CN114522948B - Glass beverage bottle production shaping back washes stoving integration equipment - Google Patents

Abstract

The invention relates to the technical field of glass bottle production, in particular to washing and drying integrated equipment for glass wine bottles after production and molding; comprises a base, a supporting plate, a cleaning device, a drying device and a carrying device; the invention solves the problems that the prior needle textile cannot effectively remove impurities in the bottle body of the glass wine bottle when the inner part of the bottle body of the glass wine bottle is washed in the drying process, thereby affecting the cleaning effect of the glass bottle, and the glass wine bottle is only dried by blowing air from the bottle mouth in the drying process of the glass wine bottle, so that water drops in the bottle cannot fall and can only be dried, thereby not only having low efficiency, but also causing the dirt in the water drops to fail to effectively drip, causing pollution in the inner part of the bottle body and the like; the invention improves the flushing effect of the glass wine bottle and quickens the dripping and drying of water drops in the glass wine bottle.

Description

Glass beverage bottle production shaping back washes stoving integration equipment

Technical Field

The invention relates to the technical field of glass bottle production, in particular to washing and drying integrated equipment for glass wine bottles after production and molding.

Background

The types of wine bottles include ceramic bottles, glass bottles, metal bottles, wood bottles and the like, and glass wine bottles are widely used because of good sealing property, reusability and difficult corrosion.

The glass wine bottle is formed by blowing melted glass through a die, the glass is solidified and then annealed, the glass wine bottle is required to be cleaned and dried after the glass wine bottle is processed, so that the glass wine bottle is clean and dry, the glass wine bottle is usually cleaned by reversely fixing the glass wine bottle in the cleaning process, the glass wine bottle is flushed by high-pressure water flow, the glass wine bottle is dried after flushing, and hot air is always blown into the bottle mouth of the glass wine bottle to dry the glass wine bottle.

However, the existing glass wine bottles mainly have the following problems in the process of washing and drying: firstly, in the production process of glass wine bottles, impurities falling into the bottles are attached to the bottle bodies, and impurities in the bottles cannot be effectively removed when the interiors of the bottle bodies are washed, so that the cleaning effect of the glass bottles is affected; secondly, only blow the stoving at glass beverage bottle stoving in-process from the bottleneck to glass beverage bottle, can make the unable whereabouts of bottle water droplet only can be dried, so not only inefficiency, can also make the unable effective whereabouts of the spot in the water droplet, cause the inside pollution of bottle.

So in order to improve the flushing effect of the glass wine bottle, the dripping and drying of the water drops in the glass wine bottle are accelerated; the invention provides integrated equipment for washing and drying after glass wine bottle production and molding.

Disclosure of Invention

In order to achieve the above purpose, the present invention adopts the following technical scheme: the integrated equipment for washing and drying after glass wine bottle production and molding comprises a base, a supporting plate, a cleaning device, a drying device and a carrying device; the base up end around symmetry install two backup pads, belt cleaning device is installed to the right side position between two backup pads, belt cleaning device's left side is provided with drying device, drying device installs between two backup pads, is provided with handling device between belt cleaning device and the drying device, and handling device installs on the base.

The cleaning device comprises a first roller shaft, a first conveying belt, a disc, fixing mechanisms, cleaning units and a first motor, wherein two first roller shafts are symmetrically arranged between the supporting plates, two rows of first roller shafts are arranged up and down, a first conveying belt is wound between the four first roller shafts, the disc is uniformly arranged on the first conveying belt, through holes are uniformly formed in the disc, the through holes penetrate through the disc and the first conveying belt, the fixing mechanisms are arranged on the through holes, the fixing mechanisms are arranged on the upper end face of the disc, two cleaning units are symmetrically arranged around the inside of the first conveying belt, the two cleaning units are arranged on the supporting plates, the first motor is arranged outside the supporting plates, and one first roller shaft and an output shaft of the first motor are driven through a sprocket and a chain.

Drying device include No. two roller, no. two conveyer belts, fastener, square shell, air heater, stoving unit and No. two motors, the backup pad between bilateral symmetry install two No. two roller, and be provided with two rows from top to bottom altogether No. two roller, evenly twine No. two conveyer belts between four No. two roller, and evenly install the fastener between two adjacent conveyer belts, no. two conveyer belt top is provided with square shell, and square shell installs in the backup pad, the air heater is installed to the inside roof of square shell, no. two conveyer belt's inside is provided with stoving unit, and stoving unit installs in the backup pad, the externally mounted of backup pad No. two motors, one of them No. two roller and No. two motor's output shaft pass through sprocket and chain and carry out the transmission.

Preferably, the handling device comprises a support frame, linear modules, a fixing plate, a first air cylinder and a clamping mechanism, wherein the two support frames are symmetrically arranged on the upper end face of the base front and back, the two support frames are located on the outer sides of the support plate, the upper end faces of the two support frames are respectively provided with the linear modules, the fixing plate is commonly arranged between the two linear modules, the two first air cylinders are symmetrically arranged on the left side end face of the fixing plate front and back, and the clamping mechanism is arranged on the lower end face of the first air cylinder.

Preferably, the fixture include square board, sleeve, push rod, a pressure spring, clamp plate, clamping jaw, connecting rod, sliding sleeve, slide bar and spring block, two cylinder below sets up the square board, four corners of up end of square board all install the sleeve, the push rod install in the sleeve through sliding fit's mode, and the push rod is "T" type structure, install a pressure spring between the lower terminal surface of push rod horizontal segment and the telescopic diapire of sleeve, the clamp plate is installed to the up end of push rod, and the telescopic end of clamp plate up end and a cylinder is fixed, the clamping jaw install the lower extreme at the push rod through the round pin axle, connecting rod one end and the middle part of clamping jaw pass through the round pin hub connection, the other end of connecting rod is installed at the lower terminal surface of clamp plate through the round pin axle, the left and right sides of square board is provided with the sliding sleeve, and the sliding sleeve is installed at the up end of fixed plate, the sliding rod install in the sliding fit ' F's mode, the outer wall of the vertical end of slide bar evenly sets up the recess, the inside even spring block of installing of sliding sleeve, and spring block is greater than a spring coefficient and the spring coefficient of a parallel with the two parallel connection between the horizontal compression plates and the two side of the clamp plate.

Preferably, the fixed establishment include the ring flange, a depression bar, no. two depression bars and control, the ring flange install on the disc, the round platform hole has been seted up at the middle part of ring flange, and round platform hole and through-hole link up mutually, the notch has evenly been seted up along its circumference direction to the circumference outer wall of ring flange, all install a depression bar and No. two depression bars through round pin axle and torsional spring in the notch, and a depression bar is located No. two depression bars's top, be provided with the control between No. one depression bar and No. two depression bars, and the control is installed on the lateral wall of notch, the disc on evenly seted up waist shape hole, no. two depression bars are located waist shape inslot, and waist shape hole and No. two depression bars one-to-one.

Preferably, the control piece include toothed disc, axle sleeve, spiral shell section of thick bamboo, a rack and No. two racks, the toothed disc install in the disc through sliding fit's mode, and toothed disc circumference outer wall and circumference inner wall all are provided with the tooth, two adjacent control pieces pass through the synchronous rotation of toothed disc meshing, the spiral shell section of thick bamboo be located between a depression bar and No. two depression bars, and the spiral shell section of thick bamboo circumference outer wall upper and lower part installs the axle sleeve through the mode of normal running fit, and the axle sleeve is installed on the lateral wall of notch, the circumference outer wall middle part of spiral shell section of thick bamboo evenly is provided with straight tooth, and straight tooth and the inner wall tooth meshing transmission of toothed disc, the spiral shell section of thick bamboo upper and lower both ends all are respectively installed a double-screw bolt through screw fit's mode, two double-screw bolts are provided with the lower terminal surface of a depression bar and the up end of No. two depression bars respectively, a conveyer belt top left side be provided with two racks, two racks are all installed at the up end of two backup pads respectively, the up end right side position of a conveyer belt is installed No. two racks through the support column, and No. two adjacent racks are located between the fixed mechanism behind the front.

Preferably, the cleaning unit comprises a shell, a bottom plate, a lifting mechanism, an elastic column, a supporting seat, a gear ring, a planetary gear, a brushing part, a third motor, a protective cover, a bevel gear and a first lapping plate, wherein the shell is arranged on the supporting plate, the bottom plate is arranged in the shell, the lifting mechanism is arranged on the lower end face of the bottom plate through a linear guide rail, the elastic column is arranged in the middle of the upper end face of the bottom plate, the upper end face of the elastic column is arranged on the first lapping plate, the first lapping plate is arranged on the supporting plate, the supporting seat is uniformly arranged on the upper end face of the bottom plate, square openings are formed in the inner end face of the supporting seat, arc-shaped grooves are formed in the side wall and the bottom wall of the square opening, the gear ring is uniformly arranged on the arc-shaped grooves in a sliding fit mode, the upper end face of the gear ring is uniformly provided with bevel teeth, the third motor is arranged on the outer end face of one supporting seat through the motor, the protective cover is arranged on the outer end face of the third motor, the output shaft of the third motor penetrates through the supporting seat and is positioned in the square opening, the output shaft of the third motor in the square opening, the bevel gear is uniformly arranged on the bevel gear and is meshed with the bevel gear ring, the bevel gear is uniformly arranged on the inner side face of the bevel gear and the bevel gear is meshed with the bevel gear ring, the bevel gear is uniformly meshed with the bevel gear ring.

Preferably, the elevating system include lift board, conveyer and pull the piece, the bottom plate under the terminal surface install the lift board through linear guide, the front and back bilateral symmetry of lift board is provided with two conveyers, the conveyer is square structure, and the conveyer is installed in the backup pad, the conveyer be provided with two rows about, all install two on the both sides terminal surface around the lift board and pull the piece respectively, and pull the piece and be "L" structure, the horizontal segment of pulling the piece is installed at the outside terminal surface of conveyer through the bearing, the vertical section of pulling the piece is installed on the lift board.

Preferably, the brushing piece comprises a T-shaped rod, a folded brush rod, a sliding block, a compression spring and a spray rod; the T-shaped rod is arranged on the upper end face of the planetary gear, square grooves are uniformly formed in the circumferential outer wall of the horizontal section of the T-shaped rod along the circumferential direction of the horizontal section of the T-shaped rod, folding brush rods are uniformly arranged in the square grooves through pin shafts, sliding grooves are uniformly formed in the circumferential outer wall of the lower portion of the T-shaped rod along the circumferential direction of the horizontal section of the T-shaped rod, sliding blocks are arranged in the sliding grooves in a sliding fit mode, the sliding blocks are in one-to-one correspondence with the folding brush rods, compression springs are arranged between the lower end face of each sliding block and the bottom wall of each sliding groove, the lower ends of the folding brush rods are connected with the outer end faces of the sliding blocks in a hinged mode, and spray bars are arranged between two adjacent folding brush rods and are arranged on the T-shaped rods.

Preferably, the drying unit include square, spiral dryer, push pedal, no. two cylinders and No. two butt straps, the below of square shell is provided with the square, and the square is installed in the backup pad, evenly offered the spiral slotted hole on the square, the spiral dryer install in the spiral slotted hole through normal running fit's mode, the push pedal is installed through the bearing to the lower terminal surface of spiral dryer, and the lower terminal surface middle part position of push pedal is connected with the flexible end of No. two cylinders, no. two cylinders lower terminal surfaces are installed on No. two butt straps, and No. two butt straps are fixed in the backup pad.

Preferably, the clamping piece comprises arc blocks, the number of the arc blocks is two, two opposite arc blocks are respectively arranged on two adjacent second conveying belts, the inner wall of each arc block is provided with a fixing hole, a second pressure spring is arranged in each fixing hole, and the outer end face of each second pressure spring is provided with a ball.

The invention has the beneficial effects that: 1. the cleaning device is arranged to effectively clean the inside of the glass wine bottle, ensure the cleaning effect of the glass wine bottle, and move the cleaned glass wine bottle to the drying device for drying treatment through the carrying device, and the drying device realizes the discharge of water drops in the glass wine bottle and the drying of water stains on the wall.

2. According to the cleaning device provided by the invention, the glass wine bottle is fixed through the fixing mechanism, so that the stability of the glass wine bottle is ensured when the brushing part of the cleaning unit is inserted into the bottle body, the tightness change of the fixing mechanism is realized through the cooperation of the fixing mechanism with the first rack and the second rack, the glass wine bottle is conveniently taken and placed, and the cleaning mechanism is inserted into the glass wine bottle to perform scouring processing, so that the cleaning of the interior of the bottle body is ensured.

3. The cleaning mechanism and the fixing mechanism are matched to realize simultaneous processing of a plurality of glass wine bottles, so that the working efficiency is improved, the gear ring and the planetary gear are matched to realize synchronous rotation of a plurality of brushing pieces, and the conveyer of the lifting mechanism intermittently lifts the brushing pieces, so that smooth processing is ensured, the brushing pieces stay in the bottles for a period of time, and the cleaning effect in the bottles is improved

4. The drying device provided by the invention is inserted into the glass wine bottle in a rotating way through the spiral air duct of the drying unit, and the water stain on the wall is dried while the water drop is blown down under the action of the spiral air duct, so that the drying and the drying effects of the glass wine bottle are accelerated.

Drawings

The invention will be further described with reference to the drawings and examples.

Fig. 1 is a schematic perspective view of a first view of the present invention.

Fig. 2 is a schematic view of a second perspective structure of the present invention.

Fig. 3 is a schematic view of a part of the structure of the present invention.

Fig. 4 is a schematic view of a first view structure of the cleaning device of the present invention.

Fig. 5 is a schematic view of a second view structure of the cleaning device of the present invention.

Fig. 6 is a schematic view of the structure between the gear rim and the bevel gear of the present invention.

Fig. 7 is a partial enlarged view of the present invention at a in fig. 5.

FIG. 8 is an enlarged view of a portion of the invention at B in FIG. 7

Fig. 9 is a schematic view of the transporting device of the present invention.

Fig. 10 is a schematic structural view of the fixing mechanism of the present invention.

Fig. 11 is a cross-sectional view of a control member of the present invention.

Fig. 12 is a partial enlarged view of fig. 11 at C in accordance with the present invention.

Fig. 13 is a partial structural cross-sectional view of the clamping mechanism of the present invention.

Fig. 14 is a cross-sectional view of a clip of the present invention.

In the figure: 1. a base; 2. a support plate; 3. a cleaning device; 4. a drying device; 5. a carrying device; 30. a first roll shaft; 31. a first conveyor belt; 32. a disc; 33. a fixing mechanism; 34. a cleaning unit; 35. a motor I; 40. a second roll shaft; 41. a second conveyer belt; 42. a clamping piece; 43. a square shell; 44. an air heater; 45. a drying unit; 46. a motor II; 50. a support frame; 51. a linear module; 52. a fixing plate; 53. a first air cylinder; 54. a clamping mechanism; 540. a square plate; 541. a sleeve; 542. a push rod; 543. a first pressure spring; 544. a pressing plate; 545. a clamping jaw; 546. a connecting rod; 547. a sliding sleeve; 548. a slide bar; 549. a spring block; 330. a flange plate; 331. a first compression bar; 332. a second compression bar; 6. a control member; 60. a gear plate; 61. a shaft sleeve; 62. a screw cylinder; 63. a stud; 64. a first rack; 65. a second rack; 340. a housing; 341. a bottom plate; 7. a lifting mechanism; 342. a spring column; 343. a support base; 344. a gear ring; 345. a planetary gear; 8. a brushing member; 346. a third motor; 347. a protective cover; 348. bevel gear; 349. a first butt strap; 80. a T-shaped rod; 81. a folded brush rod; 82. a slide block; 83. a compression spring; 84. a spray bar; 70. a lifting plate; 71. a conveyor; 72. pulling blocks; 450. a square block; 451. a spiral wind barrel; 452. a push plate; 453. a second cylinder; 454. a second lapping plate; 420. an arc-shaped block; 421. a second pressure spring; 422. and (3) rolling balls.

Detailed Description

Embodiments of the present invention are described below with reference to the accompanying drawings. In this process, to ensure clarity and convenience of description, the widths of the lines or the sizes of the constituent elements in the drawings may be exaggerated.

In addition, the terms hereinafter are defined based on functions in the present invention, and may be different according to intention of a user, an operator, or a convention. Accordingly, these terms are defined based on the entire contents of the present specification.

Referring to fig. 1, an integrated device for washing and drying after glass wine bottle production and molding comprises a base 1, a supporting plate 2, a cleaning device 3, a drying device 4 and a carrying device 5; the base 1 upper end front and back symmetry install two backup pads 2, the belt cleaning device 3 is installed to the right side position between two backup pads 2, the left side of belt cleaning device 3 is provided with drying device 4, drying device 4 installs between two backup pads 2, is provided with handling device 5 between belt cleaning device 3 and the drying device 4, and handling device 5 installs on base 1.

Referring to fig. 1, 2 and 3, the cleaning device 3 includes a first roller 30, a first conveyor belt 31, a disc 32, a fixing mechanism 33, cleaning units 34 and a first motor 35, two first rollers 30 are symmetrically installed between the support plates 2 left and right, two rows of first rollers 30 are arranged up and down, a first conveyor belt 31 is wound between the four first rollers 30, the disc 32 is uniformly installed on the first conveyor belt 31, through holes are uniformly formed in the disc 32, the through holes penetrate through the disc 32 and the first conveyor belt 31, the fixing mechanism 33 is arranged on the through holes, the fixing mechanism 33 is installed on the upper end face of the disc 32, two cleaning units 34 are symmetrically arranged in front and back of the first conveyor belt 31, the two cleaning units 34 are all installed on the support plates 2, the first motor 35 is installed outside the support plates 2, and one of the first rollers 30 and an output shaft of the first motor 35 are driven by a chain through a sprocket; the glass wine bottle is manually inserted into the fixing mechanism 33, the glass wine bottle is fixed through the fixing mechanism 33, the glass wine bottle is moved to the upper side of the cleaning unit 34 through the first conveying belt 31, then the cleaning unit 34 is moved upwards to be inserted into the glass wine bottle to clean the glass wine bottle, after the cleaning is finished, the first conveying belt 31 rotates and drives the next batch of glass wine bottles to move to the upper side of the cleaning unit 34, the first conveying belt 31 stops again, and the carrying device 5 conveys the cleaned glass wine bottle to the drying device 4 for drying treatment.

Referring to fig. 2, 10 and 11, the fixing mechanism 33 includes a flange 330, a first compression bar 331, a second compression bar 332 and a control member 6, the flange 330 is mounted on the disc 32, a circular truncated cone hole is formed in the middle of the flange 330, the circular truncated cone hole is communicated with the through hole, notches are uniformly formed in the circumferential outer wall of the flange 330 along the circumferential direction of the flange, the first compression bar 331 and the second compression bar 332 are mounted in the notches through pins and torsion springs, the first compression bar 331 is located above the second compression bar 332, the control member 6 is disposed between the first compression bar 331 and the second compression bar 332, the control member 6 is mounted on the side wall of the notch, kidney-shaped holes are uniformly formed in the disc 32, the second compression bar 332 is located in the kidney-shaped grooves, and the kidney-shaped holes correspond to the second compression bars 332 one by one; when the glass wine bottle is manually inserted into the circular truncated cone hole of the flange plate 330, the upper end of the first pressing rod 331 and the lower end of the second pressing rod 332 are attached to the outer wall of the glass wine bottle through the action of the torsion spring, the first pressing rod 331 is abutted to the second pressing rod 332 through the control piece 6, when the glass wine bottle is pushed upwards, the first pressing rod 331 is prone to be outwards opened, the lower end of the second pressing rod 332 is inwards contracted, so that the stability of the glass wine bottle is guaranteed, when the control piece 6 is not abutted to the first pressing rod 331 and the second pressing rod 332, the glass wine bottle is lifted upwards at this time, and the first pressing rod 331 and the second pressing rod 332 can be respectively opened to enable the glass wine bottle to be taken out.

Referring to fig. 3, 11 and 12, the control member 6 includes a gear disc 60, a shaft sleeve 61, a screw cylinder 62, a stud 63, a first rack 64 and a second rack 65, where the gear disc 60 is mounted in the disc 32 in a sliding fit manner, the circumferential outer wall and the circumferential inner wall of the gear disc 60 are provided with teeth, the front and rear adjacent control members 6 are synchronously rotated by meshing of the gear disc 60, the screw cylinder 62 is located between the first compression rod 331 and the second compression rod 332, the upper and lower parts of the circumferential outer wall of the screw cylinder 62 are mounted with the shaft sleeve 61 in a rotating fit manner, the shaft sleeve 61 is mounted on the side wall of the notch, straight teeth are uniformly arranged in the middle of the circumferential outer wall of the screw cylinder 62, and the straight teeth are in meshing transmission with the inner wall teeth of the gear disc 60, the upper and lower ends of the screw cylinder 62 are respectively provided with a stud 63 in a threaded fit manner, the two studs 63 are respectively in contact with the lower end face of the first compression rod 331 and the upper end face of the second compression rod 332, the left side above the first conveying belt 31 is provided with two first racks 64, the two first racks are mounted on the two adjacent support columns 33 are mounted on the front end faces of the second support column 33, and the first racks 33 are mounted between the two adjacent racks 33 are mounted on the two support columns 33; when the gear plate 60 is meshed with the second rack 65 for rotation, the two studs 63 respectively abut against the first compression bar 331 and the second compression bar 332, so that the glass wine bottle can be clamped and fixed during cleaning, and when the gear plate 60 is meshed with the first rack 64 for rotation, the studs 63 are retracted into the screw cylinder 62 and do not abut against the first compression bar 331 and the second compression bar 332, so that the glass wine bottle can be taken out.

Referring to fig. 3, 4, 5, 6 and 7, the cleaning unit 34 includes a housing 340, a bottom plate 341, a lifting mechanism 7, a spring column 342, a supporting seat 343, a gear ring 344, a planetary gear 345, a brushing member 8, a motor 346 No. three, a protecting cover 347, a bevel gear 348 and a strap 349, the housing 340 is mounted on the supporting plate 2, the bottom plate 341 is disposed in the housing 340, the lifting mechanism 7 is mounted on the lower end surface of the bottom plate 341 through a linear guide, the spring column 342 is mounted in the middle of the upper end surface of the bottom plate 341, the upper end surface of the spring column 342 is mounted on the strap 349 No. one, the strap 349 is mounted on the supporting plate 2, the supporting seat 343 is uniformly mounted on the upper end surface of the bottom plate 341, square openings are formed on the inner end surfaces of the supporting seat 343, arc grooves are formed on the side walls and the bottom wall of the square openings, the gear ring 344 is arranged on the arc-shaped groove in a sliding fit mode, helical teeth are uniformly arranged on the upper end face of the gear ring 344, a third motor 346 is arranged on the outer end face of one supporting seat 343 through a motor seat, a protective cover 347 is arranged outside the third motor 346, an output shaft head of the third motor 346 penetrates through the supporting seat 343 and is positioned in a square opening, a helical gear 348 is arranged on the shaft head of the output shaft of the third motor 346 in the square opening, the helical gear 348 is meshed with the helical teeth on the gear ring 344, planetary gears 345 are uniformly meshed in the gear ring 344, the lower end face of the planetary gears 345 are arranged on a bottom plate 341 through bearings, and the upper end face of each planetary gear 345 is provided with the gear ring 344 of two cleaning units 34 of the brushing piece 8 for mutual meshed transmission; when the glass wine bottle moves to the upper part of the cleaning unit 34 through the first conveying belt 31, the first motor 35 stops rotating, the lifting mechanism 7 lifts the bottom plate 341, meanwhile, the third motor 346 drives the gear ring 344 to rotate, the brushing piece 8 rotates through the planetary gear 345, the brushing piece 8 rotates to ascend to brush and clean the inner wall of the glass wine bottle, and sewage generated by cleaning falls into the shell 340 to be recovered, filtered and reused.

Referring to fig. 4 and 8, the brushing member 8 includes a T-shaped bar 80, a folded brush bar 81, a slider 82, a compression spring 83, and a spray bar 84; the T-shaped rods 80 are arranged on the upper end face of the planetary gears 345, square grooves are uniformly formed in the circumferential outer wall of the horizontal section of each T-shaped rod 80 along the circumferential direction of each square groove, folded brush rods 81 are uniformly arranged in each square groove through pin shafts, sliding grooves are uniformly formed in the circumferential outer wall of the lower part of each T-shaped rod 80 along the circumferential direction of each square groove, sliding blocks 82 are arranged in the sliding grooves in a sliding fit mode, the sliding blocks 82 are in one-to-one correspondence with the folded brush rods 81, compression springs 83 are arranged between the lower end faces of the sliding blocks 82 and the bottom walls of the sliding grooves, the lower ends of the folded brush rods 81 are connected with the outer end faces of the sliding blocks 82 in a hinged mode, spray bars 84 are arranged between every two adjacent folded brush rods 81, and the spray bars 84 are arranged on the T-shaped rods 80; when the brushing part 8 is rotated and ascended, the folded brush rod 81 is extruded by the bottle mouth to retract towards the direction of the T-shaped rod 80, meanwhile, the lower end of the folded brush rod 81 slides downwards, at the moment, the folded brush rod 81 brushes the bottleneck of the glass wine bottle once, after the folded brush rod 81 is inserted into the bottle, the extruded folded brush rod 81 resets under the action of the compression spring 83, bristles on the folded brush rod 81 are contacted with the inner wall of the glass wine bottle, water is sprayed in the spray rod 84 and simultaneously matched with the folded brush rod 81 to brush the inner wall of the glass bottle, when the brushing part 8 moves downwards, the folded brush rod 81 is extruded again to retract to brush the bottleneck again, so that accumulated impurities are removed, and the accumulated impurities fall into the shell 340 to be collected and concentrated.

Referring to fig. 4 and 5, the lifting mechanism 7 includes a lifting plate 70, a conveyor 71 and a pull block 72, the lifting plate 70 is mounted on the lower end surface of the bottom plate 341 through a linear guide rail, two conveyors 71 are symmetrically disposed on the front and rear sides of the lifting plate 70, the conveyors 71 are square, the conveyors 71 are mounted on the support plate 2, the conveyors 71 are arranged in two rows on the left and right sides, two pull blocks 72 are mounted on the front and rear side end surfaces of the lifting plate 70, the pull blocks 72 are in an L-shaped structure, the horizontal sections of the pull blocks 72 are mounted on the outer side end surfaces of the conveyors 71 through bearings, and the vertical sections of the pull blocks 72 are mounted on the lifting plate 70; when the conveyor 71 drives the pull block 72 to move to a high position, the lifting plate 70 moves obliquely upwards, and because the lifting plate 70 is connected with the bottom plate 341 through the linear guide rail, when the lifting plate 70 moves upwards, only upward force acts on the bottom plate 341 to lift the bottom plate 341, meanwhile, the brushing piece 8 brushes the inside of the glass wine bottle, the pull block 72 horizontally moves on the conveyor 71 for a certain distance, the lifting plate 70 only horizontally moves, and because the lifting plate 70 is connected with the bottom plate 341 through the linear guide rail, the position of the brushing piece 8 is unchanged, the brushing piece 8 is kept in the bottle for a certain time, so that the cleaning effect in the bottle is ensured, when the conveyor 71 drives the pull block 72 to move downwards, the lifting plate 70 descends, the brushing piece 8 is pulled out, and at the moment, the glass wine bottle moves leftwards through the first conveyor belt 31.

Referring to fig. 1, 3 and 9, the carrying device 5 includes a supporting frame 50, a linear module 51, a fixing plate 52, a first air cylinder 53 and a clamping mechanism 54, two supporting frames 50 are symmetrically installed on the upper end face of the base 1 front and back, the two supporting frames 50 are all located on the outer side of the supporting plate 2, the upper end faces of the two supporting frames 50 are respectively provided with the linear module 51, the fixing plate 52 is commonly installed between the two linear modules 51, the first air cylinder 53 is symmetrically installed on the left end face of the fixing plate 52 front and back, and the clamping mechanism 54 is installed on the lower end face of the first air cylinder 53; when the brushed glass wine bottle moves to the left side of the cleaning unit 34 to stop, the first air cylinder 53 moves the clamping mechanism 54 to the position of the glass wine bottle, so that the clamping mechanism 54 clamps the glass wine bottle, the first air cylinder 53 withdraws and clamps the glass wine bottle, the glass wine bottle is moved to the upper side of the drying device 4 through the linear module 51, the telescopic end of the first air cylinder 53 pushes the clamping mechanism 54 to move downwards again, so that the glass wine bottle is inserted into the clamping piece 42 to be fixed, the clamping mechanism 54 is lifted up through the first air cylinder 53, and the linear module 51 resets the clamping mechanism 54 to wait for clamping next time.

Referring to fig. 3, 9 and 13, the clamping mechanism 54 includes a square plate 540, a sleeve 541, a push rod 542, a first compression spring 543, a pressing plate 544, a clamping jaw 545, a connecting rod 546, a sliding sleeve 547, a sliding rod 548 and a spring block 549, wherein the square plate 540 is arranged below the two first cylinders 53, the sleeve 541 is installed at four corners of the upper end surface of the square plate 540, the push rod 542 is installed in the sleeve 541 in a sliding fit manner, the push rod 542 is in a T-shaped structure, a first compression spring 543 is installed between the lower end surface of a horizontal section of the push rod 542 and the bottom wall of the sleeve 541, the upper end surface of the push rod 542 is provided with a pressing plate 544, the upper end surface of the pressing plate 544 is fixed with the telescopic end of the first cylinder 53, the clamping jaw 545 is installed at the lower end of the push rod 542 through a pin shaft, one end of the connecting rod 546 is connected with the middle part of the clamping jaw 545 through a pin shaft, the other end of the connecting rod 546 is installed at the lower end surface of the pressing plate 544 through a pin shaft, the left side and the right side of the square plate 540 is provided with the sliding sleeve 547, the sliding sleeve 547 is installed at the upper end surface of the fixing plate 52, the sliding rod 542 is in a sliding fit manner, the push rod 542 is in a T-shaped structure, the lower end of the sliding rod is provided with a sliding sleeve 547, the sliding block is in a sliding fit manner with the sliding groove, the sliding block is in a uniform coefficient with the sliding fit between the two sliding blocks of the sliding grooves 54549, the sliding block has a large coefficient, the spring has a large coefficient is matched with the sliding coefficient with the sliding block, and the sliding block has a large compression spring end is in the sliding block has a large opposite end of the sliding coefficient, and has a large opposite end 549, and has a large compression spring coefficient is matched in the opposite end is mounted in a corresponding to a sliding groove, and has a corresponding compression spring has a corresponding to a corresponding compression spring in a corresponding compression spring, and has a sliding device and has a sliding in opposite easy; when the first air cylinder 53 pushes the pressing plate 544 to move downwards, the spring elastic coefficient of the spring blocking block 549 is larger than that of the first pressure spring 543, so that the pressing plate 544 firstly presses the push rod 542 downwards to open the two clamping jaws 545, the first air cylinder 53 continues to push the pressing plate 544, at the moment, the sliding rod 548 is pulled downwards, the clamping mechanism 54 integrally moves downwards, when the lower end of the push rod 542 collides with the bottom of the glass wine bottle, the telescopic end of the first air cylinder 53 is retracted, the push rod 542 is pulled firstly to recover, meanwhile, the clamping jaws 545 are folded to clamp the glass wine bottle, then the pressing plate 544 collides with the horizontal section of the sliding rod 548, the clamping mechanism 54 integrally is lifted, then the first air cylinder 53 is moved to the right side position of the drying device 4 through the linear module 51, the first air cylinder 53 pushes the pressing plate 544 downwards, the glass wine bottle is clamped into the clamping piece 42, and finally the clamping mechanism 54 resets to wait for the next clamping.

Referring to fig. 1, 2 and 3, the drying device 4 includes a second roller 40, a second conveyor belt 41, a clamping member 42, a square shell 43, an air heater 44, a drying unit 45 and a second motor 46, two second rollers 40 are symmetrically installed between the support plates 2, two rows of the second rollers 40 are arranged up and down, the second conveyor belt 41 is uniformly wound between the four second rollers 40, the clamping member 42 is uniformly installed between the two adjacent second conveyor belts 41, the square shell 43 is arranged above the second conveyor belt 41, the square shell 43 is installed on the support plates 2, the air heater 44 is installed on the inner top wall of the square shell 43, the drying unit 45 is arranged inside the second conveyor belt 41, the drying unit 45 is installed on the support plates 2, the second motor 46 is installed outside the support plates 2, and one second roller 40 and the output shaft of the second motor 46 are driven by a sprocket and a chain; the glass wine bottle is inserted into the clamping piece 42 through the carrying device 5 to be fixed, then the glass wine bottle is stopped after being moved to the upper side of the drying unit 45 through the rotation of the second conveying belt 41, the air heater 44 is used for drying the outer wall of the glass wine bottle, meanwhile, the drying unit 45 is moved upwards and inserted into the glass wine bottle to dry water stains in the bottle, after drying is completed, the drying unit 45 is reset, the glass wine bottle is moved to the left side of the square shell 43 through the second conveying belt 41, and at the moment, the glass wine bottle is taken down and stored manually.

Referring to fig. 2 and 14, the clamping member 42 includes two arc-shaped blocks 420, the number of the arc-shaped blocks 420 is two, two opposite arc-shaped blocks 420 are respectively mounted on two adjacent second conveyor belts 41, a fixing hole is formed in the inner wall of each arc-shaped block 420, a second pressure spring 421 is mounted in the fixing hole, and a ball 422 is mounted on the outer end face of each second pressure spring 421; when the carrying device 5 moves the glass wine bottle to the right side of the drying device 4, the glass wine bottle moves downwards through the carrying device 5, the bottle mouth is abutted against the ball 422, the ball 422 moves inwards, the second pressure spring 421 is compressed at the moment, and therefore the recovery trend of the second pressure spring 421 clamps the glass wine bottle.

Referring to fig. 3, the drying unit 45 includes a block 450, a spiral air cylinder 451, a push plate 452, a No. two air cylinder 453 and a No. two butt strap 454, the block 450 is disposed below the square shell 43, the block 450 is mounted on the support plate 2, spiral slots are uniformly formed in the block 450, the spiral air cylinder 451 is mounted in the spiral slots in a manner of being in a running fit, the push plate 452 is mounted on the lower end surface of the spiral air cylinder 451 through a bearing, the middle position of the lower end surface of the push plate 452 is connected with the telescopic end of the No. two air cylinder 453, the lower end surface of the No. two air cylinder 453 is mounted on the No. two butt strap 454, and the No. two butt strap 454 is fixed on the support plate 2; when the glass wine bottle moves to the top of the drying unit 45, when the spiral air cylinder 451 moves upwards through the second air cylinder 453, the spiral air cylinder 451 is enabled to rise in a rotating mode through the cooperation of the spiral groove hole, water stains on the inner wall of the glass wine bottle can be blown out in the process that the spiral air cylinder 451 rises to enter the glass wine bottle, and when the second air cylinder 453 pulls the spiral air cylinder 451 downwards, the spiral air cylinder 451 carries out drying treatment on the inner wall of the glass wine bottle, so that the drying and cleaning of the glass wine bottle are guaranteed.

Specifically, when the glass wine bottle is washed and dried, firstly, the glass wine bottle is manually inserted into the fixing mechanism 33, the first conveying belt 31 moves through the first motor 35, when the fixing mechanism 33 is matched with the second rack 65, the fixing mechanism 33 locks the glass wine bottle, after the glass wine bottle reaches the upper part of the cleaning unit 34, the first conveying belt 31 stops moving, the cleaning unit 34 is inserted into the glass wine bottle to scrub the glass wine bottle, after the first conveying belt 31 continues to operate and move, the glass wine bottle is moved to the upper part of the cleaning unit 34 and stopped, the carrying device 5 clamps the scrubbed glass wine bottle on the drying device 4, and after the glass wine bottle is fixed through the clamping piece 42, the second conveying belt 41 operates, when the glass bottle reaches the upper part of the drying unit 45, the spiral air cylinder 451 of the drying unit 45 is inserted into the glass wine bottle, water drops in the bottle are discharged and dried, the hot air blower 44 dries the water stain outside the bottle, after the glass wine bottle is completely scrubbed, the glass wine bottle is moved to the left side position of the square shell 43 through the second conveying belt 41, and the glass wine bottle is manually washed and stored.

The above description is only of the preferred embodiments of the present invention and is not intended to limit the present invention, but various modifications and variations can be made to the present invention by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. The integrated equipment for washing and drying after glass wine bottle production and molding comprises a base (1), a supporting plate (2), a cleaning device (3), a drying device (4) and a carrying device (5); the method is characterized in that: two support plates (2) are symmetrically arranged on the front and back of the upper end surface of the base (1), a cleaning device (3) is arranged at the right side position between the two support plates (2), a drying device (4) is arranged on the left side of the cleaning device (3), the drying device (4) is arranged between the two support plates (2), a carrying device (5) is arranged between the cleaning device (3) and the drying device (4), and the carrying device (5) is arranged on the base (1); wherein:

the cleaning device (3) comprises a first roller shaft (30), a first conveying belt (31), a disc (32), fixing mechanisms (33), cleaning units (34) and a first motor (35), wherein two first roller shafts (30) are symmetrically arranged between the supporting plates (2) in a left-right mode, two rows of the first roller shafts (30) are arranged up and down, a first conveying belt (31) is jointly wound between the four first roller shafts (30), the disc (32) is uniformly arranged on the first conveying belt (31), through holes are uniformly formed in the disc (32), the through holes penetrate through the disc (32) and the first conveying belt (31), the fixing mechanisms (33) are arranged on the through holes, the fixing mechanisms (33) are arranged on the upper end face of the disc (32), two cleaning units (34) are symmetrically arranged in the first conveying belt (31), the two cleaning units (34) are arranged on the supporting plates (2), the first motor (35) is arranged outside the supporting plates (2), and one of the first roller shafts (30) and the output shafts (35) are in a transmission mode through chain wheels and chains;

the drying device (4) comprises a second roller shaft (40), a second conveying belt (41), clamping pieces (42), fang Ke (43), a hot air blower (44), a drying unit (45) and a second motor (46), wherein two second roller shafts (40) are symmetrically arranged between the supporting plates (2), two rows of the second roller shafts (40) are arranged up and down, a second conveying belt (41) is uniformly wound between the four second roller shafts (40), the clamping pieces (42) are uniformly arranged between the two adjacent second conveying belts (41), a square shell (43) is arranged above the second conveying belt (41), the square shell (43) is arranged on the supporting plates (2), the hot air blower (44) is arranged on the inner top wall of the square shell (43), the drying unit (45) is arranged inside the second conveying belt (41), the second motor (46) is arranged outside the supporting plates (2), and one second roller shaft (40) and the second motor (46) are driven by a chain wheel through a transmission chain;

the carrying device (5) comprises a supporting frame (50), linear modules (51), a fixing plate (52), first air cylinders (53) and a clamping mechanism (54), wherein the two supporting frames (50) are symmetrically arranged in front of and behind the upper end face of the base (1), the two supporting frames (50) are located on the outer sides of the supporting plate (2), the upper end faces of the two supporting frames (50) are respectively provided with one linear module (51), the fixing plate (52) is commonly arranged between the two linear modules (51), the two first air cylinders (53) are symmetrically arranged in front of and behind the left end face of the fixing plate (52), and the clamping mechanism (54) is arranged on the lower end face of the first air cylinder (53);

the clamping mechanism (54) comprises a square plate (540), a sleeve (541), a push rod (542), a first pressure spring (543), a pressing plate (544), clamping jaws (545), a connecting rod (546), a sliding sleeve (547), a sliding rod (548) and a spring block (549), wherein the square plate (540) is arranged below the two first air cylinders (53), the sleeve (541) is arranged at four corners of the upper end face of the square plate (540), the push rod (542) is arranged in the sleeve (541) in a sliding fit mode, the push rod (542) is of a T-shaped structure, the pressing plate (544) is arranged between the lower end face of the horizontal section of the push rod (542) and the bottom wall of the sleeve (541), the pressing plate (544) is arranged on the upper end face of the push rod (542), the upper end face of the pressing plate (544) is fixed with the telescopic end of the first air cylinder (53), one end of the connecting rod (546) is connected with the middle part of the clamping jaw (545) through a pin shaft, the other end of the connecting rod (546) is arranged below the pressing plate (547) through the end face of the sliding sleeve (547), the sliding sleeve (547) is arranged on the two sides of the sliding sleeve (547) in the sliding fit mode, and slide bar (548) are "F" type structure, and the outer wall of the vertical end of slide bar (548) is evenly seted up flutedly, sliding sleeve (547) inside evenly install spring stop (549), and spring rate of spring stop (549) is greater than spring rate of pressure spring (543) No. one, spring stop (549) and recess interference fit, and clamp plate (544) and square board (540) all are located between two horizontal sections of slide bar (548).

2. The integrated equipment for washing and drying after glass wine bottle production and molding according to claim 1, which is characterized in that: fixed establishment (33) include ring flange (330), a compression bar (331), no. two compression bars (332) and control (6), ring flange (330) install on disc (32), round platform hole has been seted up at the middle part of ring flange (330), and round platform hole link up with the through-hole, notch has evenly been seted up along its circumference direction to the circumference outer wall of ring flange (330), all install a compression bar (331) and No. two compression bars (332) through round pin axle and torsional spring in the notch, and No. one compression bar (331) are located No. two compression bars (332) top, be provided with control (6) between No. one compression bar (331) and No. two compression bars (332), and control (6) are installed on the lateral wall of notch, disc (32) on evenly seted up waist shape hole, no. two compression bars (332) are located waist shape inslot, and waist shape hole and No. two compression bars (332) one-to-one.

3. The integrated equipment for washing and drying after glass wine bottle production and molding according to claim 2, which is characterized in that: the control piece (6) comprises a gear disc (60), a shaft sleeve (61), a screw cylinder (62), a stud (63), a first rack (64) and a second rack (65), the gear disc (60) is installed in the disc (32) in a sliding fit mode, the circumferential outer wall and the circumferential inner wall of the gear disc (60) are respectively provided with teeth, the front control piece and the rear control piece (6) synchronously rotate through the gear disc (60) in a meshed mode, the screw cylinder (62) is positioned between a first pressing rod (331) and a second pressing rod (332), the upper part and the lower part of the circumferential outer wall of the screw cylinder (62) are provided with the shaft sleeve (61) in a rotating fit mode, the shaft sleeve (61) is installed on the side wall of a notch, the middle part of the circumferential outer wall of the screw cylinder (62) is uniformly provided with straight teeth, the straight teeth are in meshed transmission with the inner wall teeth of the gear disc (60), the upper end and the lower end of the screw cylinder (62) are respectively provided with the stud (63) in a threaded fit mode, the two studs (63) are respectively in contact with the lower end face of the first pressing rod (331) and the upper end face of the second pressing rod (332), the first rack (31) is provided with the second rack (64) on the upper end face of the second rack (31), the first rack (64) is installed on the upper end face of the second rack is provided with the second rack (31), and the second rack (65) is positioned between the front and rear adjacent fixing mechanisms (33).

4. The integrated equipment for washing and drying after glass wine bottle production and molding according to claim 1, which is characterized in that: the cleaning unit (34) comprises a shell (340), a bottom plate (341), a lifting mechanism (7), a spring column (342), a supporting seat (343), a gear ring (344), a planetary gear (345), a brushing piece (8), a third motor (346), a protective cover (347), a bevel gear (348) and a first lapping plate (349), wherein the shell (340) is arranged on a supporting plate (2), the bottom plate (341) is arranged in the shell (340), the lifting mechanism (7) is arranged on the lower end surface of the bottom plate (341) through a linear guide rail, the spring column (342) is arranged in the middle of the upper end surface of the bottom plate (341), the upper end surface of the spring column (342) is arranged on the first lapping plate (349), the first lapping plate (349) is arranged on a supporting plate (2), the supporting seat (343) is uniformly arranged on the upper end surface of the bottom plate (341), square openings are formed in the inner end surfaces of the supporting seat (343), arc grooves are formed in the side walls and the bottom wall of the square openings, the gear ring (344) is arranged on the arc grooves in a sliding fit mode, the upper end surface of the gear ring (344) is uniformly provided with the bevel gear teeth, the third motor (346) is arranged on the outer side of the third motor (346), the output shaft head of the third motor (346) penetrates through the supporting seat (343) and is positioned in the square opening, the bevel gear (348) is installed on the shaft head of the output shaft of the third motor (346) in the square opening, the bevel gear (348) is meshed with the bevel teeth on the gear ring (344), the planetary gear (345) is evenly meshed with the inside of the gear ring (344), the lower end face of the planetary gear (345) is installed on the bottom plate (341) through a bearing, the brushing piece (8) is installed on the upper end face of the planetary gear (345), and the gear rings (344) of the two cleaning units (34) are meshed with each other for transmission.

5. The integrated equipment for washing and drying after glass wine bottle production and molding according to claim 4, wherein the integrated equipment is characterized in that: the lifting mechanism (7) comprises a lifting plate (70), a conveyor (71) and pull blocks (72), wherein the lifting plate (70) is installed on the lower end face of the bottom plate (341) through a linear guide rail, two conveyors (71) are symmetrically arranged on the front side and the rear side of the lifting plate (70), the conveyors (71) are of square structures, the conveyors (71) are installed on the supporting plate (2), the conveyors (71) are arranged in two rows left and right, two pull blocks (72) are respectively installed on the front side end face and the rear side end face of the lifting plate (70), the pull blocks (72) are of an L-shaped structure, the horizontal sections of the pull blocks (72) are installed on the outer end face of the conveyors (71) through bearings, and the vertical sections of the pull blocks (72) are installed on the lifting plate (70).

6. The integrated equipment for washing and drying after glass wine bottle production and molding according to claim 4, wherein the integrated equipment is characterized in that: the brushing piece (8) comprises a T-shaped rod (80), a folded brush rod (81), a sliding block (82), a compression spring (83) and a spray rod (84); t shaped pole (80) install the up end of planetary gear (345), square groove has evenly been seted up along its circumference direction to the circumference outer wall of T shaped pole (80) horizontal segment, roll over shape brush-holder stud (81) are evenly installed through the round pin axle in the square groove, the spout has evenly been seted up along its circumference direction to the circumference outer wall of T shaped pole (80) lower part, slider (82) are installed in the spout through sliding fit's mode, and slider (82) and roll over shape brush-holder stud (81) one-to-one, install compression spring (83) between the lower terminal surface of slider (82) and the diapire of spout, be connected through articulated mode between the lower extreme of roll over shape brush-holder stud (81) and the outside terminal surface of slider (82), be provided with spray lance (84) between two adjacent roll over shape brush-holder studs (81), and spray lance (84) are installed on T shaped pole (80).

7. The integrated equipment for washing and drying after glass wine bottle production and molding according to claim 1, which is characterized in that: drying unit (45) include square (450), spiral dryer (451), push pedal (452), no. two cylinder (453) and No. two butt strap (454), the below of Fang Ke (43) is provided with square (450), and square (450) are installed on backup pad (2), evenly seted up the spiral slotted hole on square (450), spiral dryer (451) install in the spiral slotted hole through normal running fit's mode, push pedal (452) are installed through the bearing to the lower terminal surface of spiral dryer (451), and the lower terminal surface middle part position of push pedal (452) is connected with the flexible end of No. two cylinder (453), no. two cylinder (453) lower terminal surface is installed on No. two butt strap (454), and No. two butt strap (454) are fixed in backup pad (2).

8. The integrated equipment for washing and drying after glass wine bottle production and molding according to claim 1, which is characterized in that: the clamping piece (42) comprises arc blocks (420), the number of the arc blocks (420) is two, two opposite arc blocks (420) are respectively installed on two adjacent second conveying belts (41), fixing holes are formed in the inner walls of the arc blocks (420), second pressure springs (421) are installed in the fixing holes, and balls (422) are installed on the outer side end faces of the second pressure springs (421).