KR20220114955A - Apparatus for driving twig crusher - Google Patents

Abstract

The present invention relates to a device for driving a tree twig crusher. The device includes: a main body (10) for mounting an engine (15); a crushing means (20) for causing transport and cutting of twigs by an inlet drum (21) and a crushing drum (25) mounted on the main body (10); a driving means (30) for applying rotational force of a hydraulic motor (31) to the inlet drum (21) and applying rotational force of the engine (15) to the crushing drum (25); and a control means (40) for controlling the main body (10) and the driving means (30) with a set algorithm. Accordingly, even if overload occurs due to load fluctuations when crushing tree twigs with irregular thicknesses in the form of sawdust, temporary reverse rotation is induced to continue a normal operation. Thus, work efficiency and durability are enhanced.

Description

The driving device of the tree branch crusher {Apparatus for driving twig crusher}

The present invention relates to a driving device for a tree branch crusher, and more particularly, to a driving device for a tree branch crusher for crushing twigs generated in various fields in the form of sawdust.

In general, waste wood generated from forests and orchards as well as construction and furniture fields is recognized as a recyclable resource. Various devices, from chain saws to dedicated heavy equipment, are being mobilized for cutting and crushing when the thickness is not uniform like the twigs of trees. This method requires a lot of manpower and it is difficult to increase work efficiency. Considering the situation in which the shortage of manpower in the country will deepen in the future, a dedicated shredder that is fast, safe, and improves work efficiency is required.

As prior art documents that can be referenced in relation to this, Korean Patent Application Laid-Open No. 2019-0137457 (Prior Document 1), Korean Patent Publication No. 0653612 (Prior Document 2), and the like are known.

Prior Document 1 is composed of a floating clamping drum that rotates up and down depending on the thickness of the object to be crushed. A pinching transfer unit is provided so that it continuously enters in this stable state. Accordingly, the effect of preventing the crushing object in the form of twigs from being pushed out is expected.

Prior Document 2 is a shredding disk installed in the input hopper and having a blade for crushing waste wood; a discharge pipe through which the crushed waste wood from the input hopper is discharged; an infeed roller operated by a hydraulic motor to move waste wood into and out of the input hopper; a switching valve connected to the hydraulic motor to supply the hydraulic pressure of the hydraulic device; and so on. Accordingly, an effect of simply and quickly coping with the load generation is expected.

However, according to the above-mentioned prior literature, the work is stopped due to engine stop or jamming in a situation in which an overload occurs due to an extreme load change of the crusher, as well as abrasion is accelerated, thereby causing a decrease in durability.

Korean Patent Application Laid-Open No. 2019-0137457 "Small Wood Crusher" (Publication Date: 2019.12.11.) Korean Patent Publication No. 0653612 "Millage transfer type wood shredder" (published on: 2006.12.06.)

It is an object of the present invention to improve the conventional problems as described above, by crushing tree twigs of non-uniform thickness in the form of sawdust at various sites, even if overload occurs due to load fluctuations, to cause temporary reverse rotation to continue normal operation. It is to provide a driving device for the tree branch crusher that can be used.

In order to achieve the above object, the present invention provides an apparatus for driving a tree branch crusher, comprising: a main body on which an engine is mounted; crushing means for causing transfer and cutting of twigs to the inlet drum and the crushing drum mounted on the main body; driving means for applying the rotational force of the hydraulic motor to the inlet drum and applying the rotational force of the engine to the crushing drum; and a control means for controlling the main body and the driving means with a set algorithm.

As a detailed configuration of the present invention, the crushing means is characterized in that it supports at least one of a pair of opposing inlet drums on the swinging arm so as to move up and down.

As a detailed configuration of the present invention, the swing arm is characterized in that it is provided with a pair of opposing shock absorbers so as to apply elastic force individually in the process of ascending and descending.

As a detailed configuration of the present invention, the driving means is characterized in that it is provided with a hydraulic valve for forward and reverse driving of the hydraulic motor, and an electromagnetic clutch for controlling the rotation of the crushing drum.

As a detailed configuration of the present invention, the control means includes a rotation detector installed to detect overload deceleration of the lead-in drum, a load detector installed to detect an overload shock of the crushing drum, and temporarily reverse rotation of the lead-in drum when it is determined that an overload state is present It is characterized in that it is provided with a controller.

As described above, according to the present invention, since the normal operation is continued by inducing a temporary reverse rotation even if an overload occurs due to a load change by crushing the tree twigs of which the thickness is not constant in the form of sawdust, there is an effect of increasing work efficiency and durability.

1 is a block diagram showing a crusher equipped with a device according to the present invention;
2 is an enlarged configuration diagram showing the main part of the device according to the present invention;
3 is an enlarged configuration view of a part of the device according to the present invention;
4 is a schematic diagram showing the working state of the device according to the present invention;

Hereinafter, an embodiment of the present invention will be described in detail based on the accompanying drawings.

The present invention proposes a device for driving a tree branch crusher. It is intended for tree branch crushers, but is not necessarily limited thereto. Tree branches include stems in addition to twigs and are called objects. Because the object is not only thick but also curved, it is easy to cause overload during the crushing process. Shredded tree branches are in the form of sawdust, so they are suitable for recycling for various purposes.

According to the present invention, the body 10 forms a structure in which the engine 15 is mounted.

Referring to FIG. 1 , an input chute 11 , an exhaust chute 12 , an engine 15 and the like constituting the main body 10 are shown. The engine 15 is applicable regardless of the type of fuel and is used as a power source for the crushing operation as well as the driving of the main body 10 . The input chute 11 is a route for inputting tree branches as they are without pretreatment, and the discharge chute 12 is a route for discharging in the form of sawdust through crushing.

In addition, according to the present invention, the crushing means 20 forms a structure for causing transfer and cutting of twigs to the inlet drum 21 and the crushing drum 25 mounted on the main body 10 .

In FIG. 1 , the inlet drum 21 and the crushing drum 25 constituting the crushing means 20 are shown. The pair of inlet drums 21 are provided with teeth on the outer peripheral surface to facilitate gripping and drawing in the object and are rotatably supported on the downstream side of the input chute 11 . The crushing drum 25 is rotatably supported on the crushing cylinder disposed on the downstream side of the inlet drum 21 . A discharge chute 12 is connected to the upper surface of the crusher. The crushing drum 25 has a structure in which a cutting blade is mounted on the outer circumferential surface of the disk after supporting a plurality of disks at regular intervals.

As a detailed configuration of the present invention, the crushing means (20) is characterized in that it supports at least one of the opposing pair of inlet drums (21) on the swinging arm (22) in a vertical motion.

Referring to FIG. 2 , the upper one of the pair of vertically opposed inlet drums 21 is shown in a state supported by the swing arm 22 . The swing arm 22 is rotatably supported by the hinge shaft 22a on both sides of the main body 10 and rotatably supports the inlet drum 21 at a position spaced apart from the hinge shaft 22a. As the posture of the inlet drum 21 is changed in response to the thickness in the process of drawing in the object, it contributes to overload prevention in connection with other configurations to be described later. Of course, the rocking arm 22 may be applied only to the lower inlet drum 21 or applied to all the upper and lower rocking arms 22 at the same time.

As a detailed configuration of the present invention, the swing arm 22 is characterized in that it is provided with a pair of opposing shock absorbers 23 so as to individually apply elastic force in the ascending and descending process.

In Fig. 2, a pair of shock absorbers 23 are shown in a state where they are installed so as to face each other between the main body 10 and the swing arm 22. As shown in Figs. A gas absorber with a built-in spring as the shock absorber 23 is preferred, but is not limited thereto. The one-side shock absorber 23 is disposed upward at one point of the swing arm 22 to act as a cushioning force when the inlet drum 21 rises. The other side shock absorber 23 is disposed downward at the other point of the swing arm 22 to act as a buffering force when the inlet drum 21 descends.

In addition, according to the present invention, the driving means 30 applies the rotational force of the hydraulic motor 31 to the inlet drum 21 and simultaneously applies the rotational force of the engine 15 to the crushing drum 25 .

2 and 3 , the hydraulic motor 31 , the engine 15 , the belt 33 and the like constituting the driving means 30 are shown. The driving means 30 drives the inlet drum 21 with the hydraulic motor 31 by employing the hydraulic system of the excavator, and at the same time receives the power of the engine 15 through the belt 33 to drive the crushing drum 25 . Since a greater torque is required in the crushing drum 25 than in the inlet drum 21, hydraulic force is applied.

As a detailed configuration of the present invention, the driving means 30 includes a hydraulic valve 41 for forward and reverse driving of the hydraulic motor 31 and an electromagnetic clutch 35 for controlling the rotation of the crushing drum 25 characterized in that

In FIG. 2 , the hydraulic valve 41 and the electromagnetic clutch 35 constituting the driving means 30 are shown. The hydraulic valve 41 is connected to the hydraulic motor 31 and causes forward and reverse rotation of the inlet drum 21 . In accordance with a change in the position of the hydraulic valve 41, the upper and lower hydraulic motors 31 are driven in the reverse direction of withdrawing the object in addition to the forward direction of drawing in the object. An electromagnetic clutch 35 is installed on the drive shaft of the crushing drum 25 concentrically with the pulley on which the belt 33 is applied. The electronic clutch 35 facilitates power interruption by a controller 45 to be described later. When the engine 15 applies power to the crushing drum 25 by turning on the electromagnetic clutch 35 in the rotational speed region where the maximum torque is generated, an unexpected stop due to overload can be prevented.

In addition, according to the present invention, the control means 40 has a structure in which the main body 10 and the driving means 30 are controlled by a set algorithm.

Although not shown, the control means 40 is based on a controller 45 having a microprocessor, a memory, and a microcomputer circuit of an input/output interface. The controller 45 is installed on one side of the main body 10 and has a plurality of movable buttons. The operation button connected to the input interface of the controller 45 conveniently processes commands for driving, work, and the like. An engine 15 , an electromagnetic clutch 35 , a hydraulic valve 41 , and the like are connected to the output interface of the controller 45 .

As a detailed configuration of the present invention, the control means 40 includes a rotation detector 42 installed to detect an overload deceleration of the inlet drum 21, and a load detector 43 installed to detect an overload impact of the crushing drum 25 ), characterized in that it has a controller 45 for causing temporary reverse rotation of the inlet drum 21 when it is determined as an overload state.

In the above drawings, the rotation detector 42 , the load detector 43 , the controller 45 and the like constituting the control means 40 are shown. The rotation detector 42 detects the rotation state by installing a non-contact type optical sensor, encoder, etc. on the inlet drum 21 . In addition, a detector for detecting rotation is also mounted on the engine 15 . The load detector 43 detects the impact load of the object reaching the crushing drum 25 via the inlet drum 21 . When the rotational speed of the inlet drum 21 is lowered to less than the set value or the load of the crushing drum 25 is increased to more than the set value, it may be determined as an overload state. If it is determined that the controller 45 is overloaded, it slightly reverses the inlet drum 21 to release the engagement of the object, and then switches to the forward rotation again.

Referring to Figure 4, it shows the moment of performing the crushing operation by putting the object equipped with twigs and stems into the input chute 11. When the operation button is pressed in the controller 45, the rotation speed of the engine 15 increases, and the electromagnetic clutch 35 of the crushing drum 25 is turned on and operated. The object is tightly gripped and transported by the inlet drum 21 to push toward the crushing drum 25 to cause crushing. As soon as the thickness or curvature of the object changes, the swinging arm 22 operates and adjusts to an appropriate gripping force. backwards Of course, even in this situation, if the overload is not resolved, the electronic clutch 35 is turned off.

The present invention is not limited to the described embodiments, and it is apparent to those skilled in the art that various modifications and variations can be made without departing from the spirit and scope of the present invention. Accordingly, it should be said that such variations or modifications fall within the scope of the claims of the present invention.

10: body 11: input chute
12: exhaust chute 15: engine
20: crushing means 21: inlet drum
22: rocking arm 23: shock absorber
25: crushing drum 30: driving means
31: hydraulic motor 33: belt
35: electronic clutch 40: control means
41: hydraulic valve 42: rotation detector
43: load detector 45: controller

Claims (5)

A device for driving a tree branch crusher comprising:
a body 10 on which the engine 15 is mounted;
crushing means 20 for causing transfer and cutting of twigs to the inlet drum 21 and the crushing drum 25 mounted on the main body 10;
a driving means 30 for applying the rotational force of the hydraulic motor 31 to the inlet drum 21 and the rotational force of the engine 15 to the crushing drum 25; and
Control means (40) for controlling the main body (10) and the drive means (30) with a set algorithm; a drive device for tree branch crusher comprising a. The method according to claim 1,
The crushing means (20) is a driving device of a tree branch crusher, characterized in that for supporting at least one of the opposite pair of inlet drums (21) on the swinging arm (22) so as to be movable up and down. 3. The method according to claim 2,
The swing arm (22) is a driving device for tree branch crusher, characterized in that it includes a pair of opposing buffers (23) to apply elastic force individually in the process of ascending and descending. The method according to claim 1,
The driving means 30 includes a hydraulic valve 41 for forward and reverse driving of the hydraulic motor 31 and an electromagnetic clutch 35 for controlling the rotation of the crushing drum 25. 's driving device. The method according to claim 1,
The control means 40 includes a rotation detector 42 installed to detect an overload deceleration of the inlet drum 21, a load detector 43 installed to detect an overload impact of the crushing drum 25, and an overload state. A driving device for tree branch crusher comprising a controller (45) for causing temporary reverse rotation of the inlet drum (21).

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