JP4035724B2 - Electronic balance - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an electromagnetic force balance type electronic balance, and more particularly to an electronic balance including a block-like mechanism body in which a balance mechanism including a Roverval mechanism and a lever is formed by hollowing out one base material.
[0002]
[Prior art]
In general, an electromagnetic force balance type electronic balance includes an electromagnetic force generation device in which a movable coil is arranged in a static magnetic field generated by a magnetic circuit, and the movable coil is attached to one end of a lever that engages with a pan receiver. Then, the displacement of the lever due to the action of the load to be measured on the pan receiver is detected by a detector, and the current flowing through the moving coil of the electromagnetic force generator is feedback-controlled so that the detection result is always zero. The magnitude of the load to be measured is obtained from the magnitude of the current required to make it zero.
[0003]
The tray receiver is normally supported by a Roverval mechanism to restrict its displacement in the vertical direction and eliminate the deviation error. The Roverval mechanism has a structure in which a movable column is connected to a fixed column by two parallel upper and lower beams, a tray receiver is attached to the movable column, and the movable column and lever are flexible connecting members. Connected by
[0004]
In this type of electronic balance, there is conventionally known an electronic balance using a block-like mechanism body formed by hollowing out a base material for a lever mechanism, a lever mechanism, and a connecting member for connecting them (for example, patents). Literature 1 and Patent literature 2).
[0005]
In an electronic balance using such a block-like mechanism body, usually, the block-like mechanism body is fixed to the balance base, and an electromagnetic force generator is attached to the fixed column of the Roverval mechanism in the block-like mechanism body. Fix it.
[0006]
Regarding the attachment of the block-shaped mechanism to the balance base, in Patent Document 1, an opening is formed in the beam below the Roverval mechanism in the block-shaped mechanism, and the same mechanism of the Roverval mechanism is formed corresponding to the opening. A recess is formed in the lower surface portion of the portion that leads to the fixed column, the mounting plate is fixed to the recess, the mounting plate is protruded downward through the opening, and the protruding portion constitutes the balance base. A structure that is fixed to the body is adopted.
[0007]
On the other hand, in Patent Document 2, a U-shaped frame is fixed to an end surface portion of a fixed column of a Roverval mechanism that forms one end side of a block-shaped mechanism body with a screw, and the U-shaped frame is attached to a casing constituting a balance base. Adopted a fixed structure.
[0008]
[Patent Document 1]
JP 11-72374 A (page 4-6, FIG. 2)
[Patent Document 2]
Utility Model Registration No. 2525318 (Page 2-3, Figure 3)
[0009]
[Problems to be solved by the invention]
By the way, according to the techniques described in Patent Documents 1 and 2 above, when the weight of the electromagnetic force generator is heavier than the weight of the block-like mechanism, the block-like mechanism is caused by vibration or dropping during transportation. And the relative position relationship between the electromagnetic force generator and the electromagnetic force generator may be adversely affected.
[0010]
Further, in the structure described in Patent Document 1, since the mounting plate is interposed under the block-shaped mechanism body, there is a problem that the overall height is increased. In the structure described in Patent Document 2, the block is Since the U-shaped frame is arranged on one end side of the block-like mechanism body, the required dimension in the longitudinal direction of the block-like mechanism body is increased, and the U-shaped frame is fastened to the fixed column with a screw, so that the deviation error performance is improved. In order to solve this problem, it is necessary to increase the size of the fixed column for fastening the U-shaped frame in the longitudinal direction of the Roverval mechanism to avoid the influence of the fastening of the U-shaped frame. In this case, there arises a problem that the required dimension in the longitudinal direction of the block-like mechanism is further increased.
[0011]
The present invention has been made in view of such circumstances, and even if the weight of the electromagnetic force generation device is heavy, the relative positional relationship with the block-like mechanism body is unlikely to shift due to vibration or dropping during transportation, and the above-mentioned An object of the present invention is to provide an electronic balance that can be made more compact than the structure described in each document.
[0012]
Another object of the present invention is to provide an electronic balance capable of facilitating attachment of an accessory such as a detector for detecting the displacement of a lever.
[0013]
[Means for Solving the Problems]
In order to achieve the above object, the electronic balance of the present invention includes an electromagnetic force generator having a moving coil provided in a magnetic circuit that generates a static magnetic field, and vertically displaces the pan receiver due to the action of a load to be measured. An electronic balance having a block-like mechanism formed by hollowing out a single base material, a Roverval mechanism that regulates the direction and a lever mechanism that transmits the displacement of the pan receiver to a moving coil placed in a static magnetic field In the state where the block-like mechanism body is sandwiched between the two arm portions constituting the first frame, bolts are passed through the plurality of holes formed in the thickness direction of the block-like mechanism body. with block-like mechanism is fixed to the first frame by tightening the nut, the electromagnetic force generating device is fixed to one end of the first frame, the electromagnetic force generating instrumentation Of the first frame in the vicinity of the fixed portion is fixed to the second frame, and the second frame is characterized by being fixed to the balance base (claim 1).
[0014]
Here, in the present invention, the second frame is provided with a detector for detecting the displacement of the lever due to the load to be measured, and for restricting the displacement of the lever to protect the movable part within the block-shaped mechanism. A configuration provided with a protection mechanism (claim 2) can be suitably employed.
[0015]
In the present invention, the structure for fixing the block-like mechanism body and the electromagnetic force generator to the balance base is reviewed, and instead of attaching the heavy electromagnetic force generator to the block-like mechanism body, both of them are fixed to the first frame. The first frame is fixed to the second frame in the vicinity of the fixed portion of the electromagnetic force generator, and the second frame is fixed to the balance base. Thus, the electromagnetic force generating device will be fixed to a substantially direct without the intervention of block-like mechanism to balance the base, it is possible to firmly maintain the relative positional relationship. Further, in the present invention, the block-like mechanism is formed by passing bolts through a plurality of holes formed in the block-like mechanism in a direction perpendicular to the beam of the Roverval mechanism and tightening them with nuts. Secure to the frame.
[0016]
Further, by adopting a configuration in which the electromagnetic force generation device is fixed to the magnet frame, a configuration in which a detector and a protection mechanism that are conventionally attached to the electromagnetic force generation device and the like are attached to the second frame as in the invention according to claim 2. It becomes possible to adopt the structure, achieve the simplification of the structure, and reduce the assembly man-hours.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a side view of an embodiment of the present invention, and FIG. 2 is a longitudinal sectional view of an essential part. 3 is also a plan view of the embodiment of the present invention, and FIG. 4 is a cross-sectional view taken along the line AA of FIG.
[0018]
The block-like mechanism body 1 is formed by hollowing out a single base material, and a robust mechanism 11 is movable with a fixed column 11a. The column 11b is connected by two parallel upper and lower beams 11c and 11d, and flexible portions e are formed at both ends of each beam 11c and 11d. The lever mechanism 12 is mainly composed of a lever main body 12b that is tiltable about a fulcrum 12a. The lever main body 12b includes a base end portion of an extension lever 2 that is a separate member from the block mechanism 1, and two bolts. It is screwed by the spacer 2b by 2a.
[0019]
The electromagnetic force generator 3 includes a movable coil 32 arranged in a static magnetic field generated by a magnetic circuit 31, and the movable coil 32 is wound around a winding frame 21 provided at the tip of the extension lever 2. Yes.
[0020]
Further, a shutter 22 is provided at the distal end of the extension lever 2, and a detector 4 composed of a light emitting element and a light receiving element is provided on both sides of the shutter 22. The detector 4 detects the displacement of the lever main body 12b and the extension lever 2 fixed thereto.
[0021]
Now, the block-like mechanism 1 is fixed to the first frame 5 with three screws 5a. The first frame 5 is made of a plate material formed in a substantially fork shape as a whole, and two arm portions 52 project from the base portion 51, and the block-like mechanism body 1 is sandwiched between the two arm portions 52. In this state, the block-like mechanism body 1 is fixed by inserting bolts 5a into the three holes 1a penetrating the block-like mechanism body 1 in the thickness direction through spacers 5b and tightening nuts 5c.
[0022]
In addition, the electromagnetic force generator 3 is fixed to the base 51 of the first frame 5 with four screws 5d. The first frame 5 is fixed to the second frame 6 with four screws 6 a at the base 51. The second frame 6 has a box-shaped upper surface and one side surface opened, and the base 51 of the first frame 5 is fixed to the bottom surface. Therefore, the electromagnetic force generator 3 is in a state of being fixed to the second frame 6 via the first frame 5 while being accommodated inside the second frame 6. Three screw holes 6b are formed on the bottom surface of the second frame 6 in a portion immediately below the electromagnetic force generator 3. The screw holes 6b are fastened to the balance base B with bolts (not shown).
[0023]
The aforementioned detector 4 is attached to the second frame 6. The second frame 6 has a lever main body 12b, a coupling member 13 and the like in the block-like mechanism 1 connected to the second lever 6 by restricting the displacement of the extension lever 2 in each direction to a predetermined amount or less. The restricting members 7 and 8 are attached for protection.
[0024]
The restricting member 7 is for restricting the displacement of the extension lever 2 in the direction along the horizontal plane. A circular hole 71 is formed in a portion along the horizontal plane of the plate member, and the extension lever is formed inside the circular hole 71. The pin 23 provided in 2 and extending in the vertical direction is inserted with a slight gap. Thereby, the amount of displacement of the extension lever 2 in the horizontal direction is restricted to be equal to or less than the gap between the pin 23 and the circular hole 71.
[0025]
The restricting member 8 is for restricting the displacement of the extension lever 2 in the vertical direction, and a long hole-shaped notch 81 is formed in the portion along the vertical surface of the plate material along the horizontal direction. Inside the notch 81, a horizontally extending square pin 24 provided on the extension lever 2 is inserted with a slight gap in the vertical direction. Thereby, the amount of displacement of the extension lever 2 in the vertical direction is regulated to be equal to or less than the gap in the vertical direction between the square pin 24 and the notch 81.
[0026]
In the above-described embodiment, it should be particularly noted that the electromagnetic force generator 3 is substantially fixed directly above the balance base B via the first frame 5 and the second frame 6, and the first frame 5 Thus, the relative positional relationship with the block-like mechanism 1 is shifted due to vibration during transportation even when the heavy electromagnetic force generator 3 is used. There is no.
[0027]
Further, a second frame 6 is provided so as to surround the electromagnetic force generator 3, and a detector 4 for detecting the displacement of the extension lever 2 and protective regulating members 7 and 8 are provided on the second frame 6. As compared with the conventional electronic balance of this type in which these are attached to the magnetic circuit 31 and the like, the assembly is easy and the degree of freedom in design is improved.
[0028]
【The invention's effect】
As described above, according to the present invention, the electromagnetic force generation device is substantially fixed to the balance base separately from the block-like mechanism, and even when a heavy electromagnetic force generation device is used, The relative positional relationship with the block-like mechanism body is not shifted due to the vibration of the.
[0029]
In addition, by adopting a configuration in which a detector and a protection mechanism are provided on the second frame for fixing the first frame for fixing the block-shaped mechanism body and the electromagnetic force generation device to the balance base, the assembly can be performed more easily than in the past. There is also an advantage that the degree of freedom of design can be improved.
[Brief description of the drawings]
FIG. 1 is a side view of an embodiment of the present invention.
FIG. 2 is a cross-sectional view of an essential part of the same.
FIG. 3 is a plan view of the embodiment of the present invention.
4 is a cross-sectional view taken along line AA in FIG.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Block-shaped mechanism 11 Rover mechanism 12 Lever mechanism 12a Supporting point 12b Lever main body 2 Extension lever 21 Winding frame 22 Shutter 3 Electromagnetic force generator 31 Magnetic circuit 32 Moving coil 4 Detector 5 First frame 51 Base 52 Arm 6 Second Frame 7, 8 Restriction member B Balance base

Claims (2)

A magnetic force generator is provided that includes a moving coil in a magnetic circuit that generates a static magnetic field, and a Roverval mechanism that regulates the displacement of the pan receiver due to the action of the load to be measured in the vertical direction, and the displacement of the pan receiver is static. In an electronic balance having a block-like mechanism formed by hollowing out one base material, a lever mechanism for transmitting to a moving coil placed in a magnetic field, the two arm portions constituting the first frame With the block-like mechanism sandwiched therebetween, the block-like mechanism is attached to the first frame by tightening nuts by passing bolts through a plurality of holes formed in the thickness direction of the block-like mechanism. The electromagnetic force generating device is fixed to one end of the first frame, and the first frame is connected to the second frame in the vicinity of the fixing portion of the electromagnetic force generating device. Is fixed to the over arm, and electronic balance its second frame, characterized in that it is fixed to the balance base. The second frame is provided with a detector for detecting the displacement of the lever due to the load to be measured, and a protection mechanism for restricting the displacement of the lever and protecting the movable part in the block-like mechanism. The electronic balance according to claim 1.

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