KR101609834B1 - Apparatus for Recording Operation History of Hydraulic Breaker - Google Patents

Abstract

The present invention relates to a device for recording the operating state of a breaker for crushing rocks and the like in road pavement or construction site. More specifically, the present invention can be utilized as data for monitoring the operation state of the breaker, Quot; breaker operating state recording apparatus "capable of sensing and recording an operating state such as the number of breaks of the breaker.
In the present invention, the pressure sensor 1 measures the pressure inside the upper chamber 210 provided in the cylinder 201 of the hydraulic breaker. An arithmetic and control unit (2) for receiving a pressure measurement value measured from the pressure sensor (1) and performing an arithmetic operation for counting the number of times the piston (202) strikes the chisel (203); A data storage section 3 for storing measured values of the pressure sensor 1 and values calculated by the arithmetic control section 2; And a power supply unit (4) for supplying power to the hydraulic breaker, and the operation state of the hydraulic breaker is sensed and recorded and stored.

Description

[0001] Apparatus for Recording Operation History of Hydraulic Breaker [

The present invention relates to a device for recording the operating state of a breaker for crushing rocks and the like in road pavement or construction site. More specifically, the present invention can be utilized as data for monitoring the operation state of the breaker, Quot; breaker operating state recording apparatus "capable of sensing and recording an operating state such as the number of breaks of the breaker.

A breaker is a device used to crush a road pavement or crush a rock or the like in a construction site. The breaker is a chisel that directly hits an object to be crushed. The chisel is coupled to an upper end of the chisel, And a hydraulic piercing member for piercing. The hydraulic borehole member is provided with a cylinder and a piston reciprocating in the cylinder. Korean Patent No. 10-0510966 discloses a specific structure of a hydraulic breaker according to the prior art. The conventional breaker generally causes the piston to hit the chisel while the piston is vertically moved by the change of the hydraulic pressure.

It is very important to precisely understand the operation state of such a hydraulic breaker during the operation in the field. In the prior art, there is no commercially available technology capable of understanding and recording the operation state of the hydraulic breaker .

See Korean Patent Registration No. 10-0510966 (2005. 08. 22. Announcement).

The present invention has been developed in order to overcome the limitations of the prior art as described above and it is an object of the present invention to monitor the operation state of a hydraulic breaker and to collect data that can be utilized for maintenance and diagnosis of a hydraulic breaker from a hydraulic breaker In order to utilize the hydraulic breaker as a data for monitoring the operation state of the hydraulic breaker, maintenance, and diagnosis of faults, it is necessary to provide an operation state And to record and store the operation state of the breaker.

According to an aspect of the present invention, there is provided a hydraulic breaker comprising: a pressure sensor for measuring a pressure in an upper chamber provided in a cylinder of a hydraulic breaker; An arithmetic and control unit for receiving a pressure measurement value measured from the pressure sensor and performing an arithmetic operation for counting the number of punctures in which the piston strikes the chisel; A data storage unit for storing a measured value of the pressure sensor and a value calculated by the operation control unit; And a power supply unit for supplying power to the hydraulic breaker, wherein the operation state of the hydraulic breaker is sensed and recorded and stored.

The operation state recording apparatus of the hydraulic breaker according to the present invention may further comprise a user interface unit for providing data to the manager or data stored in the data storage unit.

According to the present invention, the operating state of the hydraulic breaker is monitored by measuring the pressure inside the upper chamber of the cylinder and counting the number of times the piston hits the chisel (the number of perforations) based on the pressure. 3). Accordingly, the manager can easily monitor the operation state of the hydraulic breaker through the operation state recording apparatus of the hydraulic breaker according to the present invention, thereby easily grasping the necessity of maintenance, So that it is possible to take appropriate actions in a timely manner and to maintain the operation of the hydraulic breaker smoothly.

FIG. 1 is a schematic diagram showing a state in which the operation state recording apparatus of the present invention is coupled to a conventional hydraulic breaker.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. Although the present invention has been described with reference to the embodiments shown in the drawings, it is to be understood that the technical idea of the present invention and its essential structure and operation are not limited thereby.

FIG. 1 is a schematic diagram showing a state in which the operation state recording apparatus 100 of the present invention is coupled to a conventional hydraulic breaker. 1, the hydraulic breaker 200 is shown in a cross-sectional view. The hydraulic pressure supply system for supplying the hydraulic pressure to the hydraulic breaker 200 for convenience is not shown.

As shown in the figure, the hydraulic breaker 200 has a structure in which a piston 202 is inserted into a vertical internal space of a cylinder 201, and a chisel 203 is provided below a lower end of the piston 202 . The inner space of the cylinder 201 is divided into the upper chamber 210 and the lower chamber 211 so that the pressure acting on the upper chamber 210 acts on the upper end hydraulic pressure surface A1 of the piston 202, The pressure acting on the lower chamber 211 acts on the lower pressure side A2 of the piston 202. [ The high pressure is always applied to the lower pressure receiving surface A2 of the piston 202 by the hydraulic pressure applied to the lower chamber 211. At this time, the high pressure is applied to the upper pressure receiving surface A1 through the upper chamber 210 And the piston 202 is lifted and lowered to strike the chisel 203 according to a change in the balance between the force acting on the lower pressure receiving surface A2 and the force acting on the lower pressure receiving surface A2 through the lower chamber 211. [ That is, when the force acting on the upper pressure receiving surface A1 by the pressure of the upper chamber 210 becomes larger than the force acting on the lower pressure receiving surface A2 by the pressure of the lower chamber 211, The piston 202 descends to strike the chisel 203. Conversely, when the force acting on the upper end hydraulic pressure surface A1 becomes smaller than the force acting on the lower end pressure receiving surface A2, the piston 202 ascends vertically.

In this way, in the hydraulic breaker 200, the piston 202 reciprocates according to the change in the force acting on the upper end hydraulic pressure surface A1 of the piston 200 through the pressure in the upper chamber 210, The number of times that the piston 200 strikes the chisel 203 by using a pressure sensor that measures the pressure in the upper chamber 210 that acts on the upper pressure receiving surface A1 of the piston 200, . That is, in the present invention, the number of times the piston 200 strikes the chisel 203 is counted by sensing the pressure change in the upper chamber 210.

More specifically, the operation state recording apparatus 100 of the hydraulic breaker according to the present invention includes a pressure sensor (not shown) for measuring the pressure inside the upper chamber 210 of the cylinder 201, which acts on the upper hydraulic pressure surface A1 of the piston, (2) for counting the number of times the piston (202) hits the chisel (203) on the basis of the pressure measurement value measured from the pressure sensor (1) A data storage unit 3 for storing counted measured values, and a power supply unit 4 for supplying power.

The pressure sensor 1 is coupled to the upper chamber 210 of the cylinder 201 to measure the pressure inside the upper chamber 210 and transmits the measured value to the arithmetic control unit 2. [

The arithmetic and control unit 2 counts the number of perforations based on the pressure measurement value inside the upper chamber 210 transferred from the pressure sensor 1. [ As described above, when the force acting on the upper pressure receiving surface A1 by the pressure of the upper chamber 210 becomes larger than the force acting on the lower pressure receiving surface A2 by the pressure of the lower chamber 211, 202 are lowered to strike the chisel 203. The piston 202 descends when the pressure in the upper chamber 210 is equal to the pressure in the lower chamber 211 because the area of the upper pressure receiving surface A1 is generally larger than the area of the lower pressure receiving surface A2 The chisel 203 is hit. Of course, even if the pressure in the upper chamber 210 is smaller than the pressure in the lower chamber 211, the area of the upper hydraulic pressure surface A1 and the area of the lower hydraulic pressure surface A2 affect the upper hydraulic pressure surface A1 When the force is larger than the force acting on the lower pressure receiving surface A2, the blow of the chisel 203 is performed.

On the other hand, the pressure acting on the upper hydraulic pressure surface A1 When the force becomes smaller than the force acting on the lower pressure receiving surface A2, the piston 202 is raised vertically. The hydraulic breaker repeats the process of raising and lowering the internal pressure of the upper chamber 210, and the impact of the chisel is determined according to the magnitude of the force acting on the upper pressure receiving surface A1 and the force acting on the lower pressure receiving surface A2 In the present invention, the operation control unit 2 calculates the pressure on the upper hydraulic pressure surface A1 using the pressure measurement value inside the upper chamber 210 transferred from the pressure sensor 1 and the area of the known upper hydraulic pressure surface A1 The magnitude of the acting force is calculated and the magnitude of the force acting on the calculated upper pressure receiving surface A1 is determined according to the pressure acting on the lower pressure receiving surface A2 and the area of the lower pressure receiving surface A2 It is possible to grasp the number of times during the predetermined time when the magnitude of the force acting on the lower pressure receiving surface A2 is larger than the magnitude of the force acting on the lower pressure receiving surface A2. That is, the calculation control unit 2 calculates the "magnitude of force acting on the upper end hydraulic pressure surface A1" by using the pressure measurement value in the upper chamber 210 and the area of the upper end hydraulic pressure surface A1 for a predetermined time, The number of perforations of the chisel per hour is counted by grasping the number of times the thus calculated "magnitude of force acting on the upper pressure receiving surface A1" The arithmetic and control unit 2 can calculate and organize the cumulative number of perforations during a predetermined period of time (for example, by day, hour, or predetermined period) in addition to counting the number of perforations per hour. The data calculated by the operation control unit 2 is stored in the data storage unit 3 by the operation of the operation control unit 2. [ On the other hand, the operation control unit 2 and the data storage unit 3 can be operated so as to have a power saving mode in which operation is started only when the pressure is measured, in order to minimize power consumption.

The power supply unit 4 is a device for supplying power to each component constituting the operation state recording apparatus 100 of the present invention. In order to enhance the portability, the power supply unit 4 may be implemented as a mobile type battery, but is not limited thereto.

On the other hand, the operation state recording apparatus 100 of the present invention can output data arranged or calculated by the arithmetic control section 2 or data stored in the data storage section 3, or can be visually or audibly confirmed by the administrator The user interface unit 5 may be further provided. The user interface unit 5 is composed of various known interface devices such as a printer and a monitor and provides the data provided from the operation control unit 2 and the data stored in the data storage unit 3 to the administrator.

The operation state recording apparatus 100 of the hydraulic breaker according to the present invention measures the pressure inside the upper chamber 210 of the cylinder 201 so that the piston 202 moves the chisel 203 The operation state of the hydraulic breaker is monitored by counting the number of hitting times (number of times of perforation), and the monitoring result is stored in the data storage unit 3. [ Accordingly, the manager can easily monitor the operation state of the hydraulic breaker through the apparatus 100 for operating state of the hydraulic breaker according to the present invention, thereby easily grasping the necessity of maintenance, So that appropriate action can be taken in a timely manner, so that the operation of the hydraulic breaker can be maintained smoothly.

1: Pressure sensor
2:
3: Data storage unit
4: Power supply
5: User interface section

Claims (2)

A piston 202 is inserted into a vertical internal space of the cylinder 201. A chisel 203 is provided below the lower end of the piston 202. An internal space of the cylinder 201 is communicated with the upper chamber 210, The pressure acting on the upper chamber 210 is applied to the upper pressure receiving surface A1 of the piston 202 and the pressure acting on the lower chamber 211 is applied to the piston 202, The force acting on the upper end pressure receiving surface A1 by the pressure of the upper chamber 210 acts on the lower end pressure receiving surface A2 by the pressure of the lower chamber 211 And the piston 202 is lowered to strike the chisel 203. The operation state recording apparatus of the hydraulic breaker 200 includes:
A pressure sensor 1 for measuring a pressure inside the upper chamber 210 provided in the cylinder 201 of the hydraulic breaker;
Receives the pressure measurement inside the upper chamber 210 measured from the pressure sensor 1 and calculates the number of percussions that the piston 202 strikes the chisel 203 using the area of the upper pressure receiving surface A1 and the pressure measurement value An arithmetic control unit 2 for calculating;
A data storage section 3 for storing measured values of the pressure sensor 1 and values calculated by the arithmetic control section 2; And
And a power supply unit (4) for supplying power to the hydraulic breaker, wherein the hydraulic breaker is configured to sense and record and store the operation state of the hydraulic breaker;
The arithmetic and control unit 2 calculates the magnitude of the force acting on the upper hydraulic pressure surface A1 by multiplying the pressure measurement value in the received upper chamber 210 by the area of the known upper hydraulic pressure surface A1, The magnitude of the force acting on the surface A1 is smaller than the magnitude of the force acting on the lower pressure side A2 calculated by multiplying the known pressure acting on the lower pressure side A2 by the area of the lower pressure side A2 The number of perforations of the chisel per hour is counted by detecting the number of times during the predetermined period of time.
The method according to claim 1,
Further comprising a user interface unit (5) for providing data provided from the operation control unit (2) or data stored in the data storage unit (3) to an administrator.

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