CN209956860U - Automatic panel turnover machine - Google Patents

Abstract

The utility model relates to an automatic plate turnover machine, which comprises a base, a first bracket and a second bracket which are arranged on the base and are arranged in a separated way, a first circular guide rail and a second circular guide rail which are respectively arranged on the first bracket and the second bracket and are vertically arranged, and a plate bearing device which is arranged on the first circular guide rail and the second circular guide rail; the first circular guide rail and the second circular guide rail can synchronously rotate forwards or reversely around a common horizontal virtual shaft; the plate bearing device rotates along with the first circular guide rail and the second circular guide rail. The utility model discloses an automatic panel turnover machine has advantages such as high efficiency, safety, suitable line production.

Description

Automatic panel turnover machine

Technical Field

The utility model relates to a door plant manufacturing machinery, more specifically say, relate to an automatic panel turnover machine.

Background

After the door panels have been subjected to a treatment such as grinding, engraving or painting on one side, it is often necessary to turn the door panels over in order to further process the other side. At this moment, the door panel needs to be turned over, the existing operation is usually carried out manually, namely two persons respectively hold two ends of the door panel and then turn over manually. For small door panels, this is possible because of the low weight, however, in the case of large door panels, this operation has unsafe factors and is inefficient to produce.

Disclosure of Invention

The utility model aims at providing a high-efficient, safe and be fit for line production's automatic panel turnover machine.

In order to achieve the purpose, the utility model provides an automatic plate turnover machine, which comprises a base, a first bracket and a second bracket which are arranged on the base and are arranged at intervals, a first circular guide rail and a second circular guide rail which are respectively arranged on the first bracket and the second bracket and are vertically arranged, and a plate bearing device which is arranged on the first circular guide rail and the second circular guide rail; the first circular guide rail and the second circular guide rail can synchronously rotate forwards or reversely around a common horizontal virtual shaft; the plate bearing device rotates along with the first circular guide rail and the second circular guide rail.

Preferably, the plate carrier is provided inside the first and second circular rails as viewed in the direction of the virtual axis, which passes through a central region of the plate carrier.

Preferably, the device further comprises a first transmission chain and a second transmission chain which are used for synchronously moving with the first circular guide rail and the second circular guide rail, wherein the first transmission chain acts on the upper half periphery of the first circular guide rail, and the second transmission chain acts on the upper half periphery of the second circular guide rail.

Preferably, the first bracket and the second bracket both comprise a pair of riding wheels which are arranged at intervals, and the first circular guide rail is limited by the first transmission chain from the top and the riding wheels of the first bracket from the bottom; the second circular guide rail is limited by the second transmission chain from the top and the riding wheel of the second bracket from the bottom.

Preferably, the transmission device further comprises a transmission shaft for transmitting the driving force of the motor to the downstream, and at least one of the first transmission chain and the second transmission chain is in power connection with the transmission shaft.

Preferably, the first drive chain and the second drive chain are both closed loops.

Preferably, the first circular guide and the second circular guide are connected by a connecting rod, said connecting rod being parallel to said virtual axis.

According to the scheme, the door plate loaded in the plate loading device can be overturned by 180 degrees along with a pair of vertically-arranged circular guide rails which can synchronously rotate forwards and backwards around a common horizontal virtual shaft, and the forward and backward rotating means of the circular guide rails can be easily obtained, so that the overturning work can be efficiently finished by a machine; in addition, the plate bearing device is integrally positioned in the circular guide rail when viewed from the side, namely, for the whole machine, the rotating part is positioned in a given range, so that the safety of peripheral personnel and machines can be greatly ensured; and moreover, the automatic plate turnover machine can realize automatic production by connecting the plate bearing device into an upstream conveying device and a downstream conveying device for processing operation.

Therefore, the utility model discloses an automatic panel turnover machine has advantages such as high efficiency, safety, be fit for line production.

Drawings

Fig. 1 is a perspective view of the automatic plate turnover machine of the present invention;

fig. 2 is a schematic view of a driving structure of the automatic plate turnover machine of the present invention;

fig. 3 is a perspective view of a plate bearing device of the automatic plate turnover machine of the invention;

fig. 4 is a schematic view of the installation and driving of the circular guide rail of the automatic plate turnover machine of the present invention;

FIG. 5 is a schematic view of FIG. 4 after it has been exploded;

the present invention will be further explained with reference to the drawings and examples.

Detailed Description

Fig. 1 is a perspective view of the automatic plate turnover machine of the present invention. Referring to fig. 1, the automatic plate turnover machine comprises a base 10, a pair of brackets 4 arranged on the base, a pair of circular guide rails 5 arranged on the brackets 4 and vertically placed, and a plate carrying device 6 arranged on the circular guide rails 5 and rotating along with the guide rails.

The motor 1 arranged on the base 10 drives the transmission shaft 2, then the transmission shaft 2 drives the transmission chain 3, and the transmission chain 3 transmits the driving force to the circular guide rail 5. The motor 1 can preset the forward and reverse strokes, so that the circular guide rail 5 can just rotate forward or reversely for 180 degrees when working, and the plate bearing device 6 can just turn over for 180 degrees each time.

Referring to fig. 2, in the present invention, the transmission chain 3, the bracket 4 and the circular guide rail 5 are all arranged in pairs. That is, a first transmission chain 31, a first bracket 41 and a first circular guide 51 are arranged at one longitudinal end of the base 10; correspondingly, the other longitudinal end of the machine base 10 is provided with a second transmission chain 32, a second bracket 42 and a second circular guide rail 52. In this embodiment, the driving shaft 2 drives the driving chains 31 and 32 at both axial ends thereof, respectively, and then simultaneously drives the first circular guide 51 and the second circular guide 52 in forward rotation or reverse rotation about a common horizontal virtual axis L1. The first circular guide 51 and the second circular guide 52 are connected by a connecting rod 53 parallel to said virtual axis L1 to ensure that the two guides are always synchronized in rotation.

Referring to fig. 1 and 2, the plate carrier 6 is disposed inside the first circular guide 51 and the second circular guide 52 as viewed along the virtual axis L1, so that the rotating portion is limited to a specific area, and the relative safety of people and things outside the area can be ensured; further, the virtual axis L1 passes through the center region of the board carrier 6, and it is more preferable that the virtual axis L1 coincides with the center of gravity of the board carrier 6, so that the circular guide 5 rotates more smoothly.

Referring to fig. 3, the panel carrier 6 includes a first clamping portion 61 and a second clamping portion 62 in upper and lower orientations, respectively. The two clamping parts respectively clamp the door plate to be overturned from the upper direction and the lower direction, and then overturn along with the guide rail 5. The plate carrier 6 is connected at one longitudinal end to a first circular rail 51 and at the other end to a second circular rail 52. The plate bearing device 6 can be connected with an upstream conveying device and a downstream conveying device for processing operation, and automatic production of the automatic plate turnover machine can be realized.

Referring to fig. 4 and 5, the mounting and driving manner of the circular guide 5 will now be described. The description of fig. 4 and 5 applies to either longitudinal end of the automatic plate turnover machine of the present invention.

The drive chain 3 is of a closed loop structure, connected end to end or without end to end, and bypasses the upper half peripheral portion of the circular guide rail 5 and a part of the peripheral portion of the drive shaft 2 located below. The drive shafts 2 are provided one on each of the left and right. It will be appreciated that the drive shaft 2 may provide drive to the drive chain 3 by either or both. The drive chain 3 acts on the upper half of the circumference of the circular guide rail 5 to provide a driving force.

The support 4 includes a pair of spaced apart idlers 43. The circular guide 5 is limited from above by the drive chain 3 and from below by the idler 43. In other words, the circular guide 5 is mounted in a predetermined position on the support 4 under the combined action of the depression of the drive chain 3 and the support of the two idlers 43.

Thus, when the driving shaft 2 rotates clockwise, the circular guide 5 also rotates clockwise by the driving chain 3. When the driving shaft 2 rotates counterclockwise, the circular guide 5 rotates counterclockwise through the transmission chain 3. The idler 43 is rotated by the circular guide 5.

From the above, the installation and driving structure of the circular guide rail 5 is simple, compact and effective.

The utility model discloses there are multiple deformations, for example, base 10 can be directly the earth, and support 4 direct mount is in the earth promptly. The two brackets 4 can also be integrally connected with the base 10. The drive shaft 2 may also drive only one of the drive chains 3, i.e. only one circular guide rail receives drive from the motor.

Finally, it should be emphasized that the present invention is not limited to the above-described embodiments, but only to the preferred embodiments of the invention, and the invention is not limited to the above-described embodiments, and any modifications, equivalent replacements, improvements, etc. within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (4)

1. The utility model provides an automatic panel turnover machine, includes a base, locate on the base, separate first support and the second support that sets up, its characterized in that:

the plate bearing device is arranged on the first circular guide rail and the second circular guide rail and rotates along with the first circular guide rail and the second circular guide rail;

the first circular guide rail and the second circular guide rail can synchronously rotate forwards or reversely around a common horizontal virtual shaft;

the first transmission chain and the second transmission chain are used for synchronously moving with the first circular guide rail and the second circular guide rail, the first transmission chain acts on the upper half periphery of the first circular guide rail, and the second transmission chain acts on the upper half periphery of the second circular guide rail;

the driving shaft is arranged below the first circular guide rail and the second circular guide rail, and the driving shaft is arranged on the left side and the right side of the first circular guide rail and the second circular guide rail respectively;

the first transmission chain and the second transmission chain are closed loops, the upper portions of the first transmission chain and the second transmission chain are meshed with the upper half peripheries of the corresponding circular guide rails, and the lower portions of the first transmission chain and the second transmission chain are meshed with the lower sides and the corresponding outer sides of the pair of driving shafts, so that the driving shafts drive the first circular guide rails and the second circular guide rails.

2. The automatic plate turnover machine of claim 1, wherein: the plate bearing device is arranged inside the first circular guide rail and the second circular guide rail when viewed along the direction of the virtual shaft, and the virtual shaft penetrates through the central area of the plate bearing device.

3. The automatic plate turnover machine of claim 2, wherein: the first support and the second support respectively comprise a pair of riding wheels which are arranged at intervals, and the first round guide rail is limited by the first transmission chain from the top and the riding wheels of the first support from the bottom; the second round guide rail is limited by the second transmission chain from the top and the riding wheel of the second bracket from the bottom; the driving shaft is positioned below and outside the riding wheel.

4. The automatic plate turnover machine of claim 3, characterized in that: the first circular guide rail and the second circular guide rail are connected by a connecting rod, and the connecting rod is parallel to the virtual shaft.

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