CN214988756U - Full-automatic adobe transmission system - Google Patents

Abstract

The utility model discloses a full-automatic adobe transmission system, which is provided with a first lifting mechanism, a brick picking machine component and a second lifting mechanism in sequence along the transmission direction between a kiln outlet and a polishing machine; the first lifting mechanism comprises an upper lifting platform, a lower lifting platform and a green brick conveying belt; the brick picking machine assembly comprises a first brick picking machine, a conveying rail and a second brick picking machine, wherein the first brick picking machine, the conveying rail and the second brick picking machine are arranged along the conveying direction; the second lifting mechanism comprises an upper lifting platform, a lower lifting platform and a green brick conveying belt. Realize the effect of automatic transportation to the machine replaces the manual work, has saved the human cost, has strengthened the transport young olive, and the motor replaces traditional fuel to refute the car pollution, has proved workman's physical and mental health and safety, has solved the problem that cost of labor is high, work efficiency is low, operational environment is poor and the security is not high among the current adobe transportation.

Description

Full-automatic adobe transmission system

Technical Field

The utility model relates to a ceramic tile production field especially relates to a full-automatic adobe transmission system.

Background

The ceramic tile is a common building material product in modern society, is an indispensable decorative material, and is a ceramic tile which is fired by clay and is used for the ground and the floor of public buildings and civil buildings. After the ceramic tile product is sintered into a green brick by a kiln, the finished product is obtained by secondary processing in a polishing workshop.

The distance from the outlet of the kiln to the polishing machine is long for ceramic tile manufacturers on the market, and the distance is about 1 km or more for medium and large manufacturers. The transportation of prior art's adobe from kiln outlet to burnishing machine is transferred and is mostly relied on artifically or refutes the car, because the distance is far away, and artifical handling cost is higher and work efficiency is low down, refutes the car transportation cost also higher, refutes the car and produces waste gas and raise dust pollution easily in the transportation, endangers workman's physical and mental health, and the safety in utilization of a large amount of heavy vehicles also can not be ensured.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art, the utility model provides a full-automatic adobe transmission system has solved the problem that cost of labor is high, work efficiency is low, operational environment is poor and the security is not high in the current adobe transportation.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

full-automatic adobe transmission system sets gradually along direction of transfer between kiln export and burnishing machine: the brick picking machine comprises a first lifting mechanism, a brick picking machine assembly and a second lifting mechanism;

the first lifting mechanism comprises an upper lifting platform, a lower lifting platform and a green brick conveying belt, one lifting platform is connected with the kiln outlet, the other lifting platform is connected with the brick picking machine through a conveying line, and the green brick conveying belt is arranged between the two lifting platforms;

the brick picking machine assembly comprises a first brick picking machine, a conveying rail and a second brick picking machine, wherein the first brick picking machine, the conveying rail and the second brick picking machine are arranged along the conveying direction;

the second lifting mechanism comprises an upper lifting platform, a lower lifting platform and a green brick conveying belt, one lifting platform is connected with the second brick picking machine through a conveying line, and the other lifting platform is connected with the polishing machine through the green brick conveying belt.

Preferably, each lifting platform is provided with a wire rack, a belt, a transmission device and a guardrail.

Preferably, each green brick conveying belt is provided with a wire frame, a belt, a transmission device and a guardrail.

Preferably, the first brick picking machine and the second brick picking machine are both provided with a sucker for sucking green bricks and a blank storage rack for transporting on a conveying rail;

preferably, the suckers of the first brick picking machine and the second brick picking machine are arranged in opposite directions and are respectively arranged at the front end of the first brick picking machine and the rear end of the second brick picking machine along the conveying direction.

Preferably, a control system is further provided, and the control system adopts a programmable controller.

Compared with the prior art, the beneficial effects of the utility model are that: the full-automatic green brick conveying system is provided with a conveying device,

the brick blanks are adjusted to the height of the conveying line through a first lifting mechanism arranged at the outlet of the kiln, the brick blanks are conveyed to a first brick picking machine through the conveying line, the brick blanks are stacked into a pile through the first brick picking machine, then the pile is conveyed to a second brick picking machine through a conveying rail safely, and the second brick picking machine puts the piled brick blanks one by one on the conveying line and finally conveys the piled brick blanks to the inlet of a polishing machine.

In use, the automatic transportation effect is realized, the number of workers is effectively reduced, the labor intensity is reduced, the labor cost is effectively saved, the operation can be carried out for 24 hours, the transportation efficiency is improved, and the transportation cost is effectively reduced.

The technology is characterized in that the clean energy driven by the motor replaces the pollution energy of the traditional fuel barge, thereby effectively reducing the environmental pollution caused by transportation of the barge, reducing the use of operation vehicles and ensuring the physical and mental health and safety of workers.

Drawings

Fig. 1 is the structure schematic diagram of the full-automatic adobe transmission system of the utility model.

Wherein the symbols in the figures are as follows:

the brick picking machine comprises a kiln outlet 1, a polishing machine 2, a first lifting mechanism 3, a lifting platform 301, a green brick conveying belt 302, a brick picking machine assembly 4, a first brick picking machine 401, a conveying rail 402, a second brick picking machine 403, a second lifting mechanism 5, a lifting platform 501, a green brick conveying belt 502 and a conveying line 6.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. 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.

It should be noted that, in this document, terms such as "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Referring to fig. 1, fig. 1 is a schematic structural diagram of the full-automatic adobe conveying system of the present invention.

This full-automatic adobe transmission system sets gradually along direction of transfer between kiln export 1 and burnishing machine 2: the brick picking machine comprises a first lifting mechanism 3, a brick picking machine assembly 4 and a second lifting mechanism 5;

the first lifting mechanism 3 comprises an upper lifting platform, a lower lifting platform and a green brick conveying belt 302, one lifting platform 301 is connected with the kiln outlet 1, the other lifting platform 301 is connected with the brick picking machine through a conveying line 6, and the green brick conveying belt 302 is arranged between the two lifting platforms 301;

the brick picking machine assembly 4 comprises a first brick picking machine 401, a conveying track 402 and a second brick picking machine 403 which are arranged along the conveying direction;

the second lifting mechanism 5 comprises an upper lifting platform 501, a lower lifting platform 501 and a green brick conveying belt 502, one lifting platform 501 is connected with the second brick picking machine 403 through a conveying line 6, and the other lifting platform 501 is connected with the polishing machine 2 through the green brick conveying belt 502.

Preferably, each of the lifting platforms is provided with a wire stand (not shown), a belt (not shown), a transmission (not shown) and a guardrail (not shown).

Preferably, each of the green brick conveying belts is provided with a wire rack (not shown in the figure), a belt (not shown in the figure), a transmission device (not shown in the figure) and a guardrail (not shown in the figure).

Preferably, the first brick picking machine 401 and the second brick picking machine 403 are both provided with a suction cup (not shown in the figure) for sucking a green brick, a blank storage rack (not shown in the figure) transported on the conveying track 402;

the suckers of the first brick picking machine 401 and the second brick picking machine 403 are arranged in opposite directions and are respectively arranged at the front end of the first brick picking machine 401 and the rear end of the second brick picking machine 403 along the conveying direction.

Preferably, a control system is further provided, and the control system adopts a programmable controller.

A green brick conveying belt can be arranged between the kiln outlet 1 and the first lifting mechanism 3, and a green brick conveying belt can be arranged between the polishing machine 2 and the second lifting mechanism 5.

First elevating system 3 and second elevating system 5 all set up 2 lift platform, and one of them using-way can be through two lift platforms, gets up the equipment cooperation of co-altitude in the system, perhaps changes the direction of operation, effectively improves the adaptability of system to environment such as topography, and the practicality is high.

The programmable controller can realize control and operation, effectively adapts to severe environments such as high temperature, impact, vibration and the like of an industrial field, and is simpler to operate and control.

The electrical components in the application are all electrically connected with an external main controller and 220V mains supply, and the main controller can be a computer or other conventional known devices for controlling.

When the device is used, the green bricks at the kiln outlet 1 are conveyed to a lifting platform, then conveyed to another lifting platform through a green brick conveying belt and then enter a conveying line 6; the first brick picking machine 401 sucks the green bricks through the suckers, the green bricks are stacked on the green brick storage rack to be stacked, the green bricks are conveyed to the second brick picking machine 403 through the conveying rail 402, the suckers of the second brick picking machine 403 perform reverse operation, namely the stacked green bricks are put on the conveying line 6 one by one, and finally the height of the stacked green bricks is adjusted through the lifting platform, the green brick conveying belt and the lifting platform and conveyed to the polishing machine 2, so that full-automatic green brick conveying can be achieved.

In conclusion, the automatic transportation effect is realized in use, the number of workers is effectively reduced, the labor intensity is reduced, the labor cost is effectively saved, the operation can be carried out for 24 hours, the transportation efficiency is improved, and the transportation cost is effectively reduced.

The technology is characterized in that the clean energy driven by the motor replaces the pollution energy of the traditional fuel barge, thereby effectively reducing the environmental pollution caused by transportation of the barge, reducing the use of operation vehicles and ensuring the physical and mental health and safety of workers.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. Full-automatic adobe transmission system, its characterized in that sets gradually along direction of transfer between kiln export (1) and burnishing machine (2): the brick picking machine comprises a first lifting mechanism (3), a brick picking machine assembly (4) and a second lifting mechanism (5);

the first lifting mechanism comprises an upper lifting platform, a lower lifting platform and a green brick conveying belt, one lifting platform is connected with the kiln outlet, the other lifting platform is connected with the brick picking machine through a conveying line, and the green brick conveying belt is arranged between the two lifting platforms;

the brick picking machine assembly comprises a first brick picking machine (401), a conveying rail (402) and a second brick picking machine (403) which are arranged along the conveying direction;

the second lifting mechanism comprises an upper lifting platform, a lower lifting platform and a green brick conveying belt, one lifting platform is connected with the second brick picking machine through a conveying line, and the other lifting platform is connected with the polishing machine through the green brick conveying belt.

2. The fully automated green brick transfer system of claim 1 wherein each of the lifting platforms is provided with a wire rack, a belt, a transmission and a guardrail.

3. The fully automated green brick transfer system of claim 1 wherein each green brick conveyor belt is provided with a wire rack, a belt, a transmission and a guardrail.

4. The fully automatic adobe conveying system according to claim 1, wherein the first brick picking machine and the second brick picking machine are provided with suckers for sucking adobes and a blank storage rack for transporting on a conveying track;

the suckers of the first brick picking machine and the second brick picking machine are arranged in a reverse direction and are respectively arranged at the front end of the first brick picking machine and the rear end of the second brick picking machine along the transmission direction.

5. The fully automatic green brick conveying system according to any one of claims 1 to 4, wherein a control system is further provided, and the control system adopts a programmable controller.

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