Weighing scales – Self-positioning – Electrical current generating or modifying
Reexamination Certificate
2000-03-27
2002-10-29
Gibson, Randy W. (Department: 2841)
Weighing scales
Self-positioning
Electrical current generating or modifying
C177S229000, C177S212000, C073S001150, C073S862639
Reexamination Certificate
active
06472618
ABSTRACT:
BACKGROUD OF THE INVENTION
1. Field of the Invention
The present invention relates to an electronic weighing scale using a general purpose block member which can be utilized as a Roberval mechanism or as an elastic body of an electronic weighing scale of a load cell type, and more particularly to an electronic weighing scale of an electromagnetic equilibrium type using the general purpose block member as an integral type Roberval mechanism.
2. Prior Art
The electronic weighing scale of the electromagnetic equilibrium type which is referred to as an electronic balance comprises a load receiving portion for receiving the load of an object such as a weighing scale pan, an electromagnetic portion for generating electromagnetic force which equilibrates with the load, a load transmitting mechanism for transmitting the load received by the load receiving portion to the electromagnetic portion, and a Roberval mechanism for guiding the load transmitting mechanism.
These mechanisms are constituted by assembling several tens of parts, for example, various members such as a load transmitting beam, a member for constituting the Roberval mechanism, a connecting member such as a leaf spring for connecting these members, a screw for fixing these members and the like.
As a matter of course, with the above-mentioned structure, an assembly man-hour is great and it is necessary to finely adjust each portion of the mechanism with complexity after the assembly as a result of the combination of a large number of parts. If the mechanisms are formed of one material and are changed into one block, the assembly man-hour can be reduced greatly.
In consideration of this respect, there has been proposed an electronic balance using a block member of a complete integral type which constitutes each portion except the electromagnetic portion as one metal block. The block of the complete integral type is obtained by forming originally individual members from one metal block. Therefore the internal shape of the whole block is complicated and a high working precision is required.
An example of the block has been disclosed in U.S. Pat. Nos. 4,799,561 and 5,525,762, German Patent Nos. DE19754172C1 and DE19540782C1 and the like. Since these have a structure in which an electromagnetic portion for generating equilibrium force is housed in a block, mechanisms can be constituted to have small sizes but their shapes are very complicated.
U.S. Pat. No. 5,315,073 (EPC Patent No. EP055876B1) has disclosed a structure in which an electromagnetic portion is arranged in the concave portion of a block having one of ends opened. In this respect, the structure is slightly simpler than the block structure. However, the fulcrum of a lever for transmitting a load is elastically supported. Therefore, a high working precision is required.
As described above, although the main parts of an internal mechanism constituting the electronic balance is formed into one block to obtain great advantages, the following problems arise and the solution of the problems has been desired.
First of all, as the premise of the formation into one block, an almost rectangular metal block such as an aluminum based alloy is subjected to a fine working. Thus, a load receiving portion, a load transmitting portion using a lever, a thin deforming portion for permitting the operation of the load transmitting portion, a Roberval portion for guiding the load transmitting mechanism, a thin fulcrum portion and the like are formed for the metal block. The one-block working is carried out by performing the complicated and fine cutting for the metal block using means capable of performing a fine working such as cutting working, a discharge machining device using wire cutting as described in U.S. Pat. No. 5,340,951. For this reason, a high working precision is required over the whole metal block and a special working method is necessary. Therefore, the productivity of the block is not always high.
In the electronic balance in the working stage or thus manufactured, even if troubles are made on a part of the block, the problematic parts cannot be exchanged because of the integral properties. Therefore, there is a problem in that the whole block cannot be used. Any structure of the block is basically formed by working the almost rectangular metal block. For this reason, portions to be operated as respective members are arranged in the rectangle as a matter of course. Also in this respect, the arrangement of the portions to be the respective members has a restriction. For example, there is a problem in that a high leverage cannot be taken including the problem of the strength of the block in a member for transmitting a load, for example. Moreover, with such a structure as to form each member in a block member by a fine space obtained by a wire cutting discharge machining, the width of the cut space is very small, for example, approximately 0.3 mm. Therefore, refuse gets into the space portion, thereby causing an operation failure.
Also in a normal block member, it is always necessary to perform an adjusting work for the whole weighing scale mechanism when constituting the weighing scale mechanism by the assembly of the block member to the device and the fixation of the member such as the weighing scale or the like to the block member. This respect will be described by using a block model having a simplified structure with reference to FIG.
17
.
An integral type Roberval mechanism
420
formed integrally with a metal block such as an aluminum member has elliptical space portions
422
A and
422
B formed on both ends through a central communicating space portion
421
. Consequently, thin portions
422
A
a
,
422
A
b
,
422
B
a
and
422
B
b
are formed on the upper and lower portions of the space portions
422
A and
422
B, respectively.
In the integral type Roberval mechanism
420
, fine adjustment is carried out by scraping any of the thin portions of the integral type Roberval mechanism
420
by means of a file or the like to make the same portion thinner corresponding to a shift error. More specifically, the fine adjustment is carried out by diagonally cutting any of front portions
422
A
a
1
,
422
A
a
2
,
422
B
a
1
and
422
B
a
2
of the upper thin portion
422
A
a
. In addition, it is necessary to adjust the thickness of the whole thin portions
22
A and
22
B when adjusting the error of the front and rear relationship of the shift error. Forth is reason, the adjusting work cannot be easily carried out even in the integral type Roberval mechanism
420
having a simple model as shown. Furthermore, it is very hard to carry out the adjusting work for a complicated block member of the integral type.
SUMMARY OF THE INVENTION
In consideration of such a request, it is an object of the present invention to provide an electronic weighing scale which removes the problems of a complete integral type block member and has a small-sized mechanism portion capable of saving parts, an electronic weighing scale using a general purpose block member of an integral type which is constituted to be operated as a Roberval mechanism or an elastic body of a load cell corresponding to an electronic weighing scale of an electromagnetic equilibrium type or an electronic weighing scale of a load cell type, and an electronic weighing scale constituted to simplify a block structure more than a complete integral type block member, to easily execute the adjustment of the block member and to carry out application of a load to the block member more properly.
A first structure of the present invention is directed to an electronic weighing scale using an integral type block member constituted to operate as a Roberval mechanism or an elastic body of a load cell, the integrally formed block member including a load receiving portion for receiving a load of a scaled object, a fixing portion for fixing the whole block, and a Roberval portion formed as a space portion having a thinned portion between the load receiving portion and the fixing portion for operating as a Roberval, wherein a member for transmit
Izumo Naoto
Ohyama Kyouhei
Yoshida Eiichi
A&D Co., Ltd.
Gibson Randy W.
Jordan and Hamburg
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