CN221026093U - Photovoltaic terminal box turn-over conveyor - Google Patents

Abstract

The utility model belongs to the technical field of conveying devices, and relates to a photovoltaic junction box overturning conveying device, which comprises an overturning mechanism composed of an overturning power assembly and an overturning clamping assembly, wherein the rotating clamping assembly comprises two clamping cylinders, a first rotating shaft, a second rotating shaft, a first overturning conveying line, a second overturning conveying line, a pair of first mounting plates and a pair of second mounting plates; the clamping cylinder realizes opposite or reverse movement of the first overturning conveying line and the second overturning conveying line; the first overturning conveying line and the second overturning conveying line are wide belts with the width larger than that of the photovoltaic junction box, and the two wide belts are conveyed in the same direction. When the clamping cylinder drives the first overturning conveying line to be close to the second overturning conveying line, the first overturning conveying line and the second overturning conveying line can clamp the photovoltaic junction box, and therefore the photovoltaic junction box cannot fall between the first overturning conveying line and the second overturning conveying line when the overturning clamping assembly performs 180-degree overturning.

Description

Photovoltaic terminal box turn-over conveyor

Technical Field

The utility model relates to the technical field of metal stamping, in particular to a turnover conveying device for a photovoltaic junction box.

Background

The photovoltaic junction box is an electronic component used for converting light energy into electric energy in a solar photovoltaic module. When the solar photovoltaic module is manufactured, the photovoltaic junction box needs to be transported to a specified position, the position of the front side and the back side of the junction box is inaccurate easily in the transportation process, a plurality of turnover devices are needed, most of the current market adopts a manual mode or adopts other equipment, but the effect is not ideal.

Chinese patent CN216470611U discloses a PCB board conveying mechanism, includes feeding transfer chain, upset transfer chain and the ejection of compact transfer chain of arranging independently in proper order along PCB board direction of delivery, and wherein, upset transfer chain includes conveying component and upset subassembly, and conveying component can press from both sides and establish fixed PCB board to can carry the feeding transfer chain carried PCB board to give out the material transfer chain, upset subassembly can drive conveying component upset, in order to make the back up setting of PCB board. The PCB is a rectangular thin plate, so that the PCB is only required to be conveyed, clamped and fixed on two sides of the conveying direction and then turned over. Because the upper and lower fixed plates exist, the PCB can be clamped, so that the PCB cannot fall off from between the upper and lower conveyer belts in the overturning process. But the photovoltaic terminal box is shell structure, and thickness is big, and the width is narrow, adopts above structure can't both guarantee that the photovoltaic terminal box can pass through simultaneously and avoid the upset in-process to drop again.

It is therefore desirable to provide a new conveyor structure that addresses the above issues.

Disclosure of Invention

The utility model mainly aims to provide a photovoltaic junction box overturning and conveying device which can help the photovoltaic junction box to overturn the front and the back in the conveying process.

The utility model realizes the aim through the following technical scheme: the turnover power assembly comprises motor mounting plates and auxiliary mounting plates which are oppositely arranged at two sides of the conveying direction and a turnover motor fixed on the motor mounting plates, the turnover clamping assembly is rotatably arranged between the motor mounting plates and the auxiliary mounting plates, and the turnover motor drives the turnover clamping assembly to rotate around a horizontal shaft; the rotary clamping assembly comprises two clamping cylinders, a first rotating shaft and a second rotating shaft which are respectively fixed with one clamping cylinder, a first overturning conveying line, a second overturning conveying line, a pair of first mounting plates fixed on two sides of the first overturning conveying line and a pair of second mounting plates fixed on two sides of the second overturning conveying line; a pair of floating blocks are arranged on the inner side of each clamping cylinder and are respectively fixed with the middle parts of the first mounting plate and the second mounting plate so as to realize opposite or reverse movement of the first overturning conveying line and the second overturning conveying line; the first rotating shaft and the second rotating shaft are coaxial, the axis is positioned in the clamping center plane of the clamping cylinder, the first rotating shaft is rotatably arranged on the motor mounting plate, and the second rotating shaft is rotatably arranged on the auxiliary mounting plate; the first overturning conveying line and the second overturning conveying line are wide belts with the width larger than that of the photovoltaic junction box, and the two wide belts are conveyed in the same direction.

Specifically, still include feeding transfer chain and ejection of compact transfer chain, feeding transfer chain tilting mechanism with ejection of compact transfer chain sets gradually along photovoltaic terminal box direction of delivery.

Specifically, the first mounting plate and the second mounting plate are guided to linearly move along the driving direction of the clamping cylinder through the guide assembly.

Further, the guide assembly comprises a sliding block and a linear sliding rail, wherein the sliding block is arranged on two sides of one of the first mounting plate and the second mounting plate, two sides of the other one of the first mounting plate and the second mounting plate, the sliding block is in sliding fit with the linear sliding rail, and the sliding direction is perpendicular to the conveying surfaces of the first overturning conveying line and the second overturning conveying line.

Specifically, the first pivot is passing the outer end of motor mounting panel is fixed with driven pulley, the upset motor is fixed in the inboard of motor mounting panel and drive one is located the driving pulley in the motor mounting panel outside, the upset motor is located outside the rotation scope of upset clamping assembly, the driving pulley with the winding has driving belt on the driven pulley.

Specifically, the second pivot is being passed be equipped with the zero point scale mark on the terminal surface of supplementary mounting panel, the outside of supplementary mounting panel is equipped with the zero point locating needle, works as the zero point locating needle is aimed at when the zero point scale mark, the transport face of second upset transfer chain is in horizontal position and face up.

The technical scheme of the utility model has the beneficial effects that:

The first upset transfer chain and second upset transfer chain all adopt the width to be greater than the wide belt of photovoltaic terminal box among this conveyor, when pressing from both sides tight cylinder drive first upset transfer chain and second upset transfer chain and be close to, the photovoltaic terminal box can be cliied to first upset transfer chain and second upset transfer chain, just so can not follow between first upset transfer chain and the second upset transfer chain when the upset clamp assembly carries out 180 upset photovoltaic terminal box.

Drawings

FIG. 1 is a perspective view of a photovoltaic junction box turn-over conveyor;

FIG. 2 is an enlarged view of a portion of the position A of FIG. 1;

FIG. 3 is a left side view of the flipping mechanism;

FIG. 4 is a perspective view of the flipping mechanism;

fig. 5 is a perspective view of the reversing cylinder.

The figures represent the numbers:

1-a feed conveyor line;

A 2-turning mechanism, wherein the turning mechanism is provided with a plurality of turning grooves,

21-Of a turnover power assembly, 211-of a motor mounting plate, 212-of an auxiliary mounting plate, 2121-of a zero-point positioning needle, 213-of a turnover motor, 2131-of a driving pulley, 214-of a driven pulley and 215-of a transmission belt;

22-overturning clamping components, 221-clamping cylinders, 2211-floating blocks, 222 a-first rotating shafts, 222 b-second rotating shafts, 2221-zero point scale marks, 223 a-first overturning conveying lines, 223 b-second overturning conveying lines, 224-first mounting plates, 2241-sliding blocks, 225-second mounting plates and 2251-linear sliding rails;

3-a discharging conveying line.

Detailed Description

The present utility model will be described in further detail with reference to specific examples.

Examples:

As shown in fig. 1, the turnover conveying device for the photovoltaic junction box comprises a feeding conveying line 1, a turnover mechanism 2 and a discharging conveying line 3 which are sequentially arranged along the conveying direction of the photovoltaic junction box, wherein the turnover mechanism 2 comprises a turnover power assembly 21 and a turnover clamping assembly 22.

As shown in fig. 3 and 4, the turnover power assembly 21 includes a motor mounting plate 211, an auxiliary mounting plate 212, and a turnover motor 213, the motor mounting plate 211 and the auxiliary mounting plate 212 are relatively disposed at both sides of the conveying direction, the turnover clamping assembly 22 is rotatably disposed between the motor mounting plate 211 and the auxiliary mounting plate 212, and the turnover motor 213 is fixed to the motor mounting plate 211 and drives the turnover clamping assembly 22 to rotate about a horizontal axis.

As shown in fig. 3 and 4, the rotary clamping assembly 22 includes two clamping cylinders 221, a first rotary shaft 222a, a second rotary shaft 222b, a first turnover conveyor line 223a, a second turnover conveyor line 223b, a pair of first mounting plates 224, and a pair of second mounting plates 225; a pair of first mounting plates 224 are fixed to both sides of the first turnover conveyor line 223a, a pair of second mounting plates 225 are fixed to both sides of the second turnover conveyor line 223b, and a pair of floating blocks 2211 are arranged on the inner side of each clamping cylinder 221 and are respectively fixed to the middle parts of the first mounting plates 224 and the second mounting plates 225 so as to realize opposite or reverse movement of the first turnover conveyor line 223a and the second turnover conveyor line 223 b; the first rotating shaft 222a and the second rotating shaft 222b are respectively fixed with one clamping cylinder 221, the first rotating shaft 222a and the second rotating shaft 222b are coaxial, the axes are positioned in the clamping center plane of the clamping cylinder 221, the first rotating shaft 222a is rotatably arranged on the motor mounting plate 211, and the second rotating shaft 222b is rotatably arranged on the auxiliary mounting plate 212; two sides of each first mounting plate 224 are respectively provided with a sliding block 2241, two sides of each second mounting plate 225 are respectively provided with a linear sliding rail 2251, the sliding blocks 2241 are in sliding fit with the linear sliding rails 2251, and the sliding direction is perpendicular to the conveying surfaces of the first overturning conveying line 223a and the second overturning conveying line 223 b.

The slider 2241 and the linear slide 2251 constitute a set of guide members to guide the first and second inverting conveyance lines 223a and 223b to linearly move along the driving direction of the clamping cylinder 221. The fixed positions of the slide 2241 and the linear slide 2251 may be exchanged, or may be replaced by a mechanism having a guiding function, such as a slide bushing and a slide bar.

The first turnover conveying line 223a and the second turnover conveying line 223b are both wide belts with the width larger than that of the photovoltaic junction box, and the two wide belts are conveyed in the same direction.

When the clamping cylinder 221 drives the first turnover conveying line 223a to approach the second turnover conveying line 223b, the first turnover conveying line 223a and the second turnover conveying line 223b clamp the photovoltaic junction box, so that the photovoltaic junction box cannot fall off between the first turnover conveying line 223a and the second turnover conveying line 223b when the turnover clamping assembly 22 performs 180-degree turnover.

The first rotation shaft 222a is fixed with a driven pulley 214 at an outer end passing through the motor mounting plate 211, the flip motor 213 is fixed at an inner side of the motor mounting plate 211 and drives a driving pulley 2131 positioned at an outer side of the motor mounting plate 211, the flip motor 213 is positioned outside a rotation range of the flip clamp assembly 22, and a driving belt 215 is wound around the driving pulley 2131 and the driven pulley 214.

The inverting motor 213 does not directly drive the inverting clamp assembly 22 to rotate, but transmits rotational power through the cooperation of the driving pulley 2131, the driven pulley 214, and the transmission belt 215. This configuration allows, on the one hand, the flipping motor 213 to be located within the width of the flipping chuck assembly 22, reducing the maximum width of the conveyor, and, on the other hand, the drive shaft of the flipping motor 213 to not become vulnerable due to a large misalignment with the first rotation shaft 222 a.

The second rotating shaft 222b is provided with a zero point scale mark 2221 on an end surface passing through the auxiliary mounting plate 212, the outer side of the auxiliary mounting plate 212 is provided with a zero point positioning needle 2121, and when the zero point positioning needle 2121 is aligned with the zero point scale mark 2221, the conveying surface of the second turning conveying line 223b is in a horizontal plane and faces upwards.

Zero scale mark 2221 and zero positioning needle 2121 cooperation can debug the initial state level of second upset transfer chain 223b, and the photovoltaic terminal box does not have the gliding trend in both sides in the in-process that removes second upset transfer chain 223b like this, makes the photovoltaic terminal box can accomplish the turn-over in tilting mechanism 2's central point position.

What has been described above is merely some embodiments of the present utility model. It will be apparent to those skilled in the art that various modifications and improvements can be made without departing from the spirit of the utility model.

Claims (6)

1. The utility model provides a photovoltaic terminal box turn-over conveyor, includes the tilting mechanism who comprises upset power component and upset clamping assembly, its characterized in that: the turnover power assembly comprises a motor mounting plate, an auxiliary mounting plate and a turnover motor, wherein the motor mounting plate and the auxiliary mounting plate are oppositely arranged at two sides of the conveying direction, the turnover motor is fixed on the motor mounting plate, the turnover clamping assembly is rotatably arranged between the motor mounting plate and the auxiliary mounting plate, and the turnover motor drives the turnover clamping assembly to rotate around a horizontal shaft; the rotary clamping assembly comprises two clamping cylinders, a first rotating shaft and a second rotating shaft which are respectively fixed with one clamping cylinder, a first overturning conveying line, a second overturning conveying line, a pair of first mounting plates fixed on two sides of the first overturning conveying line and a pair of second mounting plates fixed on two sides of the second overturning conveying line; a pair of floating blocks are arranged on the inner side of each clamping cylinder and are respectively fixed with the middle parts of the first mounting plate and the second mounting plate so as to realize opposite or reverse movement of the first overturning conveying line and the second overturning conveying line; the first rotating shaft and the second rotating shaft are coaxial, the axis is positioned in the clamping center plane of the clamping cylinder, the first rotating shaft is rotatably arranged on the motor mounting plate, and the second rotating shaft is rotatably arranged on the auxiliary mounting plate; the first overturning conveying line and the second overturning conveying line are wide belts with the width larger than that of the photovoltaic junction box, and the two wide belts are conveyed in the same direction.

2. The photovoltaic junction box turn-over conveying device according to claim 1, wherein: still include feeding transfer chain and ejection of compact transfer chain, feeding transfer chain tilting mechanism with ejection of compact transfer chain sets gradually along photovoltaic terminal box direction of delivery.

3. The photovoltaic junction box turn-over conveying device according to claim 1, wherein: the first mounting plate and the second mounting plate are guided to linearly move along the driving direction of the clamping cylinder through the guide assembly.

4. The photovoltaic junction box turn-up conveyor of claim 3, wherein: the guide assembly comprises a sliding block and a linear sliding rail, wherein the sliding block is arranged on two sides of one of the first mounting plate and the second mounting plate, two sides of the other one of the first mounting plate and the second mounting plate, the sliding block is in sliding fit with the linear sliding rail, and the sliding direction is perpendicular to the conveying surfaces of the first overturning conveying line and the second overturning conveying line.

5. The photovoltaic junction box turn-over conveying device according to claim 1, wherein: the first rotating shaft penetrates through the outer end of the motor mounting plate to be fixed with a driven belt pulley, the turnover motor is fixed on the inner side of the motor mounting plate and drives a driving belt pulley located on the outer side of the motor mounting plate, the turnover motor is located outside the rotating range of the turnover clamping assembly, and a driving belt is wound on the driving belt pulley and the driven belt pulley.

6. The photovoltaic junction box turn-over conveying device according to claim 1, wherein: the second rotating shaft penetrates through the end face of the auxiliary mounting plate, a zero point scale mark is arranged on the outer side of the auxiliary mounting plate, a zero point positioning needle is arranged on the outer side of the auxiliary mounting plate, and when the zero point positioning needle is aligned with the zero point scale mark, the conveying surface of the second overturning conveying line is positioned at a horizontal position and faces upwards.