CN214140269U - Translation device - Google Patents

Abstract

The utility model provides a translation device, including removing spout, cargo platform, mobile device, first fixed bolster, second fixed bolster and first sensor, first fixed bolster with the second fixed bolster sets up respectively in the mobile device both sides and is used for fixing this mobile device, it connects to remove spout slidable the mobile device is last and realize the slip between this first fixed bolster and second fixed bolster under this mobile device's drive, cargo platform movably sets up on the removal spout, first sensor is fixed in first fixed bolster and is used for detecting when cargo platform removes to removing the spout send the order to mobile device and make its work and drive this removal spout and slide between this first fixed bolster and second fixed bolster. The utility model discloses realize an intelligence, automatic, reliable translation mode, improved production efficiency.

Description

Translation device

Technical Field

The utility model belongs to the technical field of mechanical equipment, especially, relate to a translation device.

Background

In industrial production processes in many fields, a production problem is faced, namely a material needs to be moved from one place to another in a specified direction, most of the prior art still adopts a manual handling operation mode, and some of the prior art still adopts a specific device to realize the manual handling operation mode, but the prior art cannot intelligently, automatically and reliably move a carrier carrying the material from one place to another place, so that the production efficiency of the upstream and the downstream of a production line is influenced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome the not enough of above-mentioned prior art existence, provide a translation device, automated inspection cargo platform and the spacing cooperation of removing the spout to make this cargo platform can realize an intelligence, automatic, reliable translation mode between this first fixed bolster and second fixed bolster under mobile device's drive, improved production efficiency.

The utility model provides a translation device, which comprises a movable chute, a loading platform, a moving device, a first fixed bracket, a second fixed bracket and a first sensor;

the first fixing support and the second fixing support are respectively arranged on two sides of the moving device and used for fixing the moving device, the moving sliding groove is connected to the moving device in a sliding mode and slides between the first fixing support and the second fixing support under the driving of the moving device, the carrying platform is movably arranged on the moving sliding groove, and the first sensor is fixed on the first fixing support and used for detecting that when the carrying platform moves to the moving sliding groove, a command is sent to the moving device to enable the moving device to work and drive the moving sliding groove to slide between the first fixing support and the second fixing support.

Further, the moving device comprises a sliding block and at least one sliding guide rod, two ends of the at least one sliding guide rod are respectively fixed on the first fixing support and the second fixing support, the sliding block is connected to the sliding guide rod in a sliding mode, and the moving sliding groove is fixed above the sliding block.

Further, the number of the sliding guide rods is three.

Further, the movable sliding groove comprises a first baffle, a second baffle and a third baffle, the first baffle, the second baffle and the third baffle are respectively arranged in three different directions on the upper portion of the movable sliding groove and used for limiting the loading platform in the three directions, and the loading platform can slide along the direction of a horizontal notch of the movable sliding groove and is in limited fit with the first baffle, the second baffle and the third baffle when sliding into the movable sliding groove from the horizontal notch.

Furthermore, the movable sliding groove comprises at least one first fixed magnet, the first fixed magnet is fixed at a position of a first baffle plate opposite to the horizontal notch of the movable sliding groove in the same straight line direction, the carrying platform comprises a second fixed magnet corresponding to the first fixed magnet, and the second fixed magnet is fixed at a position of the carrying platform corresponding to the first baffle plate and used for being attracted with the first fixed magnet when the carrying platform slides into the movable sliding groove to fix the carrying platform and the movable sliding groove.

Further, the carrying platform further comprises a first limiting column and a second limiting column, wherein the first limiting column and the second limiting column are arranged on one side of the second fixed magnet and used for limiting with the first baffle when the carrying platform slides into the moving chute.

Furthermore, the first sensor is fixed on the first fixed support through the sensor support and is opposite to the first limit column when the loading platform slides into the movable sliding chute.

Further, the first sensor is a laser type sensor.

The utility model has the advantages that:

the utility model provides a translation device, including removing spout, cargo platform, mobile device, first fixed bolster, second fixed bolster and first sensor, first fixed bolster with the second fixed bolster sets up respectively in the mobile device both sides and is used for fixing this mobile device, it connects to remove spout slidable the mobile device is last and realize the slip between this first fixed bolster and second fixed bolster under this mobile device's drive, cargo platform movably sets up on the removal spout, first sensor is fixed in first fixed bolster and is used for detecting when cargo platform removes to removing the spout send the order to mobile device and make its work and drive this removal spout and slide between this first fixed bolster and second fixed bolster. The utility model discloses realize an intelligence, automatic, reliable translation mode, improved production efficiency.

Drawings

The present invention is further explained by using the drawings, but the embodiments in the drawings do not constitute any limitation to the present invention, and for those skilled in the art, other drawings can be obtained according to the following drawings without any inventive work.

Fig. 1 is a schematic view of the overall structure of a translation device provided by the present invention.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings, and obviously, the described embodiments are some, but not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

The embodiment provides a translation device, which comprises a moving chute 1, a loading platform 2, a moving device, a first fixed bracket 4, a second fixed bracket 5 and a first sensor 6;

the first fixing support 4 and the second fixing support 5 are respectively arranged on two sides of the mobile device and used for fixing the mobile device, the mobile chute 1 is connected to the mobile device in a sliding mode and slides between the first fixing support 4 and the second fixing support 5 under the driving of the mobile device, the object carrying platform 2 is movably arranged on the mobile chute 1, and the first sensor 6 is fixed on the first fixing support 4 and used for detecting that when the object carrying platform 2 moves to the mobile chute 1, a command is sent to the mobile device to enable the mobile device to work and drive the mobile chute 1 to slide between the first fixing support 4 and the second fixing support 5.

It should be noted that, when the loading platform 2 moves to the moving chute 1, the first sensor 6 automatically detects the in-place information and sends a command to the moving device to operate the moving device, the moving chute 1 slides between the first fixed bracket 4 and the second fixed bracket 5 under the driving of the moving device, and the loading platform 2 fixed on the moving chute 1 in a limiting manner also slides between the first fixed bracket 4 and the second fixed bracket 5, so that an intelligent, automatic and reliable translation mode is realized, and the production efficiency is improved.

Preferably, the moving device in this embodiment is a transmission mode of a rodless cylinder, and includes a slider and three sliding guide rods 31, two ends of each of the three sliding guide rods 31 are respectively fixed to the first fixing bracket 4 and the second fixing bracket 5, the slider is slidably connected to the sliding guide rod 31, and the moving chute 1 is fixed above the slider. The transmission mode of adopting no pole cylinder is more stable in the transmission of minim scope, and is more reliable.

In this embodiment, the moving chute 1 includes a first baffle 11, a second baffle 12 and a third baffle 13, the upper portion of the moving chute 1 is a square plate structure, the first baffle 11, the second baffle 12 and the third baffle 13 are respectively disposed in three different directions of the square plate on the upper portion of the moving chute 1 and are used for limiting the loading platform 2 in the three directions, a horizontal notch in one direction is reserved at the upper part of the movable chute 1, the loading platform 2 can slide along the horizontal notch of the movable chute 1 and is in limit fit with the first baffle plate 11, the second baffle plate 12 and the third baffle plate 13 when sliding from the horizontal notch onto the movable chute 1, wherein when the loading platform 2 slides in along the horizontal gap direction of the movable sliding chute 1, the loading platform is abutted with the first baffle plate 11 for limitation, and the second baffle plate 12 and the third baffle plate 13 are limited on two sides of the loading platform 2.

Furthermore, the moving chute 1 comprises two first fixed magnets 14, the first fixed magnets 14 are fixed at the position of the first baffle 11 facing the same straight line of the horizontal gap of the moving chute 1, the loading platform 2 comprises second fixed magnets 20 corresponding to the first fixed magnets 14, and the second fixed magnets 20 are fixed at the position of the loading platform 2 corresponding to the first baffle 11 and used for attracting the first fixed magnets 14 when the loading platform 2 slides into the moving chute 1 to fix the loading platform 2 and the moving chute 1. The first fixed magnet 14 and the second fixed magnet 20 attract each other, so that the object carrying platform 2 and the movable chute 1 are fixed.

Preferably, the loading platform 2 further includes a first position-limiting pillar 21 and a second position-limiting pillar 22, and the first position-limiting pillar 21 and the second position-limiting pillar 22 are disposed on one side of the second fixed magnet 20 and are used for limiting with the first baffle 11 when the loading platform 2 slides into the moving chute 1. It should be noted that, there are gaps between the first baffle 11, the second baffle 12 and the third baffle 13 on the upper portion of the moving chute 1, and when the loading platform 2 slides onto the moving chute 1, the first limiting column 21 and the second limiting column 22 extend out of the two gaps and limit the first baffle 11, so as to prevent the loading platform 2 from moving in the left-right direction.

Preferably, the first sensor 6 is a laser sensor and is fixed to the first fixing support 4 through a sensor support 61, when the loading platform 2 slides into the moving chute 1, the first limit post 21 extends out of the notch and faces the first sensor 6, and when the first sensor 6 detects that the first limit post 21 is in place, a command is sent to the moving device and the moving device is enabled to work, so that an intelligent and automatic translation mode is realized.

Compared with the prior art, the utility model provides a translation device, which comprises a movable chute 1, an object carrying platform 2, a moving device, a first fixed bracket 4, a second fixed bracket 5 and a first sensor 6, wherein the first fixed bracket 4 and the second fixed bracket 5 are respectively arranged at two sides of the moving device and are used for fixing the moving device, the movable chute 1 is connected on the moving device in a sliding way and realizes the sliding between the first fixed bracket 4 and the second fixed bracket 5 under the driving of the moving device, the object carrying platform 2 is movably arranged on the movable chute 1, the first sensor 6 is fixed to the first fixed frame 4 and is used to detect when the loading platform 2 moves onto the moving chute 1, send a command to the moving device to operate the moving chute 1 and drive the moving chute 1 to slide between the first fixed frame 4 and the second fixed frame 5. The utility model discloses realize an intelligence, automatic, reliable translation mode, improved production efficiency.

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 is not limited to the embodiments, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included within the scope of the present invention.

Claims (8)

1. A translation device is characterized by comprising a movable sliding chute, an object carrying platform, a moving device, a first fixed support, a second fixed support and a first sensor;

the first fixing support and the second fixing support are respectively arranged on two sides of the moving device and used for fixing the moving device, the moving sliding groove is connected to the moving device in a sliding mode and slides between the first fixing support and the second fixing support under the driving of the moving device, the carrying platform is movably arranged on the moving sliding groove, and the first sensor is fixed on the first fixing support and used for detecting that when the carrying platform moves to the moving sliding groove, a command is sent to the moving device to enable the moving device to work and drive the moving sliding groove to slide between the first fixing support and the second fixing support.

2. The translation device according to claim 1, wherein said moving means comprises a sliding block and at least one sliding guide rod, both ends of said at least one sliding guide rod are fixed to said first fixing bracket and said second fixing bracket respectively, said sliding block is slidably connected to said sliding guide rod, and said moving chute is fixed above said sliding block.

3. The translation device according to claim 2, wherein said sliding guides are three in number.

4. The translation device according to claim 2, wherein the moving chute includes a first baffle, a second baffle and a third baffle, the first baffle, the second baffle and the third baffle are respectively disposed at three different directions of the upper portion of the moving chute and are used for limiting the loading platform in the three directions, the loading platform can slide along the horizontal notch direction of the moving chute and is in limiting fit with the first baffle, the second baffle and the third baffle when sliding from the horizontal notch into the moving chute.

5. The translation device according to claim 4, wherein the movable chute comprises at least one first fixed magnet fixed to a first baffle plate aligned with the horizontal notch of the movable chute, and the object platform comprises a second fixed magnet corresponding to the first fixed magnet, the second fixed magnet being fixed to the object platform at a position corresponding to the first baffle plate and being adapted to engage with the first fixed magnet when the object platform slides into the movable chute, so as to fix the object platform to the movable chute.

6. The translation device according to claim 5, wherein the carrier platform further comprises a first position-limiting post and a second position-limiting post, the first position-limiting post and the second position-limiting post being disposed on a side of the second fixed magnet and configured to limit the first baffle when the carrier platform slides into the sliding slot.

7. The translation device according to claim 6, wherein the first sensor is fixed to the first fixing bracket by a sensor bracket and faces the first position-limiting pillar when the stage slides into the moving chute.

8. The translation device according to claim 7, wherein said first sensor is a laser-type sensor.

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