CN217807129U - Integrative equipment of upset of weighing - Google Patents

Abstract

The application relates to the technical field of weighing equipment, in particular to weighing and overturning integrated equipment. Through set up supporting component and weighing device on load-bearing platform, the supporting component is located weighing device's top, is provided with the upset subassembly that is used for the upset product on the supporting component, weighing device's check weighing end wears to arrange in the supporting component, and then weighing device's check weighing end stretches out the loading end of supporting component in order to bear in the product when weighing, and then realize weighing electric core product, snatch the product on the supporting component and overturn the product through the upset subassembly after accomplishing weighing, realize accomplishing through an equipment and accomplish the process of weighing and the upset of product, avoided two current equipments of part to cause the too big problem of area in workshop, reduced equipment cost when saving a large amount of spaces, avoid the product to shift between two equipment stations simultaneously, shorten the production time of production line, improve production efficiency.

Description

Integrative equipment of upset of weighing

Technical Field

The application relates to the technical field of weighing equipment, in particular to weighing and overturning integrated equipment.

Background

At present, the requirements on the production process and the quality detection of the lithium battery are more and more strict, and the quality of a battery core directly influences the performance of the lithium battery in the production process of the lithium battery. In many production processes of the battery cell, the battery cell often needs to be weighed. In current production, electric core is for lying flat state when electric core is weighed, need annotate liquid to electric core after the process of weighing is accomplished, need carry out the upset process to electric core earlier this moment.

Weighing device and turning device to electric core among the prior art are two detached devices to at two stations free operation, separately two devices cause workshop's area too big, increase equipment cost, and need shift electric core between the device of two stations, the action is loaded down with trivial details, has increased the total time of production line, is unfavorable for high-efficient production.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the application provides an integrative equipment of upset of weighing, including load-bearing platform, set up in last weighing device and the supporting component of load-bearing platform, the check weighing end of weighing device wears to arrange in the supporting component, the last upset subassembly that is used for the upset product that is provided with of supporting component. When weighing, the bearing that supporting component was stretched out to weighing end of weighing device is in order to bear in the product, and then realize weighing electric core product, accomplish to snatch the product on the supporting component through the upset subassembly after weighing, and overturn the product, realize accomplishing the process of weighing and overturning the product through an equipment, avoided two current equipment that part to cause the too big problem of area in workshop, the equipment cost has been reduced when saving a large amount of spaces, avoid the product to shift between two equipment stations simultaneously, shorten the production time of production line, and the production efficiency is improved.

Preferably, the supporting component comprises a supporting platform arranged on the bearing platform in a lifting manner and a first driving component for driving the supporting platform to lift. The drive end of first drive assembly connects in the bearing platform bottom, and then can go up and down through the drive bearing platform of first drive assembly drive, and then makes weighing device's weight measuring end stretch out more than the loading end of bearing platform, or makes the bearing platform's bearing surface be higher than weighing device's weight measuring end. The bearing platform can be arranged on the bearing platform in a lifting mode so that the supporting component can bear on the product, or the weight measuring end of the weighing device extends out of the bearing surface of the supporting component to bear the product.

Preferably, the weight measuring end of the weighing device is provided with a plurality of weight measuring rods, and the supporting platform is provided with through holes for the weight measuring rods to extend out. And then can descend through a drive assembly drive bearing platform for more than the bearing platform's loading end is stretched out at the top of survey heavy pole, through weighing device's weight measuring pole 31 bearing in electric core, the realization is weighed electric core product.

Preferably, the supporting platform is provided with a buffer piece for buffering products between the weight measuring rods, and the length of the buffer piece is smaller than that of the weight measuring rods. When electric core material loading, earlier through the bolster bearing in electric core, and then play the effect of buffering to electric core through the bolster, avoid electric core material loading directly to hit on weighing device's the survey pole and cause the damage, rethread drive bearing platform descends and makes the survey pole bearing in electric core, and then the realization is weighed electric core.

Preferably, the bearing platform is provided with a limiting part for limiting the lifting position of the bearing platform. The upper and lower side that lies in bearing platform on the locating part is provided with spacing cam, and then at the in-process that first drive assembly drive bearing platform goes up and down, through the high position of locating part restriction bearing platform, guarantees the stability of bearing platform operation.

Preferably, the upset subassembly includes the returning face plate and set up in second drive assembly on the supporting component, second drive assembly is used for the drive the returning face plate orientation weighing end rotation of weighing device, the returning face plate is used for snatching or adsorbing the product.

Preferably, the surface of the turnover plate facing the product is provided with an adsorption piece for adsorbing the product. Illustratively, the adsorption part can be a sucker, when the second driving assembly drives the turnover plate to be parallel to the battery core, the sucker on the surface of the turnover plate is contacted with the surface of the battery core and is adsorbed on the surface of the battery core through the sucker, so that the turnover plate is fixed with the battery core, and the battery core is turned over to be in a vertical state through rotation of the turnover plate.

Preferably, the supporting component is provided with a detection component for detecting the rotation state of the turnover plate. When the second driving assembly drives the turnover plate to be parallel to the battery core, the detection assembly senses that the turnover plate is turned in place, and then the sucker on the turnover plate is adsorbed on the battery core. When the returning face plate rotation resets to vertical state, the detecting component response returning face plate has left, and then the follow-up next electric core material loading of beginning to the supporting component weighs to it is smooth and easy to guarantee the production chronogenesis.

Preferably, the supporting platform is connected to the bearing platform through a guide rod, and an elastic part is arranged on the periphery of the guide rod and located between the bearing platform and the supporting platform. Thereby play the effect of removal buffering to the bearing platform through the elastic component, improve the stationarity of equipment operation.

Preferably, the support assembly is further provided with a code scanning assembly arranged towards the product. When weighing, sweep a yard subassembly and sweep a yard registration to electric core, realize carrying out the record to every electric core through making a file to electric core.

Compared with the prior art, the beneficial effect of this application is: this application is through setting up supporting component and weighing device on load-bearing platform, the supporting component is located weighing device's top, be provided with the upset subassembly that is used for the upset product on the supporting component, weighing device's check weighing end stretches out the loading end of supporting component in order to bear in the product when weighing, and then realize weighing to electric core product, accomplish to weigh the back and snatch the product on the supporting component through the upset subassembly on the supporting component, and overturn the product, realize accomplishing the weighing and the upset process to the product through an equipment, the problem that current two equipment of part cause the area in workshop too big has been avoided, the equipment cost has been reduced when saving a large amount of spaces, avoid the product to shift between two equipment stations simultaneously, shorten the production time of production line, and the production efficiency is improved.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments of the present application or the prior art will be briefly described below. It should be apparent that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained by those skilled in the art without inventive exercise.

FIG. 1 is a schematic structural diagram of a weighing and overturning integrated device according to an embodiment of the present application;

FIG. 2 is a schematic structural view of a support assembly and a weighing apparatus according to an embodiment of the present application;

fig. 3 is a schematic structural diagram of an overturning assembly according to an embodiment of the present application.

Reference numerals

10. A load-bearing platform; 11. a limiting member; 12. an elastic member; 13. a guide bar; 20. a support assembly; 21. supporting a platform; 22. a first drive assembly; 23. a buffer member; 24. a detection component; 30. a weighing device; 40. a turnover assembly; 41. a turnover plate; 411. an adsorbing member; 42. a second drive assembly; 50. and a code scanning component.

Detailed Description

Embodiments of the present application are illustrated in the following description and are not intended to be limited to the details shown in the following description. It should be understood, however, that these implementation details should not be used to limit the application. That is, in some embodiments of the present application, such practical details are not necessary. In addition, some conventional structures and components are shown in simplified schematic form in the drawings for the sake of simplicity.

It should be noted that all the directional indicators in the embodiments of the present application, such as up, down, left, right, front, and back, 8230, are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture as shown in the drawings, and if the specific posture is changed, the directional indicator is changed accordingly.

In addition, the descriptions related to "first", "second", etc. in this application are for descriptive purposes only, not specifically referring to the order or sequence, nor are they intended to limit the application, but merely to distinguish components or operations described in the same technical terms, and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions between the embodiments may be combined with each other, but must be based on the realization of the technical solutions by a person skilled in the art, and when the technical solutions are contradictory to each other or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope claimed in the present application.

For a further understanding of the contents, features and functions of the present invention, reference will now be made to the following examples, which are illustrated in the accompanying drawings and described in the following detailed description:

in order to solve the above technical problem, this embodiment provides a weighing and turning integrated device, as shown in fig. 1, the weighing and turning integrated device includes a bearing platform 10, a supporting component 20 and a weighing device 30 that are disposed on the bearing platform 10, the supporting component 20 is located above the weighing device 30, a turning component 40 for turning a product is disposed on the supporting component 20, a weight measuring end of the weighing device 30 penetrates through the supporting component 20 and extends to a position above a bearing surface of the supporting component 20, during weighing, the weight measuring end of the weighing device 30 extends out of the bearing surface of the supporting component 20 to bear on the product, so as to weigh the product, and after weighing, the product is grabbed by the turning component 40 on the supporting component 20, and the product is turned over.

Specifically, as shown in fig. 2, the support unit 20 includes a support platform 21 and a first driving unit 22 for driving the support platform 21 to move up and down. The support platform 21 is located above the weighing device 30, and the weight measuring end of the weighing device 30 passes through the support platform 21. Exemplarily, first drive assembly 22 can be telescopic cylinder, the drive end of first drive assembly 22 is connected in the bottom of bearing platform 21, and then can go up and down through first drive assembly 22 drive bearing platform 21, and then make weighing end of weighing device 30 stretch out more than the bearing surface of bearing platform 21, or make bearing platform 21's bearing surface be higher than weighing end of weighing device 30, and then support assembly 20 descends when weighing to make weighing device 30's weighing end stretch out the bearing surface of support assembly 20 with the bearing in the product, and then realize weighing electric core product, support assembly 20 rises and bears in the product after accomplishing weighing, snatch the product on the support assembly 20 through upset subassembly 40, and overturn the product.

Further, in the above scheme, the weighing end of the weighing device 30 is provided with a plurality of weighing rods 31, and the supporting platform 21 is provided with through holes for the weighing rods 31 to extend out. And then can descend through first drive assembly 22 drive bearing platform 21 for more than the bearing surface that bearing platform 21 was stretched out at the top of weighing rod 31, weighing rod 31 bearing through weighing device 30 in electric core realizes weighing the electric core product. After accomplishing weighing, through the ascending of first drive assembly 22 drive bearing platform 21 for bearing platform 21's bearing surface is higher than or the parallel and level in the top of check weighing pole 31, realizes bearing platform 21 bearing in electric core, and rethread upset subassembly 40 becomes the state of erectting with the electric core upset of horizontal position, and then follow-up annotates the liquid process to electric core. The weighing process and the overturning process are integrated in one device, and the device cost is reduced.

In order to realize that bearing platform 21 steadily goes up and down, as one of them embodiment, as shown in fig. 2, bearing platform 21 passes through guide bar 13 and connects in load-bearing platform 10, and the periphery of guide bar 13 just is located and is provided with elastic component 12 between load-bearing platform 10 and the bearing platform 21, thereby plays the effect of removal buffering to bearing platform 21 through elastic component 12, improves the stationarity of equipment operation.

At electric core product material loading in-process, the circumstances that weighing device 30 and weight measuring pole 31 damaged or failed is easily leaded to directly placing at weighing device 30's weight measuring pole 31 to electric core, for this reason, as an preferred embodiment, is located between the weight measuring pole 31 on bearing platform 21 and is provided with bolster 23 that is used for cushioning the product, and the length of bolster 23 is less than the length of weight measuring pole 31. When electric core material loading, earlier through bolster 23 bearing in electric core, and then play the effect of buffering to electric core through bolster 23, avoid electric core material loading directly to hit on weighing rod 31 of weighing device 30 and cause the damage, rethread drive bearing platform 21 descends and makes weighing rod 31 bearing in electric core, and then the realization is weighed electric core, the completion is weighed back bearing platform 21 and rises and make bolster 23 bearing in the product, rethread upset subassembly 40 snatchs the product and overturns the product.

Further, in order to limit the elevation position of the support platform 10, as shown in fig. 2, a limiting member 11 for limiting the elevation position of the support platform 21 is provided on the support platform 10. Exemplarily, the limiting member 11 may be a limiting rod penetrating the supporting platform 21, and a limiting cam is disposed on the limiting rod above and below the supporting platform 21, so that in the process of driving the supporting platform 21 to ascend and descend by the first driving component 22, the limiting member 11 limits the height position of the supporting platform 21, and the stability of the operation of the supporting platform 21 is ensured.

After weighing the electric core, the electric core needs to be turned into a vertical state, so that the electric core is conveniently injected with liquid. An overturning assembly 40 for overturning the product is provided on the support assembly 20. Specifically, as shown in fig. 1 and 3, the turnover assembly 40 includes a turnover plate 41 for grasping or adsorbing the product, and a second driving assembly 42 disposed on the support assembly 20, wherein the second driving assembly 42 is configured to drive the turnover plate 41 to rotate toward the weight bar 31 of the weighing device 30. Illustratively, the second driving assembly 42 may be a rotary cylinder, and the flipping panel 41 is connected to a rotating end of the rotary cylinder.

In the initial state, the returning face plate 41 is the state of erectting and is located the side of check weighing pole 31, accomplish the back of weighing to electric core when weighing device 30, the ascending bearing electric core of bearing platform 21, and then the upset of second drive assembly 42 drive returning face plate 41 towards check weighing pole 31 of weighing device 30 for returning face plate 41 is parallel with electric core, and then returning face plate 41 snatchs or adsorbs electric core, and second drive assembly 42 drives returning face plate 41 rotation again and resets to vertical state, realizes that electric core overturns into vertical state.

In order to realize the adsorption and fixation of the battery cells by the flipping plate 41, as a preferred embodiment, an adsorbing member 411 for adsorbing the surface of the battery cell product is disposed on the surface of the flipping plate 41 facing the product. For example, the suction member 411 may be a suction cup, a plurality of suction members 411 are provided, and an air path communicating with the plurality of suction members 411 is formed inside the flipping plate 41. When second drive assembly 42 drive returning face plate 41 was parallel with electric core, the sucking disc contact on returning face plate 41 surface realized that the sucking disc adsorbs in the surface of electric core through the gas circuit evacuation in the surface of electric core to realize returning face plate 41 fixed with electric core, rethread second drive assembly 42 drive returning face plate 41 rotatory resets to vertical state, and then realizes that electric core overturns to vertical state, guarantees that electric core can enter into with vertical state and annotates the liquid station.

As shown in fig. 2, the support unit 20 is further provided with a detection unit 24 for detecting a rotation state of the reversing plate 41. For example, the detection component 24 may be a sensor, and when the second driving component 42 drives the flipping board 41 to be parallel to the battery cell, the detection component 24 senses that the flipping board 41 is flipped in place, and then the suction cup on the flipping board 41 is attached to the battery cell. When the turning plate 41 is rotated and reset to be in a vertical state, the detection assembly 24 senses that the turning plate 41 leaves, and then the next battery cell is subsequently weighed from the battery cell loading to the support assembly 20, so that the production time sequence is ensured to be smooth, and the production efficiency is improved.

In order to record the weighing of each cell, it is also possible to provide a code scanning assembly 50 on the support assembly 20, which is disposed towards the product. When weighing, sweep a yard subassembly 50 and sweep a yard registration to electric core, realize carrying out the record to every electric core through making a file to electric core.

In order to improve production efficiency in actual production, can set up multiunit weighing device 30 on load-bearing platform 10, the bearing platform 21 is all passed to the check weighing pole 31 of every group weighing device 30 to correspond every group weighing device 30 at bearing platform 21 and be provided with upset subassembly 40 respectively, and then can weigh and overturn a plurality of electric cores simultaneously, improve production efficiency.

To sum up, in one or more embodiments of this application, this application is through setting up supporting component and weighing device on load-bearing platform, the supporting component is located the top of weighing device, be provided with the upset subassembly that is used for the upset product on the supporting component, the bearing that the bearing end of weighing device stretches out supporting component is in order to bear in the product when weighing, and then realize weighing electric core product, pick the product on the supporting component through the upset subassembly that sets up on the supporting component after accomplishing weighing, and overturn the product, realize accomplishing through an equipment and accomplish the weighing and the upset process to the product, avoided two current equipment that separate to cause the too big problem of area in workshop, reduced equipment cost when saving a large amount of spaces, avoid the product to shift between two equipment stations simultaneously, shorten the production time of production line, improve production efficiency.

The above-described embodiments do not limit the scope of the present invention. Any modification, equivalent replacement, and improvement made within the spirit and principle of the above-described embodiments should be included in the protection scope of the technical solution.

Claims (10)

1. The utility model provides an integrative equipment of upset weighs which characterized in that: the product turnover device comprises a bearing platform (10), a supporting component (20) and a weighing device (30), wherein the supporting component (20) and the weighing device (30) are arranged on the bearing platform (10), the weight measuring end of the weighing device (30) penetrates through the supporting component (20), and a turnover component (40) used for turning over a product is arranged on the supporting component (20).

2. The weighing and overturning integrated device according to claim 1, characterized in that: the supporting component (20) comprises a bearing platform (21) arranged on the bearing platform (10) in a lifting mode and a first driving component (22) for driving the bearing platform (21) to lift.

3. The weighing and overturning integrated device according to claim 2, characterized in that: the weight measuring end of the weighing device (30) is provided with a plurality of weight measuring rods (31), and the supporting platform (21) is provided with through holes for the weight measuring rods (31) to extend out.

4. The integrated weighing and overturning device of claim 3, wherein: the supporting platform (21) is provided with a buffer piece (23) used for buffering a product between the weight measuring rods (31), and the length of the buffer piece (23) is smaller than that of the weight measuring rods (31).

5. The integrated weighing and overturning device of claim 2, wherein: the bearing platform (10) is provided with a limiting piece (11) used for limiting the lifting position of the bearing platform (21).

6. The integrated weighing and overturning device of claim 1, wherein: upset subassembly (40) including returning face plate (41) and set up in second drive assembly (42) on supporting component (20), second drive assembly (42) are used for driving returning face plate (41) orientation the weight measuring of weighing device (30) is held rotatoryly, returning face plate (41) are used for snatching or adsorb the product.

7. The weighing and overturning integrated device of claim 6, wherein: the surface of the turnover plate (41) facing the product is provided with an adsorption piece (411) for adsorbing the product.

8. The integrated weighing and overturning device of claim 6, wherein: the supporting component (20) is provided with a detection component (24) for detecting the rotation state of the turnover plate (41).

9. The weighing and overturning integrated device according to claim 2, characterized in that: the bearing platform (21) is connected to the bearing platform (10) through a guide rod (13), and an elastic part (12) is arranged on the periphery of the guide rod (13) and located between the bearing platform (10) and the bearing platform (21).

10. The integrated weighing and overturning device of claim 1, wherein: the supporting component (20) is also provided with a code scanning component (50) which is arranged towards the product.

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