CN220092190U - Online separation device for coarse grains and fine powder of broken glass - Google Patents

Abstract

The utility model discloses an on-line separation device for coarse grains and fine powder of cullet, which comprises a glass material pipe, a cullet feeding port arranged at the top of the glass material pipe, a glass waste discharge chute, a switching valve and a metal detector for detecting metal impurities added into the cullet, wherein the glass waste discharge chute is provided with a glass inlet and a glass outlet; the upper end of the glass waste discharge chute is communicated with the glass material pipe, the switching valve is arranged at the communication position, the lower part of the glass waste discharge chute is divided into a fine powder glass pipe and a block-shaped glass pipe, and a screen is arranged at the lower part of the glass waste discharge chute. The online separation device for coarse particles and fine powder of broken glass is reasonable in design, and when outsourced broken glass is added in the production process, once metal impurities which are invisible to eyes are mixed in the broken glass, a metal detector alarms and discharges waste, and after the waste is discharged, online sieving and flow distribution are carried out through a screen in a broken glass chute, so that tiny impurities harmful to glass production are successfully removed; the method can be used for online continuous treatment and has high separation efficiency.

Description

Online separation device for coarse grains and fine powder of broken glass

Technical Field

The utility model relates to the technical field of glass treatment, in particular to an online separation device for broken glass coarse grains and fine powder.

Background

At present, raw materials used for producing the plate glass, namely coarse particles and fine powder of the broken glass are effectively separated, impurities which possibly exist in the broken glass and are not easy to be seen by naked eyes are separated together with the fine powder, and the impurities are discharged as waste, so that the defects of simple substance silicon, small bubbles and the like in the glass product can be effectively reduced, and the quality of the glass product is effectively improved.

The outsourcing broken glass is recycled through waste, various impurities are certainly contained in the outsourcing broken glass, and different defects are brought to the surface of the glass plate by different impurities; in the past, the traditional method is to find a place offline to screen broken glass to separate fine powder, so that the method occupies a large place, uses certain manpower and equipment, and has low separation efficiency.

At present, some automatic equipment separates the materials, but the materials cannot be continuously carried out on line; the utility model provides a garrulous glass automatic separation device as disclosed in chinese patent CN 210207613U, includes the organism, is equipped with mounting groove and pull out the mouth on the organism, and the pull out mouth is linked together with the organism is inside and the pull out mouth is linked together with the mounting groove, has placed the permanent magnet net in the mounting groove, and the permanent magnet net passes the pull out mouth and stretches to the organism outside, is equipped with the pivot in the organism, and the pivot is connected with the screen cloth, and screen cloth one end is connected with pulling mechanism, and the screen cloth other end inserts in the discharge gate, discharge gate and pulling mechanism all establish on the organism and discharge gate and pulling mechanism are located the both sides of organism, the organism lateral wall on be equipped with two lift scraper mechanisms, two lift scraper mechanisms's position is corresponding and two lift scraper mechanisms are located the upper and lower both sides of permanent magnet net.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides an online separation device for broken glass coarse grains and fine powder, which can be used for online continuous treatment and has high separation efficiency.

In order to solve the technical problems, the utility model adopts the following technical scheme:

the device for separating the coarse grains and the fine powder of the cullet on line comprises a glass material pipe, a cullet feeding port arranged at the top of the glass material pipe, a glass waste discharge chute, a switching valve and a metal detector for detecting metal impurities in the added cullet; the upper end of the glass waste discharge chute is communicated with the glass material pipe, the switching valve is arranged at the communication position, the lower part of the glass waste discharge chute is divided into a fine powder glass pipe and a block-shaped glass pipe, and a screen is arranged at the lower part of the glass waste discharge chute.

Further:

the switching valve is an electric switching valve, and the electric switching valve is connected with the metal detector.

The fine powder glass tube is vertically arranged, the upper end of the block-shaped glass tube is obliquely arranged, and the screen mesh is obliquely arranged corresponding to the fine powder glass tube.

The lower end of the glass material pipe is provided with a conveying belt for conveying the fallen normal crushed glass material.

Still including being used for reinforced conveyer belt, the one end of reinforced conveyer belt corresponds garrulous glass feed inlet setting, and metal detector establishes in the top of reinforced conveyer belt.

The glass material pipe is vertically arranged.

The screen is a manganese steel screen.

Compared with the prior art, the utility model has the following advantages:

the online separation device for coarse particles and fine powder of broken glass is reasonable in design, and when outsourced broken glass is added in the production process, once metal impurities which are invisible to eyes are mixed in the broken glass, a metal detector alarms and discharges waste, and after the waste is discharged, online sieving and flow distribution are carried out through a screen in a broken glass chute, so that tiny impurities harmful to glass production are successfully removed; the method can be used for online continuous treatment and has high separation efficiency.

Drawings

The contents and the marks in the drawings expressed in the drawings of the present specification are briefly described as follows:

FIG. 1 is a schematic view of the structure of the device of the present utility model.

In the figure:

1. broken glass feed inlet, 2, glass material pipe, 3, switching valve, 4, normal broken glass material of adding, 5, glass waste discharge elephant trunk, 6, screen cloth, 7, fine powder glass pipe, 8, cubic glass pipe.

Detailed Description

The following description of the embodiments of the present utility model refers to the accompanying drawings, which illustrate in further detail.

As shown in fig. 1, the device for separating coarse and fine particles of cullet on line comprises a glass material pipe 2, a cullet feeding port 1, a glass waste discharge chute 5, a switching valve 3 and a metal detector for detecting metal impurities in added cullet.

The broken glass feeding port 1 is of a hopper structure, and is arranged at the top of the glass material pipe, so that broken glass can be conveniently added; the upper end of the glass waste discharge chute is communicated with a glass material pipe, a switching valve 3 is arranged at the communication position, the lower part of the glass waste discharge chute is divided into a fine powder glass pipe 7 and a block glass pipe 8, and a screen 6 is arranged at the lower part of the glass waste discharge chute; the switching valve can adopt the existing structure.

In the production process, when outsourcing broken glass is added, once metal impurities which are invisible to the naked eye are mixed in, a metal detector alarms and discharges waste, and after the waste is discharged, on-line sieving and flow distribution are carried out through a screen in a broken glass chute, so that tiny impurities harmful to glass production are successfully removed; the method can be used for online continuous treatment and has high separation efficiency.

Further, the utility model also comprises a feeding conveyor belt for feeding, one end of the feeding conveyor belt is arranged corresponding to the broken glass feeding port, and the metal detector is arranged above the feeding conveyor belt; the lower end of the glass material pipe is provided with a conveying belt for conveying the fallen normal crushed glass material 4. The method can be used for online continuous treatment and has high separation efficiency.

The glass material pipe 2 is vertically arranged; the switching valve 3 is an electric switching valve which is connected with the metal detector and can be automatically controlled.

The fine powder glass tubes are vertically arranged, the upper ends of the blocky glass tubes are obliquely arranged, and the screen 6 is obliquely arranged corresponding to the fine powder glass tubes; preferably, the screen is a manganese steel screen.

In the process of producing the plate glass, a metal detector is arranged above a conveying belt added with outsourcing broken glass and used for detecting various metal impurities, once the metal impurities are detected, the broken glass is removed through a waste discharge chute, the lower part of the waste discharge chute is branched, one side of the waste discharge chute is used for removing useful blocky glass, and the other side of the waste discharge chute is used for removing fine powder glass with impurities.

The manganese steel screen mesh is obliquely planted in the main waste discharge chute of the broken glass, the fallen broken glass is subjected to online flow distribution on the screen mesh, broken glass with the granularity of more than 25mm enters a broken glass room from the broken glass chute, then the broken glass is reused, and broken glass powder with the granularity of less than 25mm directly enters a waste discharge room through the other chute and is treated as waste.

The technology is used for separating coarse blocks and fine powder on line in a limited space in the actual production operation process, achieves the effects of more optimization and more reasonable field layout, can effectively reduce defects in glass production, and improves the glass production yield.

The foregoing description is only illustrative of the preferred embodiments of the present utility model, and the above-described technical features may be arbitrarily combined to form a plurality of embodiments of the present utility model.

While the utility model has been described above with reference to the accompanying drawings, it will be apparent that the utility model is not limited to the above embodiments, but is capable of being modified or applied to other applications without any modification, as long as the inventive concept and technical scheme are adopted.

Claims (7)

1. The utility model provides an online separator of cullet coarse grain and fine powder, includes glass material pipe and establishes the garrulous glass feed inlet at glass material pipe top, its characterized in that: the glass waste discharge chute is characterized by also comprising a glass waste discharge chute, a switching valve and a metal detector for detecting metal impurities added into broken glass; the upper end of the glass waste discharge chute is communicated with the glass material pipe, the switching valve is arranged at the communication position, the lower part of the glass waste discharge chute is divided into a fine powder glass pipe and a block-shaped glass pipe, and a screen is arranged at the lower part of the glass waste discharge chute.

2. The on-line cullet coarse and fine powder separation device according to claim 1, wherein: the switching valve is an electric switching valve, and the electric switching valve is connected with the metal detector.

3. The on-line cullet coarse and fine powder separation device according to claim 1, wherein: the fine powder glass tube is vertically arranged, the upper end of the block-shaped glass tube is obliquely arranged, and the screen mesh is obliquely arranged corresponding to the fine powder glass tube.

4. The on-line cullet coarse and fine powder separation device according to claim 1, wherein: the lower end of the glass material pipe is provided with a conveying belt for conveying the fallen normal crushed glass material.

5. The on-line cullet coarse and fine powder separation device according to claim 1, wherein: still including being used for reinforced conveyer belt, the one end of reinforced conveyer belt corresponds garrulous glass feed inlet setting, and metal detector establishes in the top of reinforced conveyer belt.

6. The on-line cullet coarse and fine powder separation device according to claim 1, wherein: the glass material pipe is vertically arranged.

7. An on-line cullet coarse and fine powder separation apparatus according to claim 3, wherein: the screen is a manganese steel screen.