CN111604327A

CN111604327A - Glass recovery device

Info

Publication number: CN111604327A
Application number: CN202010494167.3A
Authority: CN
Inventors: 马翠翠
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-06-03
Filing date: 2020-06-03
Publication date: 2020-09-01

Abstract

The invention relates to the field of glass processing, in particular to a glass recovery device. The invention aims to provide a glass recovery device. A glass recovery device comprises a bearing moving mechanism, a double-curved-surface glass bottle, a control screen, a cutting mechanism and a thermal paint removing mechanism; a hyperboloid glass bottle is arranged in the middle of the inside of the bearing moving mechanism; a control screen is arranged at the right middle part in the bearing moving mechanism; bear the interior left side of moving mechanism, interior right side and interior top all are connected with cutting mechanism. The invention realizes the removal of the inner paint surface of the double-curved-surface glass bottle, can realize the automatic transfer after the bottle bottom is cut, better improves the purity of glass recovery and simultaneously increases the processing efficiency.

Description

Glass recovery device

Technical Field

The invention relates to the field of glass processing, in particular to a glass recovery device.

Background

The vacuum cup is a container made of ceramic or stainless steel and vacuum layer, the top of the container is covered tightly, the vacuum heat insulating layer can delay the heat dissipation of the liquid such as water in the container, so as to achieve the purpose of heat preservation. The thermos cup is developed from a thermos bottle, the heat preservation principle is the same as that of the thermos bottle, and people only make the bottle into a cup conveniently.

When the paint spraying pattern is recycled, the paint spraying pattern is arranged in the hollow double-curved-surface glass bottle of the vacuum cup, if the whole is directly crushed and recycled, the paint spraying pattern on the inner curved surface can be crushed together, so that a large amount of paint substances are contained in the crushed glass, the purity of the glass is greatly reduced during recycling, and a large amount of toxic gas is generated;

therefore, it is desirable to develop a glass recycling apparatus to overcome the above problems.

Disclosure of Invention

The invention aims to overcome the defects that when the vacuum cup is recycled, paint spraying patterns are arranged in a hollow double-curved-surface glass bottle of the vacuum cup, if the whole vacuum cup is directly crushed and recycled, the patterns sprayed on the inner curved surface can be crushed together, so that a large amount of paint substances are contained in the crushed glass, the purity is greatly reduced when the glass is recycled, a large amount of toxic gas is generated, and the like.

The invention is achieved by the following specific technical means:

a glass recovery device comprises a bearing moving mechanism, a double-curved-surface glass bottle, a control screen, a cutting mechanism and a thermal paint removing mechanism; a hyperboloid glass bottle is arranged in the middle of the inside of the bearing moving mechanism; a control screen is arranged at the right middle part in the bearing moving mechanism; the inner left side, the inner right side and the inner top of the bearing moving mechanism are connected with the cutting mechanism; the middle bottom part in the bearing moving mechanism is provided with a thermal paint removing mechanism, and the rear side of the middle part in the thermal paint removing mechanism is connected with the hyperboloid glass bottle.

Furthermore, the bearing moving mechanism comprises an outer frame, a supporting plate, a first transmission belt, a placing block, a second transmission belt, a first limiting block, a second limiting block, an ejector rod, a first spring telescopic rod, a first wedge-shaped block, a second wedge-shaped block, a rack rod and a cylindrical gear; the middle bottom part in the outer frame is welded with the support plate; the right side in the top of the supporting plate is in transmission connection with a first transmission belt, and the front right side and the rear right side of the first transmission belt are both connected with the outer frame; the left side in the top of the supporting plate is in transmission connection with a second transmission belt, and the front left side and the rear left side of the second transmission belt are both connected with the outer frame; four groups of placing blocks are equidistantly arranged on the annular belt on the outer surface of the first transmission belt; the upper left part of the middle part of the top of the supporting plate is welded with a first limiting block; the upper right part of the middle part of the top of the supporting plate is welded with a second limiting block; the left side in the top of the supporting plate is connected with a first spring telescopic rod through a bolt; the top of the first spring telescopic rod is welded with the ejector rod; the front bottom of the first spring telescopic rod is welded with the first wedge-shaped block; the bottom of the first wedge-shaped block is provided with a second wedge-shaped block; the right bottom of the second wedge-shaped block is welded with the toothed bar, and the left side of the outer surface and the right side of the outer surface of the toothed bar are both connected with the supporting plate; the middle part of the top of the toothed bar is meshed with the cylindrical gear, and the rear end shaft center of the cylindrical gear is connected with the supporting plate; the middle part of the inner top of the outer frame, the left side of the inner bottom, the left side of the inner top and the right side of the inner top are connected with a cutting mechanism; the right middle part in the outer frame is connected with the control screen; the axle center of the rear side of the cylindrical gear is connected with a thermal paint removing mechanism.

Furthermore, the cutting mechanism comprises a motor, a first driving wheel, a first rotating rod, a second driving wheel, a second rotating rod, a first helical gear, a first screw rod, a first outer sleeve frame, a second spring telescopic rod, a first clamping plate, a cutting wire, a second screw rod and a second helical gear; the top axis of the motor is rotationally connected with the first rotating rod; the bottom of the outer surface of the first rotating rod is rotatably connected with the first driving wheel; the right side of the first driving wheel is in transmission connection with a second driving wheel; the top of the outer surface of the first rotating rod is rotatably connected with a first bevel gear; the top of the outer surface of the second rotating rod is rotationally connected with the first bevel gear; the right side of the first bevel gear is meshed with the first screw rod; the right side of the bottom of the first screw rod is welded with the first outer sleeve frame; the middle part of the inner top of the first outer sleeve frame is welded with the second spring telescopic rod; the bottom of the outer surface of the first outer sleeve frame is in screwed connection with the cutting wire; the right bottom of the first outer sleeve frame is welded with the second screw rod; the bottom of the telescopic rod of the second spring is welded with the first clamping plate; the bottom of the right side of the second screw rod is meshed with a second bevel gear, and the bottom axis of the second bevel gear is connected with a second rotating rod; the left side of the motor is connected with the outer frame; the bottom of the outer surface of the first rotating rod and the top of the outer surface of the first rotating rod are connected with an outer frame; the bottom of the outer surface of the second rotating rod and the top of the outer surface of the second rotating rod are connected with the outer frame; the bottom of the outer surface of the first screw rod is connected with an outer frame; the bottom of the outer surface of the second screw rod is connected with the outer frame.

Furthermore, the hot paint removing mechanism comprises a first supporting rod, a first micro push rod, a second micro push rod, a third micro push rod, a first limiting frame, a first fixed roller, a first double-column limiting frame, a steel bar plate, a fourth micro push rod, a second limiting frame, a second fixed roller, a second double-column limiting frame, a bent arc plate, a T-shaped block, a round notch, a third spring telescopic rod, a fourth spring telescopic rod and a heating clamping plate; the rear top of the first supporting rod is connected with a first miniature push rod through a bolt; the rear bottom of the first miniature push rod is welded with the second miniature push rod; the left rear side of the first miniature push rod is welded with the third miniature push rod; the right rear side of the first miniature push rod is welded with the fourth miniature push rod; the bottom of the second miniature push rod is welded with the curved arc plate; the left side of the outer surface of the third miniature push rod is spliced with the first limiting frame; the left side of the third miniature push rod is welded with the first double-column limiting frame; the left side in the first limiting frame is spliced with the first fixed roller; the bottom of the first fixed roller is connected with the steel strip plate through a bolt, and the left side of the steel strip plate is connected with the first double-column limiting frame; the right side of the outer surface of the fourth micro push rod is spliced with the second limiting frame; the right side in the second limiting frame is spliced with a second fixed roller, and the bottom of the second fixed roller is connected with the steel bar plate; the right side of the fourth micro push rod is welded with the second double-column limiting frame, and the inner right side of the second double-column limiting frame is connected with the steel bar plate; the bottom of the curved arc plate is provided with a T-shaped block; the middle part of the inner bottom of the T-shaped block is provided with a round notch; the left side in the inner top of the T-shaped block is spliced with a third spring telescopic rod; the right side in the inner top of the T-shaped block is spliced with a fourth spring telescopic rod; the top of the third spring telescopic rod is welded with the heating splint, and the right side of the bottom of the heating splint is connected with the fourth spring telescopic rod; the bottom of the first supporting rod is connected with the supporting plate; the inside of the round notch is connected with the cylindrical gear.

Furthermore, the independent plate body on the left side of the bottom of the first outer frame is vertically opposite to the ejector rod.

Furthermore, an adjustable knob is arranged on the left side of the installation position of the cutting wire and the first outer sleeve frame.

Furthermore, the middle part of the top of the steel bar plate is in a bent arc state after being pressed by the bent arc plate.

Compared with the prior art, the invention has the following beneficial effects:

1. the problems that when the vacuum cup is recycled, paint spraying patterns are arranged in a hollow double-curved-surface glass bottle of the vacuum cup, if the whole vacuum cup is directly crushed and recycled, the patterns sprayed on the inner curved surface can be crushed together, a large amount of paint substances are contained in the crushed glass, the purity is greatly reduced when the glass is recycled, a large amount of toxic gas is generated, and the like are solved;

2. a bearing moving mechanism, a cutting mechanism and a thermal paint removing mechanism are designed; when the device is used, the glass recovery device is placed at a position to be used, then the power supply is connected externally, then the hyperboloid glass bottle is transferred to the heat paint removing mechanism through the bearing moving mechanism, the cutting mechanism is controlled to open the bottom of the hyperboloid glass bottle through the operation of the control screen starting device, the cut bottle bottom is transferred and collected by the bearing moving mechanism, and then the paint spraying patterns of the inner cambered surface of the hyperboloid glass bottle are removed through the heat paint removing mechanism;

3. this device has realized carrying out getting rid of inside lacquer painting to hyperboloid glass bottle, can realize the automatic transfer after the cutting at the bottom of the bottle simultaneously, and the purity of better improvement glass recovery increases the efficiency of processing simultaneously.

Drawings

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

FIG. 2 is a schematic structural diagram of a carriage moving mechanism according to the present invention;

FIG. 3 is a schematic view of the cutting mechanism of the present invention;

FIG. 4 is a schematic structural view of a thermal paint removal mechanism according to the present invention.

The labels in the figures are: 1-carrying moving mechanism, 2-double curved glass bottle, 3-control screen, 4-cutting mechanism, 5-hot paint removing mechanism, 101-outer frame, 102-supporting plate, 103-first driving belt, 104-placing block, 105-second driving belt, 106-first limiting block, 107-second limiting block, 108-top bar, 109-first spring telescopic rod, 1010-first wedge block, 1011-second wedge block, 1012-toothed bar, 1013-cylindrical gear, 401-motor, 402-first driving wheel, 403-first rotating bar, 404-second driving wheel, 405-second rotating bar, 406-first helical gear, 407-first screw rod, 408-first outer sleeve frame, 409-second spring telescopic rod, 4010-first clamping plate, 4011-cutting wire, 4012-second lead screw, 4013-second bevel gear, 501-first supporting rod, 502-first micro push rod, 503-second micro push rod, 504-third micro push rod, 505-first limiting frame, 506-first fixed roller, 507-first double-column limiting frame, 508-steel strip plate, 509-fourth micro push rod, 5010-second limiting frame, 5011-second fixed roller, 5012-second double-column limiting frame, 5013-curved arc plate, 5014-T block, 5015-circular notch, 5016-third spring telescopic rod, 5017-fourth spring telescopic rod, 5018-heating clamping plate.

Detailed Description

The invention is further described below with reference to the figures and examples.

Examples

A glass recovery device is shown in figures 1-4 and comprises a bearing moving mechanism 1, a double-curved-surface glass bottle 2, a control screen 3, a cutting mechanism 4 and a thermal paint removing mechanism 5; a hyperboloid glass bottle 2 is arranged in the middle of the inside of the bearing moving mechanism 1; a control screen 3 is arranged at the right middle part in the bearing and moving mechanism 1; the inner left side, the inner right side and the inner top of the bearing moving mechanism 1 are connected with the cutting mechanism 4; the middle bottom part in the bearing moving mechanism 1 is provided with a thermal paint removing mechanism 5, and the rear side of the middle part in the thermal paint removing mechanism 5 is connected with the hyperboloid glass bottle 2.

The bearing moving mechanism 1 comprises an outer frame 101, a support plate 102, a first transmission belt 103, a placing block 104, a second transmission belt 105, a first limiting block 106, a second limiting block 107, a top rod 108, a first spring telescopic rod 109, a first wedge-shaped block 1010, a second wedge-shaped block 1011, a toothed bar 1012 and a cylindrical gear 1013; the middle bottom part in the outer frame 101 is welded with the support plate 102; the top right side of the support plate 102 is in transmission connection with a first transmission belt 103, and the front right side and the rear right side of the first transmission belt 103 are both connected with the outer frame 101; the left side in the top of the supporting plate 102 is in transmission connection with a second transmission belt 105, and the front left side and the rear left side of the second transmission belt 105 are both connected with the outer frame 101; four groups of placing blocks 104 are arranged on the outer surface of the first transmission belt 103 at equal intervals; the left upper part of the top middle part of the supporting plate 102 is welded with a first limiting block 106; the upper right of the top middle part of the supporting plate 102 is welded with a second limiting block 107; the middle left side of the top of the support plate 102 is in bolted connection with a first spring telescopic rod 109; the top of the first spring telescopic rod 109 is welded with the ejector rod 108; the front bottom of the first spring telescopic rod 109 is welded with the first wedge block 1010; the bottom of the first wedge block 1010 is provided with a second wedge block 1011; the right bottom of the second wedge block 1011 is welded with the toothed bar 1012, and the left side and the right side of the outer surface of the toothed bar 1012 are both connected with the support plate 102; the top middle part of the gear rod 1012 is meshed with the cylindrical gear 1013, and the rear end axle center of the cylindrical gear 1013 is connected with the support plate 102; the middle part of the inner top of the outer frame 101, the left side of the inner bottom, the left side of the inner top and the right side of the inner top are connected with the cutting mechanism 4; the right middle part in the outer frame 101 is connected with the control screen 3; the rear side axis of the spur gear 1013 is connected to the thermal paint removing mechanism 5.

The cutting mechanism 4 comprises a motor 401, a first driving wheel 402, a first rotating rod 403, a second driving wheel 404, a second rotating rod 405, a first helical gear 406, a first screw rod 407, a first outer sleeve frame 408, a second spring telescopic rod 409, a first clamping plate 4010, a cutting wire 4011, a second screw rod 4012 and a second helical gear 4013; the top axis of the motor 401 is rotatably connected with the first rotating rod 403; the bottom of the outer surface of the first rotating rod 403 is rotatably connected with the first driving wheel 402; the right side of the first driving wheel 402 is in driving connection with a second driving wheel 404; the top of the outer surface of the first rotating rod 403 is rotatably connected with a first bevel gear 406; the top of the outer surface of the second rotating rod 405 is rotatably connected with the first bevel gear 406; the right side of the first bevel gear 406 is meshed with the first screw rod 407; the right side of the bottom of the first screw rod 407 is welded with the first outer sleeve frame 408; the middle of the top of the first outer sleeve frame 408 is welded with a second spring telescopic rod 409; the bottom of the outer surface of the first outer sleeve frame 408 is screwed with the cutting wire 4011; the right bottom of the first outer sleeve frame 408 is welded with a second screw rod 4012; the bottom of the second spring telescopic rod 409 is welded with the first clamping plate 4010; the bottom of the right side of the second screw 4012 is engaged with a second bevel gear 4013, and the bottom axis of the second bevel gear 4013 is connected with a second rotating rod 405; the left side of the motor 401 is connected with the outer frame 101; the bottom of the outer surface and the top of the outer surface of the first rotating rod 403 are both connected with the outer frame 101; the bottom of the outer surface and the top of the outer surface of the second rotating rod 405 are both connected with the outer frame 101; the bottom of the outer surface of the first lead screw 407 is connected with the outer frame 101; the bottom of the outer surface of the second screw 4012 is connected with the outer frame 101.

The hot paint removing mechanism 5 comprises a first supporting rod 501, a first micro push rod 502, a second micro push rod 503, a third micro push rod 504, a first limiting frame 505, a first fixed roller 506, a first double-column limiting frame 507, a steel bar plate 508, a fourth micro push rod 509, a second limiting frame 5010, a second fixed roller 5011, a second double-column limiting frame 5012, a bent arc plate 5013, a T-shaped block 5014, a circular groove 5015, a third spring telescopic rod 5016, a fourth spring telescopic rod 5017 and a heating clamping plate 5018; the rear top of the first support rod 501 is connected with a first micro push rod 502 through a bolt; the rear bottom of the first micro push rod 502 is welded with the second micro push rod 503; the left back side of the first micro-pushrod 502 is welded to the third micro-pushrod 504; the right rear side of the first micro pushrod 502 is welded to the fourth micro pushrod 509; the bottom of the second micro push rod 503 is welded with the curved arc plate 5013; the left side of the outer surface of the third micro push rod 504 is inserted into the first limiting frame 505; the left side of the third micro push rod 504 is welded with the first double-column limiting frame 507; the left side in the first limiting frame 505 is inserted into the first fixed roller 506; the bottom of the first fixed roller 506 is connected with a steel strip plate 508 through a bolt, and the left side of the steel strip plate 508 is connected with a first double-column limiting frame 507; the right side of the outer surface of the fourth micro push rod 509 is inserted into the second limit frame 5010; the inner right side of the second limiting frame 5010 is spliced with a second fixed roller 5011, and the bottom of the second fixed roller 5011 is connected with the steel strip plate 508; the right side of the fourth micro push rod 509 is welded with the second double-column limiting frame 5012, and the inner right side of the second double-column limiting frame 5012 is connected with the steel bar plate 508; the bottom of the bent arc plate 5013 is provided with a T-shaped block 5014; the middle part of the inner bottom of the T-shaped block 5014 is provided with a circular notch 5015; the left side in the top of the T-shaped block 5014 is inserted into a third spring telescopic rod 5016; the middle right side of the inner top of the T-shaped block 5014 is inserted into a fourth spring telescopic rod 5017; the top of the third spring telescopic rod 5016 is welded with the heating splint 5018, and the right side of the bottom of the heating splint 5018 is connected with the fourth spring telescopic rod 5017; the bottom of the first support rod 501 is connected with the support plate 102; circular slot 5015 is internally connected to cylindrical gear 1013.

The independent plate body on the left side of the bottom of the first outer sleeve frame 408 is vertically opposite to the top rod 108.

An adjustable knob is arranged on the left side of the installation position of the cutting wire 4011 and the first outer sleeve frame 408.

The middle of the top of the steel strip plate 508 is pressed by the curved plate 5013 and then is in a curved state.

The working principle is as follows: place glass recovery unit in the position that will use earlier during the use, then external power supply, transfer hyperboloid glass bottle 2 to on the mechanism 5 that removes lacquer of heat through bearing moving mechanism 1 after that, through the operation of 3 starting drive of control screen, control cutting mechanism 4 earlier and open 2 bottle bottoms of hyperboloid glass bottle, cut the bottle bottom and be born moving mechanism 1 and shift the collection, then get rid of the pattern of spraying paint of 2 interior cambered surfaces of hyperboloid glass bottle through the mechanism 5 that removes lacquer of heat, realized carrying out getting rid of inside lacquer finish to hyperboloid glass bottle 2, can realize the automatic transfer after the bottle bottom cutting simultaneously, better improvement glass retrieves the purity, increase the efficiency of processing simultaneously.

When the device is used, the first transmission belt 103 in the right middle part in the outer frame 101 is controlled to transmit, meanwhile, the hyperboloid glass bottle 2 is placed in the middle of the placing block 104 on the first transmission belt 103, the pattern is placed towards the lower part of the left middle part, then when the placing block 104 on the first transmission belt 103 transmits the hyperboloid glass bottle 2 to the hot paint removing mechanism 5, the hyperboloid glass bottle 2 drops on the hot paint removing mechanism 5, the paint spraying pattern just faces downwards and directly below, meanwhile, the first limiting block 106 and the second limiting block 107 on the supporting plate 102 can limit the position of the hyperboloid glass bottle 2, then after the bottom of the hyperboloid glass bottle 2 is cut by the cutting mechanism 4, the cutting mechanism 4 continuously descends to be in contact with the ejector rod 108, the first spring telescopic rod 109 is driven to descend to drive the first wedge-shaped block 1010 to be in contact with the second wedge-shaped block 1011, when the second wedge-shaped block 1011 moves rightwards, the toothed rod 1012 is driven, then drive the anticlockwise upset of hot depainting mechanism 5, can set up the baffle in the second drive belt 105 front and back side simultaneously, the cooperation shifts the bottle end through the transmission of second drive belt 105 when hot depainting mechanism 5 overturns to hyperboloid glass bottle 2 goes to paint, has realized the cooperation and has conveyed and cut the transfer at the bottom of the bottle to hyperboloid glass bottle 2, and the linkage through cutting mechanism 4 drives the upset of hot depainting mechanism 5.

When the hyperboloid glass bottle 2 needs to be cut, the motor 401 is started to drive the first driving wheel 402 to drive the second driving wheel 404 to rotate, the first driving wheel 402 drives the second driving wheel 404 to rotate and simultaneously drives the first rotating rod 403 and the second rotating rod 405 to rotate, the first rotating rod 403 and the second rotating rod 405 rotate and simultaneously drive the first bevel gear 406 and the second bevel gear 4013 to respectively drive the first screw rod 407 and the second screw rod 4012 to rotate and descend, the first outer sleeve frame 408 is driven to drive the second spring telescopic rod 409 to descend, the second spring telescopic rod 409 descends to drive the first clamping plate 4010 to fix the hyperboloid glass bottle 2, and meanwhile, the first outer sleeve frame 408 drives the cutting wire 4011 to cut the hyperboloid glass bottle 2; after cutting, the first outer sleeve frame 408 continues to descend, the left side of the bottom of the first outer sleeve frame is in contact with the top rod 108, the first spring telescopic rod 109 is driven to descend, then the first wedge-shaped block 1010 is driven to be in contact with the second wedge-shaped block 1011, the second wedge-shaped block 1011 drives the toothed rod 1012 to be meshed with the cylindrical gear 1013 to rotate when moving rightwards, and then the thermal paint removing mechanism 5 is driven to turn anticlockwise; the double-curved-surface glass bottle 2 is fixed and cut, and the push rod 108 is linked to drive the thermal paint removing mechanism 5 to turn over.

During cutting, the first micro push rod 502 is driven to keep shrinking through the first support rod 501, then the cutting wire 4011 is used for cutting the double-curved-surface glass bottle 2, the third spring telescopic rod 5016 and the fourth spring telescopic rod 5017 on the T-shaped block 5014 are matched with the heating splint 5018 on the top to clamp the double-curved-surface glass bottle 2, and double clamping fixation is achieved through the heating splint 5018 and the first splint 4010; after cutting, the bottle bottom is separated, but because the first micro push rod 502 is kept contracted, the first micro push rod 503, the third micro push rod 504 and the fourth micro push rod 509 are matched for common limitation, the bottle bottom cannot fall off, then the T-shaped block 5014 is driven to overturn through the cylindrical gear 1013 matched with the circular notch 5015, the bottle bottom is driven to overturn and transfer, then the first micro push rod 502 is stretched to drive the second micro push rod 503, the third micro push rod 504 and the fourth micro push rod 509 are simultaneously extended, namely the second micro push rod 503 is driven, the third micro push rod 504 and the fourth micro push rod 509 are stretched into the double curved surface glass bottle 2, then the first fixed roller 506 on the first limiting frame 505 is driven to be matched with the first double column limiting frame 507 through reciprocating stretching, the second fixed roller 5011 on the second limiting frame 5010 is matched with the second double column limiting frame 5012 to drive the steel strip plate 508 to perform reciprocating friction, and simultaneously the second micro push rod 503 is descended to enable the curved plate 5013 to be matched with the curved surface of different double curved surface glass bottles 2 for paint removal, paint is removed under the matched heating of the heating clamping plate 5018; realized shifting 2 bottle bottoms of hyperboloid glass bottle, carried out the heat to the pattern of spraying paint in the hyperboloid glass bottle 2 simultaneously and got rid of.

The independent plate body on the left side of the bottom of the first outer sleeve frame 408 is vertically opposite to the top rod 108; the first outer frame 408 can be ensured to contact with the push rod 108 when moving downwards, so that the push rod 108 is forced to be pressed downwards and contracted.

An adjustable knob is arranged on the left side of the installation position of the cutting wire 4011 and the first outer sleeve frame 408, so that the cutting wire 4011 can be replaced or adjusted conveniently.

The middle part of the top of the steel strip plate 508 is in a bent arc state after being pressed by the bent arc plate 5013; can be mutually attached to the inner arc surface of the double-curved-surface glass bottle 2, and the paint removing efficiency is improved.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims

1. A glass recovery device comprises a hyperboloid glass bottle (2) and a control screen (3), and is characterized by further comprising a bearing moving mechanism (1), a cutting mechanism (4) and a heat paint removing mechanism (5); a hyperboloid glass bottle (2) is arranged in the middle of the inside of the bearing moving mechanism (1); a control screen (3) is arranged at the right middle part in the bearing moving mechanism (1); the inner left side, the inner right side and the inner top of the bearing moving mechanism (1) are connected with the cutting mechanism (4); the middle bottom in the bearing moving mechanism (1) is provided with a heat paint removing mechanism (5), and the rear side of the middle in the heat paint removing mechanism (5) is connected with the hyperboloid glass bottle (2).

2. The glass recycling device according to claim 1, wherein the carrying moving mechanism (1) comprises an outer frame (101), a support plate (102), a first transmission belt (103), a placing block (104), a second transmission belt (105), a first limit block (106), a second limit block (107), a top rod (108), a first spring telescopic rod (109), a first wedge block (1010), a second wedge block (1011), a toothed rod (1012) and a cylindrical gear (1013); the middle bottom in the outer frame (101) is welded with the support plate (102); the right side in the top of the support plate (102) is in transmission connection with a first transmission belt (103), and the front right side and the rear right side of the first transmission belt (103) are connected with the outer frame (101); the left side in the top of the supporting plate (102) is in transmission connection with a second transmission belt (105), and the front left side and the rear left side of the second transmission belt (105) are connected with the outer frame (101); four groups of placing blocks (104) are arranged on the outer surface of the first transmission belt (103) at equal intervals; the upper left part of the top middle part of the supporting plate (102) is welded with a first limiting block (106); the upper right part of the top middle part of the supporting plate (102) is welded with a second limiting block (107); the middle left side of the top of the supporting plate (102) is connected with a first spring telescopic rod (109) through a bolt; the top of the first spring telescopic rod (109) is welded with the ejector rod (108); the front bottom of the first spring telescopic rod (109) is welded with the first wedge-shaped block (1010); the bottom of the first wedge-shaped block (1010) is provided with a second wedge-shaped block (1011); the right bottom of the second wedge-shaped block (1011) is welded with the toothed bar (1012), and the left side and the right side of the outer surface of the toothed bar (1012) are connected with the support plate (102); the top middle part of the rack bar (1012) is meshed with the cylindrical gear (1013), and the rear end axle center of the cylindrical gear (1013) is connected with the support plate (102); the inner top middle part, the inner bottom left side, the inner top left side and the inner top right side of the outer frame (101) are connected with the cutting mechanism (4); the right middle part in the outer frame (101) is connected with the control screen (3); the rear side axle center of the cylindrical gear (1013) is connected with a hot paint removing mechanism (5).

3. A glass recycling apparatus according to claim 2, characterized in that the cutting mechanism (4) comprises a motor (401), a first driving wheel (402), a first rotating rod (403), a second driving wheel (404), a second rotating rod (405), a first helical gear (406), a first lead screw (407), a first outer sleeve frame (408), a second telescopic spring rod (409), a first clamping plate (4010), a cutting wire (4011), a second lead screw (4012) and a second helical gear (4013); the top axis of the motor (401) is rotationally connected with the first rotating rod (403); the bottom of the outer surface of the first rotating rod (403) is rotatably connected with the first driving wheel (402); the right side of the first driving wheel (402) is in driving connection with a second driving wheel (404); the top of the outer surface of the first rotating rod (403) is rotationally connected with a first bevel gear (406); the top of the outer surface of the second rotating rod (405) is rotationally connected with the first bevel gear (406); the right side of the first bevel gear (406) is meshed with a first screw rod (407); the right side of the bottom of the first screw rod (407) is welded with the first outer sleeve frame (408); the middle part of the inner top of the first outer sleeve frame (408) is welded with a second spring telescopic rod (409); the bottom of the outer surface of the first outer sleeve frame (408) is connected with the cutting wire (4011) in a screwing way; the right bottom of the first outer sleeve frame (408) is welded with a second screw rod (4012); the bottom of the second spring telescopic rod (409) is welded with the first clamping plate (4010); the bottom of the right side of the second screw rod (4012) is meshed with a second bevel gear (4013), and the bottom axle center of the second bevel gear (4013) is connected with a second rotating rod (405); the left side of the motor (401) is connected with the outer frame (101); the bottom of the outer surface and the top of the outer surface of the first rotating rod (403) are both connected with the outer frame (101); the bottom of the outer surface and the top of the outer surface of the second rotating rod (405) are connected with the outer frame (101); the bottom of the outer surface of the first screw rod (407) is connected with the outer frame (101); the bottom of the outer surface of the second screw rod (4012) is connected with the outer frame (101).

4. A glass recycling apparatus according to claim 3, characterized in that the heat depainting mechanism (5) comprises a first supporting rod (501), a first micro pushing rod (502), a second micro pushing rod (503), a third micro pushing rod (504), a first limiting frame (505), a first fixed roller (506), a first double-column limiting frame (507), a steel strip plate (508), a fourth micro pushing rod (509), a second limiting frame (5010), a second fixed roller (5011), a second double-column limiting frame (5012), a bent arc plate (5013), a T-shaped block (5014), a circular slot (5015), a third telescopic spring rod (5016), a fourth telescopic spring rod (5017) and a heating clamping plate (5018); the rear top of the first supporting rod (501) is connected with a first micro push rod (502) through a bolt; the rear bottom of the first micro push rod (502) is welded with the second micro push rod (503); the left back side of the first micro push rod (502) is welded with the third micro push rod (504); the right back side of the first micro push rod (502) is welded with a fourth micro push rod (509); the bottom of the second micro push rod (503) is welded with the curved arc plate (5013); the left side of the outer surface of the third micro push rod (504) is spliced with the first limit frame (505); the left side of the third micro push rod (504) is welded with the first double-column limiting frame (507); the left side in the first limiting frame (505) is spliced with the first fixed roller (506); the bottom of the first fixed roller (506) is connected with a steel strip plate (508) through a bolt, and the left side of the steel strip plate (508) is connected with a first double-column limiting frame (507); the right side of the outer surface of the fourth micro push rod (509) is spliced with the second limit frame (5010); the inner right side of the second limiting frame (5010) is spliced with a second fixed roller (5011), and the bottom of the second fixed roller (5011) is connected with the steel strip plate (508); the right side of the fourth micro push rod (509) is welded with a second double-column limiting frame (5012), and the inner right side of the second double-column limiting frame (5012) is connected with the steel bar plate (508); the bottom of the curved arc plate (5013) is provided with a T-shaped block (5014); the middle part of the inner bottom of the T-shaped block (5014) is provided with a round notch (5015); the left side in the inner top of the T-shaped block (5014) is inserted into a third spring telescopic rod (5016); the middle right side of the inner top of the T-shaped block (5014) is inserted into a fourth spring telescopic rod (5017); the top of the third spring telescopic rod (5016) is welded with the heating splint (5018), and the right side of the bottom of the heating splint (5018) is connected with the fourth spring telescopic rod (5017); the bottom of the first supporting rod (501) is connected with the supporting plate (102); the round notch (5015) is internally connected with a cylindrical gear (1013).

5. The glass recycling apparatus according to claim 4, wherein the independent plate body on the left side of the bottom of the first outer frame (408) is vertically opposite to the top rod (108).

6. The glass recycling device according to claim 5, wherein an adjustable knob is arranged on the left side of the installation position of the cutting wire (4011) and the first outer sleeve frame (408).

7. The glass recycling apparatus as claimed in claim 6, wherein the top middle portion of the steel strip plate (508) is curved by the curved plate (5013).