CN113287381B - Environment-friendly soil intubate device of breathing freely - Google Patents

Abstract

The invention relates to a ventilation device, in particular to an environment-friendly soil intubation ventilation device. The technical problem to be solved by the invention is as follows: the environment-friendly soil intubation ventilation device is simple and convenient to operate and high in working efficiency. The utility model provides an environment-friendly soil intubate breather, including: mounting a plate; the handle is positioned on the mounting plate; the rotating frame is positioned on the mounting plate in a rotating mode; wheels positioned at both sides of the rotating frame; the universal wheel is positioned on the mounting plate; the blanking pipe is positioned on the mounting plate; the guide pipe is positioned on the blanking pipe; the driving assembly is positioned on the mounting plate; and the pressing assembly is positioned on the driving assembly. The invention is provided with the material placing frame, so that the insertion tube does not need to be manually held for placing, thereby reducing the burden of workers; the invention is provided with the baffle and the balancing weight, thereby preventing the intubation tube from being blocked by other intubation tubes when being inserted into soil, and further ensuring that the device is more efficient.

Description

Environment-friendly soil intubate device of breathing freely

Technical Field

The invention relates to a ventilation device, in particular to an environment-friendly soil intubation ventilation device.

Background

Soil is a loose layer of material on the earth's surface, consisting of various granular minerals, organic substances, moisture, air, microorganisms, etc., and capable of growing plants. Generally need harrow the pine to soil when planting the plant to make soil can breathe freely, thereby adapt to the growth of plant more, then artifical pine back to soil, soil can become hard voluntarily, and the gas permeability is progressively worse, consequently need carry out the intubate to soil ventilative, then the intubate is ventilative to be generally gone on by the manual work, but the manual work need consume longer time and physical power when carrying out the intubate, and work efficiency is lower.

Therefore, an environment-friendly soil intubation ventilation device which is simple and convenient to operate and high in working efficiency needs to be designed.

Disclosure of Invention

In order to overcome the defects that long time and physical force are needed to be consumed when manual intubation is carried out and the working efficiency is low, the technical problem to be solved is as follows: the environment-friendly soil intubation ventilation device is simple and convenient to operate and high in working efficiency.

The technical scheme of the invention is as follows: the utility model provides an environment-friendly soil intubate breather, including:

mounting a plate;

the handle is positioned on the mounting plate;

the rotating frame is positioned on the mounting plate in a rotating mode;

wheels positioned at both sides of the rotating frame;

the universal wheel is positioned on the mounting plate;

the blanking pipe is positioned on the mounting plate;

the guide pipe is positioned on the blanking pipe;

the driving assembly is positioned on the mounting plate;

and the pressing assembly is positioned on the driving assembly.

Preferably, the driving assembly comprises:

the motor is positioned on the mounting plate;

a first rotating shaft rotatably positioned on the mounting plate;

the flat belt combination is positioned between the first rotating shaft and the output shaft of the motor;

the screw rod is positioned on the first rotating shaft;

and the nut is positioned on the screw rod in a threaded connection mode.

Preferably, the pressing assembly comprises:

the guide rod is positioned on the mounting plate;

the first sliding block is slidably positioned on the guide rod;

the first connecting frame is positioned on the first sliding block;

the material pushing rod is positioned on the first connecting frame and matched with the guide pipe;

the connecting rod is positioned between the material pushing rod and the nut.

Preferably, the method further comprises the following steps:

the first fixing frame is positioned on the mounting plate;

the material placing frame is positioned on the first fixing frame;

the inclined plate is positioned on the material placing frame;

the second fixing frame is positioned on the material placing frame;

the second rotating shaft is positioned on the second fixing frame in a rotating mode;

and the discharging rail is positioned on the second rotating shaft.

Preferably, the method further comprises the following steps:

the baffle is positioned on the material placing frame in a sliding manner;

the balancing weight is positioned on the baffle;

the first contact frame is positioned on the baffle and matched with the connecting rod.

Preferably, the method further comprises the following steps:

the mounting rack is positioned on the connecting rod;

the third rotating shaft is rotatably positioned on the mounting rack;

the first wedge-shaped block is positioned on the third rotating shaft;

the torsion spring is positioned between the first wedge-shaped block and the mounting frame;

the first guide frame is positioned on the second fixing frame;

the sliding frame is positioned on the first guide frame in a sliding mode;

the first rack is positioned on the sliding frame;

the second contact frame is positioned on the sliding frame and matched with the first wedge-shaped block;

the first spring is positioned between the first guide frame and the sliding frame;

and the first gear is positioned on the second rotating shaft and is meshed with the first rack.

Preferably, the method further comprises the following steps:

the second gears are positioned on two sides of the rotating frame;

the second guide frame is positioned on the mounting plate;

the second sliding blocks are positioned on two sides of the second guide frame in a sliding mode, and second racks are welded on the second sliding blocks and are correspondingly matched with the second gear;

the second spring is positioned between the second sliding block and the second guide frame;

the third contact frame is positioned on the second sliding block;

the second connecting frame is positioned on the balancing weight;

and the second wedge block is positioned on the second connecting frame and is matched with the third contact frame.

Preferably, the middle part of the discharge rail is provided with a hole.

The beneficial effects are that: 1. the invention is provided with the material placing frame, so that the insertion tube does not need to be manually held for placing, and the burden of workers is reduced.

2. The invention is provided with the baffle and the balancing weight, thereby preventing the intubation tube from being blocked by other intubation tubes when being inserted into soil, and further ensuring that the device is more efficient.

3. According to the invention, the first wedge-shaped block is matched with the second contact frame, so that the material discharging rail automatically carries out rotary material discharging, and the trouble of manual operation is reduced.

4. The second wedge-shaped block is matched with the third contact frame, so that the rotating frame and the wheels can be clamped, and the device can be effectively prevented from moving when in work.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the driving assembly of the present invention.

Fig. 3 is a schematic perspective view of a pressing assembly according to the present invention.

Fig. 4 is a schematic perspective view of a first part of the present invention.

Fig. 5 is a perspective view of a second part of the present invention.

Fig. 6 is a perspective view of a third part of the present invention.

Fig. 7 is a perspective view of a fourth part of the present invention.

In the reference symbols: 1-mounting plate, 2-handle, 201-rotating frame, 202-wheel, 203-universal wheel, 3-blanking pipe, 4-guide pipe, 5-driving component, 51-motor, 52-first rotating shaft, 53-flat belt combination, 54-screw rod, 55-nut, 6-pressing component, 61-guide rod, 62-first slide block, 63-first connecting frame, 64-pushing rod, 65-connecting rod, 7-first fixing frame, 8-blanking frame, 9-sloping plate, 10-second fixing frame, 11-second rotating shaft, 12-blanking rail, 13-baffle, 14-balancing weight, 15-first contact frame, 16-mounting frame, 17-third rotating shaft, 18-first wedge block, 19-torsion spring, 20-first guide frame, 22-sliding frame, 23-first rack, 24-second contact frame, 26-first spring, 27-first gear, 28-second gear, 29-second guide frame, 30-second slide block, 31-second spring, 32-third contact frame, 33-second connecting frame and 34-second wedge block.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

Example 1

The utility model provides an environment-friendly soil intubate ventilation unit, as shown in fig. 1-3, including mounting panel 1, handle 2, rotating turret 201, wheel 202, universal wheel 203, unloading pipe 3, guide tube 4, drive assembly 5 and push down subassembly 6, the welding of the right part upside of mounting panel 1 has handle 2, the left side rotary type of mounting panel 1 is equipped with rotating turret 201, both sides all are equipped with wheel 202 around rotating turret 201, the right part below of mounting panel 1 is equipped with universal wheel 203, be connected with unloading pipe 3 on the mounting panel 1, the upside of unloading pipe 3 is equipped with guide tube 4, the upside of mounting panel 1 is equipped with drive assembly 5, be equipped with push down subassembly 6 on the drive assembly 5.

When soil needs to be subjected to intubation ventilation, the pushing device is driven by the handle 2, the rotating frame 201 and the wheels 202 rotate, and the pushing device can move easily, so that the blanking pipe 3 moves to the position above the soil to be subjected to intubation ventilation, and then the intubation tube is placed in the guide pipe 4, and then the driving assembly 5 is started, the driving assembly 5 can drive the pressing assembly 6 to operate, so that the intubation tube is inserted into the soil through the blanking pipe 3, and then the driving assembly 5 is controlled to operate reversely, so that the pressing assembly 6 is reset in reverse operation, and then the process is repeated, when the soil is no longer required to be subjected to intubation ventilation, the driving assembly 5 is closed.

The driving assembly 5 comprises a motor 51, a first rotating shaft 52, a flat belt combination 53, a screw rod 54 and a nut 55, the motor 51 is arranged on the mounting plate 1, the first rotating shaft 52 is rotatably connected to the upper side of the mounting plate 1, the flat belt combination 53 is connected between the first rotating shaft 52 and an output shaft of the motor 51, the screw rod 54 is welded to the upper side of the first rotating shaft 52, and the nut 55 is connected to the screw rod 54 through threads.

When soil needs to be ventilated through the insertion tube, the motor 51 is started, the first rotating shaft 52 can be rotated through the flat belt combination 53, the screw rod 54 is further rotated, the pressing assembly 6 is driven to operate through the nut 55, the insertion tube can be inserted into the soil, the motor 51 is controlled to operate reversely, the parts are reset reversely, and the motor 51 is closed after the reset.

The pushing assembly 6 comprises a guide rod 61, a first sliding block 62, a first connecting frame 63, a pushing rod 64 and a connecting rod 65, the guide rod 61 is connected to the upper side of the mounting plate 1, the first sliding block 62 is arranged on the guide rod 61 in a sliding mode, the first connecting frame 63 is connected to the front side of the first sliding block 62, the pushing rod 64 is welded to the rear side of the left portion of the first connecting frame 63, the pushing rod 64 is matched with the guide pipe 4, and the connecting rod 65 is connected between the pushing rod 64 and the nut 55.

When the soil needs to be subjected to intubation ventilation, the motor 51 is started, so that the screw rod 54 rotates, the nut 55 moves downwards, the connecting rod 65 enables the first sliding block 62, the first connecting frame 63 and the material pushing rod 64 to move downwards together, the material pushing rod 64 can push the intubation tube to move downwards, the intubation tube can be inserted into the soil, then the motor 51 is controlled to reversely operate, the above parts are reversely operated and reset, and the motor 51 is closed after reset.

Example 2

On the basis of embodiment 1, as shown in fig. 4, 5, 6 and 7, the mounting plate further comprises a first fixing frame 7, a material discharging frame 8, an inclined plate 9, a second fixing frame 10, a second rotating shaft 11 and a material discharging rail 12, wherein the first fixing frame 7 is arranged on the upper side of the left portion of the mounting plate 1, the material discharging frame 8 is arranged on the upper side of the first fixing frame 7, the inclined plate 9 is arranged inside the material discharging frame 8, the left side of the material discharging frame 8 is connected with the second fixing frame 10, the rear side of the right portion of the second fixing frame 10 is rotatably connected with the second rotating shaft 11, and the material discharging rail 12 is connected to the second rotating shaft 11.

When soil is required to be ventilated through inserting pipes, the inserting pipes are placed in the discharging frame 8, then the inserting pipes can fall on the discharging rails 12 due to the effect of the inclined plates 9, then the second rotating shaft 11 is controlled to rotate, further the discharging rails 12 are made to rotate, so that the inserting pipes can slide down to the discharging pipes 3 from the discharging rails 12, then the second rotating shaft 11 is controlled to rotate reversely to reset, further the discharging rails 12 rotate reversely to reset, next inserting pipe slides down, and therefore the inserting pipes can be placed more simply and conveniently.

Still including baffle 13, balancing weight 14 and first contact frame 15, the gliding style is equipped with baffle 13 on the blowing frame 8, and the left part upside of baffle 13 is equipped with balancing weight 14, and the right part upside of baffle 13 is equipped with first contact frame 15, and first contact frame 15 cooperates with connecting rod 65.

When connecting rod 65 moves down, can no longer with first contact frame 15 contact, and then make baffle 13 and first contact frame 15 move down because of the effect of balancing weight 14, thereby block blowing frame 8, and then prevent to be blockked by other intubate when inserting the intubate soil, thereby make the device more high-efficient, when connecting rod 65 upward movement, can contact with first contact frame 15 once more, and then drive first contact frame 15 upward movement, thereby make balancing weight 14 and baffle 13 upward movement, thereby no longer block blowing frame 8.

Also comprises a mounting frame 16, a third rotating shaft 17, a first wedge block 18, a torsion spring 19, a first guide frame 20, a sliding frame 22, a first rack 23, a second contact frame 24, a first spring 26 and a first gear 27, be equipped with the mounting bracket 16 on the connecting rod 65, the last rotation type of mounting bracket 16 is equipped with third pivot 17, be connected with first wedge 18 in the third pivot 17, be connected with torsion spring 19 between first wedge 18 and the mounting bracket 16, the downside of second mount 10 is equipped with first leading truck 20, the last rotation type of first leading truck 20 is equipped with carriage 22, the welding of the right side upside of carriage 22 has first rack 23, the welding of the right side of carriage 22 has second contact frame 24, second contact frame 24 and the cooperation of first wedge 18, be connected with first spring 26 between first leading truck 20 and the carriage 22, key connection has first gear 27 in the second pivot 11, first gear 27 and the meshing of first rack 23.

When the connecting rod 65 moves downwards, the mounting frame 16, the third rotating shaft 17, the first wedge block 18 and the torsion spring 19 move downwards together, when the first wedge block 18 moves to be in contact with the second contact frame 24, the second contact frame 24 moves towards the left, so that the sliding frame 22 and the first rack 23 move towards the left, the first spring 26 is compressed, and then the first gear 27 is driven to rotate, so that the second rotating shaft 11 and the discharge rail 12 rotate to discharge, and further the trouble of manual operation is reduced, when the first wedge block 18 moves to be not in contact with the second contact frame 24 any more, the first spring 26 rebounds to drive the second contact frame 24, the sliding frame 22 and the first rack 23 to move towards the right to reset, so that the first gear 27 rotates in the reverse direction, so that the second rotating shaft 11 and the discharge rail 12 rotate in the reverse direction to reset, when the connecting rod 65 moves upwards, can make mounting bracket 16, third pivot 17, first wedge 18 and torsion spring 19 upwards move together, when first wedge 18 removed to contact with second contact frame 24 once more, can make first wedge 18 rotate, torsion spring 19 takes place deformation, when first wedge 18 removed to no longer contact with second contact frame 24, torsion spring 19 recovers and drives first wedge 18 reverse rotation and resets.

Still including second gear 28, second leading truck 29, second slider 30, second spring 31, third contact frame 32, second link 33 and second wedge 34, the equal key connection in both sides has second gear 28 around the rotating turret 201, the welding of the left part upside of mounting panel 1 has second leading truck 29, the equal slidingtype second slider 30 that is equipped with in both sides around the second leading truck 29, the second rack has all been welded in the left side of second slider 30, the corresponding cooperation of second rack and second gear 28, all be connected with second spring 31 between second slider 30 and the second leading truck 29, third contact frame 32 has all been welded to the upside of second slider 30, the welding of the upside of balancing weight 14 has second link 33, the downside of second link 33 is equipped with second wedge 34, second wedge 34 and the cooperation of third contact frame 32.

When the weight member 14 moves downward, the second connecting frame 33 and the second wedge block 34 are moved downward, when the second wedge block 34 moves to contact with the third contact frame 32, the third contact frame 32 is moved outward, so that the second slider 30 is moved outward, the second spring 31 is stretched, and the second rack is moved outward, so as to be matched with the second gear 28, and the rotating frame 201 and the wheel 202 are clamped, thereby effectively preventing the device from moving when in operation, and when the balancing weight 14 moves upwards, the second connecting frame 33 and the second wedge block 34 can move upwards, when the second wedge block 34 moves to be not contacted with the third contact frame 32 any more, the second spring 31 retracts to drive the third contact frame 32, the second sliding block 30 and the second rack to move inwards and reset, and thus no longer engages the second gear 28 and thus no longer jams the turret 201 and wheel 202.

Although embodiments of the present invention have been shown and described, it would be appreciated by those skilled in the art that changes may be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the claims and their equivalents.

Claims (3)

1. The utility model provides an environment-friendly soil intubate breather, its characterized in that, including:

a mounting plate (1);

the handle (2) is positioned on the mounting plate (1);

a rotating frame (201) which is positioned on the mounting plate (1) in a rotating mode;

wheels (202) positioned on two sides of the rotating frame (201);

the universal wheel (203) is positioned on the mounting plate (1);

the blanking pipe (3) is positioned on the mounting plate (1);

the guide pipe (4) is positioned on the blanking pipe (3);

the driving assembly (5) is positioned on the mounting plate (1);

the pressing component (6) is positioned on the driving component (5);

the drive assembly (5) comprises:

a motor (51) located on the mounting plate (1);

a first rotating shaft (52) which is positioned on the mounting plate (1) in a rotating manner;

a flat belt assembly (53) located between the first rotating shaft (52) and the output shaft of the motor (51);

a screw (54) on the first shaft (52);

the nut (55) is positioned on the screw rod (54) in a threaded connection mode;

the pressing component (6) comprises:

a guide rod (61) positioned on the mounting plate (1);

the first sliding block (62) is slidably positioned on the guide rod (61);

a first link frame (63) on the first slider (62);

the material pushing rod (64) is positioned on the first connecting frame (63), and the material pushing rod (64) is matched with the guide pipe (4);

the connecting rod (65) is positioned between the material pushing rod (64) and the nut (55);

also includes:

the first fixing frame (7) is positioned on the mounting plate (1);

the discharging frame (8) is positioned on the first fixing frame (7);

the inclined plate (9) is positioned on the material placing frame (8);

the second fixing frame (10) is positioned on the material placing frame (8);

the second rotating shaft (11) is positioned on the second fixing frame (10) in a rotating mode;

the discharging rail (12) is positioned on the second rotating shaft (11);

also includes:

the baffle (13) is positioned on the discharging frame (8) in a sliding manner;

the balancing weight (14) is positioned on the baffle (13);

the first contact frame (15) is positioned on the baffle (13), and the first contact frame (15) is matched with the connecting rod (65);

also includes:

the mounting frame (16) is positioned on the connecting rod (65);

a third rotating shaft (17) which is positioned on the mounting rack (16) in a rotating way;

the first wedge-shaped block (18) is positioned on the third rotating shaft (17);

a torsion spring (19) located between the first wedge block (18) and the mounting bracket (16);

the first guide frame (20) is positioned on the second fixing frame (10);

a sliding frame (22) which is positioned on the first guide frame (20) in a sliding manner;

a first rack (23) located on the carriage (22);

a second contact carriage (24) on the carriage (22), the second contact carriage (24) cooperating with the first wedge block (18);

a first spring (26) located between the first guide (20) and the carriage (22);

and the first gear (27) is positioned on the second rotating shaft (11), and the first gear (27) is meshed with the first rack (23).

2. The environment-friendly soil intubation ventilation device of claim 1, further comprising:

second gears (28) located on both sides of the rotating frame (201);

a second guide frame (29) located on the mounting plate (1);

the second sliding blocks (30) are positioned on two sides of the second guide frame (29) in a sliding mode, second racks are welded on the second sliding blocks (30), and the second racks are correspondingly matched with the second gears (28);

a second spring (31) located between the second slider (30) and the second guide frame (29);

a third contact frame (32) located on the second slider (30);

the second connecting frame (33) is positioned on the balancing weight (14);

and the second wedge block (34) is positioned on the second connecting frame (33), and the second wedge block (34) is matched with the third contact frame (32).

3. The environment-friendly soil intubation ventilation device according to claim 2, wherein the discharge rail (12) has a hole in the middle.

Images