CN113649343B - Organic glass recycling and cleaning equipment - Google Patents

Abstract

The utility model relates to the field of industry, in particular to organic glass recycling and cleaning equipment. From taking the stoving function, can not leave the water stain after making the organic glass board wash, reduced the water dry time simultaneously, reduce the time cost. The automatic cleaning device comprises a cleaning device, a blanking device, a feeding device, a drying device and a base, wherein organic glass is put into a screen for cleaning, a blanking screw rod enables a blanking screw sleeve to move, a blanking slide block A enables a push rod to rotate along a push rod fixing shaft A, the screen rotates to blank along a blanking rotating shaft, a cleaning double gear drives a cleaning gear to rotate, a cleaning pool slides downwards under the action of a rack, the cleaning pool is enabled to blank and separate from cleaning water and fall on a belt, a motor enables a feeding double-gear rotating belt rotating shaft B to rotate, a feeding gear and a feeding short-gear rotating belt rotating shaft A and a belt rotating shaft C to rotate, the belt rotates to feed, a drying gear A enables a drying gear B and a drying double gear to rotate, a fan gear rotates, an electric heating element is electrified, hot air is blown, and drying is carried out.

Description

Organic glass recycling and cleaning equipment

Technical Field

The utility model relates to the field of industry, in particular to organic glass recycling and cleaning equipment.

Background

For example, patent No. CN201820101381.6 relates to a glass cleaning machine, and the technical scheme thereof is as follows: comprises a chassis; the conveying device is arranged in the case, consists of a plurality of conveying rollers and is used for conveying the glass plate; the container is arranged in the case and used for containing glass cleaning liquid; the control device is arranged on the case and used for controlling the glass cleaning liquid in the container to drop on the glass plate; the washing and brushing device is arranged in the case and is used for washing and brushing the glass plate adhered with the glass cleaning liquid; and the spraying device is arranged in the case and used for washing the glass plate after being washed. When the glass cleaning machine is used, the cleanliness of the glass plate can be further improved, so that the condition of reworking and cleaning of the glass plate is reduced, and the defects that the drying function is not provided and the washed glass plate has water stains are overcome.

Disclosure of Invention

The utility model aims to provide an organic glass recycling and cleaning device which has a drying function, so that no water stain is left after an organic glass plate is cleaned, the water drying time is shortened, and the time cost is reduced.

The purpose of the utility model is realized by the following technical scheme:

the utility model provides an organic glass retrieves cleaning equipment, includes belt cleaning device, doffer, material feeding unit, drying device, base, belt cleaning device is connected with the doffer, and belt cleaning device is connected with the base, and the doffer is connected with the base, and material feeding unit is connected with drying device, and material feeding unit is connected with the base, and drying device is connected with the base.

As a further optimization of the technical scheme, the utility model relates to an organic glass recycling and cleaning device, which comprises a cleaning tank, a cleaning slide rail fixing seat, a cleaning slide rail, a linear bearing A, a cleaning slide block, a backing plate, a rack, a cleaning gear shaft, a cleaning bevel gear, a cleaning double gear, a cleaning chain and a cleaning gear fixing seat, wherein the cleaning tank is fixedly connected with the cleaning slide block, the linear bearing A is fixedly connected with the cleaning slide block, the cleaning slide rail is slidably connected with the linear bearing A, the cleaning slide rail fixing seat is fixedly connected with the cleaning slide rail, the backing plate is welded with the cleaning slide rail fixing seat, the rack is welded with the cleaning tank, the cleaning gear is in matched connection with the rack, the cleaning gear is fixedly connected with the cleaning gear shaft, the cleaning gear shaft is fixedly connected with the cleaning bevel gear, the cleaning bevel gear is in matched connection with the cleaning double gear, the cleaning double gear is in matched connection with the cleaning chain, the cleaning double gears are rotationally connected with the cleaning gear fixing seat.

As a further optimization of the technical scheme, the utility model relates to an organic glass recycling and cleaning device, wherein a blanking device comprises a blanking rotating shaft fixing seat, a blanking rotating shaft, a blanking bearing A, a blanking bearing seat A, a push rod fixing shaft A, a push rod fixing shaft B, a push rod fixing seat B, a blanking slide block A, a blanking slide rail mounting seat, a blanking handle, a blanking lead screw, a blanking wire sleeve, a blanking gear, a blanking lead screw fixing seat, a blanking bearing seat B, a blanking bearing B, a blanking slide rod, a linear bearing B, a blanking slide block B, a blanking slide rod fixing seat, a blanking bearing seat C, a screen mesh, wherein the blanking rotating shaft fixing seat is welded with the blanking rotating shaft, the blanking rotating shaft is rotatably connected with the blanking bearing A, the blanking bearing A is fixedly connected with the blanking bearing seat A, and the blanking bearing seat A is welded with the screen mesh, the push rod fixing seat A is fixedly connected with the push rod fixing shaft A, the push rod is rotatably connected with the push rod fixing shaft A, the push rod fixing shaft B is welded with the push rod, the push rod fixing seat B is welded with the blanking slide block A, the blanking slide block A is slidably connected with the blanking slide rail, the blanking slide rail is fixedly connected with the blanking slide rail mounting seat, the push rod fixing seat A is welded with the screen mesh, the blanking slide block A is respectively welded with the blanking screw sleeve and the blanking slide block B, the blanking screw rod is in threaded connection with the blanking screw sleeve, the blanking handle is fixedly connected with the blanking screw rod, the blanking gear is fixedly connected with the blanking screw rod, the blanking screw rod is rotatably connected with the blanking bearing B, the blanking bearing B is fixedly connected with the blanking bearing seat B, the blanking bearing seat B is welded with the blanking screw rod fixing seat, and the linear bearing B is fixedly connected with the blanking slide block B, the blanking slide bar is connected with the linear bearing B in a sliding mode, the blanking slide bar is connected with the blanking bearing C in a rotating mode, the blanking bearing C is fixedly connected with the blanking bearing seat C, the blanking bearing seat C is connected with the blanking slide bar fixing seat in a welding mode, and the cleaning chain is connected with the blanking gear in a matching mode.

As a further optimization of the technical scheme, the organic glass recycling and cleaning equipment comprises a belt, a belt rotating shaft A, a belt rotating shaft B, a belt rotating shaft C, a feeding gear, a feeding double gear, a feeding short gear, a feeding chain, a motor double gear, a motor, an adjusting nut, a tensioning block fixing plate and a tensioning block, wherein the belt is respectively and rotatably connected with the belt rotating shaft A, the belt rotating shaft B and the belt rotating shaft C, the feeding gear is fixedly connected with the belt rotating shaft A, the feeding double gear is fixedly connected with the belt rotating shaft B, the feeding short gear is fixedly connected with the belt rotating shaft C, the feeding chain is respectively and cooperatively connected with the feeding gear, the feeding double gear and the feeding short gear, the motor chain is respectively and cooperatively connected with the feeding double gear and the motor double gear, the motor double gear is fixedly connected with a motor output shaft, and the tensioning block is fixedly connected with the belt rotating shaft C, the tensioning block is fixedly connected with the tensioning block fixing plate, and the adjusting nut is in threaded connection with the tensioning block.

As a further optimization of the technical scheme, the utility model relates to organic glass recycling and cleaning equipment, which comprises a drying gear A, a drying gear rotating shaft, a drying gear B, a drying chain, a drying double gear, a fan chain, a drying cover shell, a fan, an electric heating element fixing plate and a drying baffle plate, wherein the drying gear A and the drying gear B are both fixedly connected with the drying gear rotating shaft, the drying chain is respectively and cooperatively connected with the drying gear B and the drying double gear, the drying double gear and the fan gear are both and cooperatively connected with the fan chain, the drying double gear and the fan gear are both and fixedly connected with the fan, the fan is cooperatively connected with the drying cover shell, the electric heating element is fixedly connected with the drying cover shell, the electric heating element fixing plate is welded with the drying cover shell, the electric heating element is fixedly connected with the electric heating element fixing plate, and the drying baffle plate is welded with the drying cover shell, the double gears of the motor are connected with the drying gear A in a matching way.

As a further optimization of the technical scheme, the utility model relates to organic glass recycling and cleaning equipment, wherein a base comprises a bottom plate, a cleaning device fixing seat, a rotating shaft fixing seat, a drying device fixing seat, a rotating shaft fixing plate, a belt rotating shaft fixing plate and a motor fixing plate, the cleaning device fixing seat is welded with the bottom plate, the rotating shaft fixing seat is fixedly connected with the cleaning device fixing seat, the drying device fixing seat is welded with the bottom plate, the rotating shaft fixing plate is welded with the drying device fixing seat, the belt rotating shaft fixing plate is welded with the bottom plate, the motor is fixedly connected with the motor fixing plate, the cleaning slide rail fixing seat and the cleaning gear fixing seat are all welded with the cleaning device fixing seat, the blanking rotating shaft fixing seat, the blanking slide rail mounting seat, the blanking lead screw fixing seat and the blanking slide bar fixing seat are all welded with the cleaning device fixing seat, the cleaning gear shaft is connected with the rotating shaft fixing seat in a rotating mode, the drying housing is fixedly connected with the drying device fixing seat, the drying gear rotating shaft is connected with the rotating shaft fixing plate in a rotating mode, the belt rotating shaft A, the belt rotating shaft B and the belt rotating shaft C are connected with the rotating shaft fixing plate in a rotating mode, and the tensioning block fixing plate is connected with the rotating shaft fixing plate in a welding mode.

The organic glass recycling and cleaning equipment has the beneficial effects that:

the utility model relates to an organic glass recycling and cleaning device, which comprises the steps of firstly putting cleaning water into a cleaning pool, then putting organic glass into a screen mesh, soaking and cleaning, rotating a blanking handle to rotate a blanking screw rod to drive a blanking screw sleeve to move, so that a blanking slide block A slides along a blanking slide rail to drive a push rod fixing seat B to slide, enabling the push rod to rotate along the push rod fixing shaft A under the action of the push rod fixing shaft B and gradually assume a vertical state, pushing the screen mesh to rotate along a blanking rotating shaft by a certain angle through the push rod fixing seat A to blank the cleaned organic glass, meanwhile, balancing the screen mesh, sliding the blanking slide block B on the right side along the blanking slide rod under the action of the blanking slide block A to play a role of balancing two sides, meanwhile, enabling a cleaning bevel gear to drive the cleaning gear to rotate through a cleaning gear shaft through a cleaning chain, and enabling the cleaning bevel gear to drive the cleaning gear to rotate through the cleaning gear shaft, the cleaning tank drives the cleaning slide block to slide downwards along the cleaning slide rail under the action of the rack, so that the cleaning water is separated while the organic glass is discharged, meanwhile, the screen is in a horizontal state under the action of the backing plate when in a cleaning state, then the organic glass falls on the belt, an adjusting nut is rotated before the cleaning, the position of a belt rotating shaft C is adjusted through a tensioning block to play a role of tensioning the belt, then, a motor is started, a motor output shaft drives a motor double gear to rotate, the feeding double gear rotates under the action of a motor chain to drive a belt rotating shaft B to rotate, meanwhile, a feeding gear and a feeding short gear rotate under the action of a feeding chain to drive a belt rotating shaft A and a belt rotating shaft C to rotate the belt, so that the feeding effect is achieved, meanwhile, the motor double gear drives a drying gear A to rotate, and the drying gear B rotates under the action of the drying gear rotating shaft, make the double gear of drying to rotate under the effect of stoving chain simultaneously, make fan gear rotate under the effect of fan chain simultaneously, drive the fan and rotate, simultaneously along with electric heating element circular telegram for the wind that blows off is hot-blast, reaches the effect of stoving organic glass with this.

Drawings

The utility model is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a first general structural diagram of the present invention;

FIG. 2 is a second overall structural schematic of the present invention;

FIG. 3 is a first structural view of the cleaning apparatus of the present invention;

FIG. 4 is a schematic structural view of a second cleaning apparatus according to the present invention;

FIG. 5 is a schematic view of the cleaning apparatus of the present invention;

FIG. 6 is a first schematic structural diagram of a blanking device of the present invention;

FIG. 7 is a schematic structural view of a blanking device of the present invention;

FIG. 8 is a third schematic structural view of a blanking device of the present invention;

FIG. 9 is a fourth schematic structural view of the blanking device of the present invention;

FIG. 10 is a schematic structural view of a blanking device of the present invention;

FIG. 11 is a first schematic view of the feeding device of the present invention;

FIG. 12 is a second structural view of a feeding device of the present invention;

FIG. 13 is a first schematic structural diagram of a drying apparatus according to the present invention;

FIG. 14 is a second schematic structural view of the drying apparatus of the present invention;

FIG. 15 is a third schematic structural view of the drying apparatus of the present invention;

FIG. 16 is a fourth schematic structural view of the drying apparatus of the present invention;

fig. 17 is a schematic view of the base structure of the present invention.

In the figure: a cleaning device 1; 1-1 of a cleaning pool; cleaning the sliding rail fixing seat 1-2; cleaning the slide rail 1-3; linear bearings a 1-4; cleaning the sliding block 1-5; 1-6 of a base plate; 1-7 of racks; cleaning the gear 1-8; cleaning the gear shaft 1-9; cleaning 1-10 of the bevel gear; cleaning the double gears 1-11; cleaning chains 1-12; cleaning the gear fixing seat 1-13; a blanking device 2; a blanking rotating shaft fixing seat 2-1; a blanking rotating shaft 2-2; a blanking bearing A2-3; a blanking bearing seat A2-4; a push rod fixing seat A2-5; the push rod is fixed on a shaft A2-6; 2-7 of a push rod; the push rod is fixed on a shaft B2-8; a push rod fixing seat B2-9; a blanking slide block A2-10; 2-11 of blanking slide rails; 2-12 of a blanking slide rail mounting seat; 2-13 parts of a blanking handle; 2-14 parts of blanking screw rods; 2-15 of blanking wire sleeves; 2-16 parts of blanking gears; a blanking screw rod fixing seat 2-17; a blanking bearing seat B2-18; a blanking bearing B2-19; 2-20 of a blanking slide bar; linear bearings B2-21; a blanking slide block B2-22; blanking slide bar fixing seats 2-23; a blanking bearing seat C2-24; a blanking bearing C2-25; 2-26 of a screen mesh; a feeding device 3; 3-1 of a belt; a belt rotating shaft A3-2; a belt rotating shaft B3-3; a belt rotating shaft C3-4; 3-5 parts of a feeding gear; 3-6 parts of feeding double gears; 3-7 parts of a feeding short gear; 3-8 parts of a feeding chain; 3-9 parts of a motor chain; 3-10 parts of double gears of the motor; 3-11 of a motor; 3-12 of an adjusting nut; 3-13 parts of a tensioning block fixing plate; 3-14 parts of a tensioning block; a drying device 4; drying gear A4-1; drying the gear rotating shaft 4-2; a drying gear B4-3; 4-4 of drying the chain; drying the double gears 4-5; 4-6 parts of a fan gear; 4-7 of fan chains; drying the housing 4-8; 4-9 of a fan; 4-10 parts of electric heating elements; electric heating element fixing plates 4-11; 4-12 parts of a drying baffle plate; a base 5; a bottom plate 5-1; a cleaning device fixing seat 5-2; a rotating shaft fixing seat 5-3; 5-4, a drying device fixing seat; 5-5 parts of a rotating shaft fixing plate; 5-6 parts of a belt rotating shaft fixing plate; and motor fixing plates 5-7.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The fixed connection in this device indicates that fix through modes such as welding, thread tightening, combines different service environment, uses different fixed mode, the rotation connection indicate through drying by the fire the dress at epaxial with the bearing, be provided with the spring on axle or the shaft hole and keep off the ring groove, realize rotating through keeping off the axial fixity that the ring card realized the bearing in the ring inslot, sliding connection indicate to connect through the slip of slider in spout or guide rail, articulated indicate through carrying out the connected mode that moves about on connecting elements such as hinge, round pin axle and minor axis, required sealed department all realizes sealedly through sealing washer or O shape circle.

The first specific implementation way is as follows:

the embodiment is described below with reference to fig. 1 to 17, and an organic glass recycling and cleaning apparatus includes a cleaning device 1, a blanking device 2, a feeding device 3, a drying device 4, and a base 5, where the cleaning device 1 is connected to the blanking device 2, the cleaning device 1 is connected to the base 5, the blanking device 2 is connected to the base 5, the feeding device 3 is connected to the drying device 4, the feeding device 3 is connected to the base 5, and the drying device 4 is connected to the base 5.

The second embodiment is as follows:

the following describes the present embodiment with reference to fig. 1 to 17, and the present embodiment further describes the first embodiment, where the cleaning apparatus 1 includes a cleaning tank 1-1, a cleaning slide rail fixing seat 1-2, a cleaning slide rail 1-3, a linear bearing a1-4, a cleaning slider 1-5, a backing plate 1-6, a rack 1-7, a cleaning gear 1-8, a cleaning gear shaft 1-9, a cleaning bevel gear 1-10, a cleaning double gear 1-11, a cleaning chain 1-12, and a cleaning gear fixing seat 1-13, the cleaning tank 1-1 is fixedly connected to the cleaning slider 1-5, the linear bearing a1-4 is fixedly connected to the cleaning slider 1-5, the cleaning slide rail 1-3 is slidably connected to the linear bearing a1-4, the cleaning slide rail fixing seat 1-2 is fixedly connected to the cleaning slide rail 1-3, the cleaning device comprises a base plate 1-6, a cleaning slide rail fixing seat 1-2, a rack 1-7, a cleaning pool 1-1, a cleaning gear 1-8, a cleaning gear 1-7, a cleaning gear 1-8, a cleaning gear shaft 1-9, a cleaning bevel gear 1-10, a cleaning double gear 1-11, a cleaning chain 1-12 and a cleaning double gear 1-11, wherein the base plate 1-6 is connected with the cleaning slide rail fixing seat 1-2 in a welding mode;

cleaning water is firstly put into a cleaning pool 1-1 for soaking and cleaning, a cleaning chain 1-12 drives a cleaning double gear 1-11 to rotate, so that a cleaning bevel gear 1-10 drives a cleaning gear 1-8 to rotate through a cleaning gear shaft 1-9, a cleaning slide block 1-5 is driven by the cleaning pool 1-1 to slide downwards along a cleaning slide rail 1-3 under the action of a rack 1-7, organic glass is separated from the cleaning water while being blanked, and meanwhile, a screen 2-26 is in a horizontal state under the action of a backing plate 1-6.

The third concrete implementation mode:

the following describes the present embodiment with reference to fig. 1-17, and the present embodiment further describes the first embodiment, where the blanking device 2 includes a blanking rotating shaft fixing seat 2-1, a blanking rotating shaft 2-2, a blanking bearing a2-3, a blanking bearing seat a2-4, a push rod fixing seat a2-5, a push rod fixing shaft a2-6, a push rod 2-7, a push rod fixing shaft B2-8, a push rod fixing seat B2-9, a blanking slider a2-10, a blanking slide rail 2-11, a blanking slide rail mounting seat 2-12, a blanking handle 2-13, a blanking screw 2-14, a blanking screw sleeve 2-15, a blanking gear 2-16, a blanking screw fixing seat 2-17, a blanking bearing seat B2-18, a blanking bearing B2-19, a blanking slide rail 2-20, a blanking slide rail 2-14, a blanking screw sleeve 2-15, a blanking gear 2-16, a blanking screw fixing seat B2, a blanking bearing B2-19, and a blanking slide rail 2-20, A linear bearing B2-21, a blanking slide block B2-22, a blanking slide rod fixing seat 2-23, a blanking bearing seat C2-24, a blanking bearing C2-25 and a screen 2-26, wherein the blanking rotary shaft fixing seat 2-1 is connected with the blanking rotary shaft 2-2 in a welding way, the blanking rotary shaft 2-2 is connected with a blanking bearing A2-3 in a rotating way, the blanking bearing A2-3 is fixedly connected with a blanking bearing seat A2-4, the blanking bearing seat A2-4 is connected with a screen 2-26 in a welding way, a push rod fixing seat A2-5 is fixedly connected with a push rod fixing shaft A2-6, a push rod 2-7 is connected with a push rod fixing shaft A2-6 in a rotating way, a push rod fixing shaft B2-8 is connected with a push rod 2-7 in a welding way, and a push rod fixing shaft B2-8 is connected with a push rod fixing seat B2-9 in a rotating way, the push rod fixing seat B2-9 is connected with a blanking slide block A2-10 in a welding way, the blanking slide block A2-10 is connected with a blanking slide rail 2-11 in a sliding way, the blanking slide rail 2-11 is connected with a blanking slide rail mounting seat 2-12 in a fixing way, the push rod fixing seat A2-5 is connected with a screen 2-26 in a welding way, the blanking slide block A2-10 is respectively connected with a blanking screw sleeve 2-15 and a blanking slide block B2-22 in a welding way, a blanking screw rod 2-14 is connected with a blanking screw sleeve 2-15 in a threaded way, a blanking handle 2-13 is connected with a blanking screw rod 2-14 in a fixing way, a blanking gear 2-16 is connected with a blanking screw rod 2-14 in a fixing way, a blanking screw rod 2-14 is connected with a blanking bearing B2-19 in a rotating way, a blanking bearing B2-19 is connected with a bearing seat B2-18 in a fixing way, a bearing seat B2-18 is connected with a blanking screw rod fixing seat 2-17 in a welding way, the linear bearing B2-21 is fixedly connected with the blanking slide block B2-22, the blanking slide bar 2-20 is slidably connected with the linear bearing B2-21, the blanking slide bar 2-20 is rotatably connected with the blanking bearing C2-25, the blanking bearing C2-25 is fixedly connected with the blanking bearing seat C2-24, the blanking bearing seat C2-24 is welded with the blanking slide bar fixing seat 2-23, and the cleaning chain 1-12 is connected with the blanking gear 2-16 in a matching way;

putting organic glass into the screen 2-26, soaking and cleaning, rotating the handle blanking handle 2-13 to rotate the blanking screw rod 2-14 to drive the blanking screw sleeve 2-15 to move, so that the blanking slide block A2-10 slides along the blanking slide rail 2-11 to drive the push rod fixing seat B2-9 to slide, enabling the push rod 2-7 to rotate along the push rod fixing shaft A2-6 under the action of the push rod fixing shaft B2-8 and gradually become a vertical state, pushing the screen 2-26 to rotate a certain angle along the blanking rotating shaft 2-2 through the push rod fixing seat A2-5 to enable the cleaned organic glass to be blanked, meanwhile, balancing the screen 2-26, and the blanking slide block B2-22 on the right side to slide along the blanking slide rod 2-20 under the action of the blanking slide block A2-10, the two sides are balanced, and meanwhile, the blanking gears 2-16 rotate along with the blanking screw rods 2-14.

The fourth concrete implementation mode:

the following describes the present embodiment with reference to fig. 1 to 17, and the present embodiment further describes the first embodiment, where the feeding device 3 includes a belt 3-1, a belt rotating shaft A3-2, a belt rotating shaft B3-3, a belt rotating shaft C3-4, a feeding gear 3-5, a feeding double gear 3-6, a feeding short gear 3-7, a feeding chain 3-8, a motor chain 3-9, a motor double gear 3-10, a motor 3-11, an adjusting nut 3-12, a tensioning block fixing plate 3-13, and a tensioning block 3-14, the belt 3-1 is respectively rotatably connected with the belt rotating shaft A3-2, the belt rotating shaft B3-3, and the belt rotating shaft C3-4, the feeding gear 3-5 is fixedly connected with the belt rotating shaft A3-2, the feeding double gear 3-6 is fixedly connected with the belt rotating shaft B3-3, the feeding short gear 3-7 is fixedly connected with a belt rotating shaft C3-4, the feeding chain 3-8 is respectively in matched connection with the feeding gear 3-5, the feeding double gear 3-6 and the feeding short gear 3-7, the motor chain 3-9 is respectively in matched connection with the feeding double gear 3-6 and the motor double gear 3-10, the motor double gear 3-10 is fixedly connected with an output shaft of the motor 3-11, the tensioning block 3-14 is fixedly connected with the belt rotating shaft C3-4, the tensioning block 3-14 is fixedly connected with a tensioning block fixing plate 3-13, and the adjusting nut 3-12 is in threaded connection with the tensioning block 3-14;

organic glass falls on the belt 3-1, the adjusting nuts 3-12 are rotated before the organic glass falls on the belt, the position of a belt rotating shaft C3-4 is adjusted through the tensioning blocks 3-14 to play a role of tensioning a belt, then the motors 3-11 are started, the output shafts of the motors 3-11 drive the motor double gears 3-10 to rotate, the feeding double gears 3-6 are rotated under the action of the motor chains 3-9 to drive the belt rotating shaft B3-3 to rotate, and meanwhile, the feeding gears 3-5 and the feeding short gears 3-7 are rotated under the action of the feeding chains 3-8 to drive the belt rotating shaft A3-2 and the belt rotating shaft C3-4 to rotate, so that the belt 3-1 rotates, and the feeding effect is achieved.

The fifth concrete implementation mode:

the present embodiment is described below with reference to fig. 1 to 17, which further describes a first embodiment, where the drying device 4 includes a drying gear a4-1, a drying gear rotating shaft 4-2, a drying gear B4-3, a drying chain 4-4, a drying double gear 4-5, a fan gear 4-6, a fan chain 4-7, a drying hood 4-8, a fan 4-9, an electric heating element 4-10, an electric heating element fixing plate 4-11, a drying baffle 4-12, the drying gear a4-1 and the drying gear B4-3 are both fixedly connected to the drying gear rotating shaft 4-2, the drying chain 4-4 is respectively connected to the drying gear B4-3 and the drying double gear 4-5 in a matching manner, the drying double gear 4-5 and the fan gear 4-6 are both connected to the fan chain 4-7 in a matching manner, 4-5 parts of a drying double gear and 4-6 parts of a fan are fixedly connected with 4-9 parts of the fan, 4-9 parts of the fan are in matched connection with 4-8 parts of a drying housing, 4-10 parts of an electric heating element are fixedly connected with 4-8 parts of the drying housing, 4-11 parts of a fixing plate of the electric heating element are in welded connection with 4-8 parts of the drying housing, 4-10 parts of the electric heating element are fixedly connected with 4-11 parts of the fixing plate of the electric heating element, 4-12 parts of a drying baffle plate are in welded connection with 4-8 parts of the drying housing, and 3-10 parts of a motor double gear are in matched connection with A4-1 parts of the drying gear;

the double gears 3-10 of the motor drive the drying gear A4-1 to rotate, the drying gear B4-3 is driven to rotate under the action of a rotating shaft 4-2 of the drying gear, the drying double gears 4-5 are driven to rotate under the action of a drying chain 4-4, the fan gear 4-6 is driven to rotate under the action of a fan chain 4-7, the fan 4-9 is driven to rotate, and meanwhile, the electric heating elements 4-10 are electrified, so that blown air is hot air, and the effect of drying organic glass is achieved.

The sixth specific implementation mode:

the present embodiment is described below with reference to fig. 1 to 17, and the present embodiment further describes an embodiment, and the organic glass recycling and cleaning apparatus according to claim 1 is characterized in that: the base 5 comprises a bottom plate 5-1, a cleaning device fixing seat 5-2, a rotating shaft fixing seat 5-3, a drying device fixing seat 5-4, a rotating shaft fixing plate 5-5, a belt rotating shaft fixing plate 5-6 and a motor fixing plate 5-7, wherein the cleaning device fixing seat 5-2 is welded with the bottom plate 5-1, the rotating shaft fixing seat 5-3 is fixedly connected with the cleaning device fixing seat 5-2, the drying device fixing seat 5-4 is welded with the bottom plate 5-1, the rotating shaft fixing plate 5-5 is welded with the drying device fixing seat 5-4, the belt rotating shaft fixing plate 5-6 is welded with the bottom plate 5-1, the motor fixing plate 5-7 is welded with the bottom plate 5-1, and the motor 3-11 is fixedly connected with the bottom plate 5-1, a motor 3-11 is fixedly connected with a motor fixing plate 5-7, a cleaning slide rail fixing seat 1-2 and a cleaning gear fixing seat 1-13 are all welded with a cleaning device fixing seat 5-2, a blanking rotating shaft fixing seat 2-1, a blanking slide rail mounting seat 2-12, a blanking screw rod fixing seat 2-17 and a blanking slide rod fixing seat 2-23 are all welded with a cleaning device fixing seat 5-2, a cleaning gear shaft 1-9 is rotatably connected with a rotating shaft fixing seat 5-3, a drying cover 4-8 is fixedly connected with a drying device fixing seat 5-4, a drying gear rotating shaft 4-2 is rotatably connected with a rotating shaft fixing plate 5-5, a belt rotating shaft A3-2, a belt rotating shaft B3-3 and a belt rotating shaft C3-4 are all rotatably connected with a rotating shaft fixing plate 5-5, the tensioning block fixing plates 3-13 are welded with the rotating shaft fixing plates 5-5.

The utility model relates to an organic glass recycling and cleaning device, which has the working principle that: firstly, cleaning water is put into a cleaning pool 1-1, then organic glass is put into a screen mesh 2-26, after soaking and cleaning, a blanking handle 2-13 is rotated, a blanking screw rod 2-14 is rotated to drive a blanking screw sleeve 2-15 to move, a blanking slide block A2-10 slides along a blanking slide rail 2-11 to drive a push rod fixing seat B2-9 to slide, a push rod 2-7 rotates along a push rod fixing shaft A2-6 under the action of a push rod fixing shaft B2-8 and gradually takes a vertical state, the screen mesh 2-26 is pushed to rotate a certain angle along a blanking rotating shaft 2-2 through a push rod fixing seat A2-5 to blank the cleaned organic glass, and simultaneously, the screen mesh 2-26 is balanced, and a blanking slide block B2-22 on the right side slides along a blanking slide bar 2-20 under the action of the blanking slide block A2-10, the two-side balance effect is achieved, meanwhile, the blanking gears 2-16 rotate along with the blanking screw rods 2-14, the cleaning double gears 1-11 are driven to rotate through the cleaning chains 1-12, the cleaning bevel gears 1-10 drive the cleaning gears 1-8 to rotate through the cleaning gear shafts 1-9, the cleaning pool 1-1 drives the cleaning slide block 1-5 to slide downwards along the cleaning slide rail 1-3 under the action of the racks 1-7, organic glass is separated from cleaning water while being blanked, meanwhile, the screen cloth 2-26 is in a horizontal state when being cleaned under the action of the backing plate 1-6, then the organic glass falls on the belt 3-1, the adjusting nuts 3-12 are rotated before the cleaning slide block, the position of a belt rotating shaft C3-4 is adjusted through the tensioning blocks 3-14, and the belt tensioning effect is achieved, then starting the motor 3-11, driving the motor double gears 3-10 to rotate by the output shaft of the motor 3-11, driving the feeding double gears 3-6 to rotate under the action of the motor chain 3-9, driving the belt rotating shaft B3-3 to rotate, simultaneously driving the feeding gears 3-5 and the feeding short gears 3-7 to rotate under the action of the feeding chain 3-8, driving the belt rotating shaft A3-2 and the belt rotating shaft C3-4 to rotate, so as to achieve the feeding effect, simultaneously driving the drying gear A4-1 to rotate by the motor double gears 3-10, driving the drying gear B4-3 to rotate under the action of the drying gear rotating shaft 4-2, simultaneously driving the drying double gears 4-5 to rotate under the action of the drying chain 4-4, and simultaneously driving the fan gears 4-6 to rotate under the action of the fan chain 4-7, the fan 4-9 is driven to rotate, and simultaneously, the electric heating element 4-10 is electrified, so that blown air is hot air, and the effect of drying the organic glass is achieved.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (1)

1. The utility model provides a cleaning equipment is retrieved to organic glass which characterized in that: the automatic blanking device comprises a cleaning device (1), a blanking device (2), a feeding device (3), a drying device (4) and a base (5), wherein the cleaning device (1) is connected with the blanking device (2), the cleaning device (1) is connected with the base (5), the blanking device (2) is connected with the base (5), the feeding device (3) is connected with the drying device (4), the feeding device (3) is connected with the base (5), and the drying device (4) is connected with the base (5);

the cleaning device (1) comprises a cleaning pool (1-1), a cleaning slide rail fixing seat (1-2), a cleaning slide rail (1-3), a linear bearing A (1-4), a cleaning sliding block (1-5), a base plate (1-6), a rack (1-7), a cleaning gear (1-8), a cleaning gear shaft (1-9), a cleaning bevel gear (1-10), a cleaning double gear (1-11), a cleaning chain (1-12) and a cleaning gear fixing seat (1-13), wherein the cleaning pool (1-1) is fixedly connected with the cleaning sliding block (1-5), the linear bearing A (1-4) is fixedly connected with the cleaning sliding block (1-5), the cleaning slide rail (1-3) is slidably connected with the linear bearing A (1-4), the cleaning slide rail fixing seat (1-2) is fixedly connected with the cleaning slide rail (1-3), the cleaning device comprises a base plate (1-6), a cleaning slide rail fixing seat (1-2), a rack (1-7), a cleaning pool (1-1), a cleaning gear (1-8), a cleaning gear shaft (1-9), a cleaning bevel gear (1-9), a cleaning double gear (1-11), a cleaning chain (1-12), a cleaning double gear (1-11) and a cleaning gear fixing seat (1-13), wherein the base plate (1-6) is connected with the cleaning slide rail fixing seat (1-2) in a welding mode;

the blanking device (2) comprises a blanking rotating shaft fixing seat (2-1), a blanking rotating shaft (2-2), a blanking bearing A (2-3), a blanking bearing seat A (2-4), a push rod fixing seat A (2-5), a push rod fixing shaft A (2-6), a push rod (2-7), a push rod fixing shaft B (2-8), a push rod fixing seat B (2-9), a blanking sliding block A (2-10), a blanking sliding rail (2-11), a blanking sliding rail mounting seat (2-12), a blanking handle (2-13), a blanking screw rod (2-14), a blanking screw sleeve (2-15), a blanking gear (2-16), a blanking screw rod fixing seat (2-17), a blanking bearing seat B (2-18), a blanking bearing B (2-19), A blanking slide bar (2-20), a linear bearing B (2-21), a blanking slide block B (2-22), a blanking slide bar fixing seat (2-23), a blanking bearing seat C (2-24), a blanking bearing C (2-25) and a screen (2-26), wherein the blanking rotating shaft fixing seat (2-1) is welded with the blanking rotating shaft (2-2), the blanking rotating shaft (2-2) is rotatably connected with a blanking bearing A (2-3), the blanking bearing A (2-3) is fixedly connected with a blanking bearing seat A (2-4), the blanking bearing seat A (2-4) is welded with the screen (2-26), a push rod fixing seat A (2-5) is fixedly connected with a push rod fixing shaft A (2-6), and a push rod (2-7) is rotatably connected with the push rod fixing shaft A (2-6), a push rod fixing shaft B (2-8) is welded with a push rod (2-7), the push rod fixing shaft B (2-8) is rotatably connected with a push rod fixing seat B (2-9), the push rod fixing seat B (2-9) is welded with a blanking slide block A (2-10), the blanking slide block A (2-10) is slidably connected with a blanking slide rail (2-11), the blanking slide rail (2-11) is fixedly connected with a blanking slide rail mounting seat (2-12), the push rod fixing seat A (2-5) is welded with a screen (2-26), the blanking slide block A (2-10) is respectively welded with a blanking wire sleeve (2-15) and a blanking slide block B (2-22), a blanking screw rod (2-14) is in threaded connection with the blanking wire sleeve (2-15), a blanking handle (2-13) is fixedly connected with the blanking screw rod (2-14), the blanking gear (2-16) is fixedly connected with a blanking screw rod (2-14), the blanking screw rod (2-14) is rotatably connected with a blanking bearing B (2-19), the blanking bearing B (2-19) is fixedly connected with a blanking bearing seat B (2-18), the blanking bearing seat B (2-18) is welded with a blanking screw rod fixing seat (2-17), a linear bearing B (2-21) is fixedly connected with a blanking sliding block B (2-22), a blanking sliding rod (2-20) is slidably connected with the linear bearing B (2-21), the blanking sliding rod (2-20) is rotatably connected with a blanking bearing C (2-25), a blanking bearing C (2-25) is fixedly connected with a blanking bearing seat C (2-24), the blanking bearing seat C (2-24) is welded with a blanking sliding rod fixing seat (2-23), the cleaning chains (1-12) are connected with the blanking gears (2-16) in a matching way;

the feeding device (3) comprises a belt (3-1), a belt rotating shaft A (3-2), a belt rotating shaft B (3-3), a belt rotating shaft C (3-4), a feeding gear (3-5), a feeding double gear (3-6), a feeding short gear (3-7), a feeding chain (3-8), a motor chain (3-9), a motor double gear (3-10), a motor (3-11), an adjusting nut (3-12), a tensioning block fixing plate (3-13) and a tensioning block (3-14), the belt (3-1) is respectively connected with the belt rotating shaft A (3-2), the belt rotating shaft B (3-3) and the belt rotating shaft C (3-4) in a rotating manner, the feeding gear (3-5) is fixedly connected with the belt rotating shaft A (3-2), the feeding double gears (3-6) are fixedly connected with the belt rotating shaft B (3-3), the feeding short gears (3-7) are fixedly connected with the belt rotating shaft C (3-4), the feeding chains (3-8) are respectively connected with the feeding gears (3-5) and the feeding double gears (3-6), the feeding short gears (3-7) are connected in a matched mode, the motor chains (3-9) are respectively connected with the feeding double gears (3-6) and the motor double gears (3-10) in a matched mode, the motor double gears (3-10) are fixedly connected with output shafts of the motors (3-11), the tensioning blocks (3-14) are fixedly connected with belt rotating shafts C (3-4), the tensioning blocks (3-14) are fixedly connected with tensioning block fixing plates (3-13), and the adjusting nuts (3-12) are in threaded connection with the tensioning blocks (3-14);

the drying device (4) comprises a drying gear A (4-1), a drying gear rotating shaft (4-2), a drying gear B (4-3), a drying chain (4-4), a drying double gear (4-5), a fan gear (4-6), a fan chain (4-7), a drying housing (4-8), a fan (4-9), an electric heating element (4-10), an electric heating element fixing plate (4-11) and a drying baffle plate (4-12), wherein the drying gear A (4-1) and the drying gear B (4-3) are fixedly connected with the drying gear rotating shaft (4-2), the drying chain (4-4) is respectively connected with the drying gear B (4-3) and the drying double gear (4-5) in a matching manner, and the drying double gear (4-5), The fan gears (4-6) are all in matched connection with a fan chain (4-7), the drying double gears (4-5) and the fan gears (4-6) are all fixedly connected with the fans (4-9), the fans (4-9) are in matched connection with the drying enclosers (4-8), the electric heating elements (4-10) are fixedly connected with the drying enclosers (4-8), the electric heating element fixing plates (4-11) are in welded connection with the drying enclosers (4-8), the electric heating elements (4-10) are fixedly connected with the electric heating element fixing plates (4-11), the drying baffle plates (4-12) are in welded connection with the drying enclosers (4-8), and the motor double gears (3-10) are in matched connection with the drying gear A (4-1);

the base (5) comprises a bottom plate (5-1), a cleaning device fixing seat (5-2), a rotating shaft fixing seat (5-3), a drying device fixing seat (5-4), a rotating shaft fixing plate (5-5), a belt rotating shaft fixing plate (5-6) and a motor fixing plate (5-7), wherein the cleaning device fixing seat (5-2) is welded with the bottom plate (5-1), the rotating shaft fixing seat (5-3) is fixedly connected with the cleaning device fixing seat (5-2), the drying device fixing seat (5-4) is welded with the bottom plate (5-1), the rotating shaft fixing plate (5-5) is welded with the drying device fixing seat (5-4), the belt rotating shaft fixing plate (5-6) is welded with the bottom plate (5-1), and the motor fixing plate (5-7) is welded with the bottom plate (5-1), the motor (3-11) is fixedly connected with the bottom plate (5-1), the motor (3-11) is fixedly connected with the motor fixing plate (5-7), the cleaning slide rail fixing seat (1-2) and the cleaning gear fixing seat (1-13) are all welded with the cleaning device fixing seat (5-2), the blanking rotating shaft fixing seat (2-1), the blanking slide rail mounting seat (2-12), the blanking screw rod fixing seat (2-17) and the blanking slide rod fixing seat (2-23) are all welded with the cleaning device fixing seat (5-2), the cleaning gear shaft (1-9) is rotatably connected with the rotating shaft fixing seat (5-3), the drying housing (4-8) is fixedly connected with the drying device fixing seat (5-4), and the drying gear rotating shaft (4-2) is rotatably connected with the rotating shaft fixing plate (5-5), the belt rotating shaft A (3-2), the belt rotating shaft B (3-3) and the belt rotating shaft C (3-4) are rotatably connected with the rotating shaft fixing plate (5-5), and the tensioning block fixing plate (3-13) is welded with the rotating shaft fixing plate (5-5).

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