JPH0353883B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to an inflatable deep plow vehicle.

In recent years, deep cultivators have been developed that inject compressed air into the subsoil of orchards, using air pressure to increase soil pores, expand and soften the soil, replenish oxygen, and increase the growth of root hairs, thereby increasing the yield of fruit trees. It is something that

As this kind of deep cultivator, there is already known one that performs deep cultivating by opening the valve using a manual or foot-operated operating lever, as shown in Japanese Utility Model Application Publication No. 1536 of 1981. However, with these deep tillers, the handles protruding from both sides of the main body are grasped with both hands, and the shaft is inserted into the soil using pneumatic vibrations, so vibrations are applied to both hands, making it easy to suffer from vibration sickness. There were drawbacks such as the fact that it took a lot of effort to move the parts every few meters.

In addition, there is a deep tiller that is configured to be movable by mounting a trolley etc., as shown in Utility Model Publication No. 101130 of 1971, but this deep tiller is connected in parallel with the deep tiller drive cylinder. Since the pressure accumulator tank is fixedly attached, the movement range of the driving position of the perforated pipe fixedly connected to the pressure accumulator tank at the bottom has to be large up and down, and as a result,
It required large amounts of power and fuel consumption.

In addition, this product has two drive systems for the perforated pipe.
As a result, the driving speed is slow, and the device is complicated and expensive.

Furthermore, since the cylinder is driven by air pressure, a large-capacity compressor is required, which inevitably increases the size and cost of the device.

The present invention has been made in view of the above-mentioned conventional problems, and its purpose is to attach the vehicle body and side surface approximately L to one end of the vehicle body.
A vertical frame fixed in the vertical direction to form a letter shape,
It is equipped with a guide frame that moves up and down guided by this vertical frame and is fixed to the air injection deep cultivator, and a vertical drive mechanism that drives the guide frame up and down, and this vertical drive mechanism is connected to a sliding rod mechanism and hydraulic By configuring it with a cylinder mechanism, it is possible to use a simple drive device and increase the driving and pulling speed of the air injection deep cultivator.
In addition, the air-injection deep cultivator has an improved self-propelled type that allows for a wider range of movement, the entire device to be lightweight and compact, further saves power and fuel consumption, and enables highly efficient deep tilling of soil. Our objective is to provide an air injection deep cultivator.

Hereinafter, preferred embodiments of the present invention will be described with reference to embodiment figures.

Crawlers 2, 2', wheels, etc. are provided at the bottom of the vehicle body 1 and are linked to a drive device 3 including an engine installed near one end of the vehicle body 1. A driver's seat 4 is placed on the side of the drive device 3, and an operation console 5 is provided in front. A compressor 6 is installed in the center of the upper surface of the vehicle body 1, and a base frame 8 is protruded from the lower part of the back of the vertical frame 7, so that the compressor 6 is installed in the center of the upper surface of the vehicle body 1, and the base frame 8 is protruded from the bottom of the back of the vertical frame 7, so that the vertical direction Fixed to.

Then, reinforcing rods 9 and 9' are provided obliquely across the vertical frame 7 and the base frame 8, and guide rails 10 and 10' are attached to the inner surfaces of both side frames of the vertical frame 7.

The guide rails 10, 10' also have groove wheels 12, 12' that fit into the guide rails 10, 10', and are guided by the guide rails 10, 10'.
A guide frame 11 that moves inside 10' is provided. This guide frame 11 is connected to an air injection deep cultivator 2 which will be described later.
I am wearing 3.

The guide frame 11 is connected to a vertical drive mechanism 29, and guided and driven in the vertical direction along the guide rails 10, 10' by the vertical drive mechanism 29.

The vertical drive mechanism 29 includes a sliding rod mechanism 31 and a hydraulic cylinder mechanism 32. The sliding rod mechanism 31 includes a first sliding rod 3 whose one end is pivotally connected to the guide frame 11.
0, 30' and second sliding rods 15, 15' which are loosely inserted and slid into the first sliding rods 30, 30' and whose one end is pivotally connected to the vehicle body 1, Rod 30,
30' and the second sliding rods 15, 15' move the guide frame 11 up and down.

Further, the hydraulic cylinder mechanism 32 includes a cylinder 33 whose one end base is pivotally connected to the vehicle body 1, and which penetrates into this cylinder 33 and whose end portion is connected to the second sliding rods 15, 1.
The rod 17 is pivotally attached to the 5' side.

A bearing fitting 1 is provided on the upper surface of the base frame 8 near the rear end.
3 and 13' are formed in a protruding manner, and the guide frame 11 is moved from the tube shaft 14 pivotally supported by the bearing fittings 13 and 13'.
A pair of second sliding rods 15, 15' are protruded from the upper end of the back surface of the guide frame 11, and their tips are pivotally connected to the guide frame 11.

The base frame 8 is fixed to the front upper surface of the vehicle body 1 with bolts or the like. The rod 17 of the hydraulic cylinder mechanism 32 is pivotally connected at its lower end to the lower center of the vehicle body 1.
Its upper end is pivotally connected to the connecting rod 18 of the second sliding rods 15, 15'.

Also, on the front of the guide frame 11, locking tools 19, 19',
19'', etc., and an air injection deep cultivator 23 consisting of an air tank 20, a pneumatic vibrator 21, a driving pipe 22, etc. is attached to the front of the guide frame 11 with a locking device. Presser 6 and deep tiller 23
An air cylinder 26' for operating the air filling lever of the deep cultivator 23 is installed on the plate 25 protruding from the guide frame 11, and connected with the high pressure hose 24.
The air cylinders 26 and 26' are connected to the compressor 6 through lever-equipped control valves 27 and 27' provided on the operation console 5, and an injection lever 28 provided on the operation console 5 and an injection lever provided on the side of the vehicle body 1. The injection lever 28' is connected to the air injection valve of the deep cultivator 23.

Here, the sliding rod mechanism 3
By moving the first sliding rods 30, 30' up and down in an oscillating manner, the guide frame 11 to which the ends of the first sliding rods 30, 30' are to be pivoted is moved up and down. The installed air injection deep cultivator 23 is moved up and down.

Next, the effects of the present invention will be explained with reference to embodiment figures.

When the self-propelled pneumatic deep plowing vehicle of the present invention is used to perform deep plowing work in an orchard, the compressor 6 on the top surface of the vehicle body 1 is driven, and the engine 3 is driven while the vehicle is moving at the injection position. After stopping, the control valves 27 and 27' are operated to fill the air tank 20 of the deep cultivator 23 with high-pressure air and cause the pneumatic vibrator 21 to generate vibrations.

Then, the rod 17 of the hydraulic cylinder mechanism 32 is retracted. Then, the second sliding rods 15, 15' are
The other end is rotated counterclockwise using the shaft support provided by the bearing fittings 13, 13' as a fulcrum. At this time, the first sliding rod 30 covers the inside of the second sliding rods 15, 15'.
Move in the direction of its axis. As a result, the guiding frame 11 is lowered and the driving pipe 22 is inserted into the soil, and then the air injection valve is opened by the injection lever 28, and the injection hole at the tip of the driving pipe 22 is heated to a level of 10 atmospheres. It releases high-pressure air to expand and soften the soil.

Here, the vertical drive mechanism 29 operates at the first position of the sliding rod mechanism 31 using the bearing fittings 13, 13' as fulcrums.
By rotating the sliding rods 30, 30' in an oscillating manner, the guide frame 11 and the deep cultivator 23 fixed thereto can be moved vertically within a small drive range of the hydraulic cylinder mechanism. Since the guide frame 11 moves up and down along the guide rails 10 and 10' of the frame 7, a relatively large range of vertical movement of the deep cultivator 23 can be obtained with a small hydraulic drive range.

Moreover, as a result, the power and fuel consumption can be reduced and made economical.

As a result, the driving pipe is driven by substantially one operation, resulting in faster driving and drawing speeds, and in addition, the device can be simplified and the cost can be reduced.

Additionally, the compressor can be configured to have a small capacity due to hydraulic drive, and the device can be made lighter and more compact. After the discharge is completed, the guide frame 11 is raised again and the soil is moved sequentially at intervals of about 2 meters while injecting air into the soil.The operator operates a lever from the driver's seat of the trolley. This will allow you to continue working with high efficiency.

As explained above, according to the self-propelled air-injection deep cultivator according to the present invention, there is provided a vertical frame fixed to one end of the vehicle body in the vertical direction so as to form an approximately L-shape on the side surface with the vehicle body, and guides to the vertical frame. a guide frame that is fixed to the air-injection deep cultivator, and a vertical drive mechanism that drives the guide frame up and down, the vertical drive mechanism having one end pivotally connected to the guide frame. It includes a first sliding rod and a second sliding rod that is loosely inserted into the first sliding rod and has one end pivotally connected to the vehicle body, and the first sliding rod and the second sliding rod are connected to each other. a sliding rod mechanism that moves the guide frame up and down as the guide frame slides; a cylinder whose one end base is pivotally connected to the vehicle body; and a cylinder that penetrates into the cylinder and whose end is pivotally connected to the side of the second sliding rod. a hydraulic cylinder mechanism, the first sliding rod of the sliding rod mechanism being moved up and down in an oscillating manner in conjunction with the forward and backward movement of the rod of the hydraulic cylinder mechanism; By configuring the air-injected deep cultivator to move up and down, it not only prevents vibration disease and saves the trouble of moving the deep cultivator, but also allows the small drive range of the hydraulic cylinder mechanism at the driving position to move the guide frame and The air injection deep cultivator fixed to this can be moved up and down, and the guide frame moves up and down along the guide rail of the vertical frame, so a relatively large vertical movement range of the deep cultivator can be obtained with a small hydraulic drive range.
This allows for good power and fuel efficiency, as well as a single driving system for the perforation pipe, which increases the speed of driving and pulling out, making deep soil plowing highly efficient, and the equipment is simple. And it can be maintained at low cost.

Furthermore, since the cylinder is driven by hydraulic pressure, there is no need for a large-capacity compressor, and the device can be made lighter and more compact.

[Brief explanation of drawings]

Fig. 1 is a side view of a deep plowing vehicle according to an embodiment of the present invention, Fig. 2 is a plan view thereof, Fig. 3 is an enlarged view taken along the line A-A in Fig. 1 showing the underframe, and Fig. 4 is That B-B
5 is a view taken along the line C--C. 1... Vehicle body, 2, 2'... Crawler, 3... Drive device, 6... Compressor, 7... Vertical frame,
11... Guide frame, 15, 15'... Second sliding rod,
17...rod, 20...air tank, 21...
Pneumatic vibration section, 22... Drive pipe, 23... Air injection deep cultivator, 29... Vertical drive mechanism, 30... First sliding rod, 31... Sliding rod mechanism, 32... Hydraulic cylinder mechanism .

Claims (1)

[Scope of Claims] 1. An air-injection deep cultivator that has a crawler at the bottom of the vehicle body and includes a crawler drive device, a compressor, an air tank connected to the compressor, a pneumatic vibrator, a driving pipe, etc. A self-propelled pneumatic deep plowing vehicle, comprising: a vertical frame fixed vertically to one end of the vehicle body so as to form an approximately L-shape on the side surface with the vehicle body; and a vertical frame guided by the vertical frame to move up and down. and a guide frame on which the air-injection deep cultivator is attached, and a vertical drive mechanism for vertically driving the guide frame, the vertical drive mechanism having one end connected to a first sliding rod pivotally connected to the guide frame. and a second sliding rod that is loosely inserted and slid into the first sliding rod and has one end pivotally connected to the vehicle body, and as the first sliding rod and the second sliding rod slide, a sliding rod mechanism that moves the guide frame up and down; a cylinder whose one end base is pivotally connected to the vehicle body; and a rod that penetrates into the cylinder and whose end is pivotally connected to the side of the second sliding rod. a hydraulic cylinder mechanism, the first sliding rod of the sliding rod mechanism is moved up and down in an oscillating manner in conjunction with the forward and backward movement of the rod of the hydraulic cylinder mechanism, and the pneumatic deep cultivator is operated. A self-propelled pneumatic deep cultivation vehicle that is characterized by being able to move up and down.