CN111530874A

CN111530874A - Automatic cleaning device for interior of glass bottle

Info

Publication number: CN111530874A
Application number: CN202010445784.4A
Authority: CN
Inventors: 许卫武
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-05-25
Filing date: 2020-05-25
Publication date: 2020-08-14

Abstract

The invention relates to a cleaning device, in particular to an automatic cleaning device for the interior of a glass bottle. The technical problem is how to design an automatic cleaning device in the glass bottle which can replace manpower to clean the glass bottle, saves manpower, is convenient to operate and saves labor. An automatic cleaning device for the interior of a glass bottle comprises: the device comprises a bottom plate, a first rotating shaft and a second rotating shaft, wherein one side of the bottom plate is rotatably connected with the first rotating shaft; the supporting disk, the suit of supporting disk rotary type is in keeping away from bottom plate one portion circumference of first pivot. According to the glass bottle cleaning device, the glass bottle is placed in the placing frame, the servo motor is started to rotate in the forward direction, so that the glass bottle can be in contact with the cleaning brush in the sixty-degree forward direction, meanwhile, the cleaning brush is rotated, moved rightwards and inserted into the glass bottle to clean the glass bottle, the glass bottle is separated from the interior of the glass bottle after being cleaned, the interior of the glass bottle is not required to be cleaned by manual operation of multiple persons, the labor is saved, and the glass bottle cleaning device is convenient to operate.

Description

Automatic cleaning device for interior of glass bottle

Technical Field

The invention relates to a cleaning device, in particular to an automatic cleaning device for the interior of a glass bottle.

Background

Glass bottles exist in China from ancient times, and the past academic circles consider that glass devices are rare in ancient times, so that the glass devices can be owned and used only at few governing levels. However, recent research has led to the realization that ancient glassware was not difficult to manufacture and store, and was seen rarely in future generations. Glass bottles are traditional beverage packaging containers in China, and glass is a historical packaging material. Under the condition that a plurality of packaging materials are introduced into the market, the glass container still occupies an important position in beverage packaging, which is not separated from the packaging characteristic that the glass container cannot be replaced by other packaging materials, and when the glass bottle is produced, a large amount of impurities are remained in the glass bottle, so that the inside of the glass bottle needs to be cleaned, and the subsequent treatment of the glass bottle is not influenced.

At present, most all wash the glass bottle through the manual work, first-selected need some instrument to take up the glass bottle cover that is equipped with water and wash on the cleaning means, put on the assembly line after the washing, next batch workman then pours the water in the glass bottle of sanitization, so consume a large amount of manpowers, and the operation is more troublesome to in the cleaning process, need the people to hold the glass bottle always and wash, it is more laborious.

Therefore, a device for automatically cleaning the interior of a glass bottle, which can replace manual work to clean the glass bottle, is labor-saving, is convenient to operate and labor-saving, and is used for solving the problems in the prior art.

Disclosure of Invention

In order to overcome needs many people to cooperate and wash the glass bottle, pour out the water in the glass bottle again, consume a large amount of manpowers, troublesome poeration, and need hold the glass bottle washing always, the more difficult shortcoming of, the technical problem who solves: the automatic cleaning device for the interior of the glass bottle can replace manual work to clean the glass bottle, saves labor, is convenient to operate and saves labor.

The technical scheme is as follows: an automatic cleaning device for the interior of a glass bottle comprises: the device comprises a bottom plate, a first rotating shaft and a second rotating shaft, wherein one side of the bottom plate is rotatably connected with the first rotating shaft; the supporting disc is rotatably sleeved on one part of the circumference of the first rotating shaft far away from the bottom plate; the servo motor is arranged at the edge of one side of the bottom plate; the rotating assembly is arranged between one side of the bottom plate and the first rotating shaft and the supporting disc, is connected with the end part of the output shaft of the servo motor and is used for enabling the glass bottle to rotate forwards; and the cleaning component is arranged on one side of the bottom plate, is in contact fit with the rotating component and is used for cleaning the interior of the glass bottle.

Further, the rotating assembly comprises: the special-shaped rotating block is fixedly sleeved on one part of the circumference of the first rotating shaft close to the bottom plate; the second rotating shaft is rotatably connected to one side of the supporting plate, which faces the bottom plate and is close to the supporting frame; the limiting disc is fixedly sleeved at the end part of the second rotating shaft far away from the supporting frame and is in contact fit with the special-shaped rotating block; the driving rod is fixedly connected to one side of the limiting disc far away from the bottom plate and matched with the special-shaped rotating block; the first gear is fixedly sleeved on one part of the circumference of the second rotating shaft close to the limiting disc; the supporting rod is fixedly connected to one side of the bottom plate far away from the servo motor and the supporting frame; the number of the first driving wheels is two, one of the first driving wheels is rotatably connected to one part of the supporting rod far away from the bottom plate, and the other one of the first driving wheels is fixedly connected with the end part of an output shaft of the servo motor through a coupler; the first belt is wound between the two first driving wheels, one side of the first belt, which is far away from the bottom plate and close to the servo motor, is fixedly connected with driving teeth at intervals, the driving teeth are matched with the first gear and are also matched with the cleaning assembly, and the first belt is in contact fit with the cleaning assembly; the supporting rods are fixedly connected to the end part, far away from the bottom plate, of the first rotating shaft at intervals; place the frame, place connecting in keeping away from of frame rotary type the bottom plate the bracing piece tip, it with the bracing piece cooperation.

Further, the cleaning assembly comprises: the support frame is fixedly connected to one side of the bottom plate far away from the first rotating shaft; the hexagonal rod is rotatably connected to one side, far away from the bottom plate, in the supporting frame and facing the first rotating shaft; the inner hexagonal sleeve is sleeved on the hexagonal rod in a sliding mode, and a cleaning brush is fixedly connected to one part of the outer part of the inner hexagonal sleeve, which is far away from the supporting frame, in the circumferential direction; the bearing is arranged at one circumferential direction outside the inner hexagonal sleeve close to the support frame; the fourth rotating shaft is rotatably connected to one side in the supporting frame close to the bottom plate; the number of the third transmission wheels is two, one of the third transmission wheels is fixedly sleeved on one circumferential part of the fourth rotating shaft close to the support frame, and the other one of the third transmission wheels is fixedly sleeved on one circumferential part of the hexagonal rod close to the support frame; the second belt is wound between the two third transmission wheels; the third gear is fixedly sleeved on the circumferential direction of one part of the fourth rotating shaft far away from the supporting frame; the mounting plate is fixedly connected to one side of the bottom plate close to the first rotating shaft; the third rotating shaft is rotatably connected between one side, facing the first rotating shaft and close to the bottom plate, in the supporting frame and one side, facing the third driving wheel and far away from the mounting plate of the bottom plate, of the mounting plate; the second gear is fixedly sleeved on one part of the circumference of the third rotating shaft close to the supporting frame and is meshed with the third gear; the second driving wheel is fixedly sleeved on one part of the circumference of the third rotating shaft close to the first belt and is in contact fit with the first belt; the fifth rotating shaft is rotatably connected to one side of the mounting plate facing the support frame; the fourth gear is fixedly sleeved on one part of the circumference of the fifth rotating shaft close to the mounting plate and is matched with the driving teeth; the first bevel gear is fixedly sleeved at the end part of the fifth rotating shaft far away from the mounting plate; the sixth rotating shaft is rotatably connected to one side of the bottom plate far away from the supporting frame, and a second bevel gear is mounted at the end part of the sixth rotating shaft facing the fifth rotating shaft and meshed with the first bevel gear; the fifth gear is fixedly sleeved on the periphery of one part of the sixth rotating shaft close to the second bevel gear; the guide block is fixedly connected to one side of the bottom plate close to the fifth gear, a rack is placed in the guide block in a sliding mode, and the rack is meshed with the fifth gear; the guide sleeve is fixedly connected to the edge of one side of the bottom plate close to the servo motor, and the end part of the rack far away from the support frame is positioned in the guide sleeve and matched with the guide sleeve; the first spring is sleeved on the rack, one end of the first spring is fixedly connected with one side of the guide sleeve facing the support frame, and the other end of the first spring is fixedly connected with one part of the rack close to the fifth gear; the supporting blocks are symmetrically and fixedly connected to one side of the bottom plate between the rack and the supporting frame; the guide wheel is arranged on one side of one of the supporting blocks far away from the bottom plate; the rotating rod is rotatably connected between one part of the two supporting blocks close to the bottom plate, and one part of the rotating rod, far away from the bottom plate, is provided with a hole in sliding fit with the bearing; the torsion spring is connected to the hinged position of the rotating rod and the supporting block; the pull rope is connected to the end part of the rack far away from the guide sleeve, and the tail end of the pull rope bypasses the guide wheel to be hinged with one side of the rotating rod close to the bottom plate.

Further, still include the slope subassembly, the slope subassembly includes: the sliding block is connected to one part of the supporting rod close to the placing frame in a sliding mode in a penetrating mode; the second spring is connected between one side of the sliding block far away from the first rotating shaft and the inside of the supporting rod; the connecting rod is hinged to one side, far away from the sliding block, of the bottom plate, and the tail end of the connecting rod is fixedly connected with one side, facing the supporting rod and far away from the first rotating shaft, of the outer side of the placing frame; the first contact rod is fixedly connected to one side of the sliding block facing the bottom plate; the cam is fixedly connected to one side, far away from the supporting plate of the bottom plate, of the supporting plate and sleeved on the first rotating shaft, the cam is in rotating fit with the first rotating shaft, and the cam is in contact fit with the first contact rod.

Further, still include clamping component, clamping component includes: the wedge block is fixedly connected to the edge of one side of the supporting disc far away from the bottom plate and the supporting frame, a limiting rod is fixedly connected to the inner side of the wedge block, which faces the cam and is far away from the supporting disc, and the limiting rod is in contact fit with the first contact rod; the second contact rods are slidably placed on two sides outside the placing frame and are matched with the wedge-shaped blocks; the clamping block is fixedly connected between the end parts of the two second contact rods on each side far away from the bottom plate; and the third spring is sleeved on the second contact rod, one end of the third spring is fixedly connected with one side of the clamping block facing the bottom plate, and the other end of the third spring is fixedly connected with one side outside the placing frame.

The invention has the beneficial effects that:

1. through putting into the glass bottle and placing the frame, start servo motor corotation, can make glass bottle corotation sixty degree and cleaning brush contact, simultaneously, still make the cleaning brush rotate, and the cleaning brush moves right and inserts inside the glass bottle and wash it, breaks away from with inside the glass bottle after the sanitization, need not many people manual operation and washs inside the glass bottle, and is more laborsaving, still uses manpower sparingly, convenient operation.

2. Through the effect of slope subassembly, can make the glass bottle of sanitization upwards swing and be the tilt state and pour water, then need not the manual water that pours in the glass bottle of people, convenient and fast.

3. Through clamping components's effect, can fix the glass bottle, when the glass bottle slope, need not the people and hand the glass bottle fixed labour saving and time saving.

Drawings

Fig. 1 is a schematic front view of the present invention.

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

FIG. 3 is a schematic diagram of a first partial structure according to the present invention.

FIG. 4 is a second partial structure diagram of the present invention.

Fig. 5 is a schematic view of a partial pop structure of the present invention.

Fig. 6 is an enlarged schematic view of part a of the present invention.

FIG. 7 is a third partial structural view of the present invention.

Fig. 8 is a schematic diagram of a fourth partial structure of the present invention.

Reference numerals: 1 bottom plate, 2 first rotating shaft, 3 supporting disc, 4 servo motor, 5 rotating component, 501 supporting rod, 502 special-shaped rotating block, 503 supporting rod, 504 first driving wheel, 505 first belt, 506 driving tooth, 507 second rotating shaft, 508 first gear, 509 spacing disc, 510 driving rod, 511 placing frame, 6 glass bottle, 7 cleaning component, 701 supporting frame, 702 mounting plate, 703 third rotating shaft, 704 second driving wheel, 705 second gear, 706 fourth rotating shaft, 707 third gear, 708 hexagonal rod, 709 third driving wheel, 710 second belt, 711 inner hexagonal sleeve,

cleaning brush

712, 713 bearing, 714 supporting block, 715 rotating rod, 716 torsion spring, 717 guide wheel, 718 fifth rotating shaft, 719 first bevel gear, 720 fourth gear, 721 sixth rotating shaft, 722 a second bevel gear, 723 a fifth gear, 724 a guide block, 725 a rack, 726 a guide sleeve, 727 a first spring, 728 a pull rope, 8 a tilting component, 801 a cam, 802 a sliding block, 803 a second spring, 804 a connecting rod, 805 a first contact rod, 9 a clamping component, 901 a wedge block, 902 a limiting rod, 903 a second contact rod, 904 a clamping block and 905 a third spring.

Detailed Description

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

Example 1

Please refer to fig. 1, fig. 2, fig. 4, fig. 5 and fig. 6, an automatic cleaning device for the inside of a glass bottle comprises a bottom plate 1, a first rotating shaft 2, a supporting plate 3, a servo motor 4, a rotating assembly 5 and a cleaning assembly 7, wherein the first rotating shaft 2 is rotatably connected to the middle part of the right side of the top of the bottom plate 1, the supporting plate 3 is rotatably connected to the upper part of the first rotating shaft 2, the rotating assembly 5 is arranged between the supporting plate 3 and the first rotating shaft 2 as well as between the first rotating shaft 2 and the bottom plate 1, the servo motor 4 is installed on the front part of the right side of the top of the bottom plate 1 in a bolt connection manner, an output shaft of the servo motor 4 is connected with the rotating assembly 5, the cleaning.

The rotating component 5 comprises a supporting rod 501, a special-shaped rotating block 502, a supporting rod 503, a first driving wheel 504, a first belt 505, driving teeth 506, a second rotating shaft 507, a first gear 508, a limiting disc 509, a driving rod 510 and a placing frame 511, the special-shaped rotating block 502 is fixedly connected to the lower portion of the first rotating shaft 2 in the circumferential direction, the supporting rod 503 is fixedly connected to the rear portion of the right side of the top of the bottom plate 1, the first driving wheel 504 is rotatably connected to the upper portion of the supporting rod 503 in the left side, the end portion of an output shaft of the servo motor 4 is also connected to the first driving wheel 504 through a coupling, the first belt 505 is wound between the first driving wheels 504 at the front side and the rear side, the driving teeth 506 are fixedly connected to the front side of the outer top of the first belt 505 at uniform intervals, the first belt 505 is in contact fit with the cleaning component 7, the second rotating shaft 507 is rotatably connected to the middle portion of, the rigid coupling has actuating lever 510 in the middle of the spacing dish 509 top, and actuating lever 510 and the cooperation of dysmorphism rotating block 502, second pivot 507 right part circumference rigid coupling have first gear 508, and first gear 508 and the cooperation of driving tooth 506, the even spaced rigid coupling in 2 tops of first pivot have six spinal branch vaulting poles 501, and the frame 511 is placed in being connected with of bracing piece 501 top rotary type, places the frame 511 and cooperates with bracing piece 501.

The cleaning component 7 comprises a supporting frame 701, a mounting plate 702, a third rotating shaft 703, a second driving wheel 704, a second gear 705, a fourth rotating shaft 706, a third gear 707, a hexagonal rod 708, a third driving wheel 709, a second belt 710, an inner hexagonal sleeve 711, a cleaning brush 712, a bearing 713, a supporting block 714, a rotating rod 715, a torsion spring 716, a guide wheel 717, a fifth rotating shaft 718, a first bevel gear 719, a fourth gear 720, a sixth rotating shaft 721, a second bevel gear 722, a fifth gear 723, a guide block 724, a rack 725, a guide sleeve 726, a first spring 727 and a pull rope 728, the mounting plate 702 is fixedly connected to the middle of the right side of the top of the bottom plate 1, the mounting plate 702 is positioned on the left side of the first rotating shaft 2, the fifth rotating shaft 718 is rotatably connected to the lower part of the left side of the mounting plate 702, the fourth gear 720 is fixedly connected to the right side of the fifth rotating shaft 718 circumferentially, the fourth gear 720 is matched with the driving teeth 506, the, a sixth rotating shaft 721 is rotatably connected to the front part of the right side of the top of the bottom plate 1, a second bevel gear 722 is fixedly connected to the rear end of the sixth rotating shaft 721, the second bevel gear 722 is engaged with a first bevel gear 719, a fifth gear 723 is fixedly connected to the rear part of the sixth rotating shaft 721, a guide block 724 is fixedly connected to the front part of the right side of the top of the bottom plate 1, the guide block 724 is positioned below the fifth gear 723, a rack 725 is slidably arranged on the guide block 724, the rack 725 is engaged with the fifth gear 723, a guide sleeve 726 is fixedly connected to the front part of the right side of the top of the bottom plate 1, the guide sleeve 726 is positioned on the rear side of the servo motor 4, the right part of the rack 725 is positioned in the guide sleeve 726 and slidably engaged with the guide sleeve, a first spring 727 is wound between the left part of the rack 725 and the left side of the guide sleeve 726, a support frame 701 is rotatably connected between the lower part of the left side of the, the second driving wheel 704 is matched with the first belt 505 in a contact way, a fourth rotating shaft 706 is rotatably connected with the lower part of the left side surface in the supporting frame 701, the fourth rotating shaft 706 is positioned above the third rotating shaft 703, a third gear 707 is fixedly connected to the right part of the fourth rotating shaft 706 in the circumferential direction, the third gear 707 is meshed with the second gear 705, a hexagonal rod 708 is rotatably connected with the upper part of the left side surface in the supporting frame 701, a third driving wheel 709 is fixedly connected to the left part of the hexagonal rod 708 in the circumferential direction and the left part of the fourth rotating shaft 706 in the circumferential direction, a second belt 710 is wound between the third driving wheels 709 at the upper side and the lower side, an inner hexagonal sleeve 711 is slidably sleeved on the hexagonal rod 708, a cleaning brush 712 is fixedly connected to the right part of the outer side of the inner hexagonal sleeve 711, a bearing 713 is fixedly connected to the left part of the outer side of the inner hexagonal rod 708 in the circumferential direction, supporting blocks 714 are symmetrically fixedly connected to the middle of, the hinge joint of the rotating rod 715 and the supporting block 714 is connected with a torsion spring 716, the upper part of the rotating rod 715 is provided with a hole, the rotating rod 715 is in sliding fit with the bearing 713 through the hole, the upper part of the front side of the front supporting block 714 is provided with a guide wheel 717, the left end of the rack 725 is connected with a pull rope 728, and the tail end of the pull rope 728 bypasses the guide wheel 717 and is hinged with the lower part of the front side of the rotating rod 715.

Firstly, an operator places a proper amount of glass bottles 6 on a rotating component 5, starts a servo motor 4 to rotate forwards, the servo motor 4 rotates forwards to drive the rotating component 5 to operate, the rotating component 5 operates to drive a first rotating shaft 2 to rotate forwards by sixty degrees, the first rotating shaft 2 rotates forwards by sixty degrees and drives the glass bottles 6 to rotate forwards by sixty degrees through the rotating component 5, meanwhile, the rotating component 5 also drives a cleaning component 7 to operate, meanwhile, after the glass bottles 6 rotate forwards by sixty degrees, the rotating component 5 drives the cleaning component 7 to move rightwards to stretch into the glass bottles 6 in the middle of the left side to clean the glass bottles, the rotating component 5 continues to operate to drive the cleaning component 7 to separate from the glass bottles 6, namely, the inside of the glass bottles 6 is cleaned, the rotating component 5 continues to drive the first rotating shaft 2 to rotate forwards by sixty degrees, so that the next glass bottle 6 rotates forwards to correspond to the cleaning component 7, and simultaneously, the operator can take down the, the glass bottle 6 which is not cleaned is put on, and the inside of the glass bottle 6 can be cleaned continuously by repeating the above steps. When all the glass bottles 6 are cleaned, the servo motor 4 is turned off, the rotating assembly 5 stops operating, and the cleaning assembly 7 stops operating.

Firstly, an operator places a proper amount of glass bottles 6 on a placement frame 511, then starts a servo motor 4 to rotate forward, the servo motor 4 rotates forward to drive a front first transmission wheel 504 to rotate forward, the front first transmission wheel 504 rotates forward to drive a first belt 505 to rotate forward through a rear first transmission wheel 504, the first belt 505 rotates forward to drive a driving tooth 506 to rotate forward, the first belt 505 also drives a cleaning component 7 to rotate, when the driving tooth 506 rotates forward to be meshed with a first gear 508, the driving tooth 506 drives the first gear 508 to rotate backward, the first gear 508 rotates backward to drive a second rotating shaft 507 to rotate backward, the second rotating shaft 507 rotates backward to drive a limiting disc 509 to rotate backward, the limiting disc 509 rotates backward to drive a driving rod 510 to rotate backward, when the driving rod 510 rotates backward to be contacted with a special-shaped rotating block 502, the driving rod 510 drives the special-shaped rotating block 502 to rotate forward, the special-shaped rotating block 502 rotates forward to drive a first rotating shaft 2 to rotate forward, the placing frame 511 rotates forwards to drive the glass bottle 6 to rotate forwards, and further when the driving tooth 506 rotates forwards to be separated from the first gear 508, the first gear 508 stops rotating backwards, the placing frame 511 stops driving the glass bottle 6 to rotate forwards, the glass bottle 6 rotates forwards sixty degrees to correspond to the cleaning component 7, when the driving tooth 506 continues to rotate forwards to be in contact with the cleaning component 7, the driving tooth 506 drives the cleaning component 7 to move rightwards to be inserted into the glass bottle 6 to clean the glass bottle, when the driving tooth 506 continues to rotate forwards to be separated from the cleaning component 7, the cleaning component 7 operates to be separated from the glass bottle 6 to reset, and the operation is repeated, so that the glass bottle 6 can be continuously cleaned by the cleaning component 7 in the sixty degrees in the rotation. When all the glass bottles 6 are cleaned, the servo motor 4 is turned off, the driving teeth 506 stop rotating forwards, the placing frame 511 also stops rotating forwards, and the cleaning assembly 7 also stops operating.

When the servo motor 4 is started and the glass bottle 6 is rotated in a sixty degree forward, the glass bottle 6 corresponds to the cleaning brush 712, further the first belt 505 is rotated in a forward direction to drive the second transmission wheel 704 to rotate in a forward direction, the second transmission wheel 704 is rotated in a forward direction to drive the third rotating shaft 703 to rotate in a forward direction, the third rotating shaft 703 is rotated in a forward direction to drive the second gear 705 to rotate in a forward direction, the second gear 705 is rotated in a forward direction to drive the third gear 707 to rotate in a reverse direction, the third gear 707 is rotated in a reverse direction to drive the fourth rotating shaft 706 to rotate in a reverse direction, the fourth rotating shaft 706 is rotated in a reverse direction to drive the hexagonal rod 708 to rotate in a reverse direction through the second belt 710, the hexagonal rod 708 is rotated in a reverse direction to drive the inner hexagonal sleeve 711 to rotate in a reverse direction, the inner hexagonal sleeve 711 is rotated in a reverse direction to drive the cleaning brush 712 to rotate in a reverse direction, when the driving teeth 506 are meshed with the fourth gear, the first bevel gear 719 reversely rotates to drive the second bevel gear 722 reversely rotates, the second bevel gear 722 reversely rotates to drive the sixth rotating shaft 721 reversely rotates, the sixth rotating shaft 721 reversely rotates to drive the fifth gear 723 reversely rotates, the fifth gear 723 reversely rotates to drive the rack 725 to move rightwards, the first spring 727 compresses, the rack 725 moves rightwards, the pull rope 728 drives the rotating rod 715 to swing rightwards, the torsion spring 716 compresses, the rotating rod 715 swings rightwards to drive the bearing 713 to move rightwards, the bearing 713 moves rightwards to drive the inner hexagonal sleeve 711 to move rightwards, the inner hexagonal sleeve 711 moves rightwards to drive the cleaning brush 712 to move rightwards, the cleaning brush 712 moves rightwards to insert into the glass bottle 6 at the middle of the leftmost side to clean the glass bottle, and when the driving teeth 506 are forwardly rotated and separated from the fourth gear 720, the fourth gear 720 stops reversely rotating, the rack 725 moves leftwards to reset due to, the rotating rod 715 swings leftwards to drive the bearing 713 to move leftwards for resetting, the bearing 713 resets and drives the cleaning brush 712 to move leftwards for resetting through the inner hexagonal sleeve 711, the cleaning brush 712 resets and is separated from the inside of the glass bottle 6, the inside of the glass bottle 6 is cleaned, and the process is repeated, wherein each time the glass bottle 6 rotates forwards to correspond to the cleaning brush 712, the cleaning brush 712 moves rightwards to the inside of the glass bottle 6 to clean the glass bottle. When all the insides of the glass bottles 6 are cleaned, the servo motor 4 is turned off, and the washing brush 712 stops moving and rotating.

Example 2

Referring to fig. 3, 7 and 8, the present embodiment is different from embodiment 1 mainly in that the present embodiment further includes a tilting assembly 8, the tilting assembly 8 includes a cam 801, a slider 802, a second spring 803, a connecting rod 804 and a first contact rod 805, the cam 801 is fixedly connected to the front side of the top of the supporting plate 3, the cam 801 is sleeved on the first rotating shaft 2, the slider 802 is slidably disposed outside the supporting rod 501, the second spring 803 is connected between the outer side of the slider 802 and the inside of the supporting rod 501, the first contact rod 805 is fixedly connected to the bottom of the slider 802, the inner end of the first contact rod 805 is in contact with the cam 801, the top of the slider 802 is hinged to the connecting rod 804, and the top end of the connecting rod 804 is hinged to the outer side of the.

When the servo motor 4 is started, the support rod 501 rotates forwards and drives the first contact rod 805 to rotate forwards through the sliding block 802, and further the support rod 501 drives the cleaned glass bottle 6 to rotate forwards through the placing frame 511, the corresponding first contact rod 805 rotates forwards to be in contact with the convex end of the cam 801, the cam 801 enables the first contact rod 805 to move outwards, the first contact rod 805 moves outwards to drive the sliding block 802 to move outwards, the second spring 803 compresses, the sliding block 802 moves outwards and drives the placing frame 511 to swing upwards through the connecting rod 804, at this time, an operator holds the glass bottle 6 with hands, the placing frame 511 swings upwards to drive the glass bottle 6 to swing upwards in an inclined state, the glass bottle 6 is inclined to pour out water, after all the water is poured out, the operator can take down the glass bottle 6, and further when the first contact rod 805 rotates forwards, the first contact rod 805 is separated from the convex end of the cam 801, due to the action of the second spring 803, the slide block 802 moves inwards to drive the first contact rod 805 to move inwards for resetting, the slide block 802 further drives the placing frame 511 to swing downwards for resetting through the connecting rod 804, and water can be poured out after the interior of the glass bottle 6 is cleaned. So, need not the manual water with in the glass bottle 6 of operating personnel and pour out convenient and fast.

Example 3

Referring to fig. 7, the present embodiment is different from embodiments 1 and 2 mainly in that in the present embodiment, the present embodiment further includes a clamping assembly 9, the clamping assembly 9 includes a wedge 901, a limiting rod 902, second contact rods 903, a clamping block 904 and a third spring 905, the wedge 901 is fixedly connected to the right side of the top of the support plate 3, the limiting rod 902 is fixedly connected to the upper portion of the inner side of the wedge 901, the limiting rod 902 is engaged with the first contact rod 805, the second contact rods 903 are slidably arranged on the lower portions of the outer two side surfaces of the placement frame 511, the second contact rods 903 are engaged with the wedge 901, the clamping block 904 is fixedly connected between the top ends of the two second contact rods 903 of each placement frame 511, the third spring 905 is connected between the bottom of the clamping block 904 and the outer portion of the placement frame 511, and the third spring is sleeved on the second contact rods 903.

When the support rod 501 drives the placing frame 511 to rotate forwardly, the placing frame 511 also drives the second contact rod 903 to rotate forwardly, the second contact rod 903 rotates forwardly to drive the clamping block 904 to rotate forwardly, and further when the second contact rod 903 rotates forwardly to contact with the wedge block 901, the first contact rod 805 also contacts with the limiting rod 902, the first contact rod 805 is matched with the limiting rod 902 to limit the placing frame 511, the wedge block 901 enables the second contact rod 903 to rotate forwardly and move upwardly, the second contact rod 903 moves upwardly to drive the clamping block 904 to move upwardly, the third spring 905 stretches, at the moment, a cleaned glass bottle 6 can be taken out from the placing frame 511, an unwashed glass bottle 6 is placed into the placing frame 511, when the placing frame 511 continues to rotate forwardly to drive the second contact rod 903 to rotate forwardly, the second contact rod 903 is separated from the wedge block 901, and due to the action of the third spring 905, the clamping block 904 moves downwardly to contact with the glass bottle 6 to be pressed and fixed, meanwhile, the first contact rod 805 is separated from the limiting rod 902, so that after the inside of the glass bottle 6 is cleaned, and the first contact rod 805 is contacted with the convex end of the cam 801, the placing frame 511 drives the glass bottle 6 to swing upwards to pour out water, and the clamping block 904 fixes the glass bottle 6 to avoid dropping. Therefore, the glass bottle 6 does not need to be held by an operator to be fixed, and time and labor are saved.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims

1. The utility model provides an inside self-cleaning device of glass bottle which characterized in that, including:

the device comprises a bottom plate (1), wherein a first rotating shaft (2) is rotatably connected to one side of the bottom plate (1);

the supporting disc (3) is rotatably sleeved on one part of the circumference of the first rotating shaft (2) far away from the bottom plate (1);

the servo motor (4), the said servo motor (4) is mounted to the edge position of one side of the said bottom plate (1);

the rotating assembly (5) is arranged between one side of the bottom plate (1) and the first rotating shaft (2) and the supporting plate (3), is connected with the end part of an output shaft of the servo motor (4) and is used for enabling the glass bottle (6) to rotate positively;

and the cleaning component (7) is arranged on one side of the bottom plate (1), is in contact fit with the rotating component (5) and is used for cleaning the interior of the glass bottle (6).

2. An automatic inside glass bottle cleaning device according to claim 1, wherein the rotating unit (5) comprises:

the special-shaped rotating block (502) is fixedly sleeved on one part of the first rotating shaft (2) close to the bottom plate (1) in the circumferential direction;

the second rotating shaft (507) is rotatably connected to one side of the supporting disc (3) which faces the bottom plate (1) and is close to the supporting frame (701);

the limiting disc (509), the limiting disc (509) is fixedly sleeved on the end part of the second rotating shaft (507) far away from the supporting frame (701), and the limiting disc is in contact fit with the special-shaped rotating block (502);

the driving rod (510), the driving rod (510) is fixedly connected to one side of the limit disc (509) far away from the bottom plate (1), and the driving rod (510) is matched with the special-shaped rotating block (502);

the first gear (508), the said first gear (508) is fixed to fit to close to said second spindle (507) of the said spacing disc (509) in a circumferential direction;

the supporting rod (503) is fixedly connected to one side of the bottom plate (1) far away from the servo motor (4) and the supporting frame (701);

the number of the first driving wheels (504) is two, one of the first driving wheels is rotatably connected to one part of the support rod (503) far away from the bottom plate (1), and the other one of the first driving wheels is fixedly connected with the end part of an output shaft of the servo motor (4) through a coupler;

the first belt (505) is wound between the two first driving wheels (504), one side of the first belt (505), which is far away from the bottom plate (1) and close to the servo motor (4), is fixedly connected with driving teeth (506) at intervals, the driving teeth (506) are matched with the first gear (508) and are also matched with the cleaning component (7), and the first belt (505) is in contact fit with the cleaning component (7);

the supporting rods (501), the supporting rods (501) are fixedly connected to the end part, far away from the bottom plate (1), of the first rotating shaft (2) at intervals;

place frame (511), place connecting in keeping away from of frame (511) rotary type bottom plate (1) bracing piece (501) tip, it with bracing piece (501) cooperation.

3. An automatic inside glass bottle cleaning device according to claim 2, characterized in that the cleaning assembly (7) comprises:

the supporting frame (701), the supporting frame (701) is fixedly connected to one side of the bottom plate (1) far away from the first rotating shaft (2);

the hexagonal rod (708) is rotatably connected to one side, far away from the bottom plate (1), of the inner side of the support frame (701) and facing the first rotating shaft (2);

the inner hexagonal sleeve (711) is sleeved on the hexagonal rod (708) in a sliding mode, and a cleaning brush (712) is fixedly connected to one part of the outer periphery of the inner hexagonal sleeve (711) far away from the supporting frame (701) in the circumferential direction;

a bearing (713), wherein the bearing (713) is arranged at one part of the outer circumference of the inner hexagonal sleeve (711) close to the support frame (701);

the fourth rotating shaft (706) is rotatably connected to one side of the inner side of the supporting frame (701) close to the bottom plate (1);

the number of the third transmission wheels (709) is two, one of the third transmission wheels (709) is fixedly sleeved on one circumferential part of the fourth rotating shaft (706) close to the support frame (701), and the other one of the third transmission wheels is fixedly sleeved on one circumferential part of the hexagonal rod (708) close to the support frame (701);

a second belt (710), said second belt (710) being wound between two of said third gearwheels (709);

the third gear (707) is fixedly sleeved on one part of the circumference of the fourth rotating shaft (706) far away from the supporting frame (701);

the mounting plate (702), the said mounting plate (702) is affixed to the side of said bottom plate (1) close to said first spindle (2);

a third rotating shaft (703), wherein the third rotating shaft (703) is rotatably connected between one side of the inner side of the supporting frame (701) which faces the first rotating shaft (2) and is close to the bottom plate (1) and one side of the mounting plate (702) which faces the third driving wheel (709) and is far away from the bottom plate (1);

the second gear (705), the said second gear (705) is fixed and fitted to a part of circumference of the said third spindle (703) close to the said supporting arm (701), it engages with said third gear (707);

the second transmission wheel (704) is fixedly sleeved on one part of the circumference of the third rotating shaft (703) close to the first belt (505) and is in contact fit with the first belt (505);

a fifth rotating shaft (718), wherein the fifth rotating shaft (718) is rotatably connected to one side of the mounting plate (702) facing the supporting frame (701);

the fourth gear (720), the said fourth gear (720) is fixed and fitted to a part of circumference of the said fifth spindle (718) close to the said mounting plate (702), it cooperates with said driving tooth (506);

the first bevel gear (719) is fixedly sleeved at the end part of the fifth rotating shaft (718) far away from the mounting plate (702);

the sixth rotating shaft (721) is rotatably connected to one side of the bottom plate (1) far away from the supporting frame (701), a second bevel gear (722) is installed at the end part, facing the fifth rotating shaft (718), of the sixth rotating shaft (721), and the second bevel gear (722) is meshed with the first bevel gear (719);

the fifth gear (723), the said fifth gear (723) is fixed and installed in a part of circumference of the said sixth spindle (721) close to the said second bevel gear (722);

the guide block (724) is fixedly connected to one side of the bottom plate (1) close to the fifth gear (723), a rack (725) is placed in the guide block in a sliding mode, and the rack (725) is meshed with the fifth gear (723);

the guide sleeve (726) is fixedly connected to the edge of one side of the bottom plate (1) close to the servo motor (4), and the end part, far away from the support frame (701), of the rack (725) is located in the guide sleeve (726) to be matched with the guide sleeve (726);

the first spring (727) is sleeved on the rack (725), one end of the first spring (727) is fixedly connected with one side of the guide sleeve (726) facing the support frame (701), and the other end of the first spring is fixedly connected with one part of the rack (725) close to the fifth gear (723);

the supporting blocks (714) are symmetrically and fixedly connected to one side of the bottom plate (1) between the rack (725) and the supporting frame (701);

a guide wheel (717), the guide wheel (717) being mounted on one of the support blocks (714) remote from the base plate (1);

the rotating rod (715), the rotating rod (715) is rotatably connected between one part of the two supporting blocks (714) close to the bottom plate (1), and one part of the rotating rod (715) far away from the bottom plate (1) is provided with a hole which is matched with the bearing (713) in a sliding way;

a torsion spring (716), wherein the torsion spring (716) is connected to the hinge joint of the rotating rod (715) and the supporting block (714);

and the pulling rope (728) is connected to the end part of the rack (725) far away from the guide sleeve (726), and the tail end of the pulling rope (728) bypasses the guide wheel (717) and is hinged and connected with one side of the rotating rod (715) close to the bottom plate (1).

4. A device for automatically cleaning the inside of a glass bottle as claimed in claim 3, further comprising a tilting unit (8), wherein the tilting unit (8) comprises:

the sliding block (802), the sliding block (802) is slidably connected to one part of the supporting rod (501) close to the placing frame (511) in a penetrating manner;

the second spring (803) is connected between one side of the sliding block (802) far away from the first rotating shaft (2) and the inside of the supporting rod (501);

the connecting rod (804) is hinged to one side of the sliding block (802) far away from the bottom plate (1), and the tail end of the connecting rod (804) is fixedly connected with one side, facing the supporting rod (501), of the outer side of the placing frame (511) far away from the first rotating shaft (2);

a first contact bar (805), the first contact bar (805) being fixed to a side of the slider (802) facing the base plate (1);

the cam (801) is fixedly connected to one side, far away from the bottom plate (1), of the supporting plate (3) and sleeved on the first rotating shaft (2), the cam (801) is in rotating fit with the first rotating shaft (2), and the cam (801) is in contact fit with the first contact rod (805).

5. The automatic cleaning device for the interior of the glass bottle as claimed in claim 4, further comprising a clamping assembly (9), wherein the clamping assembly (9) comprises:

the wedge block (901), the wedge block (901) is fixedly connected to the edge position of one side of the supporting disk (3) far away from the bottom plate (1) and the supporting rack (701), a limiting rod (902) is fixedly connected to the inner side of the wedge block facing the cam (801) and far away from the supporting disk (3), and the limiting rod (902) is in contact fit with the first contact rod (805);

the second contact rod (903), the second contact rod (903) is slidably placed on two outer sides of the placing frame (511) and is matched with the wedge block (901);

the clamping block (904), the clamping block (904) is fixedly connected between the two ends of the second contact rod (903) on each side far away from the bottom plate (1);

and the third spring (905) is sleeved on the second contact rod (903), one end of the third spring (905) is fixedly connected with one side of the clamping block (904) facing the bottom plate (1), and the other end of the third spring is fixedly connected with the outer side of the placing frame (511).