CN215797004U - Loading attachment for stringer based on production of 210 large silicon wafer components - Google Patents
Loading attachment for stringer based on production of 210 large silicon wafer components Download PDFInfo
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- CN215797004U CN215797004U CN202121912417.7U CN202121912417U CN215797004U CN 215797004 U CN215797004 U CN 215797004U CN 202121912417 U CN202121912417 U CN 202121912417U CN 215797004 U CN215797004 U CN 215797004U
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Abstract
The utility model discloses a feeding device for a series welding machine based on 210 large silicon wafer assembly production, and relates to the technical field of series welding machines. The feeding conveyor belt comprises a group of side frame bodies, a plurality of first roller bodies are arranged between the group of side frame bodies, the first roller bodies are connected with a feeding belt body in a transmission mode, the lower portion of the front side of the feeding belt body is provided with an inclined portion, the upper portion of the front side of the feeding belt body is provided with a vertical portion, and the two sides of the outer surface of the feeding belt body are provided with side edges. According to the utility model, the side edges and the supporting plates are arranged on the feeding conveyor belt to form a plurality of lifting cavities to lift the battery panels, meanwhile, the inclined part is arranged at the lower part of the front side of the feeding belt body to facilitate the movement of the stacked battery panels, the vertical part is arranged at the upper part of the front side of the feeding belt body and is matched with the material stabilizing conveyor belt to stably lift the battery panels to the upper part of the material discharging channel, so that the mechanical arm can adsorb and move the materials conveniently, and the use of operators is facilitated.
Description
Technical Field
The utility model belongs to the technical field of series welding machines, and particularly relates to a feeding device for a series welding machine based on 210 large silicon wafer assembly production.
Background
Present stringer uses arm and vacuum chuck to remove the panel from the material loading district to the stringer, and for the production of orderly automation, consequently, the panel in material loading district is for piling up, because the lift stroke of arm is limited, consequently, it is less to pile up the panel quantity in material loading district, need the frequent artifical material loading of operating personnel, extravagant manpower and materials, and because the movement track of arm, can influence operating personnel's material loading, be unfavorable for the operation, if shut down the material loading, then can influence stringer's work efficiency.
SUMMERY OF THE UTILITY MODEL
The utility model aims to provide a feeding device for a series welding machine based on 210 large silicon chip assembly production, a plurality of lifting cavities can be formed by arranging side edges and supporting plates on a feeding conveying belt to lift a battery panel, meanwhile, the inclined part is arranged at the lower part of the front side of the feeding belt body to facilitate the moving-in of the stacked battery panel, the vertical part is arranged at the upper part of the front side of the feeding belt body and matched with a material stabilizing conveying belt to stably lift the battery panel to the upper part of a material discharging channel, so that the absorption and the material moving of a mechanical arm are facilitated, and the use of an operator is facilitated.
In order to solve the technical problems, the utility model is realized by the following technical scheme:
the utility model relates to a feeding device for a series welding machine based on 210 large silicon wafer assembly production, which comprises a feeding conveyor belt and a material stabilizing conveyor belt;
the feeding conveyor belt comprises a group of side frame bodies, a plurality of first roller bodies are arranged between the group of side frame bodies, the first roller bodies are in transmission connection with a feeding belt body, the lower part of the front side of the feeding belt body is provided with an inclined part, and the upper part of the front side of the feeding belt body is provided with a vertical part;
two sides of the outer surface of the feeding belt body are provided with side edges, a plurality of supporting plates are uniformly fixed between the two side edges at intervals, and a plurality of lifting cavities are formed between one group of side edges and the supporting plates;
outer support plates are fixed on the upper portion and the lower portion of the front side of the side frame body, and a plurality of sliding grooves are formed in the outer support plates;
the material stabilizing conveyor belt comprises a group of side plates, a plurality of second roller bodies are arranged between the group of side plates, a material stabilizing belt body is arranged outside the second roller bodies, a plurality of guide rods are fixed on the outer sides of the side plates, grooves are formed in the guide rods, and the material stabilizing conveyor belt is connected with the outer support plate in a sliding mode through the guide rods, the grooves and the sliding grooves;
a vertical belt body is arranged on one side of the material stabilizing belt body, which is close to the material loading belt body, and a material discharging channel is formed between the vertical belt body and the vertical part;
and a fastening screw penetrates through an outer support plate on the side frame body, and the material stabilizing conveyor belt is fixed between the outer support plates on the frame bodies on the two sides through the fastening screw.
Further, a set of side bearer body bottom is fixed with the base, the base top just is located the position fixation between a set of side bearer body and has the motor, motor output and a first roll body tip all are fixed with the belt pulley, two be equipped with the belt between the belt pulley.
Furthermore, guide wheels are fixed on the inner sides of the two side frame bodies and are positioned on the outer sides of the joints of the inclined parts and the vertical parts.
Further, the outer surface of the guide wheel is attached to the outer surface of the feeding belt body, and the guide wheel is located between the side frame body and the side edge.
Furthermore, a handle is fixed at one end, located at the outer portion of the outer support plate, of the set screw, and a plurality of anti-skidding threads are arranged on the outer side of the handle.
Further, an angle of 70-80 degrees is formed between the inclined part and the base, and the vertical part is vertically distributed with the base.
The utility model has the following beneficial effects:
1. according to the utility model, the side edges and the supporting plates are arranged on the feeding conveying belt to form a plurality of lifting cavities to lift the battery panels, the inclined part is arranged at the lower part of the front side of the feeding belt body to facilitate the movement of the stacked battery panels, the vertical part is arranged at the upper part of the front side of the feeding belt body and is matched with the material stabilizing conveying belt, so that the battery panels can be stably lifted to the upper part of the material discharging channel, the problem that the battery panels are separated from the feeding belt body and fall off is avoided, the adsorption and material moving of the mechanical arm are facilitated, the use of an operator is facilitated, and meanwhile, the loading of the battery panels can be orderly and stably carried out.
2. According to the utility model, the stable material conveying belt is arranged, so that the position of one side of the battery panel, which is far away from the material loading belt body, can be attached, and the battery panel can synchronously move along with the material loading belt body along with the friction force, so that the position stability of the material in the cavity is ensured to be improved, and the battery panel is prevented from being separated from the material loading belt body.
3. According to the photovoltaic panel fixing device, the fixing and separation of the material stabilizing conveyor belt and the outer support plate can be realized through the set screws, and the distance between the material stabilizing conveyor belt and the vertical part can be realized through the matching of the sliding groove, the guide rod and the groove, so that the photovoltaic panel fixing device is suitable for photovoltaic panels with different widths.
Of course, it is not necessary for any product in which the utility model is practiced to achieve all of the above-described advantages at the same time.
Drawings
In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.
FIG. 1 is a schematic structural diagram of a feeding device for a series welding machine based on 210 large silicon wafer assembly production according to the utility model;
FIG. 2 is an enlarged view of a portion of FIG. 1 at A;
FIG. 3 is a structural cross-sectional view of the present invention;
FIG. 4 is a schematic structural view of the present invention with the material stabilizing conveyor belt removed;
FIG. 5 is a schematic structural view of a material stabilizing conveyor belt;
in the drawings, the components represented by the respective reference numerals are listed below:
1-feeding conveyor belt, 2-stabilizing conveyor belt, 3-discharging channel, 4-set screw, 101-side frame body, 102-first roller body, 103-feeding belt body, 104-inclined part, 105-vertical part, 106-side edge, 107-supporting plate, 108-lifting cavity, 109-outer supporting plate, 110-sliding groove, 111-base, 112-belt pulley, 113-belt, 114-guide wheel, 201-side plate, 202-second roller body, 203-stabilizing belt body, 204-guide rod, 205-groove and 401-handle.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1-5, the utility model relates to a feeding device for a series welding machine based on 210 large silicon wafer assembly production, which comprises a feeding conveyor belt 1 and a material stabilizing conveyor belt 2;
the feeding conveyor belt 1 comprises a group of side frame bodies 101, a plurality of first roller bodies 102 are arranged between the group of side frame bodies 101, a feeding belt body 103 is connected onto the plurality of first roller bodies 102 in a transmission manner, an inclined part 104 is arranged at the lower part of the front side of the feeding belt body 103, and a vertical part 105 is arranged at the upper part of the front side of the feeding belt body 103;
two sides of the outer surface of the feeding belt body 103 are both provided with side edges 106, a plurality of supporting plates 107 are uniformly fixed between the two side edges 106 at intervals, and a plurality of lifting cavities 108 are formed between a group of side edges 106 and the supporting plates 107;
an outer support plate 109 is fixed on the upper part and the lower part of the front side of the side frame body 101, and a plurality of sliding grooves 110 are formed in the outer support plate 109;
the material stabilizing and conveying belt 2 comprises a group of side plates 201, a plurality of second roller bodies 202 are arranged between the group of side plates 201, material stabilizing belt bodies 203 are arranged outside the plurality of second roller bodies 202, a plurality of guide rods 204 are fixed on the outer sides of the side plates 201, grooves 205 are formed in the guide rods 204, and the material stabilizing and conveying belt 2 is connected with the outer supporting plate 109 in a sliding mode through the plurality of guide rods 204, the grooves 205 and the sliding grooves 110;
one side of the material stabilizing belt body 203, which is close to the material loading belt body 103, is a vertical belt body, and a material discharging channel 3 is formed between the vertical belt body and the vertical part 105;
a set screw 4 penetrates through an outer support plate 109 on the side frame body 101, and the material stabilizing conveyor belt 2 is fixed between the outer support plates 109 on the frame bodies 101 on the two sides through the set screw 4.
As shown in fig. 1 and fig. 3-4, a base 111 is fixed at the bottom of the group of side frame bodies 101, a motor is fixed at the top of the base 111 and between the group of side frame bodies 101, belt pulleys 112 are fixed at the output end of the motor and the end of the first roller 102, and a belt 113 is arranged between the two belt pulleys 112.
As shown in fig. 3-4, guide wheels 114 are fixed on the inner sides of the frame bodies 101, and the guide wheels 114 are located on the outer side of the joint of the inclined portion 104 and the vertical portion 105.
As shown in fig. 3-4, the outer surface of the guide wheel 114 is attached to the outer surface of the feeding belt body 103, and the guide wheel 114 is located between the side frame body 101 and the side edge 106.
As shown in FIGS. 1-2 and 4, a handle 401 is fixed at one end of the set screw 4 located outside the outer support plate 109, and a plurality of anti-slip threads are arranged outside the handle 401.
Wherein, as shown in fig. 1 and fig. 3-4, an angle of 70-80 degrees exists between the inclined part 104 and the base 111, and the vertical part 105 is vertically distributed with the base 111.
The working principle of the utility model is as follows: an operator places the stacked battery pieces in the lifting cavity 108 of the inclined part 104, the upper material belt body 103 can be driven to run through the cooperation of the motor, the belt pulley 112, the belt 113 and the first roller body 102 so as to drive the lifting cavity 108 to be lifted upwards, and the mechanical arm can adsorb and move out of the battery plates on the upper part of the material discharging channel 3.
In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.
The preferred embodiments of the utility model disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the utility model to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the utility model and the practical application, to thereby enable others skilled in the art to best utilize the utility model. The utility model is limited only by the claims and their full scope and equivalents.
Claims (6)
1. The utility model provides a feed arrangement for stringer based on production of 210 big silicon chip subassemblies which characterized in that: comprises a feeding conveyor belt (1) and a material stabilizing conveyor belt (2);
the feeding conveyor belt (1) comprises a group of side frame bodies (101), a plurality of first roller bodies (102) are arranged between the group of side frame bodies (101), a feeding belt body (103) is connected onto the plurality of first roller bodies (102) in a transmission manner, an inclined part (104) is arranged at the lower part of the front side of the feeding belt body (103), and a vertical part (105) is arranged at the upper part of the front side of the feeding belt body (103);
two sides of the outer surface of the feeding belt body (103) are respectively provided with a side edge (106), a plurality of supporting plates (107) are uniformly fixed between the two side edges (106) at intervals, and a plurality of lifting cavities (108) are formed between one group of side edges (106) and the supporting plates (107);
outer support plates (109) are fixed to the upper portion and the lower portion of the front side of the side frame body (101), and a plurality of sliding grooves (110) are formed in the outer support plates (109);
the material stabilizing conveying belt (2) comprises a group of side plates (201), a plurality of second roller bodies (202) are arranged between the group of side plates (201), material stabilizing belt bodies (203) are arranged outside the plurality of second roller bodies (202), a plurality of guide rods (204) are fixed on the outer side of each side plate (201), grooves (205) are formed in the guide rods (204), and the material stabilizing conveying belt (2) is in sliding connection with the outer supporting plate (109) through the plurality of guide rods (204), the grooves (205) and the sliding groove (110);
one side of the material stabilizing belt body (203), which is close to the material loading belt body (103), is a vertical belt body, and a material discharging channel (3) is formed between the vertical belt body and the vertical part (105);
the material stabilizing and conveying device is characterized in that a fastening screw (4) penetrates through an outer support plate (109) on the side frame body (101), and the material stabilizing and conveying belt (2) is fixed between the outer support plates (109) on the frame bodies (101) on the two sides through the fastening screw (4).
2. The feeding device for the stringer produced based on 210 large silicon wafer components according to claim 1, wherein a base (111) is fixed at the bottom of one group of the side frame bodies (101), a motor is fixed at the top of the base (111) and between the group of the side frame bodies (101), belt pulleys (112) are fixed at the output end of the motor and the end part of a first roller body (102), and a belt (113) is arranged between the two belt pulleys (112).
3. The feeding device for the stringer produced based on 210 large silicon wafer components according to claim 1, wherein guide wheels (114) are fixed on the inner sides of the two side frame bodies (101), and the guide wheels (114) are positioned on the outer sides of the joints of the inclined parts (104) and the vertical parts (105).
4. The feeding device for the stringer produced based on 210 large silicon chip components according to claim 3, wherein the outer surface of the guide wheel (114) is attached to the outer surface of the feeding belt body (103), and the guide wheel (114) is located at a position between the side frame body (101) and the side edge (106).
5. The feeding device for the stringer produced based on 210 large silicon chip components according to claim 1, wherein a handle (401) is fixed at one end of the set screw (4) positioned outside the outer support plate (109), and a plurality of anti-skid grains are arranged outside the handle (401).
6. The charging device for the stringer produced based on 210 large silicon chip components according to claim 1, wherein an angle of 70-80 degrees exists between the inclined part (104) and the base (111), and the vertical part (105) is vertically distributed with the base (111).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202121912417.7U CN215797004U (en) | 2021-08-16 | 2021-08-16 | Loading attachment for stringer based on production of 210 large silicon wafer components |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202121912417.7U CN215797004U (en) | 2021-08-16 | 2021-08-16 | Loading attachment for stringer based on production of 210 large silicon wafer components |
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Publication Number | Publication Date |
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CN215797004U true CN215797004U (en) | 2022-02-11 |
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CN202121912417.7U Active CN215797004U (en) | 2021-08-16 | 2021-08-16 | Loading attachment for stringer based on production of 210 large silicon wafer components |
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2021
- 2021-08-16 CN CN202121912417.7U patent/CN215797004U/en active Active
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