CN218222203U - Fertilizer production blendor - Google Patents

Abstract

The utility model relates to an organic fertilizer production equipment technical field specifically is an organic fertilizer production blendor, including frame, mixing tank, set up in the controller of frame one side, be used for the conveyer belt of mixing tank pay-off, be used for driving the conveyer belt removes the pay-off actuating mechanism that the pay-off adopted and sets up in the mixing mechanism in the mixing tank, follow the pay-off direction of conveyer belt, the top of conveyer belt has set gradually horizontal cutting mechanism and vertical cutting mechanism, the top of mixing tank is provided with the infundibulate feed inlet, one side of mixing tank is provided with the feeding breach, the bottom of mixing tank is provided with the bin outlet, one end of conveyer belt stretches into from the feeding breach in the mixing tank, be provided with the blow-off valve in the bin outlet; the utility model discloses cut the cow dung piece earlier and granulate, mix raw materials such as cow dung granule and crop straw again, mix effectually, shortened the production cycle of cow dung fertilizer.

Description

Fertilizer production blendor

Technical Field

The utility model relates to a fertilizer production facility technical field specifically is a fertilizer production blendor.

Background

Cow dung is one of common raw materials for organic fertilizer fermentation, and in the preparation process of cow dung organic fertilizer, the cow dung is firstly dehydrated, then the dehydrated cow dung is mixed with raw materials such as crop straws and the like, and then the mixture is placed in a fermentation tank for fermentation.

However, the dehydrated cow dung blocks are large in volume and difficult to be uniformly mixed with raw materials such as crop straws and the like; in addition, the fermentation strain needs a long time to decompose the cow dung microorganism, so that the production period of the cow dung organic fertilizer is prolonged.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to foretell not enough, provide a fertilizer production blendor, cut the cow dung piece earlier and granulate, mix raw materials such as cow dung granule and crop straw again, mix effectually, shortened the production cycle of cow dung fertilizer.

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

the utility model provides a fertilizer production blendor, includes the frame, set up in the compounding jar of frame one side, set up in the controller of frame one side is used for giving the conveyer belt of compounding jar pay-off is used for the drive the pay-off actuating mechanism that the pay-off was adopted is removed to the conveyer belt, and set up in compounding mechanism in the compounding jar follows the pay-off direction of conveyer belt, the top of conveyer belt has set gradually horizontal cutting mechanism and vertical cutting mechanism, the top of compounding jar is provided with the infundibulate feed inlet, one side of compounding jar is provided with the feeding breach, the bottom of compounding jar is provided with the bin outlet, the one end of conveyer belt is followed the feeding breach stretches into in the compounding jar, be provided with the relief valve in the bin outlet, pay-off actuating mechanism, compounding mechanism, horizontal cutting mechanism, vertical cutting mechanism and the equal electric connection of relief valve the controller.

Further, pay-off actuating mechanism is including locating in parallel the driving shaft and the driven shaft at both ends around the frame for the drive the rotatory feeding motor who adopts of driving shaft, the driving shaft with the driven shaft passes through the conveyer belt is connected.

Further, a first door-shaped mounting rack and a second door-shaped mounting rack which are fixed on the rack are arranged above the conveyor belt; the transverse cutting mechanism comprises a transverse cutting cylinder fixed to the transverse portion of the first door-shaped mounting frame, a piston rod head of the transverse cutting cylinder vertically extends downwards to drive and connect a transverse cutter holder, and a plurality of transverse blades are arranged on the bottom of the transverse cutter holder in an equidistant mode.

Further, vertically cut the mechanism including fixing the cylinder is vertically cut to the horizontal portion of second door font mounting bracket, vertically stretch out the drive downwards and connect vertical blade holder vertically to the piston rod pole head of the cylinder of vertically cutting, the bottom equidistance of vertical blade holder is provided with the vertical blade of multi-disc, vertical blade perpendicular to horizontal blade setting.

Further, the compounding mechanism including set up in compounding axle in the compounding jar, the epaxial compounding blade that is provided with of compounding, the top of compounding jar is provided with the compounding motor, the top of compounding axle is worn out connect behind the compounding jar the output shaft of compounding motor.

Furthermore, the left side and the right side of the conveyor belt are respectively provided with a baffle.

Further, the discharge gate is funnel-shaped discharge gate.

The utility model has the advantages that:

in practical application, the dehydrated cow dung blocks are placed on a conveyor belt, the conveyor belt is driven by a controller through controlling a feeding driving mechanism to feed materials, the cow dung blocks are cut into cow dung strips through a transverse cutting mechanism, the cow dung strips are cut into cow dung grains through a longitudinal cutting mechanism, the cow dung grains are fed into a mixing tank from a feeding notch through the conveyor belt, raw materials such as crop straws are placed into the mixing tank through a funnel-shaped feeding hole, the cow dung grains and the raw materials such as the crop straws are uniformly mixed through a mixing mechanism, and the mixed raw materials can be discharged through a discharging hole; the utility model discloses cut the cow dung piece earlier and granulate, mix raw materials such as cow dung granule and crop straw again, mix effectually, shortened the production cycle of cow dung fertilizer.

Drawings

Fig. 1 is a front view of the present invention;

fig. 2 is a top view of the present invention;

FIG. 3 isbase:Sub>A cross-sectional view taken at A-A in FIG. 2;

reference numerals are as follows: a frame 1; a first gate-shaped mounting frame 11; a second door-shaped mounting frame 12; a mixing tank 2; a funnel-shaped feed opening 21; a feed gap 22; a discharge opening 23; a conveyor belt 4; a feeding drive mechanism 5; a drive shaft 51; the driven shaft 52; a feed motor 53; a material mixing mechanism 6; a mixing shaft 61; a mixing blade 62; a mixing motor 63; a transverse slitting mechanism 7; a transverse slitting cylinder 71; a transverse blade holder 72; a lateral blade 73; a longitudinal slitting mechanism 8; a longitudinal slitting cylinder 81; a longitudinal knife holder 82; a longitudinal blade 83; a baffle 9.

Detailed Description

As shown in fig. 1, 2 and 3, a fertilizer production blendor, including frame 1, set up in the compounding jar 2 of frame 1 one side, set up in the controller 3 of frame 1 one side, be used for giving the conveyer belt 4 of 2 pay-offs of compounding jar is used for the drive the conveyer belt 4 removes the pay-off actuating mechanism 5 that the pay-off adopted, and set up in compounding mechanism 6 in compounding jar 2, follow the pay-off direction of conveyer belt 4, the top of conveyer belt 4 has set gradually horizontal cutting mechanism 7 and vertical cutting mechanism 8, the top of compounding jar 2 is provided with infundibulate feed inlet 21, one side of compounding jar 2 is provided with feeding breach 22, the bottom of compounding jar 2 is provided with bin outlet 23, the one end of conveyer belt 4 is followed feeding breach 22 stretches into in the compounding jar 2, be provided with the relief valve in the relief outlet 23, the equal electric connection of pay-off actuating mechanism 5, compounding mechanism 6, horizontal cutting mechanism 7, vertical cutting mechanism 8 and relief valve the controller 3.

When the device is used, the dehydrated cow dung blocks are placed on the conveyor belt 4, the controller 3 drives the conveyor belt 4 to feed by controlling the feeding driving mechanism 5, the cow dung blocks are cut into cow dung strips by the transverse cutting mechanism 7, the cow dung strips are cut into cow dung particles by the longitudinal cutting mechanism 8, the cow dung particles are sent into the mixing tank 2 from the feeding gap 22 by the conveyor belt 4, raw materials such as crop straws and the like are put into the mixing tank 2 through the funnel-shaped feeding hole 21, the cow dung particles and the crop straws and the like are uniformly mixed by the mixing mechanism 6, and the mixed raw materials can be discharged through the discharging hole 23; the utility model discloses cut the cow dung piece earlier and granulate, mix raw materials such as cow dung granule and crop straw again, mix effectually, shortened the production cycle of cow dung fertilizer.

As shown in fig. 1, 2 and 3, the feeding driving mechanism 5 includes a driving shaft 51 and a driven shaft 52 which are arranged in parallel at the front and rear ends of the frame 1, and is used for driving the feeding motor 53 adopted by the driving shaft 51 to rotate, and the driving shaft 51 is connected with the driven shaft 52 through the conveyor belt 4; in this embodiment, the feeding motor 53 drives the driving shaft 51 to rotate, the driving shaft 51 drives the driven shaft 52 to rotate through the conveyor belt 4, and the cattle manure blocks on the conveyor belt 4 are sequentially sent to the transverse splitting mechanism 7, the longitudinal splitting mechanism 8 and the mixing tank 2.

As shown in fig. 1, 2 and 3, a first door-shaped mounting rack 11 and a second door-shaped mounting rack 12 fixed on the frame 1 are arranged above the conveyor belt 4; the transverse cutting mechanism 7 comprises a transverse cutting cylinder 71 fixed at the transverse part of the first door-shaped mounting frame 11, a piston rod head of the transverse cutting cylinder 71 vertically extends downwards to be in driving connection with a transverse cutter holder 72, and a plurality of transverse blades 73 are arranged at the bottom of the transverse cutter holder 72 at equal intervals; in this embodiment, transversely cut cylinder 71 through the installation of first door font mounting bracket 11, stretch out through transversely cut cylinder 71's piston rod pole head, drive horizontal blade holder 72 and horizontal blade 73 and move down, with the cow dung piece slitting on the conveyer belt 4.

As shown in fig. 1, 2 and 3, the longitudinal cutting mechanism 8 includes a longitudinal cutting cylinder 81 fixed at the transverse portion of the second door-shaped mounting frame 12, a piston rod head of the longitudinal cutting cylinder 81 extends vertically downward to be drivingly connected with a longitudinal knife seat 82, a plurality of longitudinal blades 83 are equidistantly arranged at the bottom of the longitudinal knife seat 82, and the longitudinal blades 83 are perpendicular to the transverse blades 73; in this embodiment, vertically cut cylinder 81 through the installation of second door-shaped mounting bracket 12, stretch out through the piston rod head of vertically cutting cylinder 81, drive vertical blade holder 82 and vertical blade 83 and move down, cut the grain with the cow dung strip on the conveyer belt 4.

As shown in fig. 1, fig. 2 and fig. 3, the mixing mechanism 6 includes a mixing shaft 61 disposed in the mixing tank 2, the mixing shaft 61 is provided with mixing blades 62, the top of the mixing tank 2 is provided with a mixing motor 63, and the top end of the mixing shaft 61 penetrates through the mixing tank 2 and is connected to an output shaft of the mixing motor 63; in this embodiment, the mixing shaft 61 is driven by the mixing motor 63 to drive the mixing blades 62 to rotate, so that the cattle manure particles and the crop straws and other raw materials are uniformly mixed.

As shown in fig. 1, 2 and 3, the left and right sides of the conveyor belt 4 are respectively provided with a baffle 9; in this embodiment, the cattle manure blocks can be prevented from splashing in the cutting process by the baffle 9.

As shown in fig. 1, 2 and 3, the discharge opening 23 is a funnel-shaped discharge opening; in this embodiment, be convenient for discharge the raw materials after mixing through the infundibulate discharge gate.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions may be made by those skilled in the art to the specific embodiments described without departing from the scope of the invention as defined in the accompanying claims.

Claims (7)

1. The utility model provides a fertilizer production blendor which characterized in that: including frame (1), set up in mixing bowl (2) of frame (1) one side, set up in controller (3) of frame (1) one side is used for giving conveyer belt (4) of mixing bowl (2) pay-off, be used for the drive pay-off actuating mechanism (5) that the pay-off adopted are removed in conveyer belt (4), and set up in compounding mechanism (6) in mixing bowl (2), follow the pay-off direction of conveyer belt (4), the top of conveyer belt (4) has set gradually horizontal cutting mechanism (7) and vertical cutting mechanism (8), the top of mixing bowl (2) is provided with infundibulate feed inlet (21), one side of mixing bowl (2) is provided with feed notch (22), the bottom of mixing bowl (2) is provided with bin outlet (23), the one end of conveyer belt (4) is followed feed notch (22) stretches into in mixing bowl (2), be provided with the relief valve in relief outlet (23), feed actuating mechanism (5), compounding mechanism (6), horizontal cutting mechanism (7), vertical cutting mechanism (8) and the equal electric connection of relief valve in feed outlet (3).

2. The organic fertilizer production mixer according to claim 1, characterized in that: the feeding driving mechanism (5) comprises a driving shaft (51) and a driven shaft (52) which are arranged at the front end and the rear end of the rack (1) in parallel and used for driving the driving shaft (51) to rotate, the feeding motor (53) is adopted, and the driving shaft (51) is connected with the driven shaft (52) through the conveyor belt (4).

3. The organic fertilizer production mixer according to claim 1, characterized in that: a first door-shaped mounting rack (11) and a second door-shaped mounting rack (12) which are fixed on the rack (1) are arranged above the conveyor belt (4); transversely cut mechanism (7) including fixing cylinder (71) is cut in the transversely of the horizontal portion of first door font mounting bracket (11), transversely cut the vertical drive connection horizontal blade holder (72) that stretches out downwards of piston rod pole head of cylinder (71), the bottom equidistance of horizontal blade holder (72) is provided with horizontal blade (73) of multi-disc.

4. The organic fertilizer production mixer according to claim 3, characterized in that: vertically cut mechanism (8) including fixing cylinder (81) is vertically cut to the horizontal portion of second door font mounting bracket (12), vertically the piston rod head of cutting cylinder (81) is vertical stretches out the drive downwards and connects vertical blade holder (82), the bottom equidistance of vertical blade holder (82) is provided with vertical blade (83) of multi-disc, vertical blade (83) perpendicular to horizontal blade (73) set up.

5. The organic fertilizer production mixer according to claim 1, characterized in that: mixing mechanism (6) including set up in compounding axle (61) in compounding jar (2), be provided with compounding blade (62) on compounding axle (61), the top of compounding jar (2) is provided with compounding motor (63), wear out on the top of compounding axle (61) connect behind compounding jar (2) the output shaft of compounding motor (63).

6. The organic fertilizer production mixer according to claim 1, characterized in that: and the left side and the right side of the conveyor belt (4) are respectively provided with a baffle (9).

7. The organic fertilizer production mixer according to claim 1, characterized in that: the discharge opening (23) is a funnel-shaped discharge opening.

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