CN105268530A - Crushing production line for producing glass - Google Patents
Crushing production line for producing glass Download PDFInfo
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- CN105268530A CN105268530A CN201510701270.XA CN201510701270A CN105268530A CN 105268530 A CN105268530 A CN 105268530A CN 201510701270 A CN201510701270 A CN 201510701270A CN 105268530 A CN105268530 A CN 105268530A
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- glass
- crushing
- production line
- housing
- fragmentation
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Abstract
The invention discloses a crushing production line for producing glass. The crushing production line comprises a first crushing device, a feeding device, a second crushing device and a discharging device. The first crushing device comprises a first shell and first supports, a rotating shaft is arranged on the first shell, the rotating shaft is rotationally connected with hammer heads, a discharging opening is formed in the lower end of the first shell, material collecting frames are arranged on the first supports in a downwards-inclined manner, and a discharging gap is formed between the material collecting frames. The feeding device comprises second supports and a transmitting mechanism, fixing plates are arranged on the transmitting mechanism, a material loading cavity is formed between the two adjacent fixing plates, and the material loading cavity and the discharging gap are vertically aligned. The second crushing device comprises a second shell, an outer cover and stretchable frames, a crushing roller is arranged in the second shell, and slant guide face plates are arranged at the top ends of the stretchable frames. By means of the crushing production line, the glass with any feeding granularity can be crushed, the granularity of the crushed glass material is thin, the high crushing ratio is achieved, the granularity is even, the production capacity is large, and the quality of the finished glass is improved.
Description
Technical field
The invention belongs to field of glass production technology, particularly relate to a kind of crushing production line for glass production.
Background technology
The production process of glass can be divided into substantially: Raw material processing, prepare batch, fusing and clarification, cooling and shaping and cutting etc.In glass actual production process, due to manufacturing process, the factor such as artificial, all likely defect is produced in the arbitrary process of the production of glass raw sheet, common glass defect mainly contains: the defects such as bubble, sticky tin, calculus, field trash, the main feature of all kinds of defect is: (1) bubble, such defect mainly causes because glass production material contains gas, external environment bubble, metal iron wire etc., and its main feature is that overall profile is similar to circle, linear, hollow, has transmitance etc.(2) calculus, due to the difference of its coefficient of thermal expansion and external environment coefficient of thermal expansion, such defect has a strong impact on glass quality.Mainly be divided into: raw material calculus, refractory stone and devitrification of glass calculus etc.(3) press from both sides tin, folder tin is mainly divided into sticky tin and tin calculus, is characterized in furvous, has light absorption.(4) scratch, the phase mutual friction of this defect mainly between glass raw sheet with hard medium produces, and appearance linearly.(5) face crack and drawing lines, its feature surface linearly.When detecting glass, the glass finding that there is major defect should carry out break process, then is stored in by cullet in cullet storehouse, then delivers in feed bin by cullet by conveying device, for the processing of glass.At present mainly through separate unit disintegrating machine, fragmentation is carried out to the fragmentation of glass, but the material size of cullet be there are certain requirements, general material size can not be excessive, noise and vibrations are greatly, limitation is there is in shattering process, and product granularity after fragmentation is comparatively large, the ratio of reduction is poor, affects the quality of finished glass.
Summary of the invention
The object of the invention is to solve the above-mentioned technical problem existed in prior art, a kind of crushing production line for glass production is provided, the glass of any material size can be carried out fragmentation, glass raw meal particle size after fragmentation is thinner, there is the higher ratio of reduction, glass raw meal particle size is even, and production capacity is large, improves the quality of finished glass.
In order to solve the problems of the technologies described above, the present invention adopts following technical scheme:
For a crushing production line for glass production, it is characterized in that: comprise the first breaker, pay-off, the second breaker and drawing mechanism; First breaker comprises the first housing and the first support, first housing is provided with rotating shaft, axis of rotation is connected with tup, the upper end of the first housing is provided with charging aperture, the lower end of the first housing is provided with discharging opening, downward-slopingly on the first support is provided with the frame that gathers materials, and gathers materials between frame and forms discharging space, the below of discharging opening is located at by the frame that gathers materials, and the top of pay-off is located at by the frame that gathers materials; Pay-off comprises the second support and transmission mechanism, and transmission mechanism is provided with fixed head, forms charging cavity between adjacent two pieces of fixed heads, and charging cavity is aimed at up and down with discharging space; Second breaker comprises the second housing, outer cover and expansion bracket, breaker roll is provided with in second housing, the top of expansion bracket is provided with the guide panel of inclination, guide panel is located at the top of breaker roll, the side of outer cover is provided with material and enters mouth, one end of transmission mechanism is passed into material and enters in mouth, and the bottom of the second housing is provided with material outlet; Drawing mechanism comprises the 3rd support and conveyer belt, conveyer belt is located at the below of material outlet, the glass of any material size can be carried out fragmentation like this, glass raw meal particle size after fragmentation is thinner, there is the higher ratio of reduction, glass raw meal particle size is even, improve the quality of finished glass, and production capacity is large.
Further, the inwall of the first housing is provided with baffle plate, when cullet enter in the first breaker, be subject to the impact of the tup of high-speed rotation and carry out fragmentation, glass after fragmentation obtains kinetic energy from the tup rotated, high-speed punching is on the inwall of the first housing, in order to prevent the inner wall abrasion of the first housing, baffle plate can be set on the inwall of the first housing, glassy phase knock against each other after such baffle plate and fragmentation hits, avoid the glass after fragmentation directly to strike the inwall of the first housing, improve the service life of the first breaker.
Further, baffle plate is wavy, and the glassy phase knock against each other after baffle plate and fragmentation hits, and the glass after shock can fly to all directions, is convenient to tup and again carries out fragmentation.
Further, discharge outlet is provided with demarcation strip, after the granularity of the glass after fragmentation reaches certain standard, can from discharge outlet discharging, glass after fragmentation drops on the transmission mechanism of pay-off along demarcation strip, the cullet of another part drop to along demarcation strip and gather materials on frame, then drop to transmission mechanism from the frame that gathers materials, and suitably can increase the discharge rate of the glass after fragmentation like this.
Further, axis of rotation is connected with four tups, and four tups are arranged with the Central Symmetry of rotating shaft, makes the product granularity after fragmentation thinner.
Further, the inclination angle of the frame that gathers materials is 5 ° ~ 15 °, and the inclination angle of the frame that gathers materials should be not excessive, makes the glass material after fragmentation to render on the transmission mechanism of pay-off uniformly, to avoid on transmission mechanism broken glass to pile up and spills and fall to the ground.
Further, the distance between adjacent two pieces of fixed heads is 300 ~ 500mm, and the glass material after such fragmentation can leave in charging cavity uniformly, makes the glass particle size of the fragmentation finally obtained even.
Further, the both sides of outer cover are equipped with handle, like this to being covered with the point of application, facilitating installation and the unloading of outer cover, being convenient to the cleaning to outer cover.
Further, the inclination angle of guide panel is 10 ° ~ 30 °, can cushion and guide effect the glass material of the fragmentation that pay-off enters like this, it is made to enter between breaker roll along guide panel, breaker roll carries out fragmentation again, last like this to obtain the glass raw meal particle size after fragmentation comparatively thin, and have the higher ratio of reduction, production capacity is large.
The present invention, owing to have employed technique scheme, has following beneficial effect:
The present invention is when carrying out fragmentation to glass, the glass of any material size is rendered to the first breaker from charging aperture, when cullet enter in the first breaker, be subject to the impact of the tup of high-speed rotation and carry out fragmentation, glass after fragmentation obtains kinetic energy from the tup rotated, high-speed punching is to the inwall direction of the first housing, the inwall of the first housing arranges baffle plate, glassy phase knock against each other after such baffle plate and fragmentation hits, protect the inwall of the first housing, because baffle plate is wavy, glassy phase knock against each other after baffle plate and fragmentation hits, cullet after shock can fly to all directions, be convenient to tup and again carry out fragmentation, rotating shaft simultaneously arranges four tups, four tups are arranged with the Central Symmetry of rotating shaft, increase the frequency of exposure of cullet and tup, make the product granularity after fragmentation thinner, such first breaker carries out first time fragmentation to cullet, after the granularity of the glass after fragmentation reaches certain standard, can from discharge outlet discharging, glass after fragmentation drops on the transmission mechanism of pay-off along demarcation strip, the cullet of another part drop to along demarcation strip and gather materials on frame, drop to transmission mechanism from the frame that gathers materials again, the gather materials inclination angle of frame is generally designed to 5 ° ~ 15 °, gathering materials the inclination angle of frame should be not excessive, the glass material after fragmentation is made to render on the transmission mechanism of pay-off uniformly, to avoid on transmission mechanism broken glass to pile up and spill and fall to the ground, be 300 ~ 500mm for the distance between two pieces of fixed heads adjacent on transmission mechanism, glass material after such first time fragmentation can drop in charging cavity uniformly, such pay-off can carry out the glass material after entering first time fragmentation to the second breaker equably, pay-off is carrying out in course of conveying, suitable drying functions can be carried out, when the glass material after first time fragmentation enters in the second breaker, part cullet material directly drops between breaker roll, carry out second time fragmentation, owing to being provided with guide panel in the second breaker, the inclination angle of guide panel is 10 ° ~ 30 °, and the height of guide panel can be regulated by expansion bracket, glass material after the first time fragmentation that such guide panel can enter pay-off cushions and guide effect, cullet material is also entered between breaker roll along guide panel, breaker roll carries out second time fragmentation, the glass raw meal particle size obtained after whole crushing production line is like this thinner, there is the higher ratio of reduction, glass raw meal particle size is even, and production capacity is large, the glass material finally obtained by the tape transport on drawing mechanism in feed bin, for the processing of glass, improve the quality of finished glass.
Accompanying drawing explanation
Below in conjunction with accompanying drawing, the invention will be further described:
Fig. 1 is the structural representation of a kind of crushing production line for glass production of the present invention;
Fig. 2 be in Fig. 1 A to structural representation;
Fig. 3 be in Fig. 1 B to structural representation;
Fig. 4 is the structural representation of the first breaker in the present invention;
Fig. 5 is the structural representation of pay-off in the present invention;
Fig. 6 is the structural representation of the second breaker in the present invention.
Detailed description of the invention
As shown in Figures 1 to 6, be a kind of crushing production line for glass production of the present invention, comprise the first breaker 1, pay-off 2, second breaker 3 and drawing mechanism 4.The glass advanced person of certain material size crosses the first breaker 1 and carries out first time fragmentation, glass after first fragmentation is sent in the second breaker 3 by pay-off 2, second breaker 3 carries out second time fragmentation to the glass that first time is broken, the glass material obtained is carried, finally for glass processing by drawing mechanism 4.
First breaker 1 comprises the first housing 11 and the first support 12, first support 12 is plate type support, and the first support 12 plays support fixation to the first housing 11.First housing 11 is provided with rotating shaft 13, and rotating shaft 13 is rotatably connected to four tups, 14, four tups 14 and arranges with the Central Symmetry of rotating shaft 13, makes the product granularity after fragmentation thinner.The upper end of the first housing 11 is provided with charging aperture 15, and the lower end of the first housing 11 is provided with discharging opening (not shown).Downward-slopingly on first support 12 be provided with the frame 16 that gathers materials, two pieces of frames 16 that gather materials are arranged in opposite directions, gather materials like this between frame 16 and form discharging space, the below of discharging opening is located at by the frame 16 that gathers materials, the top of pay-off 2 is located at by the frame 16 that gathers materials, the gather materials inclination angle of frame 16 is 5 ° ~ 15 °, and the angle of decision design is 8 °.The inwall of the first housing 11 is provided with baffle plate 17, when cullet enter in the first breaker 1, be subject to the impact of the tup 14 of high-speed rotation and carry out fragmentation, glass after fragmentation obtains kinetic energy from the tup 14 rotated, high-speed punching is on the inwall of the first housing 11, in order to prevent the inner wall abrasion of the first housing 11, baffle plate 17 can be set on the inwall of the first housing 11, glassy phase knock against each other after such baffle plate 17 and fragmentation hits, the glass after fragmentation is avoided directly to strike the inwall of the first housing 11, improve the service life of the first breaker 1, General Life can improve 2 ~ 3 times, and baffle plate 17 is in wavy, glassy phase knock against each other after baffle plate 17 and fragmentation hits, glass after shock can fly to all directions, be convenient to tup 14 and again carry out fragmentation.Discharge outlet is provided with demarcation strip 18, after the granularity of the glass after fragmentation reaches certain standard, can from discharge outlet discharging, glass after fragmentation drops on pay-off 2 along demarcation strip 18, the cullet of another part drop to along demarcation strip 18 and gather materials on frame 16, drop to pay-off 2 from the frame 16 that gathers materials again, suitably can increase the discharge rate of the glass after fragmentation like this.
Pay-off 2 comprises the second support 21 and transmission mechanism 22, second support 21 pairs of transmission mechanisms 22 play the effect supporting and fix.Transmission mechanism 22 is provided with fixed head 23, forms charging cavity between adjacent two pieces of fixed heads 23, and charging cavity is aimed at up and down with discharging space, avoids spreading outside glass material.Distance between adjacent two pieces of fixed heads 23 is 300 ~ 500mm, and the glass material after such fragmentation can leave in charging cavity uniformly, makes the glass particle size of the fragmentation finally obtained even.
Second breaker 3 comprises the second housing 31, outer cover 32 and expansion bracket 33, second and is provided with breaker roll 34 in housing 31, and the top of expansion bracket 33 is provided with the guide panel 35 of inclination, and guide panel 35 is located at the top of breaker roll 34.The inclination angle of guide panel 35 is 10 ° ~ 30 °, the glass material that can enter pay-off 2 like this cushions and guide effect, glass material is made to enter between breaker roll 34 along guide panel 35, breaker roll 34 carries out fragmentation again, it is last like this that to obtain the glass raw meal particle size after fragmentation thinner, have the higher ratio of reduction, production capacity is large.The both sides of outer cover 32 are equipped with handle 37, have the point of application like this to outer cover 32, facilitate installation and the unloading of outer cover 32, are convenient to the cleaning to outer cover 32.The side of outer cover 32 is provided with material and enters mouth 36, and one end of transmission mechanism 22 is passed into material and enters in mouth 36, and the bottom of the second housing 31 is provided with material outlet (not shown).
Drawing mechanism 4 comprises the 3rd support 41 and conveyer belt the 42, three support 41 supports the housing fixing conveyer belt 42.Conveyer belt 42 is located at the below of material outlet.The glass material finally obtained is transported in feed bin by the conveyer belt 42 on drawing mechanism 4, for the processing of glass, improves the quality of finished glass.
The present invention is when carrying out fragmentation to glass, the glass of any material size is rendered to the first breaker 1 from charging aperture 15, when cullet enter in the first breaker 1, be subject to the impact of the tup 14 of high-speed rotation and carry out fragmentation, glass after fragmentation obtains kinetic energy from the tup 14 rotated, high-speed punching is to the inwall direction of the first housing 11, the inwall of the first housing 11 arranges baffle plate 17, glassy phase knock against each other after such baffle plate 17 and fragmentation hits, protect the inwall of the first housing 11, because baffle plate 17 is in wavy, glassy phase knock against each other after baffle plate 17 and fragmentation hits, cullet after shock can fly to all directions, be convenient to tup 14 and again carry out fragmentation, rotating shaft 13 simultaneously arranges four tups 14, four tups 14 are arranged with the Central Symmetry of rotating shaft 13, increase the frequency of exposure of cullet and tup 14, make the product granularity after fragmentation thinner, such first breaker 1 pair of cullet carry out first time fragmentation, after the granularity of the glass after fragmentation reaches certain standard, can from discharge outlet discharging, glass after fragmentation drops on the transmission mechanism 22 of pay-off 2 along demarcation strip 18, the cullet of another part drop to along demarcation strip 18 and gather materials on frame 16, drop to transmission mechanism 22 from the frame 16 that gathers materials again, the gather materials inclination angle of frame 16 is generally designed to 5 ° ~ 15 °, gathering materials the inclination angle of frame 16 should be not excessive, glass material after fragmentation can be rendered on the transmission mechanism 22 of pay-off 2 uniformly, to avoid on transmission mechanism 22 broken glass to pile up and spill and fall to the ground, be 300 ~ 500mm for the distance between two pieces of fixed heads 23 adjacent on transmission mechanism 22, glass material after such first time fragmentation can drop in charging cavity uniformly, such pay-off 2 can carry out the glass material after entering first time fragmentation to the second breaker 3 equably, pay-off 2 is carrying out in course of conveying, suitable drying functions can be carried out, when the glass material after first time fragmentation enters in the second breaker 3, part cullet material directly drops between breaker roll 34, carry out second time fragmentation, owing to being provided with guide panel 35 in the second breaker 3, the inclination angle of guide panel 35 is 10 ° ~ 30 °, and the height of guide panel 35 can be regulated by expansion bracket 33, glass material after the first time fragmentation that such guide panel 35 can enter pay-off 2 cushions and guide effect, cullet material is made also to enter between breaker roll 34 along guide panel 35, breaker roll 34 carries out second time fragmentation, the glass raw meal particle size obtained after whole crushing production line is like this thinner, there is the higher ratio of reduction, glass raw meal particle size is even, and production capacity is large, the glass material finally obtained is transported in feed bin by the conveyer belt 42 on drawing mechanism 4, for the processing of glass, improve the quality of finished glass.
These are only specific embodiments of the invention, but technical characteristic of the present invention is not limited thereto.Any based on the present invention, for solving substantially identical technical problem, realize substantially identical technique effect, done simple change, equivalent replacement or modification etc., be all covered by among protection scope of the present invention.
Claims (9)
1. for a crushing production line for glass production, it is characterized in that: comprise the first breaker, pay-off, the second breaker and drawing mechanism; Described first breaker comprises the first housing and the first support, described first housing is provided with rotating shaft, described axis of rotation is connected with tup, the upper end of described first housing is provided with charging aperture, the lower end of described first housing is provided with discharging opening, downward-slopingly on described first support is provided with the frame that gathers materials, described in gather materials between frame and form discharging space, the below of described discharging opening is located at by the described frame that gathers materials, described in the frame that gathers materials be located at the top of described pay-off; Described pay-off comprises the second support and transmission mechanism, and described transmission mechanism is provided with fixed head, and form charging cavity between adjacent two pieces of described fixed heads, described charging cavity is aimed at up and down with described discharging space; Described second breaker comprises the second housing, outer cover and expansion bracket, breaker roll is provided with in described second housing, the top of described expansion bracket is provided with the guide panel of inclination, described guide panel is located at the top of described breaker roll, the side of described outer cover is provided with material and enters mouth, one end of described transmission mechanism is passed into described material and enters in mouth, and the bottom of described second housing is provided with material outlet; Described drawing mechanism comprises the 3rd support and conveyer belt, and described conveyer belt is located at the below of described material outlet.
2. a kind of crushing production line for glass production according to claim 1, is characterized in that: the inwall of described first housing is provided with baffle plate.
3. a kind of crushing production line for glass production according to claim 2, is characterized in that: described baffle plate is wavy.
4. a kind of crushing production line for glass production according to claim 1, is characterized in that: described discharge outlet is provided with demarcation strip.
5. a kind of crushing production line for glass production according to claim 1, is characterized in that: described axis of rotation is connected with four described tups, four described tups are arranged with the Central Symmetry of described rotating shaft.
6. a kind of crushing production line for glass production according to claim 1, is characterized in that: described in the gather materials inclination angle of frame be 5 ° ~ 15 °.
7. a kind of crushing production line for glass production according to claim 1, is characterized in that: the distance between adjacent two pieces of described fixed heads is 300 ~ 500mm.
8. a kind of crushing production line for glass production according to claim 1, is characterized in that: the both sides of described outer cover are equipped with handle.
9. a kind of crushing production line for glass production according to claim 1, is characterized in that: the inclination angle of described guide panel is 10 ° ~ 30 °.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201510701270.XA CN105268530A (en) | 2015-10-26 | 2015-10-26 | Crushing production line for producing glass |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201510701270.XA CN105268530A (en) | 2015-10-26 | 2015-10-26 | Crushing production line for producing glass |
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| Publication Number | Publication Date |
|---|---|
| CN105268530A true CN105268530A (en) | 2016-01-27 |
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Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201510701270.XA Withdrawn CN105268530A (en) | 2015-10-26 | 2015-10-26 | Crushing production line for producing glass |
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| Country | Link |
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| CN (1) | CN105268530A (en) |
Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN106391209A (en) * | 2016-10-20 | 2017-02-15 | 湖南野森环保科技有限责任公司 | Environmental-friendly cement grinding device |
| CN106733122A (en) * | 2016-11-30 | 2017-05-31 | 合肥亿福自动化科技有限公司 | A kind of automatic production line for glass breaking |
| CN110038667A (en) * | 2018-01-16 | 2019-07-23 | 广东金牌陶瓷有限公司 | The rotten brick automatic pulverizing system of ceramic big rock beam |
| CN114904833A (en) * | 2022-07-13 | 2022-08-16 | 江苏建达恩电子科技有限公司 | Automatic batching device for glass tube production |
-
2015
- 2015-10-26 CN CN201510701270.XA patent/CN105268530A/en not_active Withdrawn
Cited By (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN106391209A (en) * | 2016-10-20 | 2017-02-15 | 湖南野森环保科技有限责任公司 | Environmental-friendly cement grinding device |
| CN106733122A (en) * | 2016-11-30 | 2017-05-31 | 合肥亿福自动化科技有限公司 | A kind of automatic production line for glass breaking |
| CN110038667A (en) * | 2018-01-16 | 2019-07-23 | 广东金牌陶瓷有限公司 | The rotten brick automatic pulverizing system of ceramic big rock beam |
| CN114904833A (en) * | 2022-07-13 | 2022-08-16 | 江苏建达恩电子科技有限公司 | Automatic batching device for glass tube production |
| CN114904833B (en) * | 2022-07-13 | 2022-09-16 | 江苏建达恩电子科技有限公司 | Automatic batching device for glass tube production |
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Application publication date: 20160127 |
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| WW01 | Invention patent application withdrawn after publication |