CN113513881A

CN113513881A - Efficient drying equipment for glass product production and drying method thereof

Info

Publication number: CN113513881A
Application number: CN202111071737.9A
Authority: CN
Inventors: 马素珍; 仇勇
Original assignee: Haimen Xinglong Glass Products Co ltd
Current assignee: Haimen Xinglong Glass Products Co ltd
Priority date: 2021-09-14
Filing date: 2021-09-14
Publication date: 2021-10-19
Anticipated expiration: 2041-09-14
Also published as: CN113513881B

Abstract

The invention discloses efficient drying equipment for producing glass products, which comprises a bottom plate and a conveying assembly capable of intermittently conveying glass cups, wherein the glass cups are downward opened, a top plate is fixed at the top of the bottom plate through a supporting rod, a containing pipe is fixed at the top of the top plate, a containing pipe is fixed at the inner bottom of the containing pipe, a hole penetrating through the top plate is formed in the inner bottom of the containing pipe, a hollow pipe capable of rotating and lifting is installed in the hole, cleaning cotton is fixed at the top end of the hollow pipe, the diameter of the containing pipe is smaller than that of the cleaning cotton, and a gas pipe capable of alternately lifting with the hollow pipe is installed on the inner wall of the hollow pipe in a sliding mode. According to the invention, through the matching of the structures, the effects of wiping and adsorbing water drops on the wall of the glass cup firstly and then drying the glass cup are achieved, so that water stains on the wall of the glass cup caused by direct drying can be prevented, and the cleanliness of the glass cup is improved.

Description

Efficient drying equipment for glass product production and drying method thereof

Technical Field

The invention relates to the technical field of glass product drying, in particular to high-efficiency drying equipment for glass product production and a drying method thereof.

Background

Drying equipment, also known as dryers and dryers, is a device used for drying operations, and after the glass products are produced, the glass products need to be cleaned and dried.

And traditional drying equipment that carries out drying to glass all is the gas that directly lets in the high fever usually and dries, though can play dry effect, but glass washs the back, and the inner wall can remain the drop of water, and after the high fever gas with the water evaporation in the glass, the drop of water adhesion department can leave the water stain to influence glass's cleanliness factor.

In view of this, the invention provides a high-efficiency drying device for glass product production and a drying method thereof.

Disclosure of Invention

The invention aims to provide efficient drying equipment for glass product production, which achieves the effects of wiping and adsorbing water drops on the wall of a glass cup firstly and then drying the glass cup, can prevent water stains on the wall of the glass cup caused by direct drying, improves the cleanliness of the glass cup and solves the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a high-efficient drying equipment of glassware production usefulness, includes bottom plate and the conveying assembly of intermittent type formula transport glass cup, and glass cup's opening down, the top of bottom plate is fixed with the roof through the bracing piece, the top of roof is fixed with holds the pipe, the interior bottom of holding the pipe is fixed with and accomodates the pipe, accomodate the interior bottom of pipe and set up the hole that runs through the roof, and the downthehole hollow tube that installs rotatable and lift, the top of hollow tube is fixed with clean cotton, it is little to accomodate the diameter ratio clean cotton of pipe, the inner wall slidable mounting of hollow tube has the gas-supply pipe that can go up and down with the hollow tube in turn, the hole that can supply the gas-supply pipe to wear out is seted up at clean cotton center, the gas-supply pipe is close to the outer wall on top and has seted up the venthole.

The top of the bottom plate is provided with a heater, and an air outlet pipe of the heater is communicated with the bottom end of the gas pipe.

Preferably, the bracing piece outer wall of roof below is fixed with the second backup pad, the second backup pad is run through to the bottom of hollow tube, and with the sliding connection of the department of running through of second backup pad, be located the roof with hollow tube outer wall between the second backup pad is fixed with the cylinder, the ascending rectangular groove of end to end and spiral has been seted up to the cylindrical outer wall, the cylinder outer wall in the middle of the rectangular groove is fixed with a plurality of shifting blocks, and is a plurality of the shifting block extends along the direction in rectangular groove, be fixed with the riser between roof and the second backup pad, the riser is close to the cylindrical outer wall and installs the motor, including the axis of rotation on the motor, the one end of axis of rotation penetrates in the rectangular groove, and with the inner wall sliding connection in rectangular groove, the outer wall of axis of rotation is fixed with the driver plate, works as the driver plate can be stirred when rotating and the driver plate rotates.

Preferably, be located the bracing piece outer wall of second backup pad below is fixed with first backup pad, the through-hole that can supply the hollow tube to pass is seted up at the top of first backup pad, the spout has been seted up at the top of first backup pad, the inner wall slidable mounting of spout has the slider, the slider can be in the spout be close to or keep away from the motion of hollow tube, the outer wall of both sides all articulates there is the connecting rod about the slider, is located the second backup pad with hollow tube outer wall between the first backup pad rotates installs the fixed block, is located the gas transmission pipe outer wall of first backup pad below is fixed with down fixed block, two the connecting rod is kept away from the one end of slider and is articulated respectively at the outer wall of last fixed block and gas transmission pipe.

Preferably, the sliding groove, the sliding block and the two connecting rods are arranged into a group of connecting assemblies, two groups of connecting assemblies are arranged at the top of the first supporting plate, and the two groups of connecting assemblies are symmetrically arranged relative to the axis of the hollow tube.

Preferably, the inner wall of the storage pipe is provided with a frosted surface, and the diameter of the storage pipe is smaller than that of the cleaning cotton.

Preferably, the top of roof is fixed with the mounting panel through the supporting leg, conveying component installs the bottom at the mounting panel, conveying component includes two sets of conveyer belts that can carry intermittently, and two sets of the fixture block of the cup wall looks adaptation with glass is all installed on the surface of conveyer belt, the glass centre gripping is two sets of between two fixture blocks between the conveyer belt.

Preferably, the outer wall of the hollow tube positioned in the containing tube is provided with a vent hole, the outer wall of the containing tube is provided with a through hole for water discharge, and the bottom of the containing tube is communicated with a water pipe for water discharge.

Preferably, the bottom end part of the gas transmission pipe is a flexible pipe.

A drying method of high-efficiency drying equipment for producing glass products comprises the following steps;

s1: the glass cups are conveyed intermittently by the conveying assembly and are stopped when being conveyed to the upper part of the containing pipe;

s2: then starting a motor, then driving a drive plate to rotate by rotating a rotating shaft, so that the drive plate is driven to rotate, the cylinder is driven to rotate, the rotating shaft can slide along the inner wall of the long groove and move upwards while rotating, so that the hollow pipe is driven to rotate and move upwards, the cleaning cotton can be inserted into the glass cup, the inner wall of the glass cup is rotationally wiped, and water drops remained on the inner wall of the glass cup are absorbed and wiped completely;

s3: then when the drive plate is contacted with the drive block at the tail end, the drive plate and the drive block are always kept in contact due to the sliding limiting effect of the rotating shaft and the long groove, so that the cylinder is driven to rotate reversely along with the rotation of the drive plate and moves downwards at the same time, the hollow pipe is driven to move downwards to separate the cleaning cotton from the glass cup, meanwhile, the upper fixed block is driven to move downwards by the downward movement of the hollow pipe, the lower fixed block is driven to move upwards under the connecting action of the connecting rod and the sliding block, and the gas pipe is driven to move upwards, so that the top end of the gas pipe penetrates out of a hole formed in the cleaning cotton and extends into the glass cup;

s4: meanwhile, the heater is started, high-temperature gas is introduced into the gas transmission pipe by the heater, and then the high-temperature gas is sprayed into the glass through the gas outlet hole formed in the top of the gas transmission pipe to dry the inner wall of the glass;

s5: constantly carry the glass cup intermittent type formula through conveying assembly, then clean earlier through clean cotton and absorb water to the cup wall of glass cup, then blow through the gas-supply pipe and dry to the cup wall of glass cup, reached the effect to the high-efficient dry of glass cup, water stain can also be avoided appearing in the cup wall of glass cup simultaneously.

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

firstly, the cleaning cotton is driven to rotate and move upwards together by the rotation and the upward movement of the hollow pipe through the matching of the structures and extend into the glass, the inner wall of the glass cup is wiped, after the wiping, the hollow pipe drives the cleaning cotton to move downwards to be separated from the glass cup, and is rotated downwards to be screwed into the containing pipe, because the diameter of the containing pipe is smaller than that of the cleaning cotton, therefore, the cleaning cotton can extrude the water absorbed in the cleaning cotton while being extruded into the containing pipe in a rotating way, the cleaning cotton is convenient to wipe next time, meanwhile, the gas pipe moves upwards and extends into the glass cup, high-temperature gas is sprayed to the wall of the glass cup through the gas outlet hole, the glass can be dried, so that the wall of the glass is firstly wiped to absorb water drops, then the glass is dried, so that water stains on the wall of the glass caused by direct drying can be prevented, and the cleanliness of the glass is improved.

The glass cup cleaning device has the advantages that through the matching of the structures, the air pipe is used for filling hot air into the containing pipe and the cleaning cotton is filled with hot air, so that the effect of drying the containing pipe and the cleaning cotton is achieved, the cleaning cotton can absorb more water when the glass cup is cleaned, and the cleaning effect is better.

Drawings

FIG. 1 is a front isometric view of the present invention;

FIG. 2 is a schematic view of an enlarged perspective view of a cylinder according to the present invention;

FIG. 3 is a schematic structural view of a rear isometric view of the present invention;

FIG. 4 is a schematic front sectional perspective view of the present invention;

FIG. 5 is an enlarged view of the structure of FIG. 4A according to the present invention.

In the figure: 1. a base plate; 2. a first support plate; 3. a second support plate; 4. a cylinder; 5. a support bar; 6. a vertical plate; 7. a top plate; 8. mounting a plate; 9. a delivery assembly; 10. a long groove; 11. shifting blocks; 12. a rotating shaft; 13. a dial; 14. a motor; 15. a hollow tube; 16. an upper fixed block; 17. a connecting rod; 18. a slider; 19. a chute; 20. a lower fixed block; 21. a gas delivery pipe; 22. a holding tube; 23. receiving a tube; 24. a heater; 25. an air outlet; 26. a vent hole; 27. a glass cup; 28. and cleaning the cotton.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 5, the present invention provides a technical solution: the utility model provides a high-efficient drying equipment of glassware production usefulness, but including bottom plate 1 and the delivery module 9 of intermittent type formula transport glass 27, and glass 27's opening down, the top of bottom plate 1 is fixed with roof 7 through bracing piece 5, the top of roof 7 is fixed with holds pipe 22, the interior bottom that holds pipe 22 is fixed with accomodates pipe 23, accomodate the interior bottom of pipe 23 and seted up the hole that runs through roof 7, and downthehole hollow tube 15 of installing rotatable and lift, the top of hollow tube 15 is fixed with clean cotton 28, it is little to accomodate the diameter ratio clean cotton 28's of pipe 23 diameter ratio, the inner wall slidable mounting of hollow tube 15 has the gas-supply pipe 21 that can go up and down with hollow tube 15 in turn, the hole that can supply gas-supply pipe 21 to wear out is seted up at the center of clean cotton 28, gas-supply pipe 21 is close to the outer wall on top and has seted up venthole 25.

The top of the bottom plate 1 is provided with a heater 24, and an air outlet pipe of the heater 24 is communicated with the bottom end of the air delivery pipe 21.

The glass 27 is intermittently conveyed by the conveying assembly 9, when the glass is conveyed to the position above the containing pipe 22, the glass is stopped, then the hollow pipe 15 rotates and moves upwards to drive the cleaning cotton 28 to rotate and move upwards and extend into the glass 27 to wipe the inner wall of the glass 27, water drops attached to the inner wall are adsorbed, meanwhile, the air conveying pipe 21 on the inner wall of the hollow pipe 15 moves downwards, then the heater 24 is started, the heater 24 can convey high-heat gas into the air conveying pipe 21, after wiping is finished, the hollow pipe 15 drives the cleaning cotton 28 to move downwards to be separated from the glass 27 and rotate downwards to be screwed into the containing pipe 23, and as the diameter of the containing pipe 23 is smaller than that of the cleaning cotton 28, the cleaning cotton 28 can rotate to extrude water adsorbed in the cleaning cotton 28 into the containing pipe 23, meanwhile, the air conveying pipe 21 moves upwards and extends into the glass 27, the glass 27 can be dried by spraying high-heat gas to the cup wall through the air outlet 25, and the air delivery pipe 21 can pass through the holes in the cleaning cotton 28 when moving up and down, so that when the air delivery pipe 21 moves down, the high-heat gas can be filled into the cleaning cotton 28 to dry the cleaning cotton 28, so that the cleaning cotton 28 keeps dry when wiping the cup wall of the glass 27, and the water absorption effect of the glass is better.

Furthermore, a second supporting plate 3 is fixed on the outer wall of the supporting rod 5 below the top plate 7, the bottom end of the hollow tube 15 penetrates through the second supporting plate 3, and is connected with the penetrating part of the second supporting plate 3 in a sliding way, a column 4 is fixed on the outer wall of a hollow tube 15 positioned between the top plate 7 and the second supporting plate 3, a long strip groove 10 which is connected end to end and is upwards screwed is arranged on the outer wall of the column 4, a plurality of shifting blocks 11 are fixed on the outer wall of the column 4 in the middle of the long strip groove 10, a plurality of shifting blocks 11 extend along the direction of the long-strip groove 10, a vertical plate 6 is fixed between the top plate 7 and the second supporting plate 3, a motor 14 is arranged on the outer wall of the vertical plate 6 close to the column 4, the motor 14 comprises a rotating shaft 12, one end of the rotating shaft 12 penetrates into the long-strip groove 10, and is connected with the inner wall of the long groove 10 in a sliding way, the outer wall of the rotating shaft 12 is fixed with a driving plate 13, and when the driving plate 13 rotates, the driving plate 11 can be driven to rotate.

Starting the motor 14, then the rotation shaft 12 rotates to drive the dial 13 to rotate, thereby stirring the dial 11 to rotate, driving the cylinder 4 to rotate, and the rotation shaft 12 slides along the inner wall of the long groove 10, and the cylinder 4 moves upwards while rotating, thereby driving the hollow tube 15 to rotate and move upwards, so that the cleaning cotton 28 can be inserted into the glass 27, rotating and wiping the inner wall of the glass 27, absorbing and wiping the residual water drops on the inner wall, then when the dial 13 contacts with the dial 11 at the tail end, at this time, the dial 13 and the dial 11 can always keep contact due to the sliding limit function of the rotation shaft 12 and the long groove 10, so as to drive the cylinder 4 to reversely rotate along with the rotation of the dial 13, and move downwards, thereby driving the hollow tube 15 to move downwards, separating the cleaning cotton 28 from the glass 27, thereby wiping the inner wall of the glass 27 when the hollow tube 15 drives the cleaning cotton 28 to rotate upwards, when the glass cup rotates downwards, water in the cleaning cotton 28 is squeezed out through the containing pipe 23, so that the cleaning cotton 28 can always keep a water absorption state, and the wiping efficiency of water drops on the wall of the glass cup 27 is improved.

Further, the 5 outer walls of bracing piece that are located 3 below of second backup pad are fixed with first backup pad 2, the through-hole that can supply hollow tube 15 to pass is seted up at the top of first backup pad 2, spout 19 has been seted up at the top of first backup pad 2, spout 19's inner wall slidable mounting has slider 18, slider 18 can be in spout 19 do the motion of being close to or keeping away from hollow tube 15, the outer wall of both sides all articulates there is connecting rod 17 about slider 18, the 15 outer walls of hollow tube that are located between second backup pad 3 and the first backup pad 2 rotate and install last fixed block 16, the gas-supply pipe 21 outer wall that is located 2 below of first backup pad is fixed with lower fixed block 20, the one end that slider 18 was kept away from to two connecting rods 17 articulates the outer wall at last fixed block 16 and gas-supply pipe 21 respectively.

When the hollow pipe 15 moves upwards, because the connecting rod 17 has a limiting effect on the upper fixing block 16, the hollow pipe 15 can drive the upper fixing block 16 to move upwards when moving upwards, meanwhile, the connecting rod 17 drives the sliding block 18 to move towards the direction close to the hollow pipe 15, and simultaneously drives the lower fixing block 20 to move downwards, so as to drive the air delivery pipe 21 to move downwards, and when the hollow pipe 15 moves downwards, the upper fixing block 16 can be driven to move downwards, under the connecting effect of the connecting rod 17 and the sliding block 18, the lower fixing block 20 is driven to move upwards, and the air delivery pipe 21 is driven to move upwards, so that the top end of the air delivery pipe 21 penetrates out of a hole formed in the cleaning cotton 28 and extends into the glass cup 27, and the hollow pipe 15 and the air delivery pipe 21 are lifted alternately.

Further, the sliding groove 19, the sliding block 18 and the two connecting rods 17 are arranged as a set of connecting components, two sets of connecting components are arranged on the top of the first supporting plate 2, and the two sets of connecting components are arranged symmetrically with each other about the axis of the hollow tube 15.

The two groups of connecting assemblies are arranged, so that the stability of the upper fixing block 16 and the lower fixing block 20 can be improved, the stress of the upper fixing block and the lower fixing block is more uniform, and the stability in linkage is improved.

Further, the inner wall of the storage pipe 23 is provided with a frosted surface.

The inner wall of the storage pipe 23 is set to be a frosted surface, so that the cleaning cotton 28 can be scraped, and the cleaning cotton 28 can be scraped by rotating to remove impurities attached to the surface, so that the cleaning cotton 28 can be cleaned to a certain extent.

Further, the top of roof 7 is fixed with mounting panel 8 through the supporting leg, and conveying assembly 9 installs in the bottom of mounting panel 8, and conveying assembly 9 includes two sets of conveyer belts that can carry intermittently, and the fixture block of the cup wall looks adaptation with glass 27 is all installed on the surface of two sets of conveyer belts, and glass 27 centre gripping is between two fixture blocks between two sets of conveyer belts.

Through pressing from both sides glass 27 between two fixture blocks between two sets of conveyer belts, then can drive glass 27 intermittent type formula through the intermittent type formula transport of conveyer belt and feed, then stop when glass 27 carries and hold the pipe 22 top, then carry forward continuously through the drying back to reach the effect that can carry out the drying to glass 27 fully-automatically, improved dry efficiency, then the end of carrying subassembly 9 takes off glass 27 after the drying can.

Further, the outer wall of the hollow tube 15 inside the storage tube 23 is provided with a vent hole 26, the outer wall of the storage tube 23 is provided with a through hole for water discharge, and the bottom of the holding tube 22 is communicated with a water pipe for water discharge.

After the cleaning cotton 28 extrudes water through the extrusion of the containing pipe 23, the water can be extruded into the containing pipe 22 through the through hole and then discharged from the water pipe, the tail end of the water pipe can be connected with a bucket for collection, and when the vent hole 26 enables the air outlet 25 formed in the air conveying pipe 21 to be communicated with the air outlet, hot air can be filled into the containing pipe 23, so that the temperature in the containing pipe 23 can be increased, the inner wall of the containing pipe 23 can be dried, and the cleaning cotton 28 can be further kept dry.

Further, the bottom end portion of the air pipe 21 is provided as a flexible pipe.

The bottom end part of the air delivery pipe 21 is set to be a soft pipe, so that the air delivery pipe 21 can move up and down conveniently, and the hard connection is prevented from being disconnected with the heater 24.

s1: the intermittent delivery of the glass 27 by the delivery assembly 9 is stopped when delivered above the containment tube 22.

S2: then the motor 14 is started, then the rotation shaft 12 rotates to drive the driving plate 13 to rotate, thereby the driving plate 11 is stirred to rotate, the driving cylinder 4 is driven to rotate, and the rotation shaft 12 can slide along the inner wall of the long groove 10, and the cylinder 4 moves upwards while rotating, thereby the hollow pipe 15 is driven to rotate and move upwards, so that the cleaning cotton 28 can be inserted into the glass cup 27, the inner wall of the glass cup 27 is cleaned by rotating, the residual water drops on the inner wall can be absorbed and cleaned, meanwhile, when the hollow pipe 15 moves upwards, due to the limiting effect of the connecting rod 17 on the upper fixed block 16, the upper fixed block 16 can be driven to move upwards when the hollow pipe 15 moves upwards, meanwhile, the sliding block 18 is driven by the connecting rod 17 to move towards the direction close to the hollow pipe 15, meanwhile, the lower fixed block 20 is driven to move downwards, thereby the air pipe 21 is driven to move downwards.

S3: then when the dial 13 contacts with the terminal dial block 11, at this time, due to the sliding limiting effect of the rotating shaft 12 and the long groove 10, the dial 13 and the dial block 11 can be always kept in contact, so as to drive the cylinder 4 to rotate reversely along with the rotation of the dial 13, and move downwards at the same time, thereby driving the hollow pipe 15 to move downwards, and separating the cleaning cotton 28 from the glass cup 27, meanwhile, the hollow pipe 15 moves downwards to drive the upper fixed block 16 to move downwards, under the connecting action of the connecting rod 17 and the sliding block 18, the lower fixed block 20 is driven to move upwards, and the air pipe 21 is driven to move upwards, so that the top end of the air pipe 21 penetrates out of the hole formed in the cleaning cotton 28, and extends into the glass cup 27.

S4: meanwhile, when the heater 24 is started, the heater 24 can introduce high-temperature gas into the gas pipe 21, and then the high-temperature gas is sprayed into the glass 27 through the gas outlet 25 formed in the top of the gas pipe 21 to dry the inner wall of the glass 27.

S5: the glass 27 is conveyed intermittently through the conveying component 9, then the wall of the glass 27 is wiped and absorbed by the cleaning cotton 28, and then the wall of the glass 27 is blown and dried through the air conveying pipe 21, so that the effect of efficiently drying the glass 27 is achieved, and meanwhile, water stains on the wall of the glass 27 can be avoided.

The working principle is as follows: when the efficient drying equipment for producing the glass products is used, the glass cups 27 are conveyed intermittently by the two conveying belts included in the conveying assembly 9, and the conveying is stopped when the glass cups are conveyed to the position above the containing pipe 22.

Then the motor 14 is started, then the rotation shaft 12 rotates to drive the driving plate 13 to rotate, thereby the driving plate 11 is stirred to rotate, the driving cylinder 4 is driven to rotate, and the rotation shaft 12 can slide along the inner wall of the long groove 10, and the cylinder 4 moves upwards while rotating, thereby the hollow pipe 15 is driven to rotate and move upwards, so that the cleaning cotton 28 can be inserted into the glass cup 27, the inner wall of the glass cup 27 is cleaned by rotating, the residual water drops on the inner wall can be absorbed and cleaned, meanwhile, when the hollow pipe 15 moves upwards, due to the limiting effect of the connecting rod 17 on the upper fixed block 16, the upper fixed block 16 can be driven to move upwards when the hollow pipe 15 moves upwards, meanwhile, the sliding block 18 is driven by the connecting rod 17 to move towards the direction close to the hollow pipe 15, meanwhile, the lower fixed block 20 is driven to move downwards, thereby the air pipe 21 is driven to move downwards.

Then when the dial 13 contacts with the terminal dial block 11, at this time, due to the sliding limiting effect of the rotating shaft 12 and the long groove 10, the dial 13 and the dial block 11 can be always kept in contact, so as to drive the cylinder 4 to rotate reversely along with the rotation of the dial 13, and move downwards at the same time, thereby driving the hollow pipe 15 to move downwards, and separating the cleaning cotton 28 from the glass cup 27, meanwhile, the hollow pipe 15 moves downwards to drive the upper fixed block 16 to move downwards, under the connecting action of the connecting rod 17 and the sliding block 18, the lower fixed block 20 is driven to move upwards, and the air pipe 21 is driven to move upwards, so that the top end of the air pipe 21 penetrates out of the hole formed in the cleaning cotton 28, and extends into the glass cup 27.

Meanwhile, start the heating machine 24, the heating machine 24 can let in high hot gas to the air pipe 21 in, then spout into glass 27 through the venthole 25 that the air pipe 21 top was seted up, carry out the drying to the inner wall of glass 27, and because air pipe 21 can slowly rebound, so can make from the contact of 25 spun high hot gas of venthole and glass 27's cup wall more even, prevent that glass 27 local is heated and lead to the high temperature and influence its intensity when using.

Like this carry the glass 27 intermittent type formula through transport assembly 9 and carry, then clean cotton 28 earlier to wipe the cup wall of glass 27 and absorb water, then blow through air-supply pipe 21 and dry the cup wall of glass 27, reached the effect to glass 27 high-efficient drying, avoid the dry back of glass 27's cup wall to appear water stain, improve the cleanliness factor of glass 27 cup wall.

The standard parts used in the present embodiment may be purchased directly from the market, and the non-standard structural components described in the specification and drawings may be obtained by processing without any doubt according to the common general knowledge in the art, and the connection manner of the respective parts is by the conventional means developed in the art, and the machines, parts and equipment are of the conventional type in the art, so that the detailed description thereof is omitted.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. An efficient drying equipment for glass product production, which comprises a bottom plate (1) and a conveying assembly (9) capable of intermittently conveying glass cups (27), wherein the openings of the glass cups (27) face downwards, and is characterized in that: a top plate (7) is fixed to the top of the bottom plate (1) through a support rod (5), a containing pipe (22) is fixed to the top of the top plate (7), a containing pipe (23) is fixed to the inner bottom of the containing pipe (22), a hole penetrating through the top plate (7) is formed in the inner bottom of the containing pipe (23), a hollow pipe (15) which can rotate and lift is installed in the hole, cleaning cotton (28) is fixed to the top end of the hollow pipe (15), the diameter of the containing pipe (23) is smaller than that of the cleaning cotton (28), air conveying pipes (21) which can lift alternately with the hollow pipe (15) are installed on the inner wall of the hollow pipe (15) in a sliding mode, a hole through which the air conveying pipes (21) can penetrate is formed in the center of the cleaning cotton (28), and air outlet holes (25) are formed in the outer wall, close to the top end, of the air conveying pipes (21);

the heating device is characterized in that a heating device (24) is installed at the top of the bottom plate (1), and an air outlet pipe of the heating device (24) is communicated with the bottom end of the air conveying pipe (21).

2. The efficient drying apparatus for glass article production according to claim 1, characterized in that: the supporting rod (5) outer wall of roof (7) below is fixed with second backup pad (3), second backup pad (3) are run through to the bottom of hollow tube (15), and with the department sliding connection that runs through of second backup pad (3), be located roof (7) with hollow tube (15) outer wall between second backup pad (3) is fixed with cylinder (4).

3. The efficient drying apparatus for glass article production according to claim 2, characterized in that: the outer wall of the cylinder (4) is provided with a long groove (10) which is connected end to end and is in a spiral direction, the outer wall of the cylinder (4) in the middle of the long groove (10) is fixed with a plurality of shifting blocks (11), the shifting blocks (11) extend along the direction of the long groove (10), a vertical plate (6) is fixed between the top plate (7) and the second supporting plate (3), the vertical plate (6) is close to the outer wall of the cylinder (4) and is provided with a motor (14), the motor (14) comprises a rotating shaft (12), one end of the rotating shaft (12) penetrates into the long groove (10) and is in sliding connection with the inner wall of the long groove (10), the outer wall of the rotating shaft (12) is fixed with a shifting plate (13), and the shifting blocks (11) can be shifted to rotate when the shifting plate (13) rotates; a first supporting plate (2) is fixed on the outer wall of the supporting rod (5) positioned below the second supporting plate (3), the top of the first supporting plate (2) is provided with a through hole for a hollow pipe (15) to pass through, the top of the first supporting plate (2) is provided with a sliding groove (19), the inner wall of the sliding groove (19) is provided with a sliding block (18) in a sliding way, the slide block (18) can move close to or far away from the hollow pipe (15) in the slide groove (19), the outer wall of both sides all articulates there is connecting rod (17) about slider (18), is located second backup pad (3) with hollow tube (15) outer wall between first backup pad (2) rotates and installs fixed block (16), is located gas-supply pipe (21) outer wall below first backup pad (2) is fixed with down fixed block (20), two the one end that slider (18) were kept away from in connecting rod (17) articulates the outer wall at last fixed block (16) and gas-supply pipe (21) respectively.

4. The efficient drying apparatus for glass article production according to claim 3, characterized in that: spout (19), slider (18) and two connecting rods (17) set up to a set of coupling assembling, the top of first backup pad (2) is provided with two sets of coupling assembling, and two sets of coupling assembling sets up about the axial lead of hollow tube (15) symmetry each other.

5. The efficient drying apparatus for glass article production according to claim 1, characterized in that: the inner wall of the containing pipe (23) is provided with a frosting surface.

6. The efficient drying apparatus for glass article production according to claim 1, characterized in that: the top of roof (7) is fixed with mounting panel (8) through the supporting leg, the bottom at mounting panel (8) is installed in conveying subassembly (9), conveying subassembly (9) are including two sets of conveyer belts that can carry intermittently, and two sets of the fixture block of the cup wall looks adaptation with glass (27) is all installed on the surface of conveyer belt, glass (27) centre gripping is two sets of between two fixture blocks between the conveyer belt.

7. The efficient drying apparatus for glass article production according to claim 1, characterized in that: the outer wall of the hollow pipe (15) positioned inside the containing pipe (23) is provided with a vent hole (26), the outer wall of the containing pipe (23) is provided with a through hole capable of supplying water to be discharged, and the bottom of the containing pipe (22) is communicated with a water pipe capable of supplying water to be discharged.

8. The high-efficiency drying apparatus for glass article production according to claim 1 or 3, characterized in that: the bottom end part of the gas transmission pipe (21) is set to be a flexible pipe.

9. A method of drying the high-efficiency drying apparatus for producing glass articles according to claim 3, characterized in that: comprises the following steps;

s1: the glass cups (27) are conveyed intermittently by the conveying assembly (9) and are stopped when conveyed to the position above the containing pipe (22);

s2: then a motor (14) is started, then a rotating shaft (12) rotates to drive a drive plate (13) to rotate, so that a dial block (11) is stirred to rotate, a cylinder (4) is driven to rotate, the rotating shaft (12) slides along the inner wall of a long groove (10), the cylinder (4) moves upwards while rotating, so that a hollow pipe (15) is driven to move upwards while rotating, cleaning cotton (28) can be inserted into a glass cup (27), the inner wall of the glass cup (27) is rotationally wiped, residual water drops on the inner wall of the glass cup are absorbed and wiped completely, meanwhile, when the hollow pipe (15) moves upwards, the hollow pipe (15) drives an upper fixed block (16) to move upwards due to the limiting effect of a connecting rod (17) on the upper fixed block (16), and meanwhile, a sliding block (18) is driven by the connecting rod (17) to move towards the direction close to the hollow pipe (15), simultaneously, the lower fixed block (20) is driven to move downwards, so that the gas pipe (21) is driven to move downwards;

s3: then when the drive plate (13) is contacted with the drive block (11) at the tail end, the drive plate (13) and the drive block (11) are always kept in contact due to the sliding limiting effect of the rotating shaft (12) and the strip groove (10), so that the cylinder (4) can be driven to reversely rotate and simultaneously move downwards along with the rotation of the drive plate (13), the hollow pipe (15) is driven to downwards move, the cleaning cotton (28) is separated from the glass cup (27), meanwhile, the hollow pipe (15) can drive the upper fixed block (16) to downwards move, the lower fixed block (20) is driven to upwards move under the connecting action of the connecting rod (17) and the sliding block (18), and the air pipe (21) is driven to upwards move, so that the top end of the air pipe (21) penetrates out of a hole formed in the cleaning cotton (28) and extends into the glass cup (27);

s4: meanwhile, the heater (24) is started, high-temperature gas is introduced into the air delivery pipe (21) by the heater (24), and then the high-temperature gas is sprayed into the glass (27) through the air outlet hole (25) formed in the top of the air delivery pipe (21) to dry the inner wall of the glass (27);

s5: the glass (27) is conveyed intermittently through the conveying component (9), then the wall of the glass (27) is wiped and absorbed water through the cleaning cotton (28), and then the wall of the glass (27) is blown and dried through the air conveying pipe (21), so that the effect of efficiently drying the glass (27) is achieved, and water stain on the wall of the glass (27) can be avoided.