KR101035367B1 - Ground Stationary Type Scale Using Concrete Supportor and Ironware Frame - Google Patents

Abstract

The present invention provides a ground-mounted load measuring scale and its manufacturing method. The ground-mounted load measuring scale of the present invention includes a sensing plate having a strain gauge on its bottom surface, a concrete support having a groove formed so that the sensing plate can be placed, and an outer surface of the sensing plate and the concrete support portion. It characterized in that it comprises a frame consisting of a longitudinal reinforcement plate located between the edge side of the groove and a horizontal reinforcement plate located on the upper edge of the groove of the concrete support. According to the present invention, a method for manufacturing a ground-mounted load measuring scale is a method for manufacturing a ground-mounted scale using a sensing plate having a strain gauge on a bottom thereof, wherein a plate shape having a predetermined thickness is formed on the ground, but the sensing plate is formed thereon. Forming a formwork for making a structure having a shape so as to have a groove, inserting a concrete having a fluid state into the form, condensing the solid form, and then removing the formwork; Installing a frame comprising a vertical reinforcement plate surrounding the edge side of the groove of the concrete supporter and a horizontal reinforcement plate surrounding the upper edge of the groove of the concrete supporter; and an inner surface of the longitudinal reinforcement plate and an upper surface of the groove of the concrete supporter. Inserting the sensing plate in the space made Characterized in that it also.

Scales, Concrete, Frames, Strain Gages, Load Cells

Description

Ground Stationary Type Scale Using Concrete Supportor and Ironware Frame}

The present invention relates to a load measuring scale, and in particular, consisting of a sensing plate having a concrete support and a strain gauge for measuring the load and a frame portion located between the concrete support and the sensing plate can be implemented at low cost in terms of material cost and durability and The present invention relates to a ground-mounted load measuring scale, which is advantageous in terms of ground fixation, and a manufacturing method thereof.

Conventional scales for measuring the weight of a freight vehicle, etc., as shown in Figure 1 is generally made of the entire upper plate (2) on which the measurement object, such as the vehicle 50 is raised. Therefore, in order to have sufficient durability and ground fixability, there is a problem in that the burden of material cost is excessive in manufacturing due to the use of a sufficiently thick iron plate. In addition, even if a sufficiently thick steel plate is used, in order to have complete ground fixability, a separate means must be provided to fix the scale on the ground. There was a problem that maintenance was required. In addition, in the case of the installation of the entire scale made of iron, there was a problem that there is a difficulty in transportation and installation difficulties to the installation point after manufacturing the scale in the factory.

The present invention solves the problems of the prior art described above, and an object of the present invention is to reduce the overall manufacturing costs by forming cement concrete, which is a relatively inexpensive material, rather than steel, as a support member in a substantial portion of the components of the scale. It is to provide a ground-fixed load measuring scale and a manufacturing method thereof that can be significantly reduced.

It is another object of the present invention to provide a ground-fixed load measuring scale and a method for manufacturing the same, which have less deformation of the member in terms of durability, are excellent in terms of ground fixability of the scale, and are easy to install.

In order to achieve the above object, the ground-mounted scale of the present invention includes a sensing plate having a strain gauge on a bottom surface thereof, a concrete support having a groove formed so as to place the sensing plate, and an outer surface of the sensing plate. And a longitudinal reinforcement plate positioned between the edge side surfaces of the groove of the concrete support portion and a horizontal reinforcement plate positioned above the edge of the groove of the concrete support portion, the bottom of the horizontal reinforcement plate, the outer surface of the longitudinal reinforcement plate or the horizontal reinforcement. And a frame part including a fixing pin attached to a point where the bottom surface of the plate and the outer surface of the vertical reinforcing plate are in contact with each other, wherein the fixing pin is embedded in the concrete support part.

The ground-mounted scale of the present invention for achieving the above object, the sensing plate further comprises a foot (foot) formed by a projection on the bottom surface, the frame portion, the foot is to be fastened It is characterized in that it further comprises a foot fixing portion vertically attached to the lower end of the longitudinal reinforcement plate as a plate having a foot fixing groove (凹) formed to be able to.

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In order to achieve the above object, the method for manufacturing a ground-mounted scale of the present invention is a method for manufacturing a ground-mounted scale using a sensing plate having a strain gauge on the bottom thereof, and forming a plate shape having a predetermined thickness on the ground, but the sensing plate is Forming a form for forming a structure of a shape that can have a groove formed to be placed, inserting the concrete of the fluid state in the form, the condensation to a solid state, after removing the form And installing a frame including a vertical reinforcement plate surrounding a corner side of the groove of the concrete supporter and a horizontal reinforcement plate surrounding an upper edge of the groove of the concrete supporter, and an inner side surface of the vertical reinforcement plate and the concrete supporter. The sensing plate in the space consisting of the upper surface of the groove Characterized by including the step of inserting.

Another method of manufacturing a ground-mounted scale of the present invention for achieving the above object is a method of manufacturing a ground-mounted scale using a sensing plate having a strain gauge on the bottom, and forming a plate shape having a predetermined thickness on the ground, but the sensing Forming a formwork for making a concrete support, which is a structure shaped to have a groove formed so that the plate can be laid, a vertical reinforcement plate surrounding a corner side of the groove of the concrete support, a groove of the concrete support Install a frame consisting of a horizontal reinforcement plate surrounding the upper corner and the bottom of the horizontal reinforcement plate, the outer surface of the vertical reinforcement plate or the fixing pin attached to the point where the bottom surface of the horizontal reinforcement plate and the outer surface of the vertical reinforcement plate abuts Step, shovel concrete in a state of fluidity inside the formwork -In this case the reinforcement plate is embedded in the concrete-, after condensing in a solid state, removing the formwork and to the inner surface of the longitudinal reinforcement plate and the top surface of the groove of the concrete support And inserting the sensing plate into a space formed therein.

Another method for manufacturing a ground-mounted scale of the present invention for achieving the above object is to form a plate of a certain thickness on the ground, but the structure is a structure of a shape that can have a groove (凹) formed so that the sensing plate can be placed Forming a formwork on an imaginary side of the concrete support to make a support; And installing a frame composed of a vertical reinforcement plate to surround the virtual edge side of the groove of the concrete support unit and a horizontal reinforcement plate to surround the upper edge of the virtual edge of the groove of the concrete support unit at the virtual edge of the groove. Formwork-frame installation step comprising; Inserting concrete in a fluid state into an interior of the space surrounded by the formwork, the frame and the ground, to condense in a solid state; And removing the formwork installed on the side of the formed concrete support; concrete support forming step comprising; And a sensing plate inserting step of inserting the sensing plate into a space formed by an inner surface of the vertical reinforcement plate and an upper surface of the groove of the concrete support unit.

Another method of manufacturing a ground-mounted scale of the present invention for achieving the above object, the frame is the bottom of the horizontal reinforcement plate, the outer surface of the vertical reinforcement plate or the bottom of the horizontal reinforcement plate and the vertical reinforcement plate Further comprising a fixing pin attached to the point where the outer surface is in contact, the fixing pin may be characterized in that it is embedded in the concrete support.

The ground-mounted load measuring scale and the manufacturing method thereof according to the present invention having the above-described configuration is a balance according to the prior art, in which the entire measuring plate on which the vehicle is raised is made of steel, whereas the burden of material cost in manufacturing is great. In a significant portion of the components of the cement concrete, which is a relatively inexpensive material rather than steel, as a support member, there is an effect that can significantly reduce the overall manufacturing costs. In other words, it adopts only the merit of steel which is strong against deformation by shear force and the concrete of high and low compressive strength. However, since concrete is a brittle material, there is a defect in that the edge of the concrete member is easily broken. This defect is compensated by reinforcing the upper and side surfaces of the concrete edge with a steel frame.

In addition, cement concrete, which is an inexpensive material, has a low cost, and thus can be used in sufficient amount, so that it can exhibit sufficient bearing capacity, which results in less deformation of the support than the case of using an iron support of insufficient thickness, thereby positioning the sensing plate. Can be expected to have a fixed effect. This is due to the high compressive strength which is an advantage of cement concrete. In addition, since the concrete support is completely fixed to the ground and fixed, there is an effect that the position of the scale is changed in the process of raising and lowering the measurement object (particularly, large vehicles such as trucks).

In addition, in the installation, as in the prior art, when the entire scale is made of iron, there is a difficulty in carrying the scale to the installation point after manufacturing the scale in the factory. In the case of the scale according to the present invention, only the sensing plate and the frame part are manufactured in the factory. The advantage is that it can be carried to the installation point. The concrete support is formed by installing the formwork to meet the required shape, and then pouring cement concrete into the formwork through the ready-mixed vehicle and waiting for a certain time necessary for curing the concrete. It has the effect of remarkably easy.

In other words, by taking the advantages of cement concrete and steel, respectively, there is a significant effect on the cost, and also has an improved effect in terms of durability of the less deformation of the member, the surface stability of the scale and ease of installation, It is said to have an unexpected effect on technology.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is a block diagram showing the overall configuration of the ground fixed load measuring scale according to an embodiment of the present invention.

Ground fixed load measuring scale according to an embodiment of the present invention includes a sensing plate 10, concrete support 20 and the frame portion 30. Functions of the three components will be described in detail once again through the drawings for each component below.

Figure 3 is a block diagram showing the configuration of the concrete support 20 of the components of the ground-mounted load measuring scale according to an embodiment of the present invention.

The term concrete used in the name of the concrete support 20 is generally recognized to mean cement concrete, but broad concrete means a binder, a condensate, etc., and solidifies a material having fluidity to a certain shape ( It means that all the combinations made by condensation), but in the detailed description of the present invention illustrates an embodiment of the cement concrete, the embodiment using a material having a condensation, including plastic, in some cases also the present invention It will be included in the range of.

Concrete support 20 has a groove (21) formed so that the sensing plate 10 can be placed. The groove 21 is formed in the shape of the width of the sensing plate 10 plus the width into which the frame portion 30 enters. It is preferable that the groove 21 is formed in plural, and the reason thereof will be described below.

Hereinafter, the method of forming the concrete support part 20 will be described. In the case of a concrete structure, since it is formed as a condensation body, it is generally formed by inserting a concrete material in a fluid state into a form in accordance with a shape to be formed, and then removing the formwork after sufficient condensation.

Forming the concrete support 20, forming a form for forming a structure to form a plate shape of a predetermined thickness on the ground to have a groove (형성된) formed so that the sensing plate, the formwork By inserting the concrete in a fluid state inside, it can be made through the step of removing the formwork after condensing in a solid state. Since the method of forming the concrete structure is obvious to those skilled in the art, further detailed description will be omitted.

In the formation of the formwork, however, it is possible to take a configuration in which the frame portion also functions as a formwork with respect to the edge of the groove.

That is, in order to form the concrete support, form a form on the virtual side of the concrete support, the vertical reinforcement plate and the virtual edge of the groove of the concrete support to surround the virtual edge side of the groove to be formed By installing a frame composed of a horizontal reinforcement plate to be wrapped around the upper edge of the imaginary corner, the frame serves as a formwork around the corner. Due to the above configuration, it is possible to solve the trouble of removing the formwork installed at the corners of the groove after concrete condensation, and also eliminates the need to insert a frame separately after the concrete support is formed. In addition, since the separation between the groove and the frame portion does not occur, it has an improved effect in terms of fixing. The improvement of the fixing further comprises a fixing pin attached to the point where the frame is in contact with the bottom surface of the horizontal reinforcement plate, the outer surface of the longitudinal reinforcement plate or the bottom surface of the horizontal reinforcement plate and the outer surface of the vertical reinforcement plate, According to another embodiment of the present invention, the fixing pin is embedded in the concrete support.

4 is a configuration diagram in a state in which the sensing plate 10 and the frame portion 30 are separated from the components of the ground-mounted load measuring scale according to the embodiment of the present invention.

The frame part 30 is a longitudinal reinforcement plate 31 and the concrete support part to be located between the outer side surface 19 of the sensing plate 10 and the edge side surface (23 of FIG. 3) of the groove of the concrete support part 20. It consists of a horizontal reinforcement plate 33 to be located at the upper corner (25 of Figure 3) of the groove of the (20). The frame part 30 is a groove formed in the concrete support part 10 made of steel having a higher strength against abrasion or chipping than concrete, in order to compensate for the drawback that the concrete is brittle and the edge of the concrete member is easily damaged. By reinforcing the edge (27 of FIG. 3) of (21 in Figure 3) performs a function to reinforce the corner.

In addition, the frame part 30 has a bottom surface of the horizontal reinforcement plate 33, an outer surface of the vertical reinforcement plate 31 or a bottom surface of the horizontal reinforcement plate 33 and an outer surface of the vertical reinforcement plate 31. It may further include a fixing pin 39 attached to the contact point. The fixing pin 39 is inserted into the concrete in the flow state in the process of forming the concrete support portion 20 and is completely fixed to the concrete support portion 20 after the concrete is condensed. Thus, the fixing pin 39 is completely fixed to the concrete support 20 can minimize the position variation of the sensing plate 10 in the weighing process can reduce the error in the measurement, improving the durability of the overall device You can expect

In addition, the sensing plate 10 further includes a foot 17 formed as a protrusion on the bottom thereof, and the frame portion 20 is formed so that the foot 17 can be fastened. A plate having a foot fixing groove 37 may further include a foot fixing portion 35 that is vertically attached to the lower end of the vertical reinforcement plate. Due to the configuration of the foot 17 and the foot fixing groove 37, the positional change in the horizontal direction of the frame part 30 and the sensing plate 10 can be minimized, thereby reducing the measurement error. It can reduce, and the durability of the whole apparatus can be expected.

FIG. 5 is a cross-sectional view illustrating a specific shape and function of a load cell including a strain gauge in the sensing plate 10 among the components of the ground-mounted load measuring scale according to the embodiment of the present invention.

5 is an embodiment configured using a bending shear type load cell. However, those skilled in the art can obviously configure not only the case of adopting the bending shear type load cell as in the above embodiment but also the embodiment employing the column type load cell or the ring type load cell. Therefore, the technical idea of the present invention will not be limited to the above embodiment.

Looking at the components of the sensing plate 10, the upper plate 11 made of steel, the load cell 13, the load cell fixing member 15 and the foot (foot) 17 is included. If the sensing plate 10 including the components to measure the principle of measuring the weight, the load cell 13 is acted by the upper plate through the load cell fixing member 15 when the measurement object is raised on the upper plate 11 A force B in the direction of gravity is received and a vertical force A having the same magnitude and opposite direction as the force B in the direction of gravity is received through the foot 17. Shear force is generated by A and B). The strain gage measures the weight of the workpiece by the shear force thus generated.

6 is a bottom view of the sensing plate 10 of the components of the ground-mounted load measuring scale according to an embodiment of the present invention, Figure 7 is a component of the ground-mounted load measuring scale according to an embodiment of the present invention It is a side view of the state in which the sensing plate 10 and the frame part 30 are coupled. 6 and 7 are shown to help understand the embodiments of the invention.

Referring back to FIG. 2 as a whole, FIG. 2 is a block diagram showing the entire configuration of the ground-mounted load measuring scale according to the embodiment of the present invention.

Ground fixed load measuring scale according to an embodiment of the present invention includes a sensing plate 10, concrete support 20 and the frame portion 30. Actually measuring the weight is the sensing plate 10, the concrete support portion 20 serves to support the sensing plate 10 to prevent the variation of the position in the process of the sensing plate 10 to measure the weight of the workpiece. do. Frame portion 30 is a groove formed in the concrete support portion 10 made of steel of higher strength against abrasion or deterioration than concrete to compensate for the drawback that the concrete is brittle material and the edge of the concrete member is easily damaged. As described above, a function of reinforcing the edge is performed by wrapping the edge (27 of FIG. 3) of FIG. 3.

As shown in FIG. 2, the fixed load measuring scale includes a plurality of sensing plates 10 and the same number of frame portions 30 as the sensing plates 10, the sensing plates 10, and the frame portions 30. It is preferred that one concrete support 20 is formed with the same number of grooves (21 in FIG. 3). In general, in the case of the vehicle 50, only the wheels 51 serve as gravity points, so that the wheels 51 are positioned without having to construct the entire upper plate on which the measured object such as the vehicle is raised, as shown in FIG. 1. Due to the positioning of the sensing plate 10 only at one point, it is possible to configure a load measuring scale with a concrete member except for the position of the sensing plate 10. Due to this structural feature, a substantial portion of the balance component exhibits an effect characteristic of significantly reducing the overall manufacturing cost by forming cement concrete, which is a relatively inexpensive material rather than steel, as a support member.

1 is a configuration diagram showing the configuration of a scale for measuring the weight of a conventional freight vehicle and the like.

Figure 2 is a block diagram showing the overall configuration of the ground fixed load measuring scale according to an embodiment of the present invention.

Figure 3 is a block diagram showing the configuration of the concrete support of the components of the ground-mounted load measuring scale according to an embodiment of the present invention.

Figure 4 is a configuration of the sensing plate and the frame portion in the separated state of the components of the ground-mounted load measuring scale according to an embodiment of the present invention.

Figure 5 is a cross-sectional view for explaining the specific form and function of the load cell (Load Cell) in which the strain gauge in the sensing plate of the components of the ground-mounted load measuring scale according to an embodiment of the present invention.

Figure 6 is a bottom view of the sensing plate 10 of the components of the ground-mounted load measuring scale according to the embodiment of the present invention.

Figure 7 is a side view of a state in which the sensing plate 10 and the frame portion 30 of the components of the ground-mounted load measuring scale according to an embodiment of the present invention.

Claims (6)

A sensing plate having a strain gauge on a bottom surface thereof; A concrete support having a groove formed to place the sensing plate; And A vertical reinforcement plate disposed between the outer side surface of the sensing plate and the edge side of the groove of the concrete support portion, and a horizontal reinforcement plate positioned on the upper edge of the groove of the concrete support portion, the bottom of the horizontal reinforcement plate, the vertical reinforcement plate And a frame portion including a fixing pin attached to a point at which an outer surface of the transverse reinforcement plate and a bottom surface of the horizontal reinforcement plate are in contact with each other. The fixed pin is ground fixed scales, characterized in that embedded in the concrete support. The method of claim 1, The sensing plate further includes a foot formed with a protrusion on the bottom thereof, The frame part is a plate having a foot fixing groove formed to fasten the foot, and further comprising a foot fixing part vertically attached to the lower end of the longitudinal reinforcing plate. Fixed scales. delete In the method of manufacturing a ground-mounted scale using a sensing plate having a strain gauge on the bottom, Forming a formwork for forming a concrete support, the structure having a shape having a predetermined thickness on the ground but having a groove formed so that the sensing plate can be placed thereon; A vertical reinforcement plate surrounding a corner side of the groove of the concrete support; Horizontal reinforcement plate surrounding the upper edge of the groove of the concrete support; And a fixing pin attached to a bottom surface of the horizontal reinforcement plate, an outer surface of the vertical reinforcement plate, or a point where the bottom surface of the horizontal reinforcement plate and the outer surface of the vertical reinforcement plate contact each other. Inserting concrete with fluidity inside the formwork, in which case the reinforcement plate is embedded in the concrete, after condensing in a solid state, removing the formwork; And Inserting the sensing plate into a space consisting of the inner surface of the longitudinal reinforcement plate and the upper surface of the groove of the concrete support portion; ground fixed scale manufacturing method comprising a. In the method of manufacturing a ground-mounted scale using a sensing plate having a strain gauge on the bottom, Forming a form on the imaginary side of the concrete support to form a concrete support to form a plate shape of a predetermined thickness on the ground to have a groove (형성된) formed so that the sensing plate can be placed; And installing a frame composed of a vertical reinforcement plate to surround the virtual edge side of the groove of the concrete support unit and a horizontal reinforcement plate to surround the upper edge of the virtual edge of the groove of the concrete support unit at the virtual edge of the groove. Formwork-frame installation step comprising; Inserting concrete in a fluid state into an interior of the space surrounded by the formwork, the frame and the ground, to condense in a solid state; And removing the formwork installed on the side of the formed concrete support; concrete support forming step comprising; And And a sensing plate inserting step of inserting the sensing plate into a space formed by an inner surface of the vertical reinforcement plate and an upper surface of the groove of the concrete support part. The method of claim 5, The frame further includes a fixing pin attached to a bottom surface of the horizontal reinforcement plate, an outer surface of the vertical reinforcement plate or a point where the bottom surface of the horizontal reinforcement plate and the outer surface of the vertical reinforcement plate contact. The fixing pin is ground fixed scale manufacturing method, characterized in that embedded in the concrete support.

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