High-speed high-precision weighing mechanism
Technical Field
The utility model relates to an electricity core technical field that weighs, in particular to high-speed high accuracy weighing machine constructs.
Background
Along with the development of the lithium battery industry technology, the capacity of the power battery industry is diversified, and in the new energy automobile industry, in order to achieve larger energy storage capacity, the volume of the battery is increased, and soft package lithium batteries with the length exceeding 380mm gradually become the trend of the automobile power battery industry.
Weighing system in the existing market can realize the blowing of manipulator downstream above the platform of weighing, and this rises one and falls through the manipulator, and the energy consumption is big, and just rises one and falls the in-process and need consume longer time, influences the work efficiency who is used for carrying electric core manipulator.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a high-speed high accuracy weighing machine constructs to prior art's defect and not enough.
In order to achieve the above object, the utility model adopts the following technical scheme:
the utility model relates to a high-speed and high-precision weighing mechanism, which comprises a lifting material receiving mechanism and a weighing mechanism; the lifting material receiving mechanism is used for conveying the battery cell to the weighing mechanism; the weighing mechanism comprises a weighing bracket and an electronic scale fixed on the weighing bracket; and a weighing support plate is fixed on a weighing platform of the electronic scale.
Furthermore, two parallel convex plates are fixed on the weighing support plate; the lifting material receiving mechanism comprises a lifting bracket and a lifting plate; the lifting plate is arranged between the two convex plates; and lifting power mechanisms for driving the lifting plate to do lifting motion on the lifting support are arranged at the two ends of the lifting plate.
Further, the lifting power mechanism is an air cylinder; one end of the cylinder is fixed on the driving lifting plate; the other end of the cylinder is fixed on the lifting bracket.
Furthermore, a support rod is arranged on the convex plate; the lifting plate is provided with a plurality of rod passing holes for the support rods to pass through.
Furthermore, a plurality of top strips are uniformly distributed on the surface of the lifting plate.
After the structure is adopted, the utility model discloses beneficial effect does: the utility model relates to a high-speed high-precision weighing mechanism, a lifting receiving mechanism is used for conveying an electric core to the weighing mechanism; the weighing mechanism comprises a weighing bracket and an electronic scale fixed on the weighing bracket; a weighing support plate is fixed on a weighing platform of the electronic scale. When the utility model is used, the electronic scale is fixed on the weighing bracket through the upper fixing plate and the lower fixing plate which are made of marble, and a plurality of bolts for adjusting the level of the electronic scale are arranged between the upper fixing plate and the lower fixing plate; after the electric core is obtained, the lifting material receiving mechanism conveys the electric core to a weighing support plate, the electric core is weighed by an electronic scale, and after weighing is finished, the lifting material receiving mechanism takes out the electric core; in this structure, lift receiving mechanism is used for the manipulator and weighs the electric core between the backup pad to carry, reduces the manipulator energy consumption, improves the smoothness nature that electric core carried, improves the efficiency of weighing of electric core.
Drawings
Fig. 1 is a schematic structural diagram of the present invention;
FIG. 2 is a schematic structural diagram of a lifting material receiving mechanism;
FIG. 3 is a schematic view of the weighing mechanism;
description of reference numerals:
1. a lifting material receiving mechanism; 101. a lifting support; 102. a lifting power mechanism; 103. carrying out top strip;
104. a lifting plate; 104a, a rod passing hole;
2. a weighing mechanism; 201. a weighing bracket; 202. a weighing support plate; 203. a convex plate;
203a, a support rod; 204. an electronic scale; 205. an upper fixing plate; 206. a lower fixing plate;
207. a bolt; A. and (5) battery cores.
Detailed Description
The present invention will be further described with reference to the accompanying drawings.
As shown in fig. 1 to 3, the high-speed and high-precision weighing mechanism of the present invention comprises a lifting material receiving mechanism 1 and a weighing mechanism 2; the lifting material receiving mechanism 1 is used for conveying the battery cell to the weighing mechanism 2; the weighing mechanism 2 comprises a weighing bracket 201 and an electronic scale 204 fixed on the weighing bracket 201; a weighing support plate 202 is fixed on a weighing platform of the electronic scale 204; the electronic scale 204 is fixed on the weighing bracket 201 through an upper fixing plate 205 and a lower fixing plate 206 made of marble, and a plurality of bolts 207 for adjusting the level of the electronic scale 204 are arranged between the upper fixing plate 205 and the lower fixing plate 206; after obtaining the battery cell A, the lifting material receiving mechanism 1 conveys the battery cell A to the weighing support plate 202, the battery cell A is weighed by the electronic scale 204, and after weighing is finished, the lifting material receiving mechanism 1 takes out the battery cell A; in this structure, lift receiving mechanism 1 is used for the manipulator and weighs electric core A between the backup pad 202 to carry, reduces the manipulator energy consumption, improves the smoothness nature that electric core A carried, improves electric core A's the efficiency of weighing.
As a preferred mode of the present invention, two parallel convex plates 203 are fixed on the weighing support plate 202; the lifting material receiving mechanism 1 comprises a lifting bracket 101 and a lifting plate 104; the lifting plate 104 is arranged between the two convex plates 203; the two ends of the lifting plate 104 are respectively provided with a lifting power mechanism 102 for driving the lifting plate 104 to do lifting motion on the lifting support 101; the lifting power mechanism 102 drives the lifting plate 104 to do lifting motion, when the lifting plate 104 is lifted to be level with a manipulator for clamping the battery core A, the manipulator puts the battery core A onto the lifting plate 104, and then the lifting plate 104 is lowered to be lower than the height of the convex plate 203, so that the battery core A is placed on the convex plate 203 for weighing; after weighing, the lifting power mechanism 102 lifts the lifting plate 104 upwards, and the lifting plate 104 pushes the battery cell a on the convex plate 203 upwards to be separated from the convex plate 203, so as to wait for another manipulator to clamp.
As a preferred mode of the present invention, the lifting power mechanism 102 is a cylinder; one end of the cylinder is fixed on the driving lifting plate 104; the other end of the cylinder is fixed on the lifting bracket 101.
As a preferred mode of the present invention, the convex plate 203 is provided with a support rod 203 a; the lifting plate 104 is provided with a plurality of rod passing holes 104a for the support rods 203a to pass through; the support rod 203a passes through the rod passing hole 104a, so that the space area of the whole weighing mechanism can be smaller.
As a preferred mode of the present invention, a plurality of top bars 103 are uniformly distributed on the surface of the lifting plate 104; the support is more stable by using the multi-point support of the plurality of top bars 103.
When the utility model is used, the electronic scale is fixed on the weighing bracket through the upper fixing plate and the lower fixing plate which are made of marble, and a plurality of bolts for adjusting the level of the electronic scale are arranged between the upper fixing plate and the lower fixing plate; the lifting power mechanism drives the lifting plate to do lifting motion, when the lifting plate rises to be level with a manipulator clamping the battery cell, the manipulator puts the battery cell on the lifting plate, and then the lifting plate descends to a height lower than the height of the convex plate, so that the battery cell is placed on the convex plate for weighing; after weighing is finished, the lifting power mechanism upwards supports the lifting plate, the lifting plate upwards pushes out the battery cell on the convex plate to be separated from the convex plate, and waiting for clamping by another manipulator; in the structure, the lifting material receiving mechanism is used for conveying the battery cell between the manipulator and the weighing support plate, so that the energy consumption of the manipulator is reduced, the smoothness of battery cell conveying is improved, and the weighing efficiency of the battery cell is improved; the supporting rod penetrates through the rod passing hole, so that the space area of the whole weighing mechanism is smaller; and the support is more stable by utilizing the multi-point support of the plurality of top strips.
The above is only the preferred embodiment of the present invention, so all the equivalent changes or modifications made by the structure, features and principles in accordance with the claims of the present invention are included in the claims of the present invention.