JP2559652Y2 - Hydraulic hose protection structure for grain storage device - Google Patents

Description

[Detailed description of the invention]

[0001]

The present invention relates to a hydraulic tank in which a horizontal feed screw conveyor for discharging stored grains is attached to a Glen tank so that the direction of the horizontal feed screw conveyor can be changed. With an actuator attached,
The present invention relates to a hydraulic hose protection structure for a grain storage device in which a hydraulic hose is installed between a fixed portion for a Glen tank and a hydraulic actuator.

[0002]

2. Description of the Related Art Conventionally, in a grain storage device, for example, as disclosed in Japanese Utility Model Laid-Open No. 3-92943, the hydraulic hose is bare, and a considerable amount of change in the direction of the transverse screw conveyor is allowed. It was loosened greatly and erected.

[0003]

However, the hydraulic hose that is largely loose and naked is easily damaged by catching with another object, and there is room for improvement in terms of durability. SUMMARY OF THE INVENTION An object of the present invention is to make it possible to effectively prevent a hydraulic hose from being damaged by being caught by another object, while permitting a large change in the direction of a laterally fed screw conveyor.

[0004]

In order to achieve the above object, according to the first aspect of the present invention, a transverse feed screw conveyor for discharging stored grains is attached to a Glen tank in a freely changeable direction. In the grain storage device in which a hydraulic actuator that integrally moves with the change in the direction thereof is attached to the laterally-feeding screw conveyor, and a hydraulic hose is provided between the fixed portion to the Glen tank and the hydraulic actuator, the hydraulic hose Is formed of a material which is elastically stretchable and shortened and urged, and is provided with a predetermined distance in the direction in which the hydraulic hose is erected so that the protection coil elastically expands and contracts with the change in the direction of the transverse screw conveyor. With the part supported, and
The hydraulic hose was provided in a state of being bent inside. According to a second aspect of the present invention, in the first aspect of the present invention, the inner diameter of the protection coil between a plurality of locations supporting the hydraulic hose is set to a dimension that allows the hydraulic hose to loosen. did. Claim 3 of the present invention
According to the invention described in the above, in the invention according to the first or second aspect, the protection coil is provided with a plurality of the hydraulic hoses.

[0005]

In other words, according to the invention of claim 1, the hydraulic hose is provided inside the protective coil so that another object does not directly touch the hydraulic hose, and the hydraulic hose is damaged by being caught by the other object. Can be prevented. By the way, it is conceivable to install the hydraulic hose in an inelastic protection coil.In this case, however, if the slack of the hydraulic hose is increased to enable a large change in the direction of the traverse screw conveyor, the slack of the protection coil also increases. Become
Other objects are likely to be caught on the protection coil, and eventually the hydraulic hose is likely to be damaged. However, as in the invention according to the first aspect, the hydraulic hose is bent inside the elastically stretchable protection coil which is shortened and urged, and the protection coil is elastically moved with the change in the direction of the lateral feed screw conveyor. When configured to extend and retract, the bending length of the hydraulic hose is changed inside the protection coil, which is about to be as short as possible, thereby allowing a significant change in the direction of the horizontal screw screw conveyor, while reducing the expansion and contraction length of the protection coil. Since it can always be suppressed to the minimum, it is possible to effectively prevent the protection coil from being caught by other objects. or,
According to the invention described in claim 2, even if the direction change range of the traverse screw conveyor is set in a wide range, the hydraulic hose having a sufficient length to cope with it can be prevented from being caught by other objects in the protection coil. It will be possible to compact it in a state. Further, according to the invention of the third aspect, the manufacturing cost can be reduced and the structure can be simplified as compared with the case where a protection coil which individually houses each hydraulic hose is provided.
In addition, since the movement of each hydraulic hose in the coil radial direction in the protection coil is regulated, it is possible to prevent the bent portion or the slack portion of each hydraulic hose from tangling.

[0006]

As a result, according to the first aspect of the present invention, it is possible to change the direction of the horizontal feed screw conveyor by changing the bending state of the hydraulic hose in the protection coil, and to change the hydraulic hose by the protection coil. The surrounding action and the action of suppressing the looseness due to the elasticity of the protection coil can effectively prevent the damage of the hydraulic hose due to being caught by another object, and provide a grain storage device with further excellent durability in the hydraulic hose. Now you can. Further, according to the invention of the second aspect, while widening the range of change in the direction of the transverse screw screw conveyor, the space for installing the hydraulic hose is reduced, and the durability of the hydraulic hose is improved. It is possible to provide a grain storage device that can be used. Further, according to the invention of the third aspect, it is possible to provide a highly durable grain storage device capable of preventing damage due to entanglement of the hydraulic hose while reducing manufacturing costs and simplifying the structure. It became so.

[0007]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS As shown in FIG. 1, a crawler-type traveling device 1 has a pre-cutting treatment device 2, a threshing sorter (not shown) for processing grain culms from the pre-cutting device 2, and a threshing sorter. Glen tank 4 for storing grains, boarding operation unit 5, driving unit 6
With the above, an all-culm input axial flow combine is constructed. As shown in FIGS. 2 and 3, a bottom screw 8 is provided at the bottom of the Glen tank 4 to supply the stored grains laterally to the screw conveyor 7 for pumping, and discharges the stored grains connected to the screw conveyor 7 for pumping. Screw conveyor 9 is provided, and a single-acting hydraulic cylinder (hydraulic actuator) 10 allows the horizontal screw conveyor 9 to swing up and down. A horizontal screw conveyor 9 is mounted on the screw conveyor 7 for lifting by means of an electric motor 11, a small diameter gear 12 and a large diameter gear 13 so as to be pivotable in a range of about 270 degrees around the longitudinal axis. Is driven by a hydraulic motor (hydraulic actuator) 14, and the grain stored in the Glen tank 4 can be taken out to a desired location by changing the direction of the horizontal screw conveyor 9.
A single-acting hydraulic cylinder 10 as a hydraulic actuator attached to the lateral feed screw conveyor 9 and three hydraulic hoses 16 for the hydraulic motor 14 are housed in the protective coil 17, and the protective coil 17 is elastically stretchable and shortened. The upper and lower portions of the hydraulic hose 16 are supported at a predetermined distance in the erection direction of the hydraulic hose 16 so as to elastically expand and contract with the change in the direction of the transverse screw conveyor 9. Are provided in a state of being provided in a bent shape. That is, the upper end of the protection coil 17 is connected to the fixed portion to the hydraulic hose 16 or the horizontal feed screw conveyor 9, and the lower end is connected to the fixed portion to the Glen tank 4 or the hydraulic hose 16. The protection coil 17 is configured to elastically expand and contract with the change in direction. In addition, the protection coil 17, which is always kept to the minimum length by the shortening bias, is formed to have a sufficiently large diameter so that the hydraulic hose 16 bends inside the protection coil 17. While allowing the direction of the horizontal feed screw conveyor 9 to be greatly changed by the elastic expansion and contraction of the protection coil 17 and the change of the slack state of the hydraulic hose 16 accompanying the above, the surrounding action of the protection coil 17 and the maintenance of the minimum length cause the protection coil 17 to be caught by another object. To prevent the hydraulic hose 16 from being damaged. Bottom screw 8
And the screw conveyor 7 for unloading are mechanically linked,
An electric clutch 18 for driving and stopping this is provided, and a first sensor S ₁ is provided at the discharge port of the horizontal screw screw conveyor 9.
Annexed to a configuration that does not detect the emission grain normal, the first control means 19 for automatically cutting operation of the electric clutch 18 when the first sensor S ₁ is to detect the grains provided, for example, transverse feed screw conveyor Boots 9a attached to the tip of 9
When the discharge port of the horizontal screw conveyor 9 is clogged, for example, when the grain is filled while the grains are packed in the Glen bag and the first sensor S ₁ and the first control means 19 are filled.
, The bottom screw 8 and the screw conveyor 7 are automatically stopped to prevent breakage of these drive systems. Crossfeed second sensor S ₂ annexed in the arrangement for detecting the discharging grain normal to the outlet of the screw conveyor 9, the second sensor motorized based on information from the S ₂ clutch 18, the hydraulic motor 14, hydraulic Cylinder 1
0, the second control unit 20 for automatically operating the electric motor 11 is provided, when the second sensor S ₂ does not detect the emission grain, bottom screw 8 and the screw conveyor 7 in turn operation of the electric clutch 18 is automatically stopped Then, the screw 15 in the horizontal screw screw conveyor 9 is automatically stopped by the operation of stopping the hydraulic motor 14, and the horizontal screw screw conveyor 9 is automatically returned to the set storage position by the operation of the hydraulic cylinder 10 and the electric motor 11. With this configuration, the operation at the end of the grain discharging operation is facilitated.

[0008] In the claims of the utility model registration, reference numerals are written for convenience of comparison with the drawings, but the present invention is not limited to the configuration of the attached drawings by the entry.

[Brief description of the drawings]

FIG. 1 is an overall side view of an all-culm input combine.

FIG. 2 is a perspective view of a main part.

FIG. 3 is a schematic configuration diagram of an automatic control system.

[Explanation of symbols]

 4 Glen tank 9 Horizontal feed screw conveyor 10,14 Hydraulic actuator 16 Hydraulic hose 17 Protection coil

Claims (3)

(57) [Scope of request for utility model registration] 1. A horizontal screw conveyor (9) for discharging stored grains is attached to the Glen tank (4) so as to be freely changeable in direction, and is integrated with the horizontal screw screw conveyor (9) in accordance with the change in the direction. Hydraulic actuator (1)
0) and (14), wherein the hydraulic hose (16) is installed over the fixed portion to the Glen tank (4) and the hydraulic actuators (10) and (14). The protective coil (17) that houses the (16) is formed of a material that is elastically stretchable and contracted and urged, and the screw feed conveyor (9) is used for the lateral feed.
Hydraulic hood so that it expands and contracts elastically as the
At a predetermined distance in the direction in which the
While the lifting and hydraulic hoses protective structure for grain storage apparatus the hydraulic hose (16) is provided in a state that is furnished to a bent shape. 2. A plurality of supports for the hydraulic hose (16).
The inner diameter of the protection coil (17) between
Dimensions set to allow loosening of pressure hose (16)
The hydraulic hose protection structure for a grain storage device according to claim 1. 3. A plurality of said protection coils (17) are provided on said protection coil (17).
The hydraulic hose (16) is internally provided.
Hydraulic hose protection structure for grain storage equipment.