阅读说明：本技术 一种碎玻璃除杂的方法 (Method for removing impurities from cullet ) 是由 王兆贵 于 2021-08-05 设计创作，主要内容包括：本发明属于玻璃重复利用领域,尤其是涉及一种碎玻璃除杂的方法,其碎玻璃除杂的方法对碎玻璃除杂过程中还具体涉及到一种碎玻璃除杂的装置,该碎玻璃除杂的装置包括外壳,所述外壳的一侧设有进料口,所述外壳内靠近所述进料口侧设有粉碎空间,所述外壳内远离进料口侧设有分离空间与净水空间,所述分离空间相较于所述净水空间靠近所述粉碎空间,所述分离空间与所述粉碎空间通过连通孔连通,所述净水空间与所述分离空间通过第一排料孔连通,所述外壳内粉碎空间远离进料口侧还设有储水腔,所述粉碎空间内设有粉碎除铁机构,所述分离空间内设有分离机构,所述净水空间内设有过滤净水机构,通过该方法及装置可以有效地去除碎玻璃上的标签。(The invention belongs to the field of glass reutilization, and particularly relates to a method for removing impurities from cullet, and particularly relates to a device for removing impurities from cullet in the process of removing impurities from the cullet by the method for removing impurities from the cullet, wherein the device for removing impurities from the cullet comprises a shell, a feed inlet is arranged on one side of the shell, a crushing space is arranged in the shell and close to the feed inlet, a separation space and a water purification space are arranged in the shell and far away from the feed inlet, the separation space is close to the crushing space compared with the water purification space, the separation space is communicated with the crushing space through a communication hole, the water purification space is communicated with the separation space through a first discharge hole, a water storage cavity is also arranged in the shell and far away from the feed inlet, a crushing and iron removal mechanism is arranged in the crushing space, a separation mechanism is arranged in the separation space, and a filtering and water purification mechanism is arranged in the water purification space, the method and the device can effectively remove the labels on the cullet.)

1. A method for removing impurities from cullet is characterized by comprising the following steps: the method for removing the impurities from the cullet further specifically relates to a device for removing the impurities from the cullet, the device for removing the impurities from the cullet comprises a shell (10), a feed inlet (28) is formed in one side of the shell (10), a crushing space (23) is arranged in the shell (10) and close to the feed inlet (28), a separation space (16) and a water purification space (11) are arranged in the shell (10) and far away from the feed inlet (28), the separation space (16) is close to the crushing space (23) compared with the water purification space (11), the separation space (16) is communicated with the crushing space (23) through a communication hole (22), the water purification space (11) is communicated with the separation space (16) through a first discharge hole (15), a water storage cavity (29) is further arranged in the shell (10) and far away from the feed inlet (28) side of the crushing space (23), a crushing and deironing mechanism (91) is arranged in the crushing space (23), a separating mechanism (92) is arranged in the separating space (16), and a filtering and water purifying mechanism (90) is arranged in the water purifying space (11).

2. The method for impurity removal of cullet as claimed in claim 1, wherein: smash deironing mechanism (91) including fixing board (27) are driven away on smashing space (23) inner wall, the contact is equipped with five electromagnetism rollers (26) on board (27) is driven, the fixed shade (25) that are equipped with on the inner wall of smashing space (23), divide into five check in shade (25), five check and five electromagnetism roller (26) are corresponding, all are located the correspondence feed inlet (28) side is kept away from in electromagnetism roller (26), and every check all supports on the electromagnetism roller (26) that corresponds, five internal rotations in shade (25) are equipped with hob (24), every hob (24) all rotate to be connected on the inner wall of smashing space (23).

3. The method for impurity removal of cullet as claimed in claim 2, wherein: the separating mechanism (92) further comprises a transmission cavity (39) arranged in one side of the shell (10) perpendicular to the feeding hole (28), each electromagnet roller (26) and each screw rod (24) penetrate through the inner wall of the crushing space (23) adjacent to the transmission cavity (39), the electromagnet rollers (26) are rotatably connected to the inner wall of the transmission cavity (39) far away from the crushing space (23), each electromagnet roller (26) is fixedly provided with a first driving gear (35) and a second gear (36), the first driving gear (35) is close to the crushing space (23) compared with the second gear (36), each screw rod (24) is fixedly provided with a driven gear (34), each driven gear (34) is meshed with the corresponding first driving gear (35), and the inner wall of the transmission cavity (39) far away from the crushing space (23) is rotatably provided with four transmission shafts (37), every transmission shaft (37) all is located the centre of adjacent even second gear (36), every transmission shaft (37) is last all to be fixed to be equipped with a drive gear (38), every drive gear (38) all the meshing is connected adjacent two on second gear (36), every hob (24) are kept away from transmission chamber (39) side all runs through shell (10), shell (10) are kept away from transmission chamber (39) side is fixed and is equipped with miscellaneous iron bath (33).

4. A method for cullet removal as claimed in claim 3, wherein: smash deironing mechanism (91) still include five circular telegram chambeies (40) that set up in shell (10), every circular telegram chamber (40) all are located transmission chamber (39) are kept away from smash space (23) side, every electromagnet roller (26) all rotate to be connected circular telegram chamber (40) are kept away from on the inner wall of transmission chamber (39), every all be fixed on electromagnet roller (26) and be equipped with reel (56), reel (56) are located in circular telegram chamber (40), every circular telegram chamber (40) are close to all be equipped with opening towards circular telegram chamber (40)'s spout (47) on the inner wall of transmission chamber (39), every all slide in spout (47) and be equipped with one and press briquetting (49), every press briquetting (49) all connect through first reset spring (48) on the inner wall of spout (47), every reel (56) all walks around leading wheel (54) through control rope (55) and connects on pressing block (49), every circular telegram chamber (40) are close to all be equipped with opening towards circular telegram spout (50) of circular telegram chamber (40) on the inner wall of leading wheel (54) side, every it all slides in circular telegram spout (50) and is equipped with circular telegram button (53), every circular telegram button (53) all connect through two second reset spring (52) on the inner wall of circular telegram spout (50), every all fixedly on the inner wall of circular telegram spout (50) be equipped with one circular telegram spring (51).

5. The method for impurity removal of cullet as claimed in claim 1, wherein: separating mechanism (92) is established including rotating three rotation roller (17) on separation space (16) inner wall, every go up all the annular evenly to be equipped with a plurality of hard brush (19), three hard brush (19) on rotation roller (17) all contact each other, every all be equipped with in rotation roller (17) and get rid of water chamber (21), every all the axial is equipped with a plurality of centrifugal check valve (18) between hard brush (19) on rotation roller (17), be close to in separation space (16) water storage chamber (29) side is fixed and is equipped with stopper (20), keep away from in separation space (16) on the inner wall in water storage chamber (29) fixed baffle (42) that is equipped with for under the garrulous glass who goes up the card with hard brush (19), be close to in shell (10) transmission chamber (39) side is equipped with linkage chamber (57), every rotation roller (17) are close to linkage chamber (57) end all stretches in linkage chamber (57), rotor roll (17) are located linkage chamber (57) end is all fixed and is equipped with belt pulley (58), and is three the common cover is equipped with a belt (59) on belt pulley (58), keep away from in shell (10) linkage chamber (57) side inlays and is equipped with second motor (45), is close to rotor roll (17) of water storage chamber (29) are kept away from linkage chamber (57) end is rotated and is connected on second motor (45).

6. A method for impurity removal from cullet as claimed in claim 5, wherein: the filtering water purification mechanism (90) comprises a glass cullet drawer (14) and a label drawer (13) which are arranged in the water purification space (11) in a sliding way, the cullet drawer (14) is closer to the separation space (16) than the label drawer (13), two water purifiers (12) are fixedly arranged on the side, far away from the first discharging hole (15), of the purified water space (11), a second discharge hole (46) is arranged on the side wall of the separation space (16) close to the water storage cavity (29), the second discharge hole (46) is communicated with the water purifying space (11) through a discharge pipe (30), a one-way valve (31) is embedded in the water storage cavity (29) near the discharge pipe (30), the one-way valve (31) is to communicate the water purification space (11) with the hard brush (19), the water purification space (11) is provided with a water inlet hole (32) far away from the separation space (16) and communicated with the water storage cavity (29).

7. A method for impurity removal from cullet as claimed in claim 5, wherein: linkage chamber (57) keep away from separation space (16) side inlays and is equipped with inlet tube (43), establish respectively threely the three branch pipe of inlet tube (43) in live-rollers (17), and every live-rollers (17) all rotate the connection on the branch pipe that corresponds, the other end of inlet tube (43) stretches in water storage chamber (29), and inlet tube (43) end is fixed and is equipped with water pump (44).

8. The method for preventing the opening of the PVC pipe from tearing as claimed in claims 1 to 7, wherein the method comprises the following steps: the method comprises the following steps:

s1: feeding, namely pouring a cullet bottle through a feeding hole (28);

s2: crushing, namely crushing the crushed glass bottles through five electromagnet rollers (26) in a second time;

s3: deironing, wherein in the crushing process, the electromagnet roller (26) rotates to enable the pressing block (49) to press the electrifying button (53) and enable the electromagnet roller (26) to be electrified and magnetized to adsorb iron impurities in the glass cullet;

s4: iron discharge, wherein iron impurities adsorbed on the electromagnet roller (26) are scraped into the grids of the shade (25) through the shade (25), and are discharged into an iron impurity pool (33) through a screw rod (24) for centralized treatment;

s5: separating the glass from the labels, and brushing off the labels on the cullet by friction of three rotating rollers (17);

s6: filtering the label, wherein light label impurities float on the water surface through water in the water purification space (11), and heavy cullet sinks at the water bottom;

s7: purifying water, filtering the water in the water purifying space (11) by two water purifiers (12) and then using the water continuously.

Technical Field

The invention belongs to the field of glass recycling, and particularly relates to a method for removing impurities from cullet.

Background

Glass is a substance commonly used in modern life of human beings, and can be made into various appliances, utensils, plate glass and the like, so that more waste is generated, labels are often pasted on glass bottles, the labels are difficult to completely tear off the broken glass bottles, so that the broken glass bottles are difficult to treat during recycling, the glass optical sorting machine which is commonly used at present can only screen out broken glass without the labels, the broken glass with the labels is removed as an unusable object, and when the requirements on glass raw materials are high, a lot of available resources are wasted.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides a cullet impurity removing method which can remove iron during glass crushing and can effectively clean labels on cullet subsequently.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a method of cullet edulcoration, its method of cullet edulcoration still concretely relates to device of cullet edulcoration to cullet edulcoration in-process, and this device of cullet edulcoration includes the shell, one side of shell is equipped with the feed inlet, be close to in the shell the feed inlet side is equipped with crushing space, it is equipped with separation space and water purification space to keep away from the feed inlet side in the shell, separation space compare in the water purification space is close to crushing space, separation space with crushing space passes through the intercommunicating pore intercommunication, water purification space with separation space passes through first discharge hole intercommunication, crushing space keeps away from the feed inlet side in the shell and still is equipped with the water storage chamber, be equipped with crushing deironing mechanism in the crushing space, be equipped with separation mechanism in the separation space, be equipped with filtering water purification mechanism in the water purification space.

Preferably, smash deironing mechanism is including fixing the board of polishing on the crushing space inner wall, the contact is equipped with five electromagnetism rollers on the board of polishing, the fixed shade that is equipped with on the inner wall in crushing space, divide into five check in the shade, five check and five the electromagnetism roller is corresponding, all is located the correspondence the charging opening side is kept away from to the electromagnetism roller, and every check all supports on the electromagnetism roller that corresponds, five screw rods that are equipped with of shade internal rotation, every the screw rod all rotate to be connected on the inner wall in crushing space.

Preferably, the separating mechanism further comprises a transmission cavity arranged in one side of the shell perpendicular to the feeding hole, each electromagnet roller and each screw rod penetrate through the inner wall of the crushing space adjacent to the transmission cavity and are rotatably connected to the inner wall of the transmission cavity far away from the crushing space, a first driving gear and a second gear are fixedly arranged on each electromagnet roller, the first driving gear is close to the crushing space compared with the second gear, a driven gear is fixedly arranged on each screw rod and is meshed with the corresponding first driving gear, four transmission shafts are rotatably arranged on the inner wall of the transmission cavity far away from the crushing space, each transmission shaft is positioned in the middle of the adjacent second gear, and a transmission gear is fixedly arranged on each transmission shaft, every drive gear all the joggle joint is in adjacent two on the second gear, every the hob is kept away from drive chamber side all runs through the shell, the shell is kept away from drive chamber side fixed being equipped with the miscellaneous iron bath.

Preferably, smash deironing mechanism still includes five logical electric cavities that set up in the shell, every logical electric cavity all is located the transmission chamber is kept away from smash the space side, every the electromagnetism roller all rotates to be connected the logical electric cavity is kept away from on the inner wall in transmission chamber, every all be fixed with the reel on the electromagnetism roller, the reel is located in the circular electric cavity, every logical electric cavity is close to all be equipped with the spout of opening towards logical electric cavity on the inner wall in transmission chamber, every all slide in the spout and be equipped with a pressure piece, every pressure piece all connects on the inner wall of spout through first reset spring, every the reel all walks around the leading wheel through the control rope and connects on the pressure piece, every the circular electric cavity is close to all be equipped with the circular electric spout of opening towards logical electric cavity on the inner wall of leading wheel side, each electrifying button is arranged in the electrifying sliding groove in a sliding mode, each electrifying button is connected to the inner wall of the electrifying sliding groove through two second reset springs, and each electrifying spring is fixedly arranged on the inner wall of the electrifying sliding groove.

Preferably, the separating mechanism comprises three rotating rollers which are rotatably arranged on the inner wall of the separating space, each rotating roller is provided with a plurality of hard brushes which are in mutual contact, a water throwing cavity is arranged in each rotating roller, a plurality of centrifugal check valves are axially arranged between the hard brushes on the rotating rollers, a limit block is fixedly arranged on the side of the water storage cavity in the separating space, a baffle is fixedly arranged on the inner wall of the water storage cavity in the separating space and used for ejecting broken glass clamped on the hard brushes, a linkage cavity is arranged on the side of the transmission cavity in the shell, each rotating roller is close to the linkage cavity end and extends into the linkage cavity, the rotating rollers are positioned on the linkage cavity end and are fixedly provided with belt pulleys, a belt is sleeved on the three belt pulleys, a second motor is embedded on the side of the linkage cavity in the shell, and the rotating roller close to the water storage cavity is far away from the end of the linkage cavity and is connected to the second motor in a rotating mode.

Preferably, it establishes to filter water purification mechanism including sliding garrulous glass drawer and the label drawer in the water purification space, garrulous glass drawer compare in the label drawer is closer to separation space, institute's water purification space is kept away from first stock discharge hole side is fixed and is equipped with two water purifiers, separation space is close to be equipped with a second stock discharge hole on the lateral wall in water storage chamber, the second stock discharge hole is through arranging the material pipe intercommunication the water purification space, the water storage chamber is close to row material pipe department inlays and is equipped with the check valve, the check valve will communicate the water purification space with the hard brush, the water purification space is kept away from separation space side is equipped with the inlet opening intercommunication the water storage chamber.

Preferably, the linkage chamber is kept away from the separation space side inlays and is equipped with the inlet tube, establish respectively threely in the live-rollers three branch pipes of inlet tube, and every the live-rollers all rotates to be connected on the branch pipe that corresponds, the other end of inlet tube stretches in the water storage intracavity, and the inlet tube end is fixed and is equipped with the water pump.

Preferably, the method comprises the following steps:

s1: feeding, namely pouring a glass cullet bottle through a feeding hole;

s2: crushing, namely crushing the crushed glass bottles through five electromagnet rollers;

s3: removing iron, wherein in the crushing process, the electromagnet roller rotates to enable the pressing block to press the power-on button, so that the electromagnet roller is powered on to display magnetism to adsorb iron impurities in the glass cullet;

s4: iron discharging, namely scraping iron impurities adsorbed on the electromagnet roller into grids of the shade through the shade, discharging the iron impurities into a scrap iron pool through a screw rod, and performing centralized treatment;

s5: separating the glass from the labels, and brushing the labels on the cullet through friction of three rotating rollers;

s6: filtering the label, wherein light label impurities float on the water surface through water in the water purification space, and heavy cullet sinks at the water bottom;

s7: purifying water, filtering the water in the water purifying space by the two water purifiers and then continuously using the water purifiers.

Has the advantages that: the check of shade not only can temporarily take advantage of iron impurity and can in time scrape down the iron impurity on the electromagnetism iron roller, avoids the electromagnetism iron roller when rolling to cullet, makes cullet crushing degree inconsistent, makes the glass granule not of uniform size.

The limiting block and the baffle can bounce the glass particles clamped in the hard brush, so that the glass particles clamped in the hard brush are prevented from influencing the brushing of the label.

The lighter-weight label is separated from heavier-weight glass particles through the buoyancy of water, so that the label impurities float on the water surface, and the glass sinks at the water bottom.

Drawings

FIG. 1 is a schematic diagram of a structural embodiment of the present invention;

FIG. 2 is a schematic view taken along the line A-A in FIG. 1;

FIG. 3 is a schematic view of the direction B-B in FIG. 1;

FIG. 4 is an enlarged view of FIG. 1 at C;

FIG. 5 is an enlarged view of FIG. 2 at D;

FIG. 6 is an enlarged view of E in FIG. 3;

fig. 7 is a schematic view in the direction F-F in fig. 6.

In the figure, a housing 10; a water purification space 11; a water purifier 12; a label drawer 13; a cullet drawer 14; a first discharge hole 15; a separation space 16; a rotating roller 17; a centrifugal check valve 18; a hard brush 19; a stopper 20; a water throwing cavity 21; a communication hole 22; a crushing space 23; a screw rod 24; a mask 25; an electromagnet roller 26; a driving plate 27; a feed port 28; a water storage chamber 29; a discharge pipe 30; a check valve 31; a water inlet 32; a scrap iron pool 33; a driven gear 34; a first drive gear 35; a second gear 36; a drive shaft 37; a drive gear 38; a transmission chamber 39; a power-on chamber 40; a first motor 41; a baffle 42; a water inlet pipe 43; a water pump 44; a second motor 45; a second discharge opening 46; a chute 47; a first return spring 48; a pressing block 49; a power-on chute 50; an energizing spring 51; a second return spring 52; a power-on button 53; a guide wheel 54; a control cord 55; a reel 56; a linkage chamber 57; a pulley 58; a belt 59; a filtration and water purification mechanism 90; a crushing and iron removing mechanism 91; a separating mechanism 92.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

In the description of the present invention, it should be noted that the terms "inside", "below", and the like refer to orientations or positional relationships based on the orientations or positional relationships shown in the drawings or orientations or positional relationships that the products of the present invention conventionally place when used, and are used only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used merely to distinguish one description from another, and are not to be construed as indicating or implying relative importance.

Referring to fig. 1, a method for removing impurities from cullet, which also relates to a device for removing impurities from cullet in the process of removing impurities from cullet, this device of cullet edulcoration includes shell 10, one side of shell 10 is equipped with feed inlet 28, it is equipped with crushing space 23 to be close to feed inlet 28 side in the shell 10, it is equipped with separation space 16 and water purification space 11 to keep away from feed inlet 28 side in shell 10, separation space 16 is close to crushing space 23 in water purification space 11 relatively, separation space 16 and crushing space 23 pass through intercommunicating pore 22 intercommunication, water purification space 11 and separation space 16 pass through first discharge hole 15 intercommunication, crushing space 23 keeps away from feed inlet 28 side still is equipped with water storage chamber 29 in the shell 10, be equipped with in the crushing space 23 and smash deironing mechanism 91, be equipped with separating mechanism 92 in the separation space 16, be equipped with in the water purification space 11 and filter water purification mechanism 90.

Further, referring to fig. 1 and 2, the crushing and iron removing mechanism 91 includes a driving plate 27 fixed on the inner wall of the crushing space 23, five electromagnet rollers 26 are arranged on the driving plate 27 in contact therewith, a shade 25 is fixedly arranged on the inner wall of the crushing space 23, the shade 25 is divided into five lattices, the five lattices correspond to the five electromagnet rollers 26 and are all arranged on the side of the corresponding electromagnet roller 26 far away from the feed inlet 28, each lattice abuts against the corresponding electromagnet roller 26, five screw rods 24 are arranged in the shade 25 in a rotating manner, and each screw rod 24 is rotatably connected on the inner wall of the crushing space 23.

Further, referring to fig. 1 and 2, the separating mechanism 92 further includes a transmission cavity 39 disposed in one side of the housing 10 perpendicular to the feeding port 28, each electromagnet roller 26 and each screw rod 24 penetrate through an inner wall of the crushing space 23 adjacent to the transmission cavity 39 and are rotatably connected to an inner wall of the transmission cavity 39 far away from the crushing space 23, each electromagnet roller 26 is fixedly provided with a first driving gear 35 and a second gear 36, the first driving gear 35 is closer to the crushing space 23 than the second gear 36, each screw rod 24 is fixedly provided with a driven gear 34, each driven gear 34 is engaged with the corresponding first driving gear 35, the inner wall of the transmission cavity 39 far away from the crushing space 23 is rotatably provided with four transmission shafts 37, each transmission shaft 37 is located between the adjacent second gears 36, each transmission shaft 37 is fixedly provided with a transmission gear 38, each transmission gear 38 is meshed and connected with two adjacent second gears 36, the side, away from the transmission cavity 39, of each screw rod 24 penetrates through the shell 10, and the side, away from the transmission cavity 39, of the shell 10 is fixedly provided with the scrap iron pool 33.

Further, referring to fig. 5, the crushing and iron removing mechanism 91 further includes five electric cavities 40 disposed in the housing 10, each electric cavity 40 is disposed on the side of the transmission cavity 39 away from the crushing space 23, each electromagnet roller 26 is rotatably connected to the inner wall of the electric cavity 40 away from the transmission cavity 39, each electromagnet roller 26 is fixedly provided with a reel 56, the reel 56 is disposed in the electric cavity 40, the inner wall of each electric cavity 40 close to the transmission cavity 39 is provided with a slide groove 47 with an opening facing the electric cavity 40, each slide groove 47 is slidably provided with a pressing block 49, each pressing block 49 is connected to the inner wall of the slide groove 47 through a first return spring 48, each reel 56 is connected to the pressing block 49 through a control rope 55 by bypassing the guide wheel 54, the inner wall of each electric cavity 40 close to the guide wheel 54 is provided with an electric slide groove 50 with an opening facing the electric cavity 40, each electric slide groove 50 is slidably provided with an electric button 53, each energizing button 53 is connected to the inner wall of the energizing chute 50 by two second return springs 52, and one energizing spring 51 is fixedly provided on the inner wall of each energizing chute 50.

Further, referring to fig. 1, 3 and 4, the separating mechanism 92 includes three rotating rollers 17 rotatably disposed on the inner wall of the separating space 16, each rotating roller is uniformly provided with a plurality of hard brushes 19 in an annular shape, the hard brushes 19 on the three rotating rollers 17 are contacted with each other, each rotating roller 17 is provided with a water throwing cavity 21 therein, a plurality of centrifugal check valves 18 are axially disposed between the hard brushes 19 on each rotating roller 17, a limit block 20 is fixedly disposed in the separating space 16 near the water storage cavity 29, a baffle 42 is fixedly disposed on the inner wall of the separating space 16 far from the water storage cavity 29 for bouncing off the cullet stuck on the hard brush 19, a linkage cavity 57 is disposed in the housing 10 near the transmission cavity 39, the end of each rotating roller 17 near the linkage cavity 57 is extended into the linkage cavity 57, a belt pulley 58 is fixedly disposed at the end of the rotating roller 17 located in the linkage cavity 57, and a belt 59 is sleeved on the three belt pulleys 58, the side of the shell 10 far away from the linkage cavity 57 is embedded with a second motor 45, and the end of the rotating roller 17 close to the water storage cavity 29 far away from the linkage cavity 57 is rotatably connected to the second motor 45.

Further, with reference to fig. 1, filter water purification mechanism 90 includes that the sliding is established cullet drawer 14 and label drawer 13 in water purification space 11, cullet drawer 14 is closer to separation space 16 in label drawer 13 relatively, water purification space 11 keeps away from the fixed two water purifiers 12 that are equipped with in first discharge hole 15 side, separation space 16 is close to being equipped with a second discharge hole 46 on the lateral wall of water storage chamber 29, second discharge hole 46 communicates water purification space 11 through arranging the material pipe 30, water storage chamber 29 is close to row material pipe 30 department and inlays and is equipped with check valve 31, check valve 31 will communicate water purification space 11 and hard brush 19, water purification space 11 keeps away from separation space 16 side and is equipped with inlet opening 32 and communicates water storage chamber 29.

Further, with reference to fig. 1 and 3, the water inlet pipe 43 is embedded in the side of the linkage cavity 57 away from the separation space 16, three branch pipes of the water inlet pipe 43 are respectively arranged in the three rotating rollers 17, each rotating roller 17 is rotatably connected to the corresponding branch pipe, the other end of the water inlet pipe 43 extends into the water storage cavity 29, and the water pump 44 is fixedly arranged at the end of the water inlet pipe 43.

Further, the method comprises the following steps:

s1: feeding, namely pouring a cullet bottle through a feeding hole 28;

s2: crushing, namely crushing the crushed glass bottles through five electromagnet rollers 26;

s3: removing iron, wherein in the crushing process, the electromagnet roller 26 rotates to enable the pressing block 49 to press the power-on button 53, so that the electromagnet roller 26 is powered on to display magnetism to adsorb iron impurities in the crushed glass;

s4: iron discharging, wherein iron impurities adsorbed on the electromagnet roller 26 are scraped into the grids of the shade 25 through the shade 25 and discharged into an iron impurity pool 33 through a screw rod 24 for centralized treatment;

s5: separating the glass from the labels, and brushing off the labels on the cullet through friction of the three rotating rollers 17;

s6: filtering the label, wherein light label impurities float on the water surface through the water in the water purification space 11, and heavy cullet sinks at the water bottom;

s7: the water in the water purification space 11 is filtered by the two water purifiers 12 and then is used continuously.

Initial state: the second return spring 52 is in a normal state, the first return spring 48 is in a normal state, and the energizing spring 51 is in a normal state.

The working principle is as follows: when the first motor 41 is started, the first motor 41 drives the electromagnet roller 26 to rotate in the same direction with the transmission gear 38 through the second gear 36, the electromagnet roller 26 drives the screw rod 24 to rotate through the driven gear 34, when the electromagnet roller 26 rotates, the reel 56 is rotated up and down from the thread of the electromagnet roller 26, the reel 56 pulls the pressing block 49 out of the chute 47 through the control rope 55, the first return spring 48 is elongated, the pressing block 49 pushes the energizing button 53 to contact the energizing spring 51 and press the energizing spring 51, the second return spring 52 is compressed, the electromagnet roller 26 is energized to exhibit magnetism, the glass cullet is dumped from the feed inlet 28 onto the pinch plate 27, the glass cullet slides downwards through gravity, when passing through the electromagnet roller 26, the electromagnet roller 26 crushes the glass, iron impurities in the glass cullet are adsorbed on the electromagnet roller 26, the iron impurities are scraped into the grid of the shield 25 through the grid wall of the shield 25, iron impurities are conveyed into the iron mixing pool 33 from the grids of the shade 25 through the screw rods 24 for centralized processing, the grids of the shade 25 not only can temporarily hold the iron impurities, but also can timely scrape the iron impurities on the electromagnet rollers 26, and the phenomenon that the electromagnet rollers 26 crush cullet when the cullet is crushed is avoided, so that the cullet crushing degree is inconsistent, and the glass particles are different in size.

The second motor 45 and the water pump 44 are started, the water pump 44 pumps the water in the water storage cavity 29 into the water throwing cavity 21, the second motor 45 and the belt 59 drive the three rotating rollers 17 to rotate in the same direction, the glass particles in the crushing space 23 fall into the separation space 16 through the communication holes 22, the centrifugal one-way valve 18 is opened through centrifugal force while the rotating rollers 17 rotate, the water in the water throwing cavity 21 is thrown out of the water throwing cavity 21 through the centrifugal one-way valve 18, the glass particles are wetted and washed through friction of the hard brush 19, the labels on the glass particles are washed, the limiting block 20 and the baffle 42 can bounce the glass particles clamped in the hard brush 19, and the situation that the glass particles are clamped in the hard brush 19 and have influence on label brushing is avoided.

The one-way valve 31 is opened, water in the water storage cavity 29 is guided into the cullet drawer 14, the label and glass particles separated in the separation space 16 enter the cullet drawer 14 through the first discharge hole 15 and the second discharge hole 46, the water level is higher than the cullet drawer 14, the label with light mass and the glass particles with heavy mass are separated through the buoyancy of the water, so that the label impurities float on the water surface, the glass sinks at the bottom of the water, the label impurities fall into the label drawer 13 from the water surface after the cullet drawer 14 is drawn out, the label is filtered through the label drawer 13, the water is purified through the two water purifiers 12, and the purified water flows into the water storage cavity 29 through the water inlet 32.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.