CN117819073A - Biological bacterial fertilizer storage bin with pneumatic arch breaking function - Google Patents

Abstract

The invention relates to the technical field of storage discharging arch breaking, and particularly discloses a biological bacterial fertilizer storage bin for pneumatic arch breaking, which comprises an upper discharging hole and a lower discharging hole which are coaxially arranged and relatively rotate; the upper discharge hole is fixedly connected with the storage bin; the material bearing ring is arranged at the joint of the upper discharge hole and the storage bin, and is fixedly connected with a material bearing frame; the gear is matched with the toothed ring, and the gear is externally connected with a power source; the array is arranged on the transmission assembly on the side wall of the lower discharge hole, and one end of the transmission assembly, which is far away from the lower discharge hole, is externally connected with an electric pump. The invention converts the fixed arch breaking piece into a softer diaphragm, and in the arch breaking process, the fixed arch breaking piece can be attached to the biological bacterial fertilizer in real time, different arch breaking forces are provided according to the accumulation amount of the biological bacterial fertilizer, and the matching degree is extremely high.

Description

Biological bacterial fertilizer storage bin with pneumatic arch breaking function

Technical Field

The invention relates to the technical field of storage discharging arch breaking, in particular to a biological bacterial fertilizer storage bin capable of pneumatically breaking an arch.

Background

Biological bacterial fertilizer is developed based on the principle of soil microecology, the principle of plant nutrition and the basic concept of modern organic agriculture. Microbial fertilizer is a novel fertilizer biological product which leads crops to obtain needed nutrients (fertilizer) by the vital activities of active (reproducible) microorganisms, and is one of the fertilizers in agricultural production.

After the preparation of the biological bacterial fertilizer is completed, the biological bacterial fertilizer needs to be stored in a storage bin, and when the biological bacterial fertilizer needs to be discharged through a discharge port, the biological bacterial fertilizer is large in mass, and when the biological bacterial fertilizer is discharged, the discharge process is easy to block due to the existence of cohesive force, and at the moment, arch breaking is needed; the existing arch breaking mode is mainly an external impact mode, however, the existing external impact is relatively stiff, an electric telescopic rod or a motor and a reciprocating mechanism are adopted for breaking the arch, in the process, the impact distance is fixed and is irrelevant to the stacking state, the fitting degree of the arch breaking process is not high, and the problem of how to improve the matching degree of the arch breaking process is the technical problem to be solved by the technical scheme of the invention.

Disclosure of Invention

The invention aims to provide a biological bacterial fertilizer storage bin capable of pneumatically breaking arches so as to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions:

a pneumatically-broken biological bacterial fertilizer storage bin, the storage bin comprising:

an upper discharge port and a lower discharge port which are coaxially arranged and relatively rotate; the upper discharge hole is fixedly connected with the storage bin;

the material bearing ring is arranged at the joint of the upper discharge hole and the storage bin, and is fixedly connected with a material bearing frame;

the gear is matched with the toothed ring, and the gear is externally connected with a power source;

the transmission assembly is arranged on the side wall of the lower discharge hole in an array manner, and one end of the transmission assembly, which is far away from the lower discharge hole, is externally connected with an electric pump;

the transmission assembly comprises three cylinders which are in clearance fit, the cross sections of the three cylinders are concentric circles, the cylinder at the middle position is an active cylinder and is matched with the electric pump, the electric pump is provided with a detection assembly, and the detection assembly acquires the position in real time and uploads the position.

As a further scheme of the invention: the transmission assembly includes:

the first cylinder is fixedly arranged on the lower discharge hole;

a diaphragm arranged at one end of the first cylinder body close to the upper discharge port;

the second cylinder body is sleeved on the first cylinder body;

a third cylinder sleeved on the second cylinder; one end of the third cylinder body, which is far away from the lower discharge hole, is fixedly connected with the electric pump; the air outlet end of the electric pump is arranged in the third cylinder;

a connecting component arranged in the second cylinder;

and the power assembly is connected with one end, far away from the lower discharge hole, of the second cylinder.

As a further scheme of the invention: the connection assembly includes:

two central shafts arranged inside the second cylinder;

a pulley rotatably connected to the central shaft;

a belt disposed on the pulley;

the clamping buckles are respectively arranged on two sides of the belt, and the fixing shafts are fixedly connected to the clamping buckles; one fixed shaft is connected with the first cylinder body, and the other fixed shaft is connected with the third cylinder body.

As a further scheme of the invention: the power assembly includes:

an air bag disposed between the second cylinder and the third cylinder end; the air bag is connected with the second cylinder body through a flexible piece; the air bag is connected with the air outlet end of the electric pump;

and the one-way valve is arranged on the air bag.

As a further scheme of the invention: the detection assembly includes:

a base mounted on the electric pump; a blind hole is formed in the base;

the force application shaft is arranged in the blind hole, and the force application shaft and the base are provided with mutually matched thread sections; one end of the force application shaft is provided with a conical head; one end of the force application shaft is provided with a rotating wheel;

the optical axis is connected to the side surface of the base in a sliding manner, and a side plate is externally connected to the optical axis;

a baffle plate arranged on the optical axis, wherein a reset spring is arranged between the baffle plate and the base;

and the distance sensor is arranged on the base and the side plate.

As a further scheme of the invention: the storage bin also comprises a signal processing end, and the signal processing end comprises:

the control module is used for receiving the distance acquired by the distance sensor, generating a pulse signal to send to the electric pump when the distance is within a preset range, and outputting pulse airflow when the electric pump receives the pulse signal;

the operation module records the distance acquired by the distance sensor in real time, and determines the blocking state of each surface of the lower discharge hole according to the distance change condition.

As a further scheme of the invention: the operation module comprises:

the corresponding relation determining unit is used for classifying the acquired distances according to the passing object bearing frame of each electric pump and determining the corresponding areas of the acquired distances in the lower discharge hole;

a determination unit configured to determine that the distance is large, the distance is in a fluent state; when the distance becomes smaller, determining that the device is in a blocking state;

and the statistical uploading unit is used for counting the judging results of all the electric pumps, determining an average result and uploading the average result.

Compared with the prior art, the invention has the beneficial effects that: the invention converts the fixed arch breaking piece into a softer diaphragm, and in the arch breaking process, the fixed arch breaking piece can be attached to the biological bacterial fertilizer in real time, different arch breaking forces are provided according to the accumulation amount of the biological bacterial fertilizer, and the matching degree is extremely high.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the following description will briefly introduce the drawings that are needed in the embodiments or the description of the prior art, and it is obvious that the drawings in the following description are only some embodiments of the present invention.

Fig. 1 is a schematic diagram of the overall structure of a biological bacterial fertilizer storage bin with pneumatic arch breaking.

Fig. 2 is a schematic diagram of a first cross-sectional structure of a pneumatic arch-breaking biological bacterial fertilizer storage bin.

Fig. 3 is a schematic diagram of a second cross-sectional structure of the pneumatic arch-breaking biological bacterial fertilizer storage bin.

Fig. 4 is a schematic diagram of a third cross-sectional structure of a pneumatic arch-breaking biological bacterial fertilizer storage bin.

Fig. 5 is a schematic diagram of a two-dimensional planar structure of the region a in fig. 1.

In the figure: 1-upper discharge hole, 2-lower discharge hole, 3-carrying ring, 4-carrying frame, 5-gear, 6-toothed ring, 7-transmission component, 8-electric pump, 9-detection component, 10-first cylinder, 11-diaphragm, 12-second cylinder, 13-third cylinder, 14-belt pulley, 15-gasbag, 16-check valve, 17-belt, 18-clip, 19-fixed axle, 20-runner, 21-applying shaft, 22-cone head, 23-optical axis, 24-side plate, 25-baffle, 26-reset spring, 27-base.

Detailed Description

In order to make the technical problems, technical schemes and beneficial effects to be solved more clear, the invention is further described in detail below with reference to the accompanying drawings and embodiments. 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.

Referring to fig. 1 to 5, in an embodiment of the present invention, a pneumatic arch-breaking bio-bacterial fertilizer storage bin, the storage bin includes:

an upper discharge port 1 and a lower discharge port 2 which are coaxially arranged and relatively rotate; the upper discharge port 1 is fixedly connected with the storage bin;

a carrying ring 3 arranged at the joint of the upper discharge hole 1 and the storage bin, wherein a carrying frame 4 is fixedly connected to the carrying ring 3;

the gear ring 6 is arranged on the peripheral surface of one end, far away from the upper discharge port 1, of the lower discharge port 2, a gear 5 is arranged at one end, far away from the object bearing ring 3, of the object bearing frame 4, the gear 5 is matched with the gear ring 6, and the gear 5 is externally connected with a power source;

the transmission assembly 7 is arranged on the side wall of the lower discharge hole 2 in an array manner, and one end, far away from the lower discharge hole 2, of the transmission assembly 7 is externally connected with the electric pump 8;

the transmission assembly 7 comprises three cylinders which are in clearance fit, the cross sections of the three cylinders are concentric circles, the cylinder at the middle position is an active cylinder and is matched with the electric pump 8, the electric pump 8 is provided with a detection assembly 9, and the detection assembly 9 acquires positions in real time and uploads the positions.

The application scene of the technical scheme of the invention is the discharging position of the storage bin, and the storage bin is a simple closed structure, the invention is not limited, the application is mainly characterized in that the original discharging hole is converted into two mutually spliced parts, namely an upper discharging hole 1 and a lower discharging hole 2, by optimizing the discharging process of the discharging hole, and the splicing mode of the two parts is very simple and only adopts the most basic embedded structure; for the splicing structure, a specific fixing scheme is provided, namely, a carrying frame 4 is led out from a storage bin, and a lower discharge hole 2 is towed by the carrying frame 4; on the basis, the toothed ring 6 is additionally arranged at the bottom of the lower discharge hole 2, the gear 5 is arranged on the object carrying frame 4, and the gear 5 can drive the toothed ring 6 to rotate so as to drive the lower discharge hole 2 to rotate relative to the upper discharge hole 1.

The rotating mechanism is a basic structure of the application, an arch breaker (a transmission assembly 7 and an electric pump 8) is arranged on the lower discharge hole 2, and the arch breaker adopts pulse air flow to provide impact force for blocked materials, so that arch breaking is realized; the pulse air flow adopts an electric control mode, a range finder is arranged in the arch breaker, when the pulse air flow passes through the object carrying frame 4, the distance is within a certain range, at the moment, a pulse signal is generated, namely, the pulse air flow is generated once every time the lower discharge port 2 rotates to pass through the object carrying frame 4, and a primary impact force is provided.

Referring to fig. 1 to 4, as a preferred embodiment of the present invention, the transmission assembly 7 includes:

a first cylinder 10 fixedly installed on the lower discharge port 2;

a diaphragm 11 arranged at one end of the first cylinder 10 close to the upper discharge hole 1;

a second cylinder 12 sleeved on the first cylinder 10;

a third cylinder 13 sleeved on the second cylinder 12; one end of the third cylinder 13 far away from the lower discharge hole 2 is fixedly connected with the electric pump 8; the air outlet end of the electric pump 8 is arranged inside the third cylinder 13;

a connection assembly built into the second cylinder 12;

the power assembly is connected to one end of the second cylinder 12 far away from the lower discharge hole 2;

in an example of the technical scheme of the invention, the structure of the transmission assembly 7 is specifically limited, the transmission assembly 7 in the application is essentially of a three-layer telescopic rod structure, and a sealing ring can be arranged at the joint of the three cylinders to ensure air tightness; the opening part of the first barrel 10 in the three barrels is arranged inside the discharge hole, the diaphragm 11 is arranged at the opening part, the diaphragm 11 is flexible and can continuously bulge, the biological bacterial fertilizer cannot enter the barrels under the protection of the diaphragm 11, the discharge movable space of the biological bacterial fertilizer is enlarged, and the arch breaking effect is excellent under the condition that the lower discharge hole 2 and the upper discharge hole 1 continuously rotate.

Specifically, the connection assembly includes:

two central shafts provided inside the second cylinder 12;

a pulley 14 rotatably connected to the central shaft;

a belt 17 provided on the pulley 14;

the clamping buckles 18 are respectively arranged at two sides of the belt 17, and the fixing shafts 19 are fixedly connected to the clamping buckles 18; wherein one fixed shaft 19 is connected to the first cylinder 10 and the other fixed shaft 19 is connected to the third cylinder 13.

The first cylinder 10, the second cylinder 12 and the third cylinder 13 are interlocked, the second cylinder 12 is a driving member, when the second cylinder 12 translates, the second cylinder 12 and the third cylinder 13 are dislocated (relatively translated), at this time, the belt pulley 14 is driven to translate relative to the third cylinder 13, and when the belt pulley 14 translates, the clip 18 and the fixed shaft 19 on the belt 17 are fixed relative to the third cylinder 13, therefore, the belt pulley 14 rotates under the action of the belt 17, at this time, the opposite belt 17 translates relatively.

In summary, when the second cylinder 12 in the middle translates, the belt pulley 14 translates relative to the third cylinder 13, the belt 17 is connected with the third cylinder 13, the belt 17 is fixed relative to the third cylinder 13, the belt pulley mechanism corresponds to a working state, and the belts on two sides move oppositely, so that the third cylinder 13 and the first cylinder 10 move oppositely relative to the second cylinder 12, and the telescopic function is realized.

Further, the power assembly includes:

an air bag 15 provided between the ends of the second cylinder 12 and the third cylinder 13; the air bag 15 is connected with the second cylinder 12 through a flexible piece; the air bag 15 is connected with the air outlet end of the electric pump 8;

a one-way valve 16 provided on the balloon 15.

In an example of the technical solution of the present invention, the driving element is the second cylinder 12, the power source of the second cylinder 12 is the electric pump 8, when the second cylinder 12 translates, the whole transmission assembly will be elongated, and the first cylinder 10 is fixed on the lower discharge port 2, so that the second cylinder 12, the third cylinder 13 and the electric pump 8 are far away from the lower discharge port 2, and correspondingly, are closer to the object carrying frame 4, and the distance change is easily identified under the action of the distance meter.

Specifically, regarding the movement mode of the electric pump 8 driving the second cylinder 12, the electric pump is externally connected with a flexible member, namely an air bag 15, the air bag 15 is provided with a one-way valve 16, the one-way valve 16 is a one-way valve from the air bag 15 to the outside, namely, the air flow in the air bag 15 can reach the outside, the air bag 15 can not be carried out by the air flow in the outside, in the working process, the air bag 15 is in a filling state, and under the action of pulse air flow, the redundant air can enter the cylinder to blast the diaphragm 11 to form impact so as to break arch; it should be noted that, the pulse air flow is continuously circulated from positive pressure to negative pressure, when the pulse air flow is negative pressure, the volume of the air bag 15 is reduced, so that the transmission assembly 7 is integrally contracted, the volume is reduced, and the air pressure is increased, but the amplitude of the increase is far smaller than that of the pulse air flow in positive pressure, so that the membrane 11 is ensured to bulge as much as possible, and meanwhile, reciprocating impact is generated, so that the arch breaking function is realized.

As shown in fig. 5, as a preferred embodiment of the present invention, the detecting unit 9 includes:

a base 27 mounted on the electric pump 8; a blind hole is formed in the base 27;

the force application shaft 21 is arranged in the blind hole, and the force application shaft 21 and the base 27 are provided with mutually matched thread sections; one end of the force application shaft 21 is provided with a conical head 22; one end of the force application shaft 21 is provided with a rotating wheel 20;

an optical axis 23 slidably connected to a side surface of the base 27, wherein a side plate 24 is externally connected to the optical axis 23;

a baffle plate 25 mounted on the optical axis 23, a return spring 26 being provided between the baffle plate 25 and the base 27;

a distance sensor provided on the base 27 and the side plate 24.

The core function of the detection component 9 is distance measurement, in practice, only one distance meter is needed to be installed on the electric pump 8, but the distance is acquired only by one distance meter, the robustness is low, and error results are easy to generate; therefore, the application provides a scheme that can set up a plurality of distancers, and staff rotates runner 20, and runner 20 constantly descends under the screw action, extrudees optical axis 23 through conical head 22 for optical axis 23 drives curb plate 24 and keeps away from base 27, installs distance sensor (distancer) on base 27 and curb plate 24, and on the one hand, two distance sensor have guaranteed the accuracy of result, on the other hand, but distance between two distance sensor fine setting, the debugging link of follow-up application of being convenient for.

When the wheel 20 is rotated in the reverse direction, the return spring 26 brings the side plate 24 close to the base 27.

As a preferred embodiment of the technical solution of the present invention, the storage bin further includes a signal processing end, where the signal processing end includes:

the control module is used for receiving the distance acquired by the distance sensor, generating a pulse signal to send to the electric pump 8 when the distance is within a preset range, and outputting pulse airflow when the electric pump 8 receives the pulse signal;

the operation module records the distance acquired by the distance sensor in real time, and determines the blocking state of each surface of the lower discharge hole 2 according to the distance change condition.

In the technical scheme of the invention, the air bag 15 and the second cylinder 12 are connected, and can be connected through a spring, and are fixed (the length is unchanged) in a non-working state, namely, the whole transmission assembly 7 and the electric pump 8 are stably arranged on the side wall of the lower discharge hole 2 in the non-working state, the distance between the distance sensor and the object carrying frame 4 in the state is calculated, and a distance range can be determined based on the distance; in the actual working process, when the distance is in the distance range, the distance is considered to pass through the object carrying frame 4, a pulse signal with one period is generated, and the pulse signal is sent to the electric pump 8.

Further, the operation module includes:

the corresponding relation determining unit is used for classifying the acquired distances according to the passing object bearing frame 4 for each electric pump 8 and determining the corresponding areas of the acquired distances in the lower discharge hole;

a determination unit configured to determine that the distance is large, the distance is in a fluent state; when the distance becomes smaller, determining that the device is in a blocking state;

and the statistical uploading unit is used for counting the judging results of all the electric pumps 8, determining an average result and uploading the average result.

In one example of the technical solution of the present invention, a secondary development process based on the existing scheme is provided, in which the influence of the electric pump 8 on the transmission assembly 7 is described, in fact, the biological bacterial manure discharging process in the lower discharge hole 2 also affects the transmission assembly 7, for example, when the biological bacterial manure is blocked, the driving distance of the air bag 15 is small, the air pressure in the transmission assembly 7 is increased (equivalent to the simultaneous pressurization of the electric pump 8 and the air bag 15), at this moment, the transmission assembly 7 itself stretches once (after which the air bag 15 itself and the flexible connection of the air bag 15 and the second cylinder 12 are reset), and the distance sensor detects that the distance becomes small, so that when the distance becomes small, it means that the front part of the object carrying frame which detects the blocking area is the blocking area just after passing through a blocking area.

Conversely, when the biological bacterial manure is scattered, the distance of the air bag 15 is large, the air pressure in the transmission assembly 7 is reduced, the air bag 15 supplements the air, the volume is reduced, the transmission assembly 7 is contracted, the distance sensor detects that the distance is large, therefore, when the distance is large, the condition that the biological bacterial manure just passes through a blocking area is meant, and the front part of the object carrying frame detecting the blocking area is the empty area.

It should be noted that, the combination of the transmission assembly 7 and the electric pump 8 is not unique, typically 4, and all detection and judgment results are counted to determine a comprehensive result (mode) together, so that a more accurate judgment result can be obtained.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims (6)

1. The utility model provides a biological fungus fertilizer storage silo that pneumatic broken encircles which characterized in that, the storage silo includes:

an upper discharge hole (1) and a lower discharge hole (2) which are coaxially arranged and relatively rotate; the upper discharge hole (1) is fixedly connected with the storage bin;

a carrying ring (3) arranged at the joint of the upper discharge hole (1) and the storage bin, wherein a carrying frame (4) is fixedly connected to the carrying ring (3);

the gear (6) is arranged on the peripheral surface of one end, far away from the upper discharge hole (1), of the lower discharge hole (2), a gear (5) is arranged at one end, far away from the object bearing ring (3), of the object bearing frame (4), the gear (5) is matched with the gear (6), and the gear (5) is externally connected with a power source;

the transmission assembly (7) is arranged on the side wall of the lower discharge hole (2) in an array manner, and one end, far away from the lower discharge hole (2), of the transmission assembly (7) is externally connected with the electric pump (8);

the transmission assembly (7) comprises three cylinders which are in clearance fit, the cross sections of the three cylinders are concentric circles, the cylinder at the middle position is an active cylinder and is matched with the electric pump (8), the electric pump (8) is provided with a detection assembly (9), and the detection assembly (9) acquires and uploads the position in real time;

the transmission assembly (7) comprises:

a first cylinder (10) fixedly arranged on the lower discharge hole (2);

a diaphragm (11) arranged at one end of the first cylinder (10) close to the upper discharge hole (1);

a second cylinder (12) sleeved on the first cylinder (10);

a third cylinder (13) sleeved on the second cylinder (12); one end of the third cylinder (13) far away from the lower discharge hole (2) is fixedly connected with the electric pump (8); the air outlet end of the electric pump (8) is arranged in the third cylinder (13);

a connection assembly built into the second cylinder (12);

and the power assembly is connected with one end of the second cylinder body (12) far away from the lower discharge hole (2).

2. The pneumatic arch-breaking biological bacterial fertilizer storage bin of claim 1, wherein the connection assembly comprises:

two central shafts arranged inside the second cylinder (12);

a pulley (14) rotatably connected to the central shaft;

a belt (17) provided on the pulley (14);

the clamping buckles (18) are respectively arranged at two sides of the belt (17), and the fixing shafts (19) are fixedly connected to the clamping buckles (18); wherein one fixed shaft (19) is connected with the first cylinder (10), and the other fixed shaft (19) is connected with the third cylinder (13).

3. The pneumatic arch-breaking biological bacterial fertilizer storage bin of claim 2, wherein the power assembly comprises:

an air bag (15) provided between the second cylinder (12) and the end of the third cylinder (13); the air bag (15) is connected with the second cylinder (12) through a flexible piece; the air bag (15) is connected with the air outlet end of the electric pump (8);

and a one-way valve (16) arranged on the air bag (15).

4. Pneumatic arch-breaking bio-bacterial fertilizer storage silo according to claim 1, characterized in that the detection assembly (9) comprises:

a base (27) mounted on the electric pump (8); a blind hole is formed in the base (27);

the force application shaft (21) is arranged in the blind hole, and thread sections matched with each other are arranged on the force application shaft (21) and the base (27); one end of the force application shaft (21) is provided with a conical head (22); one end of the force application shaft (21) is provided with a rotating wheel (20);

an optical axis (23) connected to the side surface of the base (27) in a sliding manner, wherein a side plate (24) is externally connected to the optical axis (23);

a baffle plate (25) mounted on the optical axis (23), wherein a return spring (26) is arranged between the baffle plate (25) and the base (27);

and a distance sensor provided on the base (27) and the side plate (24).

5. The pneumatic arch-breaking biological bacterial fertilizer storage bin of claim 1, further comprising a signal processing end comprising:

the control module is used for receiving the distance acquired by the distance sensor, generating a pulse signal to send to the electric pump (8) when the distance is within a preset range, and outputting pulse airflow when the electric pump (8) receives the pulse signal;

the operation module records the distance acquired by the distance sensor in real time, and determines the blocking state in each surface of the lower discharge port (2) according to the distance change condition.

6. The pneumatic arch-breaking biological bacterial fertilizer storage bin of claim 5, wherein the operation module comprises:

the corresponding relation determining unit is used for classifying the acquired distances according to the passing object bearing frame (4) of each electric pump (8) and determining the corresponding areas of the acquired distances in the lower discharge hole (2);

a determination unit configured to determine that the distance is large, the distance is in a fluent state; when the distance becomes smaller, determining that the device is in a blocking state;

and the statistical uploading unit is used for counting the judging results of all the electric pumps (8), determining an average result and uploading the average result.