CN105973373A - Intelligent double-order double-precision weighing electronic balance - Google Patents
Intelligent double-order double-precision weighing electronic balance Download PDFInfo
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- CN105973373A CN105973373A CN201610620004.9A CN201610620004A CN105973373A CN 105973373 A CN105973373 A CN 105973373A CN 201610620004 A CN201610620004 A CN 201610620004A CN 105973373 A CN105973373 A CN 105973373A
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- load cells
- precision load
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01G—WEIGHING
- G01G19/00—Weighing apparatus or methods adapted for special purposes not provided for in the preceding groups
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01G—WEIGHING
- G01G19/00—Weighing apparatus or methods adapted for special purposes not provided for in the preceding groups
- G01G19/44—Weighing apparatus or methods adapted for special purposes not provided for in the preceding groups for weighing persons
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01G—WEIGHING
- G01G23/00—Auxiliary devices for weighing apparatus
- G01G23/005—Means for preventing overload
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- General Physics & Mathematics (AREA)
- Measurement Of Force In General (AREA)
- Engineering & Computer Science (AREA)
- Mathematical Physics (AREA)
- Theoretical Computer Science (AREA)
Abstract
The invention discloses an intelligent double-order double-precision weighing electronic balance. The electronic balance comprises a carrying plate used for carrying an object to be weighed, bases arranged below the carrying plate and double-order double-precision weighing sensors arranged in the bases and used for bearing the carrying plate. Each double-order double-precision weighing sensor comprises an installing seat, a first precision weighing sensor body, a second precision weighing sensor body, a supporting leg and an elastic bearing piece, wherein the installing seat is provided with an installing plate part and a guide force bearing part used for transmitting borne pressure to the installing plate part; the elastic bearing piece, the first precision weighing sensor body, the installing plate part, the second precision weighing sensor body and the supporting leg are sequentially connected in a pressed mode; the top end of the elastic bearing piece is higher than the top end of the guide force bearing part in a free state and moves downwards when bearing pressure and force. The electronic balance has double-order continuous measuring ranges, and different precision values are obtained within all-order measuring ranges.
Description
Technical field
The invention belongs to equalizer technology field, be specifically related to a kind of intelligent pair of rank double precision weighing electronic scale.
Background technology
Body weight electronic scale in the market, its structure mainly includes support board, display screen, regulation button, power module and forms for supporting the LOAD CELLS of support board, its function is mainly used in human body of weighing, and be usually after carrier body weight exceedes preset value, display screen just starts to show numerical value, and this preset value is usually 5 kilograms;It addition, the maximum range of this kind of body weight electronic scale is usually 180 kilograms, accuracy value only has 100 grams, error is bigger, so this traditional body weight electronic scale is on ordinary days in addition to weighing in, substantially cannot function as its use, especially cannot be used for using as electronic scale.And existing electronic scale, its accuracy value can reach 1 gram the least, but its range is usually no more than 10 kilograms, uses so cannot function as scale.
Summary of the invention
It is an object of the invention to provide a kind of intelligent pair of rank double precision weighing electronic scale that there is the continuous range in double rank and there is in the range of each rank different accuracy value.
The technical scheme realizing the object of the invention is: a kind of intelligent pair of rank double precision weighing electronic scale, including the support board for putting object to be claimed;It is characterized in that: also include being arranged on the base below support board and arranging the double rank double precision LOAD CELLS for supporting support board in the base;The each pair of rank double precision LOAD CELLS includes mounting seat, the first precision LOAD CELLS, the second precision LOAD CELLS, a spike, elastic supporting piece and for regulating the governor motion of elastic supporting piece height;Described mounting seat is provided with mounting plate portion and for self pressure being passed to power of the leading support of mounting plate portion;Elastic supporting piece, the first precision LOAD CELLS, mounting plate portion, the second precision LOAD CELLS and a spike crimp setting successively;Elastic supporting piece includes upper supporting part, spring and lower supporting part;The upper end of spring is connected on upper supporting part, and the lower end of spring is connected on lower supporting part, and lower supporting part crimping is arranged on the first precision LOAD CELLS;The periphery wall of upper supporting part is provided with the stopper section of evagination, and the periphery wall leading power support is provided with external screw thread district;Governor motion includes regulating gland, and the upper end of this regulation gland is provided with the anticreep pressure contact portion of annular, and lower end inner wall is provided with and leads the internal threaded regions that power support external screw thread district is adaptive;Described anticreep pressure contact portion is set in being positioned on the outer wall above stopper section of upper supporting part;The diapire of upper supporting part is provided with leads power pressure contact portion, leads power pressure contact portion and exceeds the top leading power support when free state;Leading power support top and be provided with static contact, power of the leading pressure contact portion of upper supporting part is provided with the moving contact adaptive with this static contact;Under free state, under the elastic force effect of spring, anticreep pressure contact portion is crimped on stopper section;Under external force, described stopper section can slide up and down between power support top at anticreep pressure contact portion and leading;When upper supporting part pressure-bearing stress is to predeterminable level, this is led to defeat and meets subordinate and move to be crimped on and lead on power support;When the power pressure contact portion of leading is crimped on and leads on power support, moving contact crimping is arranged on static contact;When moving contact and static contact electrical contact, produces one signal of telecommunication to connected external central control circuit, when central control circuit receives this signal, show the data that the second precision LOAD CELLS measures on a display screen;When central control circuit does not receives this signal, show the data that the first precision LOAD CELLS measures on a display screen;Mounting plate portion is horizontally disposed with, and the roof of mounting plate portion is provided with the first deck;First precision LOAD CELLS is provided with the first fixed part, the first load deformations and the first resistance strain gage for detecting the first load deformations deflection being arranged in the first load deformations;Described first fixed part is fixed in the first deck.
In such scheme, the range of the first precision LOAD CELLS is less than the range of the second precision LOAD CELLS.
In such scheme, the outer wall of each pair of rank double precision LOAD CELLS is provided with the clamping installation portion for installing self entirety;Base is provided with buckling groove, and each pair of rank double precision LOAD CELLS is fixed in a corresponding buckling groove by clamping installation portion.
In such scheme, the top of elastic supporting piece is adhesively fixed on the diapire being arranged on support board.
When the present invention weighs in the first rank range, namely the power pressure contact portion of leading not yet is displaced downwardly to be crimped on when leading on power support, although the first precision LOAD CELLS and the second precision LOAD CELLS stress simultaneously, but the first independent check weighing of precision LOAD CELLS can be utilized, namely externally connected with display screen only shows the data that the first precision LOAD CELLS measures, its accuracy value is the accuracy value of the first precision LOAD CELLS, general uses higher precision, and such as accuracy value is 1 gram or less;When weighing in the second range, namely lead to defeat and meet subordinate and move to be crimped on when leading on power support, although the first precision LOAD CELLS and the second precision LOAD CELLS stress simultaneously, but the second independent check weighing of precision LOAD CELLS can be utilized, namely externally connected with display screen only shows the data that the second precision LOAD CELLS measures, its accuracy value is the accuracy value of the second precision LOAD CELLS, general uses relatively low precision, and such as accuracy value is 100 grams or bigger;Additionally; when the present invention weighs in second-order range ability; now lead to defeat and meet subordinate and move to be crimped on and lead on power support; spring deformation is not further added by; namely the pressure being applied on the first precision LOAD CELLS is not further added by; thus effectively protect the first precision LOAD CELLS so that it is will not damage because load is overweight;In addition, the present invention is by selecting spring as the core of elastic supporting piece, can make to lead power pressure contact portion by selecting suitable spring and lead there is between power support suitable clearance distance, the requirement on machining accuracy to mounting seat and elastic supporting piece can be reduced, can guarantee that again comfort during use.
Accompanying drawing explanation
Fig. 1 is a kind of perspective view of the present invention;
Fig. 2 is a kind of perspective view when another angle is observed of the electronic scale shown in Fig. 1;
Fig. 3 is a kind of side view of electronic scale shown in Fig. 1;
Fig. 4 is that in electronic scale shown in Fig. 1, double rank double precision LOAD CELLS is in the first rank range and weighs a kind of structural representation of state;
Fig. 5 is that double rank double precision LOAD CELLS shown in Fig. 4 are in second-order range and weigh a kind of structural representation of state;
Fig. 6 is the first precision LOAD CELLS and a kind of explosive view of lower supporting part in double rank double precision LOAD CELLS shown in Fig. 4;
Fig. 7 is the first precision LOAD CELLS shown in Fig. 6 and the lower supporting part a kind of explosive view when another angle is observed;
Fig. 8 is the second precision LOAD CELLS and a kind of explosive view of a spike in double rank double precision LOAD CELLS shown in Fig. 4;
Fig. 9 is the second precision LOAD CELLS shown in Fig. 8 and the spike a kind of explosive view when another angle is observed.
Detailed description of the invention
(embodiment 1)
The present embodiment is a kind of intelligent pair of rank double precision weighing electronic scale, as shown in Fig. 1 to Fig. 9, including the support board 91 for putting object to be claimed;It is characterized in that: also include the base 92 being arranged on below support board and four in the base are set for supporting double rank double precision LOAD CELLS 93 of support board.
The each pair of rank double precision LOAD CELLS includes mounting seat the 1, first precision LOAD CELLS the 2, second precision LOAD CELLS 3, a spike 4, elastic supporting piece 5 and for regulating the governor motion 6 of elastic supporting piece height.
Described mounting seat is provided with mounting plate portion 11 and for self pressure being passed to power of the leading support 12 of mounting plate portion;Elastic supporting piece, the first precision LOAD CELLS, mounting plate portion, the second precision LOAD CELLS, a spike crimp setting successively.
Mounting plate portion is horizontally disposed with, and the roof of mounting plate portion is provided with the first deck, and diapire is provided with the second deck.The existence of the first deck and the second deck is so that the installation of the first precision LOAD CELLS and the second precision LOAD CELLS operates more rapid and convenient.Power of the leading support 12 of mounting seat is the annular boss projecting upwards formation from mounting plate portion, and described first deck, the first precision LOAD CELLS and elastic supporting piece are arranged in the cavity 121 that this annular boss surrounds.This structure makes to lead power support and elastic supporting piece and the first precision LOAD CELLS can be trapped among wherein, and elastic supporting piece and the first precision LOAD CELLS are had certain protective effect so that it is be not easily susceptible to extraneous factor interference.
In the present embodiment, the first precision force cell is LOAD CELLS for kitchen use, and its range is 0 to 5 kilogram, and accuracy value can reach 1 gram;This first precision LOAD CELLS is provided with first fixed part the 21, first load deformations 22 and the first resistance strain gage 23 for detecting the first load deformations deflection being arranged in the first load deformations;Specifically, the shape of described first fixed part be by four edges combination formed rectangular box-like, the shape of the first load deformations is to be combined, by a base and three straight flanges arranging with this base vertical, " mountain " font formed, first load deformations is arranged in the rectangle frame of the first fixed part, and the inner side edge wall of the end of the center straight flange in three straight flanges of described first load deformations and a frame middle-end of the first fixed part is connected.Described first fixed part is fixed in the first deck;First load deformations exceeds described mounting plate portion, for its deformation slot milling.The planform of this first precision LOAD CELLS is relatively reasonable, it is easy to by impact style processing and manufacturing, and cost is relatively low.
Elastic supporting piece includes upper supporting part 51, spring 52 and lower supporting part 53;The upper end of spring is connected on upper supporting part, and the lower end of spring is connected on lower supporting part, and lower supporting part crimping is arranged on the first precision LOAD CELLS.Specifically, lower supporting part crimping is arranged in the first load deformations, and the first fixed part is installed on the first deck on mounting plate portion roof, and crimping is arranged in mounting plate portion.The top 50 of elastic supporting piece exceeds, in free state namely when not being stressed, the top 120 leading power support, moves down during the top pressure-bearing stress of the top of elastic supporting piece namely upper supporting part.This structure is by arranging upper supporting part, spring and lower supporting part split, it is simple to processing and manufacturing and maintenance are changed.
In the present embodiment, lower supporting part is fixedly installed in the first load deformations by screw connection manner.First load deformations is provided with two the first fastener holes 221;The bottom of lower supporting part is provided with two the fastening screws 531 being fastenedly connected by two the first screws 222 and this first fastener hole.Specifically, two straight flanges being positioned at straight flange both sides, center in described three straight flanges of first load deformations, it is respectively provided with first fastener hole 221.This structure is by being directly fixedly installed on lower supporting part in the first load deformations of the first precision LOAD CELLS, realizing while lower supporting part crimps the first load deformations, also utilizing the first load deformations directly to position lower supporting part, its structure more simplifies rationally.
In concrete practice, also by anchor mode, lower supporting part can be fixed on the first precision LOAD CELLS, two downwardly projecting anchor boss are such as set on the diapire of lower supporting part, first load deformations arranges two anchor holes, each boss that is anchored passes anchor process after a corresponding anchor hole, and this mode is also effective and feasible.
The top of lower supporting part is provided with annular spacing groove 532 and is positioned at the spacing slide opening in center 533 of annular spacing groove center;The diapire of upper supporting part is provided with and leads the adaptive annular of power support and leads power pressure contact portion 511, is positioned at annular and leads the downward projection of spacing traveller 512 of power pressure contact portion center;In the spacing slide opening in center that this spacing traveller is positioned at lower supporting part, and can slide up and down;After lower supporting part pressure-bearing stress is displaced downwardly to a certain degree, it is led power pressure contact portion and is crimped on and leads on power support, leads power support and then self pressure is passed to mounting plate portion again, and mounting plate portion gives the second precision LOAD CELLS pressure transmission again.This relatively reasonable in structure, preferably spring can be accurately positioned, prevent its eccentric displacement, it addition, this structure is especially suitable for quickly assembling and later maintenance replacing.Additionally, this structure is also fully utilized by the performance advantage of spring, by selecting suitable spring, so that during free state, upper supporting part is led the gap on power pressure contact portion 511 and power of the leading support top 120 of mounting seat and is in suitably sized, it is generally preferred 1 millimeter to 5 millimeters, preferably preferred size is 2 millimeters to 3 millimeters, significantly can fall to people when human body weighs sense in excessive gap, because power of leading pressure contact portion now have to be displaced downwardly to be crimped on lead on power support, namely move down whole above-mentioned gap size;Too small gap may require that higher machining accuracy, improves technology difficulty and manufacturing cost.
Mounting seat is additionally provided with in the lower section of mounting plate portion and encloses the holding part 13 forming containing cavity 131, and this holding part and mounting plate portion are made into integration, and the second precision LOAD CELLS and a spike are arranged in this containing cavity, and the bottom of a spike also extends downwardly from this containing cavity.The advantage of this structure is to protect the second precision LOAD CELLS and a spike, prevents extraneous factor from disturbing it.The present embodiment is to be formed integrally part, in concrete practice leading power support, mounting plate portion and holding part, it is possible to it each makes split part, is finally assemblied at together, be also feasible.
In the present embodiment, the second precision LOAD CELLS is human body weighing's sensor, and its range is 0 kilogram to 50 kilograms, and accuracy value is 100 grams;Second precision LOAD CELLS is provided with second fixed part the 31, second load deformations 32 and the second resistance strain gage 33 for detecting the second load deformations deflection being arranged in the second load deformations.
The present embodiment is owing to using four double rank double precision LOAD CELLSs, and the scope of weighing of the first rank range is 0 to 20 kilogram, can meet the demand that daily small articles is weighed, and the scope of weighing of second-order range is 20 to 200 kilograms, can meet the demand of human body weighing.
In the present embodiment, the second precision LOAD CELLS is structurally similar to the first precision LOAD CELLS, but bigger than the first precision LOAD CELLS on the thickness of size and sheet material used.Specifically, the shape of described second fixed part be by four edges combination formed rectangular box-like, the shape of the second load deformations is to be combined, by a base and three straight flanges arranging with this base vertical, " mountain " font formed, second load deformations is arranged in the frame of the second fixed part, and the inner side edge wall of the end of the center straight flange in three straight flanges of described second load deformations and a frame middle-end of the second fixed part is connected.The first precision LOAD CELLS and the second precision LOAD CELLS in the present embodiment are suitable for, by impact style processing and manufacturing, advantageously reducing manufacturing cost.
Second fixed part is installed in the second deck on mounting plate portion diapire, and the second load deformations is less than described mounting plate portion, and for its deformation slot milling, the second load deformations crimping simultaneously is arranged on the top of a spike.
In the present embodiment, the first precision LOAD CELLS used and the second precision LOAD CELLS may be used without the force cell the most widely circulated and price is the cheapest, thus effectively reduce manufacturing cost.
In the present embodiment, the basic configuration of a spike is cylindric, and its bottom is provided with rubber slipmat 41.A spike in the present embodiment is fixedly installed on the second precision LOAD CELLS by screw connection manner, and specifically, the top of a spike is provided with two installation screws 42, and the second load deformations is provided with two the second fastener holes 321;The top propping up spike is directly anchored in the second load deformations by two second screws 322 adaptive with installation screw.In the present embodiment, two straight flanges being positioned at straight flange both sides, center in described three straight flanges of second load deformations, it is respectively provided with second fastener hole.Certainly, described spike also can be fixedly installed in the second load deformations by anchor mode.This structure, while realizing the second load deformations crimping spike, also utilizes the second load deformations directly to position a spike, and its structure more simplifies compact.
In the present embodiment, being provided with containing cavity bottom opening at holding part bottom center, this opening part is provided with the capping 15 for blocking containing cavity bottom opening, is provided with center hole 151 at cap central;The bottom propping up spike extends downwardly from the center hole of capping, and leave gap between periphery wall and the inwall of cap central circular hole of a spike, thus ensure that mounting seat does not directly contact with a spike, prevent from leading power support and self pressure is directly passed to a spike by holding part, it is ensured that lead that power support passes sequentially through mounting plate portion self pressure, the second precision LOAD CELLS passes to a spike.Capping 15 with holding part with the use of, the first precision LOAD CELLS being pointed in containing cavity is preferably protected.
In the present embodiment, the range of the first precision LOAD CELLS is less than the range of the second precision LOAD CELLS, in other words the maximum of the first precision LOAD CELLS value of weighing is less than the maximum of the second precision LOAD CELLS and weighs value, by choosing suitable spring, and select suitable power of leading pressure contact portion and the distance led between power support, first precision LOAD CELLS pressure can be limited in its range ability, thus prevent the first LOAD CELLS because of overweight and by crushing;The advantage of this limiter protected mode is: owing to the elastic deformation of strain gauge load cell is the least; such as in the present embodiment, the deformation difference in height in the whole range of the first precision LOAD CELLS is calculated in microns; if using rigid support to replace the spring in the present embodiment; then the gap between power of leading pressure contact portion and power of the leading support of mounting seat of upper supporting part also must be weighed with micron; this is the most too high to requirement on machining accuracy; and the material caused in view of the error in materials processing molding and the temperature difference expands change, industrial it is difficulty with;If but use spring to amplify deformation, just can the most effectively reduce requirement on machining accuracy and manufacturing cost.
The outer wall of the present embodiment mounting seat is provided with the clamping installation portion 14 for installing self entirety, and this clamping installation portion 14 is the wedge shape latch outwardly formed from mounting seat outer wall.Base 92 is provided with four buckling grooves, and each pair of rank double precision LOAD CELLS is fixed in a corresponding buckling groove by clamping installation portion;This mounting means more simplifies, and each pair of rank double precision LOAD CELLS can independently dismount, it is simple to overhauls and changes.After four double rank double precision LOAD CELLSs are installed on base, then the top 50 of each pair of rank double precision LOAD CELLS Elastic supporting member is adhesively fixed on the diapire being arranged on support board.
The operation principle of the present embodiment is:
Upper supporting part is in free state namely when not being stressed, and the top 50 of upper supporting part exceeds the top 120 leading power support;
Move down during upper supporting part pressure-bearing stress, when upper supporting part pressure-bearing stress is less than 5 kilogram, namely time in the first rank range ability, by selecting suitable spring and selecting suitable power of leading pressure contact portion and lead the spacing of power support, during so that weigh in this rank range, the power pressure contact portion of leading will not be crimped onto and cause on support, namely upper supporting part bears whole pressure, and pass to spring, lower supporting part, the first precision LOAD CELLS, mounting plate portion, the second precision LOAD CELLS and a spike successively;Showing, now by external central control circuit, the data that the first precision LOAD CELLS measures, its accuracy value is up to 1 gram;
When upper supporting part pressure-bearing stress is less than 50 kilograms and is more than or equal to 5 kilogram; namely time in second-order range ability; the power pressure contact portion of leading can be crimped on leads on power support, owing to spring pressure is not further added by, thus effectively protects the first precision LOAD CELLS will not be because of overweight crushing;Now in upper supporting part pressure, there are 5 kilograms in concrete practice, this force value may be slightly changed because of machining accuracy error, but not over the maximum load value of the first precision LOAD CELLS, from passing to spring, lower supporting part, the first precision LOAD CELLS, mounting plate portion, the second precision LOAD CELLS and a spike successively without damaging the first precision LOAD CELLS;Remaining pressure then passes to mounting plate portion, the second precision LOAD CELLS and spike successively by leading power support;At this moment showing, by central control circuit, the data that the second precision LOAD CELLS measures, its accuracy value only has 100 grams.
The structure design of the present embodiment is relatively reasonable, it is possible to reduces requirement on machining accuracy, reduces manufacturing cost and technology difficulty;Additionally can also effectively prevent the first precision LOAD CELLS because of overweight and crushing;In addition the outer wall of the present embodiment mounting seat is provided with the clamping installation portion 14 for installing self entirety, when assembling, can entire card be contained on external plastic feet, facility simple to operation.
In the present embodiment, the periphery wall of upper supporting part is provided with the stopper section 513 of evagination, and the periphery wall leading power support is provided with external screw thread district 122;Governor motion includes regulating gland 61 and elastomeric pad 62;The upper end of this regulation gland is provided with the anticreep pressure contact portion 611 of annular, and lower end inner wall is provided with and leads the internal threaded regions 612 that power support external screw thread district is adaptive, and middle-end is provided with electrolysis 613;Regulation gland is crimped on elastomeric pad by this electrolysis leads on power support top, described anticreep pressure contact portion is set in being positioned on the outer wall above stopper section of upper supporting part, under free state, under the elastic force effect of spring, anticreep pressure contact portion is crimped on stopper section;Under external force, described stopper section 513 can slide up and down between power support top 120 at anticreep pressure contact portion 611 and leading.
In the present embodiment, the aperture of described elastomeric pad 62 central bore is more than the external diameter of the stopper section 513 of upper supporting part, thus does not affect moving up and down of upper supporting part;In concrete practice, also the aperture of elastomeric pad 62 central bore can be made the external diameter of the stopper section 513 less than upper supporting part, if but use this structure, described stopper section 513 is then to slide up and down between anticreep pressure contact portion 611 and elastomeric pad 62 roof, power of the leading pressure contact portion of upper supporting part is the most no longer to be displaced downwardly to directly be crimped on power of the leading support of mounting seat, but is displaced downwardly to be crimped on elastomeric pad.
The advantage of this kind of structure is: in concrete practice, in elastic component, the concordance of spring 52 is difficult to ensure that, typically can use four double rank double precision LOAD CELLSs due to weighing scale and kitchen scale simultaneously, the spring that concordance is difficult to ensure that will cause the height of four LOAD CELLSs slightly to be distinguished, impact assembles and uses, even when user picks up electronic scale observation, the most at grade, pole is unsightly in the bottom of each spike;The present embodiment uses governor motion to adjust the whole height of elastic supporting piece, even if so that the present embodiment uses the slightly larger spring of error, also has only to a regulation gland to be rotated in place, can ensure the concordance of whole height.Additionally, here the effect of elastomeric pad is not only and is prevented from regulating loosening of gland, the gap between whole height, or power of leading pressure contact portion and power of the leading support of mounting seat of regulation upper supporting part can also be adjusted, with the demand under satisfied different occasions by selecting the elastomeric pad of differing heights.
In the present embodiment, leading power support top and be provided with static contact 123, power of the leading pressure contact portion of upper supporting part is provided with the moving contact 514 adaptive with this static contact;When this lead power pressure contact portion be crimped on lead on power support time, moving contact crimping be arranged on static contact, both realize electrical connection.
In concrete practice, when moving contact and static contact electrical contact, produces one signal of telecommunication to connected external central control circuit, when central control circuit receives this signal, show the data that the second precision LOAD CELLS measures on a display screen;When central control circuit does not receives this signal, show the data that the first precision LOAD CELLS measures on a display screen;In other words, this dynamic/static contact combines the signal switch automatically can changed as display screen video data.
In concrete practice, also can use other structure, replace the combination of this dynamic/static contact for example with tongue tube, proximity switch etc..This kind of structure has the advantage that the real-time conversion that can realize the first precision LOAD CELLS and the second precision LOAD CELLS coherent detection data, and structure more simplifies.
Obviously, the above embodiment of the present invention is only for clearly demonstrating example of the present invention, and is not the restriction to embodiments of the present invention.For those of ordinary skill in the field, can also make other changes in different forms on the basis of the above description.Here without also cannot all of embodiment be given exhaustive.And the obvious change that these connotations belonging to the present invention are extended out or variation still fall within protection scope of the present invention.
Claims (1)
1. an intelligent pair of rank double precision weighing electronic scale, including the support board for putting object to be claimed;It is characterized in that: also include being arranged on the base below support board and arranging the double rank double precision LOAD CELLS for supporting support board in the base;The each pair of rank double precision LOAD CELLS includes mounting seat, the first precision LOAD CELLS, the second precision LOAD CELLS, a spike, elastic supporting piece and for regulating the governor motion of elastic supporting piece height;Described mounting seat is provided with mounting plate portion and for self pressure being passed to power of the leading support of mounting plate portion;Elastic supporting piece, the first precision LOAD CELLS, mounting plate portion, the second precision LOAD CELLS and a spike crimp setting successively;Elastic supporting piece includes upper supporting part, spring and lower supporting part;The upper end of spring is connected on upper supporting part, and the lower end of spring is connected on lower supporting part, and lower supporting part crimping is arranged on the first precision LOAD CELLS;The periphery wall of upper supporting part is provided with the stopper section of evagination, and the periphery wall leading power support is provided with external screw thread district;Governor motion includes regulating gland, and the upper end of this regulation gland is provided with the anticreep pressure contact portion of annular, and lower end inner wall is provided with and leads the internal threaded regions that power support external screw thread district is adaptive;Described anticreep pressure contact portion is set in being positioned on the outer wall above stopper section of upper supporting part;The diapire of upper supporting part is provided with leads power pressure contact portion, leads power pressure contact portion and exceeds the top leading power support when free state;Leading power support top and be provided with static contact, power of the leading pressure contact portion of upper supporting part is provided with the moving contact adaptive with this static contact;Under free state, under the elastic force effect of spring, anticreep pressure contact portion is crimped on stopper section;Under external force, described stopper section can slide up and down between power support top at anticreep pressure contact portion and leading;When upper supporting part pressure-bearing stress is to predeterminable level, this is led to defeat and meets subordinate and move to be crimped on and lead on power support;When the power pressure contact portion of leading is crimped on and leads on power support, moving contact crimping is arranged on static contact;When moving contact and static contact electrical contact, produces one signal of telecommunication to connected external central control circuit, when central control circuit receives this signal, show the data that the second precision LOAD CELLS measures on a display screen;When central control circuit does not receives this signal, show the data that the first precision LOAD CELLS measures on a display screen;Mounting plate portion is horizontally disposed with, and the roof of mounting plate portion is provided with the first deck;First precision LOAD CELLS is provided with the first fixed part, the first load deformations and the first resistance strain gage for detecting the first load deformations deflection being arranged in the first load deformations;Described first fixed part is fixed in the first deck.
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CN201610620004.9A CN105973373A (en) | 2016-01-20 | 2016-01-20 | Intelligent double-order double-precision weighing electronic balance |
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CN201610096282.9A CN105953876A (en) | 2016-01-20 | 2016-01-20 | Intelligent dual-order and dual precision weighing electronic scale |
CN201610620004.9A CN105973373A (en) | 2016-01-20 | 2016-01-20 | Intelligent double-order double-precision weighing electronic balance |
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CN201610096282.9A Division CN105953876A (en) | 2016-01-20 | 2016-01-20 | Intelligent dual-order and dual precision weighing electronic scale |
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Application Number | Title | Priority Date | Filing Date |
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CN201610096282.9A Withdrawn CN105953876A (en) | 2016-01-20 | 2016-01-20 | Intelligent dual-order and dual precision weighing electronic scale |
CN201610620163.9A Withdrawn CN106092299A (en) | 2016-01-20 | 2016-01-20 | Intelligent pair of rank double precision weighing electronic scale |
CN201610616884.2A Withdrawn CN106052822A (en) | 2016-01-20 | 2016-01-20 | Double-order double-precision weighing electronic scale |
CN201610614279.1A Withdrawn CN106289473A (en) | 2016-01-20 | 2016-01-20 | Intelligent pair of rank double precision weighing electronic scale |
CN201610620004.9A Withdrawn CN105973373A (en) | 2016-01-20 | 2016-01-20 | Intelligent double-order double-precision weighing electronic balance |
CN201610624460.0A Withdrawn CN106225902A (en) | 2016-01-20 | 2016-01-20 | Double rank double precision weighing electronic scale |
CN201610614629.4A Withdrawn CN106017638A (en) | 2016-01-20 | 2016-01-20 | Double-order double-precision weighing electronic scale |
CN201610616885.7A Withdrawn CN106225899A (en) | 2016-01-20 | 2016-01-20 | Double rank double precision weighing electronic scale |
CN201610622968.7A Withdrawn CN106289483A (en) | 2016-01-20 | 2016-01-20 | Intelligent pair of rank double precision weighing electronic scale |
CN201610622969.1A Withdrawn CN106289484A (en) | 2016-01-20 | 2016-01-20 | Intelligent pair of rank double precision weighing electronic scale |
Family Applications Before (4)
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CN201610096282.9A Withdrawn CN105953876A (en) | 2016-01-20 | 2016-01-20 | Intelligent dual-order and dual precision weighing electronic scale |
CN201610620163.9A Withdrawn CN106092299A (en) | 2016-01-20 | 2016-01-20 | Intelligent pair of rank double precision weighing electronic scale |
CN201610616884.2A Withdrawn CN106052822A (en) | 2016-01-20 | 2016-01-20 | Double-order double-precision weighing electronic scale |
CN201610614279.1A Withdrawn CN106289473A (en) | 2016-01-20 | 2016-01-20 | Intelligent pair of rank double precision weighing electronic scale |
Family Applications After (5)
Application Number | Title | Priority Date | Filing Date |
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CN201610624460.0A Withdrawn CN106225902A (en) | 2016-01-20 | 2016-01-20 | Double rank double precision weighing electronic scale |
CN201610614629.4A Withdrawn CN106017638A (en) | 2016-01-20 | 2016-01-20 | Double-order double-precision weighing electronic scale |
CN201610616885.7A Withdrawn CN106225899A (en) | 2016-01-20 | 2016-01-20 | Double rank double precision weighing electronic scale |
CN201610622968.7A Withdrawn CN106289483A (en) | 2016-01-20 | 2016-01-20 | Intelligent pair of rank double precision weighing electronic scale |
CN201610622969.1A Withdrawn CN106289484A (en) | 2016-01-20 | 2016-01-20 | Intelligent pair of rank double precision weighing electronic scale |
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Families Citing this family (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN106513408B (en) * | 2016-12-23 | 2023-05-23 | 重庆科本科技股份有限公司 | Cylinder cover cleaning machine |
CN110440962B (en) * | 2019-03-20 | 2024-05-14 | 常州天利智能控制股份有限公司 | Multi-range pressure sensor and pressure controller with same |
CN116718258A (en) * | 2023-08-10 | 2023-09-08 | 常州长荣电子有限公司 | Weighing sensor |
Family Cites Families (6)
Publication number | Priority date | Publication date | Assignee | Title |
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CN201246433Y (en) * | 2007-10-28 | 2009-05-27 | 辽宁同泽减震器有限公司 | Harmonic tremor peak-avoiding vibration damper |
CN201355269Y (en) * | 2008-12-26 | 2009-12-02 | 中山市创源电子有限公司 | Weighing sensor and electronic scale with same |
CN101865235B (en) * | 2010-07-07 | 2012-01-04 | 南京捷诺环境技术有限公司 | Vibration isolation buffer for resisting strong impact |
CN102889916A (en) * | 2011-07-22 | 2013-01-23 | 深圳市杰曼科技有限公司 | Wireless digital weighing sensor with zero power consumption in sleep mode |
WO2016011625A1 (en) * | 2014-07-23 | 2016-01-28 | 王雅苹 | Electronic scale |
CN104851630A (en) * | 2015-04-27 | 2015-08-19 | 苏州君丰辰电子科技有限公司 | Dual-supply power switch |
-
2016
- 2016-01-20 CN CN201610096282.9A patent/CN105953876A/en not_active Withdrawn
- 2016-01-20 CN CN201610620163.9A patent/CN106092299A/en not_active Withdrawn
- 2016-01-20 CN CN201610616884.2A patent/CN106052822A/en not_active Withdrawn
- 2016-01-20 CN CN201610614279.1A patent/CN106289473A/en not_active Withdrawn
- 2016-01-20 CN CN201610620004.9A patent/CN105973373A/en not_active Withdrawn
- 2016-01-20 CN CN201610624460.0A patent/CN106225902A/en not_active Withdrawn
- 2016-01-20 CN CN201610614629.4A patent/CN106017638A/en not_active Withdrawn
- 2016-01-20 CN CN201610616885.7A patent/CN106225899A/en not_active Withdrawn
- 2016-01-20 CN CN201610622968.7A patent/CN106289483A/en not_active Withdrawn
- 2016-01-20 CN CN201610622969.1A patent/CN106289484A/en not_active Withdrawn
Also Published As
Publication number | Publication date |
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CN106017638A (en) | 2016-10-12 |
CN106052822A (en) | 2016-10-26 |
CN105953876A (en) | 2016-09-21 |
CN106289473A (en) | 2017-01-04 |
CN106225902A (en) | 2016-12-14 |
CN106289484A (en) | 2017-01-04 |
CN106092299A (en) | 2016-11-09 |
CN106289483A (en) | 2017-01-04 |
CN106225899A (en) | 2016-12-14 |
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Application publication date: 20160928 |