CN221164506U - Small dense polar plate collecting machine for lead-acid battery - Google Patents

Abstract

The utility model relates to the technical field of sheet finishing, and provides a small dense polar plate collecting machine of a lead-acid battery, which comprises a rack; the feeding assembly is arranged on the frame; the conveying assembly is arranged on the frame; the arrangement subassembly sets up in the frame, communicates with the feed assembly through conveying assembly, and the arrangement subassembly includes: the first rotating roller is rotatably arranged on the frame; the clamping arms are circumferentially arranged on the first rotating roller and are provided with clamping ends; the first guide rails are arranged on the frame, and the direction of the first guide rails is perpendicular to the conveying direction of the workpiece; the first extrusion plates are arranged on the first guide rail in a sliding manner; the first driving unit is arranged on the frame and used for driving the first extrusion plates on two sides of the workpiece to be close to or far away from each other. Through above-mentioned technical scheme, solved among the correlation technique manual work arrangement time and energy, can appear the not neat enough of arrangement, produce the problem of potential safety hazard phenomenon.

Description

Small dense polar plate collecting machine for lead-acid battery

Technical Field

The utility model relates to the technical field of sheet finishing, in particular to a sheet collecting machine for a small dense polar plate of a lead-acid battery.

Background

Sheets are more and more common in our life, along with the progress of science and technology, the processing procedure of the sheets is more and more automatic, but in the sheet production procedure, the sheets are required to be well arranged to be carried out to the next procedure, and the manual arrangement is time-consuming and labor-consuming, so that the phenomenon of tidy arrangement and potential safety hazard can occur.

Disclosure of utility model

The utility model provides a small dense polar plate collecting machine for a lead-acid battery, which solves the problems that the manual arrangement is time-consuming and labor-consuming, the arrangement is not tidy enough and potential safety hazard phenomenon occurs in the related art.

The technical scheme of the utility model is as follows:

A sheet collecting machine for small dense polar plates of lead-acid batteries comprises

A frame;

the feeding assembly is arranged on the frame;

The conveying assembly is arranged on the frame;

The arrangement subassembly sets up in the frame, through conveying assembly with the feeding subassembly intercommunication, the arrangement subassembly includes:

the first rotating roller is rotatably arranged on the frame;

The clamping arms are provided with a plurality of clamping ends, the circumference of each clamping arm is arranged on the first rotating roller, and each clamping arm is provided with a clamping end used for clamping a workpiece;

The first guide rails are arranged on the frame, and the direction of the first guide rails is perpendicular to the conveying direction of the workpiece;

the first extrusion plates are provided with a plurality of first extrusion plates, and the first extrusion plates are arranged on the first guide rail in a sliding manner;

the first driving unit is arranged on the frame and used for driving the first extrusion plates on two sides of the workpiece to be close to or far away from each other.

As a further technical solution, the clamping arm includes:

the support rod is arranged on the first rotating roller;

the telescopic piece is arranged on the supporting rod;

The sliding plate is arranged on the telescopic end of the telescopic piece in a sliding mode, and after the telescopic piece stretches out and draws back, the sliding plate is used for pushing a workpiece.

As a further technical solution, the conveying assembly includes:

the conveying rollers are rotatably arranged on the frame;

The conveying units are communicated and arranged on the frame at intervals and wound on the conveying rollers, and form a plurality of avoiding gaps;

The tensioning piece is arranged on the frame and used for tensioning a plurality of conveying units.

As a further technical solution, the feeding assembly includes:

The first conveying belt is arranged on the frame and is perpendicular to the conveying direction of the workpiece;

The second conveying belt is arranged on the frame along the conveying direction of the workpiece and is provided with a plurality of adsorption holes;

The air flue is provided with a plurality of air holes, the air flue is arranged in the second conveying belt, the adsorption holes are communicated with the air holes, and the adsorption holes are used for adsorbing workpieces.

As a further technical scheme, the method further comprises:

Interval material loading subassembly, through conveying assembly setting is in the feed assembly with arrange in order between the subassembly, interval material loading subassembly includes:

The baffle is arranged on the frame, positioned below the second conveying belt and used for scraping the workpiece;

The first expansion plate is provided with a plurality of first expansion plates, the first expansion plates are respectively arranged in the avoidance gaps in a moving mode, and the first expansion plates are located between the feeding assembly and the finishing assembly.

As a further technical scheme, the method further comprises:

the first pre-finishing subassembly, through the conveying component setting be in interval material loading subassembly with between the arrangement subassembly, the first pre-finishing subassembly includes:

the second rotating roller is arranged on the frame;

the rotating discs are respectively arranged on the second rotating rollers at intervals, pass through the second rotating rollers after rotating and are positioned in the avoidance gaps, and are provided with a plurality of first through grooves which are circumferentially arranged by taking the second rotating rollers as circle centers;

The second guide rails are arranged on the rack and are perpendicular to the conveying direction of the workpiece;

the second extrusion plates are provided with a plurality of second extrusion plates, and the second extrusion plates are arranged on the second guide rail in a sliding manner;

The second driving unit is arranged on the frame and connected with the second extrusion plate, and the second driving unit is used for driving conveying components on two sides of the second extrusion plate.

As a further technical scheme, the method further comprises:

A second pre-conditioning assembly disposed between the first pre-conditioning assembly and the finishing assembly via a transport assembly, the second pre-conditioning assembly comprising:

the support plate is arranged on the frame in a sliding manner and is used for supporting a workpiece;

The third driving unit is arranged on the rack and is used for driving the supporting plate to slide;

The fourth driving units are arranged on the rack and are respectively arranged on the rack;

The third extrusion plates are provided with a plurality of, the third extrusion plates are respectively arranged at the driving ends of the fourth driving units, and the third extrusion plates are used for extruding workpieces on the supporting plates.

As a further technical solution, the support plate has a plurality of second through slots, and the second pre-finishing assembly further includes:

The second expansion plate is provided with a plurality of second expansion plates, the plurality of second expansion plates are respectively arranged in the second pre-finishing assembly and the plurality of avoidance gaps of the finishing assembly and are positioned below the supporting plate, and the plurality of second expansion plates can penetrate through the plurality of second through grooves after being expanded and contracted.

The working principle and the beneficial effects of the utility model are as follows:

according to the utility model, the sheets are required to be sorted, the sheets cannot be sorted by the prior art, the sheets are required to be sorted manually, the manual sorting mode is time-consuming and labor-consuming, the sorting is not tidy enough, and potential safety hazards are generated.

Drawings

The utility model will be described in further detail with reference to the drawings and the detailed description.

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a top view of the present utility model;

FIG. 3 is a cross-sectional view of the present utility model;

FIG. 4 is an enlarged view of a portion of FIG. 3 at A;

FIG. 5 is a partial enlarged view at B of FIG. 3;

FIG. 6 is an enlarged view of a portion of FIG. 3 at C;

FIG. 7 is a partial enlarged view at D of FIG. 3;

FIG. 8 is an enlarged view of a portion of FIG. 3 at E;

In the figure: 1. the device comprises a frame, 2, a feeding component, 3, a space feeding component, 4, a first pre-finishing component, 5, a second pre-finishing component, 6, a finishing component, 7, a first rotating roller, 8, a clamping arm, 9, a first guide rail, 10, a first extrusion plate, 11, a first driving unit, 12, a conveying component, 13, a conveying unit, 14, an avoidance gap, 15, a tensioning piece, 16, a first conveying belt, 17, a second conveying belt, 18, an adsorption hole, 19, an air passage, 20, a first expansion plate, 21, a second rotating roller, 22, a rotating disc, 23, a first through groove, 24, a second guide rail, 25, a second extrusion plate, 26, a second driving unit, 27, a supporting plate, 28, a third driving unit, 29, a fourth driving unit, 30, a third extrusion plate, 31, a second through groove, 32, a second expansion plate, 33, a supporting rod, 34, an expansion piece, 35, a sliding plate, 36, a conveying roller, 37 and a baffle plate.

Detailed Description

The technical solutions of the embodiments of the present utility model will be clearly and completely described below in conjunction with the embodiments of the present utility model, and it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Examples

As shown in fig. 1-8, the present embodiment proposes

A sheet collecting machine for small dense polar plates of lead-acid batteries comprises

A frame 1;

A feeding assembly 2 arranged on the frame 1;

A conveying assembly 12 arranged on the frame 1;

The arrangement subassembly 6, set up in frame 1 is passed through conveying subassembly 12 with feeding subassembly 2 intercommunication, arrangement subassembly 6 includes:

a first rotating roller 7 rotatably provided on the frame 1;

The clamping arms 8 are provided with a plurality of clamping ends, the plurality of clamping arms 8 are circumferentially arranged on the first rotating roller 7, and the plurality of clamping arms 8 are provided with clamping ends which are used for clamping workpieces;

the first guide rails 9 are provided with a plurality of first guide rails 9, the first guide rails 9 are arranged on the frame 1, and the direction of the first guide rails 9 is perpendicular to the conveying direction of the workpieces;

the first squeeze plates 10 are provided with a plurality of first squeeze plates 10, and the first squeeze plates 10 are arranged on the first guide rail 9 in a sliding manner;

The first driving unit 11 is disposed on the frame 1, and the first driving unit 11 is used for driving the first squeeze plates 10 on two sides of the workpiece to approach each other or separate from each other.

In this embodiment, because the processing of sheet needs to arrange in order the sheet, and the arrangement of sheet can't be realized to prior art, need the manual work to arrange in order, and the mode of manual work arrangement wastes time and energy, can appear the neatly inadequately of arrangement, produce the phenomenon of potential safety hazard, this scheme is collected the work piece through feeding subassembly 2 on conveying subassembly 12 transmitted arrangement subassembly 6, after arrangement subassembly 6 is good with the work piece centre gripping through centre gripping arm 8, rotate under the effect of first rotating roller 7, rotate to top first stripper plate 10 and slide along first guide rail 9 under the effect of first drive unit 11 and extrude the arrangement to the work piece fore-and-aft direction, automatic full-automatic arrangement has been realized.

Further, the clamp arm 8 includes:

A support bar 33, the support bar 33 being provided on the first rotating roller 7;

A telescopic member 34, the telescopic member 34 being provided on the support bar 33;

and the sliding plate 35 is arranged on the telescopic end of the telescopic piece 34 in a sliding manner, and after the telescopic piece 34 stretches, the sliding plate 35 is used for pushing the workpiece.

In this embodiment, in order to realize three-dimensional arrangement to the sheet, this scheme centre gripping arm 8 passes through bracing piece 33 with the work piece centre gripping after, slide 35 carries out left and right directions slip arrangement to the work piece under the effect of extensible member 34, and centre gripping arm 8 itself has the arrangement of upper and lower direction to the work piece this moment, and slide 35 has the arrangement of left and right directions to the work piece, and first stripper plate 10 has the arrangement of fore-and-aft direction to the work piece to make the work piece can be more neat at the arrangement in-process.

Further, the delivery assembly 12 includes:

the conveying rollers 36 are rotatably arranged on the frame 1;

the conveying units 13 are provided with a plurality of conveying units 13, the plurality of conveying units 13 are communicated and arranged on the frame 1 at intervals, and are wound on the plurality of conveying rollers 36, and the plurality of conveying units 13 form a plurality of avoiding gaps 14;

and a tensioning member 15, which is disposed on the frame 1, wherein the tensioning member 15 is used for tensioning a plurality of the conveying units 13.

In this embodiment, since the conveying unit 13 is required to be used for conveying, and the conveying unit 13 needs to be supported by the conveying roller 36 in the conveying process, in order to place the conveying unit 13 to loose in the conveying process, the workpiece is not conveyed stably, and the tensioning roller is provided for tensioning the conveying unit 13.

Further, the feed assembly 2 includes:

A first conveyor belt 16 disposed on the frame 1 and perpendicular to the workpiece conveying direction;

The second conveyer belt 17 is arranged on the frame 1 along the conveying direction of the workpiece, and the second conveyer belt 17 is provided with a plurality of adsorption holes 18;

The air flue 19 is provided with a plurality of air holes, the air flue 19 is arranged in the second conveying belt 17, the adsorption holes 18 are communicated with the air holes, and the adsorption holes 18 are used for adsorbing workpieces.

In this embodiment, in order to realize the workpiece conveying, the first conveying belt 16 is provided, the workpiece is conveyed onto the second conveying belt 17 through the first conveying belt 16, the second conveying belt 17 is provided with an adsorption hole 18, an air passage 19 is formed in the second conveying belt 17, the adsorption hole 18 generates suction force, and the workpiece is adsorbed to the bottom end of the second conveying belt 17 through the adsorption hole 18 for conveying.

Further, the method further comprises the following steps:

Interval material loading subassembly 3, through conveying assembly 12 set up feeding subassembly 2 with arrange in order between the subassembly 6, interval material loading subassembly 3 includes:

A baffle 37, disposed on the frame 1 and below the second conveyor belt 17, for scraping the workpiece;

The first expansion plate 20 is provided with a plurality of first expansion plates 20, and the first expansion plates 20 are respectively arranged in the avoidance gaps 14 in a moving mode and are located between the feeding assembly 2 and the finishing assembly 6.

In this embodiment, because the workpiece is required to be quantitatively stacked in the sorting process, the interval feeding assembly 3 is provided in the scheme, one workpiece adsorbed at the bottom end of the second conveying belt 17 is produced down through the baffle 37 and falls onto the first expansion plate 20, and after the quantitative workpiece is collected, the first expansion member 34 expands and contracts, so that the workpiece falls onto the conveying assembly 12 between the feeding assembly 2 and the sorting assembly 6, and the quantitatively stacked assembly is conveyed.

Further, the method further comprises the following steps:

A first pre-conditioning assembly 4, disposed between the gap loading assembly 3 and the finishing assembly 6 by a conveying assembly 12, the first pre-conditioning assembly 4 comprising:

A second rotating roller 21 provided on the frame 1;

The rotating discs 22 are provided with a plurality of rotating discs 22, the plurality of rotating discs 22 are respectively arranged on the second rotating roller 21 at intervals, pass through the rotating discs after rotating and are positioned in the plurality of avoiding gaps 14, and the plurality of rotating discs 22 are provided with a plurality of first through grooves 23 which are circumferentially arranged by taking the second rotating roller 21 as the circle center;

The second guide rails 24 are provided with a plurality of second guide rails 24, and the second guide rails 24 are arranged on the frame 1 and are perpendicular to the conveying direction of the workpieces;

The second squeeze plates 25 are provided with a plurality of second squeeze plates 25, and the second squeeze plates 25 are arranged on the second guide rail 24 in a sliding manner;

The second driving unit 26 is disposed on the frame 1 and connected to the second pressing plate 25, and the second driving unit 26 is used for driving the conveying assemblies 12 on two sides of the second pressing plate 25.

In this embodiment, since the workpieces are not stacked neatly enough in the quantitative stacking process, the first pre-straightening assembly 4 is provided in this embodiment, the workpieces after quantitative stacking are conveyed to the first through groove 23 of the rotating disc 22, the workpieces are driven to turn over by the second rotating roller 21, and in the turning over process, the second extrusion plate 25 slides along the first guide rail 9 under the driving of the second driving unit 26, so that the workpieces located in the first through groove 23 are pre-straightened.

Further, the method further comprises the following steps:

A second pre-conditioning assembly 5, arranged between said first pre-conditioning assembly 4 and said finishing assembly 6 by means of a conveying assembly 12, said second pre-conditioning assembly 5 comprising:

A support plate 27 slidably disposed on the frame 1, the support plate 27 being for supporting a workpiece;

a third driving unit 28 disposed on the frame 1, the third driving unit 28 being configured to drive the support plate 27 to slide;

The fourth driving units 29 are provided with a plurality of fourth driving units 29, and the fourth driving units 29 are arranged on the frame 1;

The third squeeze plates 30 are provided in a plurality, the third squeeze plates 30 are respectively disposed on the driving ends of the fourth driving units 29, and the third squeeze plates 30 are used for squeezing the workpieces on the supporting plate 27.

In this embodiment, since the workpieces stacked in the conveying process are offset again, the second pre-straightening assembly 5 is provided in the scheme, the supporting plate 27 is arranged on the frame 1, the workpieces directly slide onto the supporting plate 27 through the conveying assembly 12, and the third extruding plate 30 slides under the driving of the fourth driving unit 29 to extrude and pre-straighten the workpieces.

Further, the support plate 27 has a plurality of second through slots 31, and the second pre-conditioning assembly 5 further includes:

The second expansion plate 32 is provided with a plurality of second expansion plates 32, the second expansion plates 32 are respectively arranged in the second pre-finishing assembly 5 and the avoidance gaps 14 of the finishing assembly 6 and are positioned below the supporting plate 27, and the second expansion plates 32 can penetrate through the second through grooves 31 after being expanded and contracted.

In this embodiment, after the second pre-straightening assembly 5 performs the second pre-straightening assembly on the workpiece, the second expansion plate 32 is lifted to support the workpiece, the support plate 27 is moved away under the driving of the third driving unit 28, the second expansion plate 32 is lowered, the workpiece falls onto the conveying assembly 12 between the second pre-straightening assembly 5 and the straightening assembly 6, and the workpiece is conveyed to the straightening assembly 6 for straightening.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the utility model.

Claims (8)

1. A small dense polar plate collecting machine for lead-acid battery is characterized by comprising

A frame (1);

the feeding assembly (2) is arranged on the frame (1);

A conveying assembly (12) arranged on the frame (1);

the arrangement subassembly (6) is provided on the frame (1), through the conveying subassembly (12) with feeding subassembly (2) intercommunication, arrangement subassembly (6) include:

A first rotating roller (7) rotatably arranged on the frame (1);

The clamping arms (8) are provided with a plurality of clamping ends, the plurality of clamping arms (8) are circumferentially arranged on the first rotating roller (7), and the plurality of clamping arms (8) are respectively provided with a clamping end used for clamping a workpiece;

the first guide rails (9) are arranged on the frame (1), and the guide of the first guide rails (9) is perpendicular to the conveying direction of the workpieces;

The first extrusion plates (10) are provided with a plurality of first extrusion plates (10) which are arranged on the first guide rail (9) in a sliding way;

The first driving unit (11) is arranged on the frame (1), and the first driving unit (11) is used for driving the first extrusion plates (10) on two sides of a workpiece to be close to or far away from each other.

2. A small dense plate collector for lead acid batteries according to claim 1, wherein the clamping arm (8) comprises:

A support bar (33), the support bar (33) being arranged on the first rotating roller (7);

A telescopic member (34), the telescopic member (34) being disposed on the support rod (33);

The sliding plate (35) is arranged on the telescopic end of the telescopic piece (34) in a sliding mode, and after the telescopic piece (34) stretches, the sliding plate (35) is used for pushing a workpiece.

3. The lead acid battery small dense plate take-up machine of claim 1 wherein said transport assembly (12) comprises:

The conveying rollers (36) are rotatably arranged on the frame (1);

The conveying units (13) are arranged on the frame (1) at intervals, and are wound on the conveying rollers (36), and a plurality of avoiding gaps (14) are formed among the conveying units (13);

The tensioning piece (15) is arranged on the frame (1), and the tensioning piece (15) is used for tensioning a plurality of conveying units (13).

4. A small dense plate collector for lead acid batteries according to claim 3 wherein said feed assembly (2) comprises:

The first conveying belt (16) is arranged on the frame (1) and is perpendicular to the conveying direction of the workpieces;

the second conveying belt (17) is arranged on the frame (1) along the conveying direction of the workpiece, and the second conveying belt (17) is provided with a plurality of adsorption holes (18);

The air flue (19) is provided with a plurality of air holes, the air flue (19) is arranged in the second conveying belt (17), the adsorption holes (18) are communicated with the air holes, and the adsorption holes (18) are used for adsorbing workpieces.

5. The lead acid battery small dense plate take-up machine of claim 4 wherein said transport assembly (12) has a plurality, further comprising:

Interval material loading subassembly (3), through conveying assembly (12) set up feeding subassembly (2) with between arrangement subassembly (6), interval material loading subassembly (3) include:

The baffle plate (37) is arranged on the frame (1) and positioned below the second conveying belt (17) and used for scraping a workpiece;

The first expansion plate (20) is provided with a plurality of first expansion plates (20), the first expansion plates (20) are respectively arranged in the avoidance gaps (14) in a moving mode, and the first expansion plates are located between the feeding assembly (2) and the finishing assembly (6).

6. The small dense plate take-up machine of a lead acid battery of claim 5, further comprising:

A first pre-finishing assembly (4) arranged between the interval feeding assembly (3) and the finishing assembly (6) through the conveying assembly (12), the first pre-finishing assembly (4) comprising:

A second rotating roller (21) arranged on the frame (1);

The rotating discs (22) are provided with a plurality of first through grooves (23) which are circumferentially arranged by taking the second rotating roller (21) as a circle center, and the plurality of rotating discs (22) are respectively arranged on the second rotating roller (21) at intervals and pass through the plurality of avoidance gaps (14) after rotating;

The second guide rails (24) are arranged on the frame (1) and are perpendicular to the conveying direction of the workpieces;

The second extrusion plates (25) are provided with a plurality of second extrusion plates (25), and the second extrusion plates (25) are arranged on the second guide rail (24) in a sliding manner;

the second driving unit (26) is arranged on the frame (1) and connected with the second extruding plate (25), and the second driving unit (26) is used for driving conveying components on two sides of the second extruding plate (25).

7. The small dense plate take-up machine of a lead acid battery of claim 6, further comprising:

A second pre-conditioning assembly (5) arranged between the first pre-conditioning assembly (4) and the finishing assembly (6) by means of a conveying assembly (12), the second pre-conditioning assembly (5) comprising:

The support plate (27) is arranged on the frame (1) in a sliding manner, and the support plate (27) is used for supporting a workpiece;

A third driving unit (28) arranged on the frame (1), wherein the third driving unit (28) is used for driving the supporting plate (27) to slide;

The fourth driving units (29) are provided with a plurality of, and the fourth driving units (29) are arranged on the frame (1);

The third extrusion plates (30) are provided with a plurality of third extrusion plates (30) which are respectively arranged on the driving ends of the fourth driving units (29), and the third extrusion plates (30) are used for extruding workpieces on the supporting plates (27).

8. The small dense plate collector for lead acid batteries of claim 7 wherein said support plate (27) has a plurality of second through slots (31), said second pre-conditioning assembly (5) further comprising:

The second expansion plate (32) is provided with a plurality of second expansion plates (32), the second expansion plates (32) are respectively arranged in the second pre-finishing assembly (5) and the avoidance gaps (14) of the finishing assembly (6), the second expansion plates are positioned below the supporting plate (27), and the second expansion plates (32) can penetrate through the second through grooves (31).