KR101911816B1 - Electronic scale integrated weight - Google Patents

Abstract

The present invention relates to a weight-integrated electronic scale capable of facilitating calibration of the electronic scale. The weight-integrated electronic scale includes: a main body having an open top, formed therein with a reception space, and including a plurality of load cells; an elevation unit installed in the reception space of the main body; a support plate vertically moving as the elevation unit is driven; a weight coupled to a top surface of the support plate, having a plurality of fastening holes, and having a latching member having a predetermined length and fastened to the fastening hole; a support frame having a frame shape so as not to interfere with the support plate and the weight, having a plurality of support holes at positions corresponding to the fastening holes, having the latching member fitted to the support hole, such that the latching member does not make contact with the support hole when the support plate and the weight are lifted by the elevation unit, and the latching member is latched to a lower end of the support hole when the support plate and the weight are lowered by the elevation unit, and formed on both lower sides thereof with support ribs to make contact with the load cell; and an upper case having an open bottom, coupled to the main body such that an upper inner surface of the upper case makes contact with a top surface of the support frame, and provided on a top surface thereof with a measurement target object.

Description

[0001] ELECTRONIC SCALE INTEGRATED WEIGHT [0002]

The present invention relates to a weight integrated electronic scale, and more particularly to a weight integrated electronic scale capable of facilitating calibration of an electronic scale by integrally providing a weight within the electronic scale.

An electronic balance is an electronic balance that is a balance mechanism, a reading mechanism, etc. The balance is composed of a balance mechanism and a reader. It is also called an electronic balance.

The balancing mechanism of the electronic balance includes a zero method (zero method) for electrically detecting the subtle displacement of the scale by the load (load), adding and subtracting the electromagnetic force so that the scale is horizontal, There is a load cell type in which a strain gauge is applied and a load is directly applied to a load cell that generates an electric signal proportional to the deformation of the elastic body to detect an electric signal proportional to the load.

In addition, the reading mechanism of the electronic balance includes a digital display of the detection signal of the balancing mechanism, a microcomputer incorporated therein to display a charge according to the mass of the object, a container mass eliminating mass of the container from the measurement result, Output and so on.

There are various scales ranging from precision compact scales for commercial use to commercial scales and large scale industrial scales, including the addition of electronic circuits to conventional weighing machines and mechanical balances that balance the weights. The accuracy of these scales is similar to that of mechanical scales It is 1/10 ⁵ to 1/10 ³ of the weighing.

In such a conventional electronic balance, a weight of a known mass in the vicinity of a weighing amount is loaded on a load detecting mechanism having a load sensor, and calibration is performed so that the weighing display value in that state coincides with the weighing mass.

Such calibration may be performed not only at the time of installation of the electronic balance, but also at the time of periodic or from time to time to compensate for span drift or other changes caused by changes in the components of the balance that occur over time .

FIG. 1 shows a calibration apparatus for an electronic balance according to the prior art, and shows a central longitudinal section.

As shown in FIG. 1, an apparatus for calibrating an electronic balance according to the related art includes a calibrating weight built in a housing so as to be calibrated without having to install a precise calibrating weight for easy calibration. It is.

However, in the conventional apparatus for calibrating an electronic balance, the tip ends of a plurality of push rods 6a and 6b which are driven up and down directly come into contact with the underside of the calibration weight 4 or the lower surface of the calibration weight 4 The contact surface of the calibration weight 4 in contact with the tip ends of the plurality of push rods 6a and 6b is worn out to cause an eccentricity error in the long term use. There is a problem that it falls off.

KR 10-1993-0001874 B1 (Announced on March 18, 1993)

Disclosure of Invention Technical Problem [8] The present invention has been made to solve the above-mentioned conventional problems, and it is an object of the present invention to provide a weight integrated electronic balance capable of easily calibrating an electronic balance by integrally providing a weight within the electronic balance It has its purpose.

To achieve these and other advantages and in accordance with the purpose of the present invention, as embodied and broadly described herein, there is provided a portable terminal comprising: a main body including a plurality of load cells each having an upper opening and an accommodation space formed therein; A lifting / lowering unit installed in the accommodation space of the main body part; A support plate disposed at an upper portion of the ascending / descending unit and moving up and down as the ascending / descending unit is driven; A plurality of fastening holes formed on opposite sides of the support plate, the weight being fastened to the fastening holes by a predetermined length; And a plurality of support holes are formed at positions corresponding to the fastening holes formed in the weight, and the fastening holes are formed in the support holes, When the weight of the support plate is raised by the descending unit, the engagement member does not contact the support hole, and when the weight is lowered by the ascending / descending unit, the engagement member is hooked to the lower end of the support hole A support frame having support ribs formed on the lower ends of both side surfaces of the support hole to contact the load cell; And an upper case having an upper portion and an upper portion, the lower portion being open and the upper portion being disposed on the upper portion of the support frame, the upper portion of the upper case being in contact with the upper surface of the support frame, The weight of the weighing machine is reduced.

The elevating and lowering unit may further include: a driving motor installed in the accommodating space of the main body; An actuator connected to the driving motor to perform forward and backward movement by receiving power from the driving motor; A main pivoting member coupled to the actuator and hinged to a fixture installed at the bottom of the accommodation space so as to pivot in accordance with the forward and backward movements of the actuator; An auxiliary pivoting member disposed on both sides of the main pivoting member with respect to a direction in which the actuator moves forward and backward, the pivoting member being hinged to an end of the pivoting member; A main support member coupled to the other end of the main tiltable member; And an auxiliary supporting member extending from the main supporting member and coupled to the other end of the auxiliary turning member and slidably moving in contact with a lower surface of the supporting plate located at an upper portion thereof in accordance with rotation of the main turning member .

The main support member is disposed in a direction perpendicular to the direction in which the actuator moves forward and backward, and the auxiliary support member is disposed in the same direction as the direction in which the actuator advances and retreats, And rollers provided in a direction perpendicular to the backward movement direction are provided at both ends of the auxiliary receiving member, respectively.

The engaging member may include a fastening portion to be fastened to the fastening hole; And a retaining portion having a diameter smaller than a diameter of the retaining portion which is engaged with the lower end of the support hole when the support plate and the weight are lowered by the lifting / lowering unit, the retaining portion having a diameter increasing gradually toward both sides of the retaining portion, ; ≪ / RTI >

In addition, when the support plate and the weight are raised, the support portion does not contact the support hole, and the support plate and the weight are lowered by the lifting / lowering unit It is preferable that the latching portion is hooked to the lower end of the support hole.

In addition, it is preferable that a reinforcing rib of a cross shape extending from the inner side is formed on the inner upper end of the support frame.

In addition, it is preferable that the cover plate is fastened to the upper surface of the support frame.

The supporting ribs may extend in the horizontal direction from the lower ends of both sides of the supporting frame, the supporting ribs may be bent and bent upward, .

In addition, a plurality of guide shafts are longitudinally provided between the load cell and the elevating and lowering unit on the bottom surface of the accommodation space of the main body, and a fitting portion into which the guide shaft is fitted is formed on the bottom surface of the support plate.

It is preferable that a plurality of protrusions are formed on the upper surface of the support plate, and protrusion receiving grooves are formed on the bottom surface of the weight plate to correspond to the protrusions.

According to the means for solving the above-mentioned problems, the present invention has the following effects.

According to the present invention, an elevating and lowering unit is provided inside the main body, and if necessary, the weight provided inside the electronic scale is raised and lowered by the elevating and lowering unit, thereby facilitating the calibration of the electronic balance have.

Further, according to the present invention, the up-and-down unit includes the main turning member, the auxiliary turning member, the main supporting member, and the auxiliary supporting member, so that the supporting plate and the weight can be raised and lowered while stably supporting.

In addition, according to the present invention, by providing the rollers at both ends of the auxiliary supporting member, there is an effect that the sliding contact can be stably performed in a state in which the rollers are in contact with the lower surface of the supporting plate in accordance with the rotation of the main turning member.

Further, in the present invention, when the support plate and the weight are lowered by the elevating and lowering unit, the diameter of the retaining portion engaged with the lower end of the support hole is made small and the support hole is formed long in the direction in which the support plate and the weight are moved up and down, So that the unit can be smoothly operated.

In addition, the present invention has the effect of enhancing the durability of the support frame by forming the reinforcing ribs in the shape of a cross (+) extending from the inner side to the inner upper end of the support frame.

The supporting ribs extend in the horizontal direction from the lower ends of the side surfaces formed with the supporting holes in the supporting frame, and then are bent upward in the upward direction. There is an effect that the engaging member, which is fastened to the fastening hole of the weight and located between the support holes, is not interfered by the upper case.

In addition, according to the present invention, a plurality of guide shafts are vertically installed between the load cell and the elevating and lowering unit on the bottom surface of the accommodation space of the main body part, and a fitting part in which the guide shaft is fitted is formed on the bottom surface of the support plate. So that it is possible to stably descend and descend.

FIG. 1 shows a calibration apparatus for an electronic balance according to the prior art, and shows a central longitudinal section.
2 is a view showing an electronic balance with a built-in weight according to the present invention.
3 is an exploded view of FIG.
Fig. 4 is a view showing an elevating and lowering unit in the electronic balance with integral weight according to the present invention.
5 is a view showing a coupling structure of a support plate, a weight, and a support frame in an electronic balance having a built-in weight according to the present invention.
Fig. 6 is a bottom view of a support plate used in a weight built-in electronic balance according to the present invention.
Fig. 7 is a view showing a bottom surface of a weight used in a weight integrated electronic balance according to the present invention. Fig.
FIG. 8 is a view showing a state in which the support frame is lifted up from below in the electronic balance of the integral type according to the present invention. FIG.
Fig. 9 is a view showing an operation state of a weight integrated electronic scale according to the present invention. Fig. 9 (a) shows a case where an electronic balance is normally used, Respectively.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. It is to be understood that the terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms and that the inventor should properly interpret the concepts of the terms to best describe their invention It should be construed as meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined. In addition, since the embodiments described in the present specification and the configurations shown in the drawings are only the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention, It is to be understood that equivalents and modifications are possible.

Figs. 2 to 9 are views showing a weight integrated electronic balance according to the present invention.

2 and 3, the electronic balance includes a main body 10, a lifting unit 20, a support plate 30, a weight 40, a support frame 50, A plate 60 and an upper case 70 as shown in FIG.

The main body 10 is formed in a box shape of a hexahedron with an open top, and a receiving space is formed therein.

A plurality of load cells 11 are installed at predetermined intervals along the rim in the receiving space of the main body 10. That is, four load cells 11 are provided at four corners of the receiving space of the main body 10, respectively, so as to maintain contact with the support ribs 53 of the support frame 50, which will be described later.

In addition, an operation unit (not shown) is provided in the accommodation space of the main body part 10 to multiply the voltage value measured from the load cell 11 by a constant value and calculate the weight value.

A plurality of guide shafts 15 are longitudinally provided between the load cell 11 and the elevating and lowering unit 20 on the bottom surface of the accommodating space of the main body 10. On the bottom surface of the supporting plate 30, The fitting portion 31 into which the guide shaft 15 is fitted is formed.

A plurality of guide shafts 15 are provided vertically between the load cell 11 and the elevating and lowering unit 20 on the bottom surface of the accommodation space of the main body 10 and the guide shafts 15 are provided on the bottom surface of the support plate 30. [ The support plate 30 is guided by the guide shaft 15 and can be stably lifted and lowered.

In addition, a display unit (not shown) is provided outside the main body 10 for displaying the weight calculated from the calculation unit in numerical form.

A plurality of pedestals 17 are provided at the lower end of the body 10. The height of the pedestal 17 can be adjusted to maintain the body 10 in a horizontal position.

The elevating and lowering unit 20 is installed at a central portion of the accommodating space of the main body 10. The elevating and lowering unit 20 includes a driving motor 20 installed in a receiving space of the main body 10, (21); An actuator 22 connected to the drive motor 21 to receive power from the drive motor 21 to perform forward and backward movement; A main tiltable member 23 coupled to the actuator 22 and coupled to the fixture 13 at one end thereof by a hinge H so as to rotate according to the forward and backward movements of the actuator 22; The actuator 22 is disposed on both sides of the main tiltable member 23 on the basis of the direction in which the actuator 22 moves forward and backward. (24); A main support member (25) coupled to the other end of the main tiltable member (23); And is connected to the other end of the auxiliary pivoting member 24 extending from the main pivoting member 25 and slidably moved in contact with the lower surface of the supporting plate 30 located at the upper portion according to the rotation of the main pivoting member 23 And an auxiliary supporting member (26).

Since the actuator 22 is a well-known technology, a description thereof will be omitted.

The main support member 25 is arranged in a direction perpendicular to the direction in which the actuator 22 moves forward and backward and the auxiliary support member 26 is arranged in the same direction as the direction in which the actuator 22 moves forward and backward do.

At both ends of the auxiliary supporting member 26, rollers 26b provided with a rotary shaft 26a in a direction perpendicular to the direction in which the actuator 22 advances and retracts are provided, respectively.

9, the rollers 26b provided at both ends of the auxiliary supporting member 26 are slidably moved in a state of being in contact with the lower surface of the supporting plate 30. As shown in Fig.

The support plate 30 and the weight 40 can be easily assembled by constructing the up / down unit 20 including the main rotation member 23, the auxiliary rotation member 24, the main support member 25 and the auxiliary support member 26, So that it can be raised and lowered while being stably supported.

The support plate 30 is disposed on the upper portion of the elevating and lowering unit 20, that is, on the main supporting member 25 and the auxiliary supporting member 26, and moves up and down as the up-down and down-

5, a plurality of protrusions 33 are formed on the upper surface of the support plate 30, and on the bottom surface of a weight 40 to be described later, protrusions 33 corresponding to the protrusions 33 are formed, Receiving grooves 47 may be formed and the weight 40 may be coupled to the upper surface of the supporting plate 30. [

The weight 40 is formed in a rectangular parallelepiped shape having a weight of tens of kilograms. A plurality of fastening holes 41 are formed on opposite sides of the weight 40.

At this time, locking members 43 of a predetermined length are fastened to the plurality of fastening holes 41 formed on both sides of the weight 40, respectively.

As shown in Fig. 5, the engaging member 43 includes a fastening portion 44 fastened to fastening holes 41 formed on both side surfaces of the weight 40; When the support plate 30 and the weight 40 are lowered by the lifting unit 20 and the lifting unit 20, the diameter of the retaining portion 45a, which is caught by the lower end of the support hole 51, And a locking part 45 having a shape in which the diameter gradually increases and becomes constant toward both sides.

As described above, the lifting unit 20 is provided inside the main body 10, and if necessary, the weight 40 provided inside the electronic scale is lifted and lowered by the lifting unit 20, thereby facilitating the calibration.

The support frame 50 is formed in a frame shape so as not to interfere with the support plate 30 and the weight 40 which are positioned inside and move up and down.

A plurality of support holes 51 are formed in the support frame 50 at positions corresponding to the fastening holes 41 formed in the weight 40. An engaging member 43 is inserted into the support holes 51 9 (a), when the support plate 30 and the weight 40 are lifted by the lifting unit 20, the engaging member 43 does not come into contact with the support hole 51. As shown in Fig.

When the object to be measured is placed on the upper surface of the upper case 70 as in the case of using the balance in general, the measurement is performed on the support ribs 53 of the support frame 50, The weight of the water is transferred to change the voltage value of the load cell 11, and thus the weight value of the measured object can be calculated.

The support ribs 53 are formed in contact with the load cell 11 at the lower ends of both sides where the support holes 51 are formed.

When the support plate 30 and the weight 40 are lifted up, the retaining hole 45 is formed in the support hole 51, When the support plate 30 and the weight 40 are lowered by the elevating and lowering unit 20, the engaging portion 45 is caught by the lower end of the support hole 51. [

9 (b), when the support plate 30 and the weight 40 are lowered by the elevating and lowering unit 20, if the electronic balance is to be calibrated, Is caught by the lower end of the support hole 51 so that the weight of the weight 40 is transmitted to the support rib 53. This facilitates the calibration work of the electronic balance.

A reinforcing rib 54 of a positive (+) shape extending from the inner side is formed at the inner upper end of the support frame 50 to improve the durability of the support frame 50.

In addition, it is preferable that the cover plate 60 is fastened to the upper surface of the support frame 50.

8, a bent portion 52 extending in the horizontal direction and then bent downward is formed at the upper ends of both side surfaces of the support frame 50 where the support holes 51 are formed, and the support ribs 53 And extends upward in the horizontal direction from the lower ends of both side surfaces of the support frame 50 where the support holes 51 are formed.

The upper case 70 can be prevented from being interfered with the engaging member 43 that is fastened to the fastening hole 41 formed in the weight 40 and located between the support holes 51. [

The upper case 70 is in the form of a hexahedron having an opening in its lower portion and a receiving space therein. The upper case 70 is disposed on the upper portion of the support frame 50, And the object to be measured is placed on the upper surface.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, Will be apparent to those of ordinary skill in the art.

10: main body part 11: load cell
20: up / down unit 21: drive motor
22: actuator 23: main rotating member
24: auxiliary pivoting member 25: main support member
26: auxiliary supporting member 30: supporting plate
40: weight 43:
50: support frame 60: cover plate
70: upper case

Claims (5)

A main body portion including a plurality of load cells which are open at an upper portion and which have a receiving space formed therein and are installed at regular intervals along the rim of the receiving space;
A lifting / lowering unit installed in the accommodation space of the main body part;
A support plate disposed at an upper portion of the ascending / descending unit and moving up and down as the ascending / descending unit is driven;
A plurality of fastening holes formed on opposite sides of the support plate, the weight being fastened to the fastening holes by a predetermined length;
And a plurality of support holes are formed at positions corresponding to the fastening holes formed in the weight, and the fastening holes are formed in the support holes, When the weight of the support plate is raised by the descending unit, the engagement member does not contact the support hole, and when the weight of the support plate is lowered by the ascending / descending unit, the engagement member is hooked to the lower end of the support hole A support frame having support ribs formed on the lower ends of both side surfaces of the support hole to contact the load cell; And
And an upper case connected to the main body so that the upper side of the support frame is in contact with the upper surface of the support frame and the upper surface of the upper case is placed on the upper side of the support frame. Electronic weighing scale.
The method according to claim 1,
The elevating / lowering unit comprises:
A drive motor installed in the accommodation space of the main body;
An actuator connected to the driving motor to perform forward and backward movement by receiving power from the driving motor;
A main pivoting member coupled to the actuator and hinged to a fixture installed at the bottom of the accommodation space so as to pivot in accordance with the forward and backward movements of the actuator;
An auxiliary pivoting member disposed on both sides of the main pivoting member with respect to a direction in which the actuator moves forward and backward, the pivoting member being hinged to an end of the pivoting member;
A main support member coupled to the other end of the main tiltable member; And
And an auxiliary supporting member extending from the main supporting member and coupled to the other end of the auxiliary pivoting member and slidably moving in contact with a lower surface of the supporting plate located at an upper portion thereof in accordance with rotation of the main pivoting member The electronic weighing scale is characterized by weight.
The method of claim 2,
Wherein the main support member is disposed in a direction perpendicular to the direction in which the actuator moves forward and backward,
Wherein the auxiliary supporting member is disposed in the same direction as the direction in which the actuator moves forward and backward,
And a roller provided in a direction perpendicular to the direction in which the rotating shaft moves forward and backward of the actuator is provided at both ends of the auxiliary receiving member.
The method according to claim 1,
The engaging member
A fastening part fastened to the fastening hole; And
Wherein when the support plate and the weight are lowered by the elevating and lowering unit, a diameter of the retaining portion which is caught by the lower end of the support hole is made small, and the diameter of the retaining portion becomes gradually increasing toward both sides of the retaining portion. And an electronic balance.
The method of claim 4,
Wherein the support hole is elongated in a direction in which the support plate and the weight move up and down,
Wherein when the support plate and the weight are raised, the retaining portion does not contact the support hole, and when the support plate and the weight are lowered by the ascending / descending unit, the retaining portion is caught by the lower end of the support hole.

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