CN219078536U - Shunting conveying device used before bagging composite microbial fertilizer - Google Patents

Abstract

The split-flow conveying device before bagging the compound microbial fertilizer comprises a split-flow tank, wherein a rotatable split-flow mechanism is arranged at the bottom of the split-flow tank, a split-flow disc is arranged below the split-flow mechanism, and two conveying belts are arranged below the split-flow disc; the dividing mechanism consists of two semicircular receiving tanks, a discharging hole is formed in the middle position of each semicircular receiving tank, a discharging pipe is arranged below each discharging hole, and the two discharging pipes are respectively arranged above the input ends of the two conveying belts. The utility model adopts the above-mentioned structure, can realize the product output purpose of continuity, under the condition of not shutting down, with the product cloth to different conveyer belts on, realize the product compartment on the conveyer belt, provide sufficient time for the packaging process.

Description

Shunting conveying device used before bagging composite microbial fertilizer

Technical Field

The utility model relates to the technical field of composite microbial fertilizer processing, in particular to a split-flow conveying device before bagging of composite microbial fertilizer.

Background

The compound microbial fertilizer needs to be packaged after being produced, before packaging, finished products produced by a workshop are directly conveyed to a packaging area through a conveying belt, and the conveyed products are continuous, and the conveying belt needs to be suspended when the packaging area is used for packaging, so that materials conveyed to the conveying belt by the workshop are accumulated, the equipment service life is reduced due to frequent stop and start, and meanwhile, the conveying efficiency of the products is reduced.

Disclosure of Invention

The utility model aims to solve the technical problem of providing a split-flow conveying device before bagging composite microbial fertilizers, which can realize the purpose of continuous product output, distribute products onto different conveying belts without stopping, realize product compartments on the conveying belts and provide enough time for a packaging process.

In order to solve the technical problems, the utility model adopts the following technical scheme: the split-flow conveying device before bagging the compound microbial fertilizer comprises a split-flow tank, wherein a rotatable split-flow mechanism is arranged at the bottom of the split-flow tank, a split-flow disc is arranged below the split-flow mechanism, and two conveying belts are arranged below the split-flow disc;

the split-flow mechanism consists of two semicircular receiving tanks, a discharging hole is formed in the middle of each semicircular receiving tank, a discharging pipe is arranged below each discharging hole, and the two discharging pipes are respectively arranged above the input ends of the two conveying belts.

In the preferred scheme, the bottom surface of the bottom of the diversion tank is provided with a T-shaped ring groove, the top of the diversion mechanism is provided with a T-shaped connecting ring matched with the T-shaped ring groove, and the T-shaped connecting ring is connected with the T-shaped ring groove to realize rotatable connection of the diversion mechanism at the bottom of the diversion tank.

In the preferred scheme, the shunt pot in be equipped with a vertical pivot, the pivot upper end is connected with the motor shaft at shunt pot top, the pivot lower extreme downwardly extending to with shunt mechanism between fixed connection.

In the preferred scheme, a arch breaking helical blade is arranged on a rotating shaft part positioned in a discharging pipe at the lower end of the diversion tank.

In the preferred scheme, the diversion mechanism comprises a cylinder body and a discharging chute arranged on an opening at the bottom of the cylinder body, and the T-shaped connecting ring is arranged on the top surface of the cylinder body.

In the preferred scheme, semicircle connect the silo top and be equipped with and connect the hopper, connect the width of hopper from top to bottom to the same with semicircle material receiving groove width gradually.

In the preferred scheme, the inner bottom surface of the semicircular receiving groove is inclined downwards from two ends to the direction of the middle blanking hole to form a slope.

In the preferred scheme, a single flow distribution disc bottom be equipped with two stabilizer blades, two stabilizer blades span and set up in the input both sides of conveyer belt.

The split-flow conveying device for the composite microbial fertilizer before bagging has the following beneficial effects by adopting the structure:

(1) The motor drives the flow dividing mechanism to rotate, so that the discharging chute outputs products to different positions on the flow dividing disc, and the flow dividing output of materials can be realized by means of the two flow dividing discs, so that the materials form intervals on the conveying belt, and time is provided for the packaging action;

(2) The motor can realize the simultaneous control of blanking and cloth, and the aim of arch breaking and blanking is fulfilled while the rotation of the distribution mechanism is ensured.

Drawings

The utility model is further illustrated by the following examples in conjunction with the accompanying drawings:

fig. 1 is a schematic diagram of the overall structure of the present utility model.

Fig. 2 is a schematic structural view of a shunt mechanism according to the present utility model.

Fig. 3 is a schematic diagram of a diverter tray according to the present utility model.

Fig. 4 is a schematic diagram of a semicircular receiving groove structure of the present utility model.

Fig. 5 is a schematic view of a receiving hopper according to the present utility model.

Fig. 6 is a schematic top view of the diverter tray according to the present utility model.

In the figure: the device comprises a diversion tank 1, a T-shaped ring groove 101, a diversion mechanism 2, a T-shaped connecting ring 201, a diversion disk 3, a conveying belt 4, a rotating shaft 5, a motor 6, arch breaking spiral blades 7, a cylinder 8, a blanking chute 9, a semicircular receiving groove 10, a receiving hopper 11, a blanking hole 12, a blanking pipe 13 and supporting legs 14.

Detailed Description

As shown in fig. 1-6, a split-flow conveying device before bagging composite microbial fertilizer comprises a split-flow tank 1, wherein a rotatable split-flow mechanism 2 is arranged at the bottom of the split-flow tank 1, a split-flow disc 3 is arranged below the split-flow mechanism 2, and two conveying belts 4 are arranged below the split-flow disc 3;

the flow dividing mechanism 2 consists of two semicircular receiving tanks 10, a discharging hole 12 is formed in the middle position of each semicircular receiving tank 10, a discharging pipe 13 is arranged below each discharging hole 12, and the two discharging pipes 13 are respectively arranged above the input ends of the two conveying belts 4.

In the preferred scheme, a T-shaped ring groove 101 is arranged on the bottom surface of the tank bottom of the diversion tank 1, a T-shaped connecting ring 201 matched with the T-shaped ring groove 101 is arranged at the top of the diversion mechanism 2, and the T-shaped connecting ring 201 is connected with the T-shaped ring groove 101 to realize rotatable connection of the diversion mechanism 2 at the bottom of the diversion tank 1.

In the preferred scheme, a vertical rotating shaft 5 is arranged in the shunt pot 1, the upper end of the rotating shaft 5 is connected with a motor 6 at the top of the shunt pot 1 in a shaft way, and the lower end of the rotating shaft 5 extends downwards to be fixedly connected with the shunt mechanism 2.

In the preferred scheme, a arch breaking helical blade 7 is arranged on a rotating shaft 5 part positioned in a discharging pipe at the lower end of the diversion tank 1.

In a preferred embodiment, the flow dividing mechanism 2 includes a cylinder 8, a discharging chute 9 disposed on an opening at the bottom of the cylinder 8, and a t-shaped connecting ring 201 disposed on the top surface of the cylinder 8.

In the preferred scheme, the top of the semicircular receiving groove 10 is provided with a receiving hopper 11, and the width of the receiving hopper 11 is gradually reduced from top to bottom to be the same as the width of the semicircular receiving groove 10.

In a preferred scheme, the inner bottom surface of the semicircular receiving groove 10 is inclined downwards from two ends to the direction of the middle blanking hole 12 to form a slope.

In a preferred embodiment, two legs 14 are provided at the bottom of each diverter tray 3, and the two legs 14 are disposed across the input end of the conveyor belt 4.

The utility model discloses a reposition of redundant personnel conveyor before compound microorganism fertilizer bagging-off, when carrying out reposition of redundant personnel conveyor before compound fertilizer bagging-off:

in compound fertilizer product was carried to the reposition of redundant personnel jar 1 in advance, starter motor 6, it rotates to drive pivot 5 through motor 6, broken arch helical blade 7 on the pivot 5 can realize the stable output of product, the rotation of reposition of redundant personnel mechanism 2 can be realized to pivot 5 simultaneously, in the unloading in-process, the product falls on unloading chute 9, and distribute in the reposition of redundant personnel dish 3 different positions, roll to unloading hole 12 position on the sloping bottom of semicircle receiving chute 10 in reposition of redundant personnel dish 3 and divide by unloading pipe 13 and fall to two conveyer belt 4 on, the material on the conveyer belt 4 can form the interval and pile up, can effectively guarantee the bagging efficiency of product, in the bagging-off action, can avoid conveyer belt 4 to stop the action, guarantee to carry the operation continuity.

Claims (8)

1. The utility model provides a reposition of redundant personnel conveyor before compound microorganism fertilizer bagging-off, includes reposition of redundant personnel jar (1), its characterized in that: the bottom of the diversion tank (1) is provided with a rotatable diversion mechanism (2), a diversion disc (3) is arranged below the diversion mechanism (2), and two conveying belts (4) are arranged below the diversion disc (3);

the split-flow mechanism (2) consists of two semicircular receiving tanks (10), a discharging hole (12) is formed in the middle position of each semicircular receiving tank (10), a discharging pipe (13) is arranged below each discharging hole (12), and the two discharging pipes (13) are respectively arranged above the input ends of the two conveying belts (4).

2. The split-flow conveying device before bagging of composite microbial fertilizer according to claim 1, wherein: the bottom surface of the tank bottom of the diversion tank (1) is provided with a T-shaped ring groove (101), the top of the diversion mechanism (2) is provided with a T-shaped connecting ring (201) matched with the T-shaped ring groove (101), and the T-shaped connecting ring (201) is connected with the T-shaped ring groove (101) so as to realize rotatable connection of the diversion mechanism (2) at the bottom of the diversion tank (1).

3. The split-flow conveying device before bagging of composite microbial fertilizer according to claim 2, wherein: the utility model is characterized in that a vertical rotating shaft (5) is arranged in the shunt pot (1), the upper end of the rotating shaft (5) is connected with a motor (6) at the top of the shunt pot (1) through a shaft, and the lower end of the rotating shaft (5) extends downwards to be fixedly connected with the shunt mechanism (2).

4. A shunt delivery device before bagging of composite microbial fertilizer according to claim 3, wherein: a arch breaking helical blade (7) is arranged on a rotating shaft (5) part positioned in a discharging pipe at the lower end of the diversion tank (1).

5. The split-flow conveying device before bagging of composite microbial fertilizer according to claim 1, wherein: the distribution mechanism (2) comprises a cylinder body (8) and a discharging chute (9) arranged on an opening at the bottom of the cylinder body (8), and the T-shaped connecting ring (201) is arranged on the top surface of the cylinder body (8).

6. The split-flow conveying device before bagging of composite microbial fertilizer according to claim 1, wherein: the top of the semicircular receiving groove (10) is provided with a receiving hopper (11), and the width of the receiving hopper (11) is gradually reduced from top to bottom to be the same as the width of the semicircular receiving groove (10).

7. The split-flow conveying device before bagging of composite microbial fertilizer according to claim 1, wherein: the inner bottom surface of the semicircular receiving groove (10) is inclined downwards from two ends to the direction of the middle blanking hole (12) to form a slope.

8. The split-flow conveying device before bagging of composite microbial fertilizer according to claim 1, wherein: two supporting legs (14) are arranged at the bottom of the single flow distribution disc (3), and the two supporting legs (14) are arranged at two sides of the input end of the conveying belt (4) in a crossing mode.

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