rotating shaft 5c arrangement, the both ends of the third shaft 5e respectively with it is described Second left plate 5a3, the second right side plate 5a4 rotation connection；The 5th spur gear 5k and third hand tap gear 5q is and institute Third shaft 5e is stated to be fixedly and coaxially connected；The 5th spur gear 5k is meshed with the 4th spur gear 5j；Described 4th turn Axis 5f arranges vertically, and the 4th shaft 5f and the second lower side panel 5a2 are rotatablely connected, and with its axial restraint；Described Six spur gear 5m are coaxially fixed on the lower end of the 4th shaft 5f, the 6th spur gear 5m and 4 phase of the second spur rack Engagement；The 4th bevel gear 5r is coaxially fixed on the upper end of the 4th shaft 5f, the 4th bevel gear 5r and described the Third hand tap gear 5q is meshed；Wherein, the 4th spur gear 5j is identical as the 5th spur gear 5k；The second spur gear 5h It is identical as the 6th spur gear 5m；The first bevel gear 5n is identical as the third hand tap gear 5q；The second bevel gear 5p is identical as the 4th bevel gear 5r；First spur rack 3 is identical as second spur rack 4, to ensure that described Second spur gear 5h is identical as the running speed of the 6th spur gear 5m, so that the driving box ontology 5a is after described first The movement of side plate 21 is more stable.

The agitating paddle 6 includes shaft 61, stirring blade 62, third spur gear 63 and swivel becket 64；The shaft 61 is flat Row is arranged in first spur rack 3, and the left end of the shaft 61 is set to the outside of the agitator tank ontology 11, described turn The right end sliding of axis 61 is arranged on the left side wall that sliding eye and the agitator tank ontology 11 are arranged on first right side plate 23 The sliding eye of setting, and extend to the inside of the agitator tank ontology 11；The stirring blade 62 is fixedly connected on the shaft 61 right end；The third spur gear 63 is coaxially fixed on the left end of the shaft 61, the third spur gear 63 and described the One spur gear 5g is meshed；The swivel becket 64 rotates coaxially the left end for being connected to the shaft 61, and with its axial restraint, and And the side of the swivel becket 64 is fixedly connected with the driving box ontology 5a.

The upper surface of the second epipleural 5a1 is provided with the first convex block 5a1a；The lower surface of the second lower side panel 5a2 It is provided with the second convex block 5a2a；The upper limit blend stop 7 is parallel to first spur rack 3 and arranges, and its both ends respectively with institute State the first left plate 22, first right side plate 23 is fixedly connected；The first convex block 5a1a is away from first spur rack 3 Slide against in relatively described first spur rack 3 of the upper limit blend stop 7 while；The lower limit blend stop 8 is parallel to Second spur rack 4 is arranged, and its both ends is fixedly connected with first left plate 22, first right side plate 23 respectively； The second convex block 5a2a is slid against on one side away from second spur rack 4 in the lower limit blend stop 8 relatively described the The one side of two spur racks 4 further improves the stabilization that the driving box ontology 5a is moved along first back side panel 21.

Working principle: the servo motor 5b drives the first rotating shaft 5c rotation, and the first rotating shaft 5c drives and it The first bevel gear 5n being fixedly connected and the first spur gear 5g is rotated synchronously, and the first spur gear 5g drives the third Spur gear 63 rotates, and then the agitating paddle 6 is driven to rotate；The first bevel gear 5n drives the second bevel gear 5p to turn It is dynamic, and then the second shaft 5d rotation is driven, the second shaft 5d drives second spur gear being firmly connected with it 5h rotation, since the second spur gear 5h is meshed with first spur rack 3, when the second spur gear 5h rotation, It will drive the driving box ontology 5a to move along first spur rack 3, be connected to institute since the swivel becket 64 rotates coaxially State the right end of shaft 61, and with its axial restraint, and the side of the swivel becket 64 and driving box ontology 5a is fixed connects It connects, therefore when the driving box ontology 5a is moved along the length direction of first spur rack 3, it is same to will drive the agitating paddle 6 To movement；The servo motor 5b positive and negative rotation in the utility model can drive 6 positive and negative rotation of agitating paddle, drive simultaneously The agitating paddle 6 is along its axially reciprocating, so that the mixing of bio-fertilizer is more uniform, while also avoiding manpower stirring, subtracts The light labor intensity of worker.

Embodiment 2:

Referring to Fig. 7, it is substantially the same manner as Example 1, the difference is that: the bio-feritlizer mixing machine further includes bearing Pressure fan 9 and segregation ash net 10,9 air intake of negative-pressure air fan are connected to the inside of the feeding cylinder 12, the negative-pressure air fan 9 Outlet air end is connected to external environment, so that the inside of the feeding cylinder 12 forms subnormal ambient, reduces the powder that whipping process generates Dirt is diffused into outside from the upper end opening of the feeding cylinder 12, improves the working environment of worker；The segregation ash net 10 is set to The air intake of the negative-pressure air fan 9.

Specific embodiment of the present utility model described above does not constitute the restriction to scope of protection of the utility model. Any other various changes and modifications that any technical concept according to the present utility model is made should be included in practical In novel scope of protection of the claims.

Claims (6)

1. a kind of bio-feritlizer mixing machine, comprising: agitator tank, installs case, the first spur rack, driving box and agitating paddle, it is described to stir Mixing case includes agitator tank ontology, feeding cylinder, discharge barrel, bottom cover and latch assembly, the feeding cylinder, agitator tank ontology and discharge barrel It is from top to bottom sequentially arranged and is connected；The bottom cover is covered in the lower openings of the discharge barrel, and one side with it is described The lower edge of discharge barrel is hinged, another side is connect with the discharge barrel by the latch assembly；The installs case setting In agitator tank body exterior side；The installs case includes the first back side panel, the first left plate and the first right side plate, described First left plate and first right side plate are individually fixed in the left and right ends of first back side panel, and first right side Plate is fixedly connected with the left side outer wall of the agitator tank ontology；Length direction of first spur rack along first back side panel It is horizontally disposed, and be firmly connected with it；The driving box include driving box ontology, servo motor, first rotating shaft, the second shaft, First spur gear, the second spur gear, first bevel gear and second bevel gear, the driving box ontology and first back side panel are sliding Dynamic connection, and its glide direction is parallel to first spur rack；The first rotating shaft is parallel to the first spur rack arrangement, And it is rotatablely connected with the inner wall of the driving box ontology；The drive shaft of the servo motor and one end of the first rotating shaft are coaxial It is fixedly connected, and drives its rotation；The first bevel gear and the first spur gear are fixedly and coaxially connected with the first rotating shaft； Second shaft is arranged vertically, and is rotatablely connected with the driving box ontology；Second spur gear is coaxially fixed on described The upper end of second shaft, second spur gear are meshed with first spur rack；The second bevel gear is coaxially fixed on The lower end of second shaft, the second bevel gear are meshed with the first bevel gear；The agitating paddle includes shaft, stirs Mix blade, third spur gear and swivel becket；The shaft is parallel to the first spur rack arrangement, and the left end of the shaft is set Be placed in the outside of the agitator tank ontology, the right end sliding of the shaft be arranged on first right side plate be arranged sliding eye and The sliding eye being arranged on the left side wall of the agitator tank ontology, and extend to the inside of the agitator tank ontology；The paddle Piece is fixedly connected on the right end of the shaft；The third spur gear is coaxially fixed on the left end of the shaft, and the third is straight Gear is meshed with first spur gear；The swivel becket rotates coaxially the left end for being connected to the shaft, and with its axial direction It is fixed, and the side of the swivel becket is fixedly connected with the driving box ontology.

2. bio-feritlizer mixing machine according to claim 1, which is characterized in that the latch assembly includes the first docking Portion, the second docking section and inserted link, first docking section and second docking section be it is tubular, first docking section is along institute It states a side on bottom cover far from its hinged end and arranges that second docking section is set to the lower edge of the discharge barrel, and It is coaxially disposed with first docking section；The inserted link sequentially passes through second docking section and first docking section.

3. bio-feritlizer mixing machine according to claim 1, which is characterized in that the bio-feritlizer mixing machine further includes Second spur rack, second spur rack parallel arrangement in the lower section of first spur rack, and second spur rack with First back side panel is fixedly connected；The driving box further includes third shaft, the 4th shaft, the 4th spur gear, the 5th straight-tooth Wheel, the 6th spur gear, third hand tap gear and the 4th bevel gear, the 4th spur gear and the first rotating shaft are coaxially fixed to be connected It connects；The third shaft is parallel to the first rotating shaft arrangement, and the third shaft and the driving box ontology are rotatablely connected；Institute The 5th spur gear and the third hand tap gear is stated to be fixedly and coaxially connected with the third shaft；5th spur gear with it is described 4th spur gear is meshed；4th shaft is arranged vertically, and is rotatablely connected with the driving box ontology；6th straight-tooth Wheel is coaxially fixed on the lower end of the 4th shaft, and the 6th spur gear is meshed with second spur rack；Described 4th Bevel gear is coaxially fixed on the upper end of the 4th shaft, and the 4th bevel gear is meshed with the third hand tap gear；Wherein, 4th spur gear is identical as the 5th spur gear；Second spur gear is identical as the 6th spur gear；Described One bevel gear is identical as the third hand tap gear；The second bevel gear is identical as the 4th bevel gear；First straight-tooth Item is identical as second spur rack.

4. bio-feritlizer mixing machine according to claim 3, which is characterized in that the driving box ontology includes the second upside Plate, the second lower side panel, the second left plate and the second right side plate, second epipleural and second lower side panel are up and down with respect to cloth It sets；Second left plate and second right side plate or so are positioned opposite；The upper and lower side of second left plate respectively with institute It states the second epipleural, be fixedly connected on the left of second lower side panel；The upper and lower side of second right side plate is respectively with described It is fixedly connected on the right side of two epipleurals, second lower side panel.

5. bio-feritlizer mixing machine according to claim 4, which is characterized in that the upper surface of second epipleural is arranged There is the first convex block；The lower surface of second lower side panel is provided with the second convex block；On the bio-feritlizer mixing machine further includes Limit blend stop and lower limit blend stop, the upper limit blend stop is parallel to the first spur rack arrangement, and its both ends respectively with institute State the first left plate, first right side plate is fixedly connected；First convex block is slided away from the one side of first spur rack It is connected to the one side of relatively described first spur rack of the upper limit blend stop；The lower limit blend stop is parallel to second straight-tooth Item arrangement, and its both ends is fixedly connected with first left plate, first right side plate respectively；Second convex block deviates from institute State the second spur rack slide against in relatively described second spur rack of the lower limit blend stop while.

6. bio-feritlizer mixing machine according to claim 1, which is characterized in that the bio-feritlizer mixing machine further includes Negative-pressure air fan and segregation ash net, the negative-pressure air fan air intake are connected to the inside of the feeding cylinder, the outlet air of the negative-pressure air fan End is connected to external environment；The segregation ash net is set to the air intake of the negative-pressure air fan.