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Dual-step electronic weighing scale

An electronic scale and weighing technology, which is applied to the detailed information of weighing equipment, weighing, and weighing equipment using elastically deformable parts, etc. It can solve the problems of using, not being used for other purposes, and large errors.

Inactive Publication Date: 2016-09-14
申俊
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] The weight electronic scales currently on the market are mainly composed of a loading board, a display screen, an adjustment button, a power module and a load cell for supporting the loading board. When the weight of the loaded object exceeds the preset value, the display screen will start to display the value. The preset value is generally 5 kg; in addition, the maximum range of this kind of weight electronic scale is generally 180 kg, and the accuracy value is only 100 grams. The error is large. Therefore, this traditional weight electronic scale can basically not be used for other purposes except for weighing, especially it cannot be used as a kitchen electronic scale.
However, the existing kitchen electronic scales have an accuracy of 1 gram or even less, but their range generally does not exceed 10 kilograms, so they cannot be used as weighing scales.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0031] Present embodiment is a kind of two-stage weighing electronic scale, see Figure 1 to Figure 9 As shown, it includes a carrier plate 91 for placing objects to be weighed; it is characterized in that: it also includes a base 92 arranged under the carrier plate and four double-stage scales for supporting the carrier plate arranged in the base Heavy sensor 93.

[0032] Each double-stage load cell includes a first mount 1, a first precision load cell 2, a first support foot 3, an elastic support 4, a second mount 5, and a second precision load cell 6, which are sequentially crimped. And the second supporting foot 7.

[0033] On the bottom wall of the first mounting seat, there is provided with an annular force-guiding crimping portion 11 and a first card seat 12 located at the center of the force-guiding crimping portion; in this embodiment, the bottom of the force-guiding crimping portion 11 The wall is an annular plane, and the top wall of the first installation seat al...

Embodiment 2

[0060] This embodiment is basically the same as Embodiment 1, the difference is: see Figure 10 to Figure 13 As shown, in this embodiment, the structural shape of the second precision load cell, the second support leg and the cover is different from that of Embodiment 1, and the second precision load cell in this embodiment is still provided with a second fixed part 61, the second force-bearing deformation part 62, and the second resistance strain gauge 63 arranged on the second force-bearing deformation part for detecting the deformation amount of the second force-bearing deformation part; but the second precision in this embodiment The shape of the load cell is similar to the reverse "G" shape, its second fixed part is similar to "C" shape, and the shape of the second force-bearing deformation part is similar to a smaller "C" shape, and it is connected with the second fixed part , combined to form a reverse "G" shape. The measuring range and precision of this second precisi...

Embodiment 3

[0065] This embodiment is basically the same as Embodiment 1, the difference is: see Figure 14 to Figure 17 As shown, in this embodiment, the static contact 91 and the moving contact 92 are no longer provided, and the upper part of the outer peripheral wall of the first support leg is no longer provided with the annular crimping part 32, and the lower part is no longer used as the sliding column part 33.

[0066] In this embodiment, an adjustment hole 35 is provided at the center of the first supporting leg, and a circular connecting column 59 protruding upward from the mounting plate is also provided at the center of the tubular boss 53 of the mounting plate. There is a connecting screw hole 591 at the center of the top wall of the pillar; the tubular boss and the circular connecting pillar form an annular limiting groove 592; the bottom end of the spring is located in the annular limiting groove and abuts against the mounting plate On the part, the top end of the spring abu...

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Abstract

The invention discloses a dual-step electronic weighing scale comprising a carrying plate for placing a to-be-weighed object, a pedestal arranged below the carrying plate, and dual-step weighing sensors. The dual-step weighing sensors that are arranged in the pedestal and are used for supporting the carrying plate consist of first mounting seats, first precision weighing sensors, first supporting legs, elastic supporting elements, second mounting seats, second precision weighing sensors and second supporting legs, wherein the units are arranged successively in a pressing mode. The first mounting seats are provided with guiding and pressing parts; the second mounting seats are provided with mounting plate parts and guiding and supporting parts for transmitting pressures exerted on the guiding and supporting parts to the mounting plate parts. In a free state, the guiding and pressing parts are higher than the guiding and supporting parts. When forces are applied on the first mounting seats, the elastic supporting elements are compressed and the first mounting seats move down; and when the forces exerted on the first mounting seats reach a preset degree, the guiding and pressing parts of the first mounting seats move down and press the guiding and supporting parts. The dual-step electronic weighing scale has the continuous dual-step ranges and has different precision values in ranges at all steps.

Description

technical field [0001] The invention belongs to the technical field of weighing instruments, and in particular relates to a double-stage weighing electronic scale. Background technique [0002] The weight electronic scales currently on the market are mainly composed of a loading board, a display screen, an adjustment button, a power module and a load cell for supporting the loading board. When the weight of the loaded object exceeds the preset value, the display screen will start to display the value. The preset value is generally 5 kg; in addition, the maximum range of this kind of weight electronic scale is generally 180 kg, and the accuracy value is only 100 grams. The error is large. Therefore, this traditional weight electronic scale can not be used for other purposes except weighing the body on weekdays, especially it cannot be used as a kitchen electronic scale. And existing kitchen electronic scale, its precision value can reach 1 gram even smaller, but its measurin...

Claims

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Application Information

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IPC IPC(8): G01G19/44G01G3/14G01G19/62G01G21/23
CPCG01G3/1402G01G19/44G01G19/62G01G21/23
Inventor 申俊
Owner 申俊
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