CN217013933U - Glass cup drying structure - Google Patents

Abstract

The utility model relates to a glass cup drying structure, belonging to the technical field of glass cup processing, cleaning and drying; the hot air circulation drying device comprises an outer shell and an inner shell which are sleeved together, wherein a drying induced draft fan is arranged at the top of the outer shell and corresponds to the drying induced draft fan, an opening of the inner shell is formed, air holes are formed in the bottom of the inner shell, heating plates are arranged on two side walls of the outer shell, a conveying chain penetrates through the inner shell and bypasses the bottom of the outer shell, a baffle plate is arranged on the conveying chain, the drying induced draft fan guides air in an inner cavity of the inner shell to flow through the heating plates and then flows back into the inner cavity of the inner shell from the air holes, and hot air circulation is achieved; according to the glass cup drying device, the glass cup is dried through air circulation flow, the temperature is more uniform, and the drying effect is better through air circulation drying.

Description

Glass cup drying structure

Technical Field

The utility model relates to a glass cup drying structure, and belongs to the technical field of glass cup processing, cleaning and drying.

Background

At present, glass cleaning gradually transits from manual cleaning to mechanical cleaning. The existing glass cup cleaning equipment mainly adopts a cleaning barrel, a rotating shaft is arranged in the cleaning barrel, a cleaning frame is fixed on the rotating shaft, a glass cup is reversely buckled on a support in the cleaning frame, during cleaning, the rotating shaft rotates to drive the cleaning frame and the glass cup to rotate simultaneously, and the glass cup is cleaned through quick rotation.

The prior art has the following technical defects:

need the manual work to a spiral-lock glass cup in the washing frame, after wasing, another one takes off, complex operation consumes time for a long time, work efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model provides a glass cup drying structure, which realizes glass cup drying through air circulation flow, has more uniform temperature, and has better drying effect through air circulation drying.

The utility model provides a glass cup cleaning structure which can be used for quickly and accurately positioning and fixing a cleaning basket, automatically cleaning glass cups for multiple times, and has high cleaning efficiency and good cleaning effect.

The utility model also provides a glass cup cleaning device, which realizes automatic cleaning and drying of glass cups, and has the advantages of clean cleaning and high cleaning and drying efficiency.

The glass cup cleaning structure comprises at least two cleaning pools which are arranged side by side, a cleaning shaft is arranged through the tops of the cleaning pools, a group cleaning assembly is arranged on each cleaning pool and corresponds to the cleaning shaft, each group cleaning assembly comprises two cleaning limiting plates which are arranged correspondingly, T-shaped limiting grooves are formed in the tops and/or bottoms of the cleaning limiting plates from outside to inside, and the T-shaped limiting grooves are used for matching with limiting and fixing a cleaning basket; and a connecting piece is arranged between the two cleaning limit plates and is adaptive to the T-shaped limit groove.

Working process or working principle:

the glass cup to be cleaned is placed in the cleaning basket, the cleaning basket is clamped into the T-shaped limiting groove, the cleaning limiting plate is clamped with the cleaning basket in a matched mode, the cleaning shaft drives the cleaning basket to rotate, the cleaning basket is shifted into the cleaning pool, different cleaning liquids or clear water can be placed into the different cleaning pools according to needs, and the cleaning basket is cleaned by the cleaning liquids and washed by the clear water in sequence to complete the cleaning process.

A pulling cylinder is arranged above the cleaning assembly and horizontally arranged, a pulling cylinder fixing plate is arranged above the pulling cylinder, the top of the pulling cylinder fixing plate is connected with a cleaning lifting cylinder, and the top of the cleaning lifting cylinder is connected with a top support; the bottom of the pulling cylinder is connected with a cleaning connecting plate, pull plates are arranged at the bottom of the cleaning connecting plate side by side and are used for matching with a frame of the cleaning basket to pull the cleaning basket to move; after the washing is accomplished, wash the lift cylinder action, the pulling cylinder descends, the arm-tie stretches into the washing basket, the pulling cylinder action, the arm-tie pulling is washd the basket and is removed, the washing basket of material loading platform, wash the displacement in order in the pond, wash after basket and T type spacing groove block, wash the axle action, it rotates to drive the washing basket, wash the basket and rotate and wash in the washing pond, it is reciprocal to circulate like this, the washing basket is washed through a lot of washing from material loading platform to a plurality of washing ponds in order, every washing pond can add the different washing liquid of right amount as required, the washing basket is through wasing, wash, accomplish the washing.

The pulling plate and the cleaning pool are arranged in the following quantity relationship:

N＝M+X；

wherein: n represents the setting number of the pulling plates;

m represents the set number of the cleaning tanks;

x represents the number of charges per time.

The pulling plates pull the cleaning basket to feed from the feeding table, so that the number of the pulling plates is more than that of the cleaning tanks; the number of the multiple sets can be set according to the design of the feeding number at one time.

The connecting piece comprises a connecting rod arranged between the two cleaning limiting plates, an auxiliary roller is arranged on the connecting rod, the auxiliary roller can roll along the direction of the connecting line of the two cleaning limiting plates, and the height of the top surface of the auxiliary roller is matched with that of the bottom surface of the T-shaped limiting groove; connecting rod and supplementary gyro wheel, supplementary washing basket removes, alleviates washing basket and removes resistance.

The second end of the glass cup cleaning structure is provided with a feeding table, the feeding table is arranged corresponding to the T-shaped limiting groove of the cleaning limiting plate, and the feeding table is used for feeding; the workman will adorn and wait to wash the washing basket of glass cup and put the material loading bench, on the pulling cylinder will wash the basket and stimulate the washing limiting plate, begin to wash.

After the T-shaped limiting groove rotates to the lower part along with the cleaning shaft, the liquid level of the cleaning pool is arranged to cross the T-shaped limiting groove; wash the axle and rotate the back, wash the basket and get into and wash the pond in, wash the pond liquid level and cross T type spacing groove setting, whole washing basket just soaks completely in the liquid that washs the pond in, ensures the cleaning performance.

The bottom of the cleaning pool is connected with a precision filter to realize water recycling;

and/or an ultrasonic vibrator is arranged in the cleaning pool.

The glass cleaning device adopting the glass cleaning structure comprises the glass cleaning structure and a glass drying structure which are arranged side by side; a transfer structure is arranged at the first end of the glass cup cleaning structure and the first end of the glass cup drying structure, and a discharge table is arranged at the second end of the glass cup drying structure; the cleaning basket is cleaned by the glass cup cleaning structure, and then is sent into the glass cup drying structure through the transfer structure, and after the glass cup drying structure is dried, the glass cup drying structure is sent to the discharging table, so that the whole cleaning process is completed.

The glass cup drying structure comprises an outer shell and an inner shell which are sleeved together, wherein a drying draught fan is arranged at the top of the outer shell and corresponds to the drying draught fan, an opening of the inner shell is formed, air holes are formed in the bottom of the inner shell, heating plates are arranged on two side walls of the outer shell, a conveying chain penetrates through the inner shell and bypasses the bottom of the outer shell, a baffle plate is arranged on the conveying chain, and the drying draught fan guides air in an inner cavity of the inner shell to flow through the heating plates and then flows back into the inner cavity of the inner shell from the air holes, so that hot air circulation is realized.

The hot plate starts, start the stoving draught fan, the air of stoving draught fan in with the inner shell inner chamber upwards attracts, through inner shell and shell intermediate layer inner chamber, the hot plate is arranged in intermediate layer inner chamber, the hot-air in the intermediate layer inner chamber gets into the inner shell inner chamber through the bleeder vent of inner shell bottom, realize the hot-blast circulation in the inner shell inner chamber through the stoving draught fan, temperature is more even in the inner shell inner chamber, moreover, air-dry mode, promote the temperature than direct adoption hot plate and dry, the stoving temperature of needs is lower, more the energy can be saved.

The conveying chains are arranged on two sides of the transition assembly; the transition assembly falls down from the middle of the conveying chain, and the transition assembly rises or falls down according to conveying requirements, so that the conveying direction of the cleaning basket is changed.

The cross sections of the inner shell and the outer shell are square, and the heating plates are arranged on the inner walls of the two sides of the outer shell. Air flows to the inner shell and the inner cavity of the outer shell interlayer from the inner cavity of the inner shell, then flows back to the inner cavity of the inner shell, and is dried through hot air circulation, the air temperature in the inner cavity of the whole inner shell is uniform, the drying effect on the glass cup is better, and the drying speed is more uniform.

And the heat-insulating layer is arranged outside the shell, so that the heat energy loss is reduced.

The discharging table is provided with a limit switch, and the limit switch is used for detecting whether the cleaning basket is arranged on the discharging table or not; the limit switch detects that there is the washing basket on the ejection of compact platform, then stops to carry the chain action, prevents to have new washing basket to see off, washs the basket on the ejection of compact platform and pushes off the ejection of compact platform, leads to the glass cup to damage.

Drying draught fan middle part be equipped with sealed bulkhead, run through sealed bulkhead and be equipped with the pivot, the motor is connected at the pivot top, the pivot bottom is equipped with the blade.

The glass cup cleaning device comprises a glass cup cleaning structure, a glass cup drying structure, a transferring structure and a conveying device, wherein the transferring structure is vertically arranged with the glass cup cleaning structure and the glass cup drying structure, the transferring structure comprises roller conveying lines arranged side by side at two sides, transition assemblies are arranged at two ends of the roller conveying lines, and the transition assemblies are used for completing the transition of conveying a cleaning basket from the glass cup cleaning structure to the transferring structure and from the transferring structure to the glass cup drying structure; the washing basket is seted up the washing from glass cup washing structure material loading, after the washing, the washing basket sends into through transition subassembly and forwards the structure, forwards the structure and sends into glass cup stoving structure with the washing basket, and after glass cup stoving structure was dried and is accomplished, the washing basket sent out the material platform from glass cup stoving structure.

Pass on the structure still including passing on lift cylinder, pass on lift cylinder top and connect and pass on the fore-set, pass on lift cylinder bottom and connect and pass on pulling cylinder fixed plate, pass on pulling cylinder fixed plate bottom and be equipped with the level and set up and pass on pulling cylinder, pass on pulling cylinder piston rod bottom and be equipped with and pass on the connecting rod, pass on the connecting rod bottom and be equipped with and pass on the pull rod.

The transition assembly comprises a transition lifting cylinder, a transition frame is arranged on the transition lifting cylinder, a transition roller is arranged on the transition frame, and the conveying direction of the transition roller is consistent with that of the previous section of the transition roller; when the cleaning basket needs to be conveyed in a transition mode, the transition lifting cylinder jacks up the transition frame, the cleaning basket is conveyed to the transition frame from the front section of the structure, then the transition lifting cylinder resets, and the transition frame falls down.

The cleaning basket is transited from the glass cleaning structure to the transferring structure: transition lift cylinder jack-up transition frame, the washing basket is washd the structure from the glass and is carried and to be transfered the structure, can let the washing basket wash the structure from the glass and carry more smoothly from the glass and carry the structure and carry through the transition frame, ensure to carry to target in place, the lift cylinder falls down, the washing basket is carried through the gyro wheel transfer chain that transfers the structure, when the washing basket carries the gyro wheel transfer chain other end, the transition subassembly action of the other end, the periodic transition frame of transition lift cylinder, the washing basket removes on the transition frame, then the transition lift cylinder resets, the transition frame falls down, the washing basket is on the conveyor chain of glass drying structure, the washing basket is sent into glass drying structure internal drying along with conveyor chain. The glass cup cleaning device further comprises a cleaning basket matched with the cleaning limiting plate, the cleaning basket comprises a bottom net, a limiting clamping table is arranged on the outer edge of the bottom net in an outward protruding mode, the limiting clamping table is matched with a T-shaped limiting groove of the cleaning limiting plate, a plurality of supporting frames are arranged on the bottom net, a latticed frame is arranged on the periphery of the bottom net, the glass cup cleaning device further comprises a top cover net, handles are symmetrically arranged inwards on the top of the top cover net, springs penetrate through the two ends of each handle, the handles extend out of the springs, the middle of each handle is connected with a first end of each spring, the second ends of the springs are connected with the top cover net, and the free ends of the handles are used for being matched with the latticed frame to clamp the top cover net; holding the two handles by hands, retracting the handles inwards, putting the top cover net into the latticed frame, loosening the handles, clamping the free ends of the handles by matching with the latticed frame, fixing the top cover net and the latticed frame relatively, and forming the whole cleaning basket into a whole; the limiting clamping table on the outer edge of the bottom net is matched with the T-shaped limiting groove of the cleaning limiting plate to be clamped, and the cleaning basket and the cleaning limiting plate are fixed relatively.

A first lantern ring and a second lantern ring are respectively arranged at two ends of the spring, the handle penetrates through the second lantern ring and the first lantern ring, the first lantern ring is connected with the top cover net, and the second lantern ring is connected with the handle; the free end of the handle is provided with a limiting plug with a reduced diameter, and a plurality of limiting holes are formed in the latticed frame corresponding to the handle and corresponding to the limiting plug.

Compared with the prior art, the utility model has the beneficial effects that:

1. according to the glass cup drying structure, the inner cavity of the inner shell is completed through the drying induced draft fan by arranging the inner shell and the outer shell, and air flows in the interlayer cavity of the inner shell and the outer shell in a circulating manner, so that the glass cup is dried, the temperature is more uniform, and the drying effect is better through air circulation drying.

2. According to the glass cup cleaning structure, the cleaning limiting plate and the cleaning basket are in limiting matching and fixing, the cleaning basket can be quickly and accurately positioned and fixed, the structure is simple, the cleaning shaft rotates to drive the multiple groups of cleaning assemblies to synchronously move, the multiple groups of cleaning baskets are synchronously cleaned at one time, the cleaning baskets are sequentially cleaned through the multiple groups of cleaning pools, multiple times of cleaning of glass cups are automatically realized, the cleaning is clean and thorough, and the cleaning efficiency is high; the cleaning lifting cylinder and the pulling cylinder are matched to complete feeding of the cleaning basket, the structure is simple, the action is reliable, continuous cleaning is automatically realized, the cleaning efficiency is high, and the cleaning is thorough.

3. According to the glass cup cleaning device, the glass cup cleaning structure, the transfer structure and the glass cup drying structure are arranged, so that the glass cup is automatically cleaned and dried, manual intervention is not needed in cleaning and drying, cleaning is clean, the cleaning and drying efficiency is high, and the drying effect is good.

Drawings

FIG. 1: a schematic structural diagram of an embodiment of the present invention,

FIG. 2: the structure of the cleaning structure is shown schematically,

FIG. 3: a schematic diagram of a matched structure of the cleaning limit plate and the cleaning basket,

FIG. 4 is a schematic view of: the structural schematic diagram of another embodiment of the cleaning limit plate,

FIG. 5 is a schematic view of: a schematic diagram of a transfer structure is provided,

FIG. 6: a schematic diagram of a drying structure is shown,

FIG. 7: the sectional structure of A-A in figure 6 is schematic,

FIG. 8: a top view structure schematic diagram of the cleaning basket without a top cover net,

FIG. 9: the schematic diagram of the structure of the top cover net,

FIG. 10: schematic diagram of grid frame structure.

In the figure: 1. a transfer structure; 2. a glass cup drying structure; 3. a glass cup cleaning structure; 5. cleaning the basket; 7. a material platform;

11. a first transition component; 12. a transfer pull rod; 13. a transfer lifting cylinder; 14. a transfer pulling cylinder; 15. a transfer top support; 16. a second transition component; 17. an outer frame; 18. a roller conveying line; 19. a transfer pull cylinder fixing plate; 20. a transfer connecting rod;

111. a first transitional lifting cylinder; 112. a first transition frame; 113. a first transition roller;

161. a second transition lifting cylinder; 162. a second transition frame; 163. a second transition roller;

21. a housing; 22. heating plates; 23. an inner shell; 24. air holes are formed; 25. a conveying chain; 26. a baffle plate; 27. drying the induced draft fan; 28. a limit switch; 29. a heat-insulating layer;

271. a blade; 272. sealing the partition plate; 273. a rotating shaft; 274. a motor;

31. pulling the cylinder fixing plate; 32. pulling the cylinder; 33. a top support; 34. cleaning a lifting cylinder; 35. cleaning the connecting plate; 36. cleaning the limiting plate; 37. an auxiliary roller; 38. a connecting rod; 39. cleaning the shaft; 40. a first cleaning pool; 41. a second cleaning pool; 42. a third cleaning pool; 43. a fourth cleaning pool; 44. cleaning the motor; 45. pulling a plate;

51. limiting a clamping table; 52. a bottom net; 53. a support frame; 54. a roof mesh; 55. a limiting plug; 56. a lantern ring I; 57. a spring; 58. a lantern ring II; 59. a handle; 60. a grid-shaped frame; 61. a limiting hole;

71. a discharging table; 72. a feeding platform.

Detailed Description

Example 1

As shown in fig. 1 to 4, the glass cup cleaning structure comprises at least two cleaning tanks arranged side by side, a cleaning shaft 39 penetrates through the tops of the cleaning tanks, 1 group of cleaning assemblies is arranged on the cleaning shaft 39 corresponding to each cleaning tank, each group of cleaning assemblies comprises two cleaning limit plates 36 arranged correspondingly, T-shaped limit grooves are formed in the tops and/or bottoms of the cleaning limit plates 36 from outside to inside, and the T-shaped limit grooves are used for limiting and fixing a cleaning basket 5; and a connecting piece is arranged between the two cleaning limit plates 36 and is adaptive to the T-shaped limit groove.

The bottom of the cleaning pool is connected with a precision filter, so that the water is recycled;

and/or an ultrasonic vibrator is arranged in the cleaning pool.

A pulling cylinder 32 is arranged above the cleaning assembly, the pulling cylinder 32 is horizontally arranged, a pulling cylinder fixing plate 31 is arranged above the pulling cylinder 32, the top of the pulling cylinder fixing plate 31 is connected with a cleaning lifting cylinder 34, and the top of the cleaning lifting cylinder 34 is connected with a top bracket 33; pulling cylinder 32 bottom is connected and is washd connecting plate 35, washs connecting plate 35 bottom and arranges arm-tie 45 side by side, and arm-tie 45 is used for cooperating 5 frames pulling cleaning basket 5 removal of cleaning basket.

The relationship between the number of the pull plates 45 and the number of the cleaning tanks is as follows:

N-M + 1; wherein: n represents the setting number of the pulling plates;

m represents the number of the washing tanks.

The number of the cleaning pools can be four, the cleaning pools comprise a first cleaning pool 40, a second cleaning pool 41, a third cleaning pool 42 and a fourth cleaning pool 43, and the cleaning shafts are connected with a cleaning motor 44.

Generally, an ultrasonic vibrator can be arranged in each cleaning pool to ensure the cleaning effect; the cleaning pool positioned in front can be added with a cleaning agent, and the bottom of the cleaning pool correspondingly added with the cleaning agent is connected with a precision filter, so that the water recycling is realized.

Generally, a cleaning agent can be placed in the first cleaning pool 40, the bottom of the first cleaning pool is connected with a precision filter, the precision filter can be called a security filter, a shell of the cylinder body can be generally made of stainless steel, tubular filter elements such as PP melt-blown filter elements, wire-fired filter elements, folded filter elements, titanium filter elements, active carbon filter elements and the like are adopted as filter elements in the cylinder body, and different filter elements are selected according to different filter media and design processes so as to meet the requirement of effluent quality. Has wide application range and is suitable for the industrial fields of medicine, food, chemical industry, environmental protection, water treatment and the like. In order to ensure that the water in the first cleaning pool can more smoothly realize internal circulation, a water pump can be arranged between the first cleaning pool and the precision filter.

Generally, ultrasonic vibrators can be arranged in the first cleaning pool, the second cleaning pool, the third cleaning pool and the fourth cleaning pool, and can also be arranged in any one cleaning pool or a plurality of cleaning pools in the first cleaning pool, the second cleaning pool, the third cleaning pool and the fourth cleaning pool, wherein the ultrasonic vibrators are also called ultrasonic vibrators and can also be called ultrasonic vibrator transducers, and the ultrasonic vibrators can adopt black pieces with the name of 28K 60W, the model of CH-4P-3828Y and the frequency of 28.0 KHZ.

Correspondingly, the pull plates can be five, and the pull plates comprise a first pull plate, a second pull plate, a third pull plate, a fourth pull plate and a fifth pull plate.

The connecting piece includes the connecting rod 38 that is equipped with between two washing limiting plates 36, is equipped with supplementary gyro wheel 37 on the connecting rod 38, and supplementary gyro wheel 37 can roll along two washing limiting plates 36 line directions, and supplementary gyro wheel 37 top surface height and the setting of the spacing tank bottom surface of T type suit.

The second end of the glass cleaning structure 3 is provided with a feeding table 72, the feeding table 72 is arranged corresponding to the T-shaped limiting groove of the cleaning limiting plate 36, and the feeding table 72 is used for feeding.

After the T-shaped limiting groove rotates to the lower side along with the cleaning shaft, the liquid level of the cleaning pool crosses the T-shaped limiting groove.

As shown in FIG. 3, the cleaning limiting plate can be provided with a T-shaped limiting groove on one side, the cleaning limiting plate can be symmetrically arranged on the cleaning shaft in two blocks, and the cleaning limiting plate can also be arranged on the cleaning shaft only by one block.

As shown in FIG. 4, the cleaning limit plate can be a whole plate, and T-shaped limit grooves are formed in the top and the bottom of the cleaning limit plate. Or, the cleaning limit plate can be a whole plate, and only the top or the bottom of the cleaning limit plate is provided with a T-shaped limit groove. As shown in fig. 1-10, the glass cleaning device adopting the glass cleaning structure of the present invention comprises a glass cleaning structure 3 and a glass drying structure 2 arranged side by side; the first ends of the glass cleaning structure 3 and the glass drying structure 2 are provided with a transfer structure 1, and the second end of the glass drying structure 2 is provided with a discharge table 71.

As shown in fig. 1, the glass cleaning structure and the glass drying structure are arranged side by side, the second ends of the glass cleaning structure and the glass drying structure are provided with a material table 7, the material table 7 comprises a material loading table 72 and a material discharging table 71, the material discharging table 71 is arranged corresponding to the glass drying structure, and the material loading table 72 is arranged corresponding to the glass cleaning structure.

As shown in fig. 8-10, the glass cleaning device further includes a cleaning basket 5 matched with the cleaning limit plate 36, the cleaning basket 5 includes a bottom net 52, a limiting clamping table 51 is arranged on an outer edge of the bottom net 52 in an outward protruding manner, the limiting clamping table 51 is matched with a T-shaped limiting groove of the cleaning limit plate 36, a plurality of support frames 53 are arranged on the bottom net 52, a latticed frame 60 is arranged on an outer periphery of the bottom net 52, the glass cleaning device further includes a top cover net 54, handles 59 are symmetrically arranged on the top of the top cover net 54 in an inward symmetrical manner, springs 57 are arranged at two ends of the handles 59 in a penetrating manner, the handles 59 extend out of the springs 57, a first end of the spring 57 is connected to the middle of the handle 59, a second end of the spring 57 is connected to the top cover net 54, and a free end of the handle 59 is used for matching with the latticed frame 60 to clamp the top cover net 54.

A first lantern ring 56 and a second lantern ring 58 are respectively arranged at two ends of the spring 57, a pull handle 59 penetrates through the second lantern ring 58 and the first lantern ring 56, the first lantern ring 56 is connected with the top cover net 54, and the second lantern ring 58 is connected with the pull handle 59; the free end of the handle 59 is provided with a limiting plug 55 with a reduced diameter, and a plurality of limiting holes 61 corresponding to the handle are formed on the latticed frame 60 corresponding to the limiting plug 55.

The support frame 53 may be formed by bending a metal strip from the middle to the two sides, or may be formed by bending two metal strips in parallel; the top of the support frame can also be provided with a top cover, and the bottom of the support frame is connected with a bottom net through a support; the support frame can also adopt a stand column, and the bottom of the stand column is welded on the bottom net. The glass cup is reversely buckled on the supporting frame.

As shown in fig. 1 and fig. 5, the transfer structure 1 is arranged perpendicular to the glass cleaning structure 3 and the glass drying structure 2, the transfer structure 1 includes roller conveyor lines 18 arranged side by side on two sides, and transition assemblies are arranged at two ends of the roller conveyor lines 18 and used for completing the transition of conveying the cleaning basket 5 from the glass cleaning structure 3 to the transfer structure 1 and from the transfer structure 1 to the glass drying structure 2. The outer frame 17 can be arranged on the periphery of the roller conveying line 18.

The transfer structure 1 further comprises a transfer lifting cylinder 13, the top of the transfer lifting cylinder 13 is connected with a transfer top bracket 15, the bottom of the transfer lifting cylinder 13 is connected with a transfer pulling cylinder fixing plate 19, the bottom of the transfer pulling cylinder fixing plate 19 is provided with a transfer pulling cylinder 14 horizontally arranged, the bottom of a piston rod of the transfer pulling cylinder 14 is provided with a transfer connecting rod 20, and the bottom of the transfer connecting rod 20 is provided with a transfer pull rod 12.

The transition assembly comprises a transition lifting cylinder, a transition frame is arranged on the transition lifting cylinder, a transition roller is arranged on the transition frame, the transition roller is consistent with the conveying direction of the previous section of structure, and the transition assembly comprises a first transition assembly 11 and a second transition assembly 16.

The first transition assembly 11 comprises a first transition lifting cylinder 111, a first transition frame 112 is arranged on the first transition lifting cylinder 111, and a first transition roller 113 is arranged on the first transition frame 112; the second transition assembly 16 comprises a second transition lifting cylinder 161, the second transition lifting cylinder 161 is provided with a second transition frame 162, and the second transition frame 162 is provided with a second transition roller 163.

As shown in fig. 6-7, the glass cup drying structure 2 of the present invention includes an outer casing 21 and an inner casing 23, which are sleeved together, wherein a drying induced draft fan 27 is disposed on the top of the outer casing 21, the inner casing 23 is opened corresponding to the drying induced draft fan 27, vent holes 24 are disposed on the bottom of the inner casing 23, heating plates 22 are disposed on two side walls of the outer casing 21, a conveying chain 25 passes through the inner casing 23 and bypasses the bottom of the outer casing 21, a baffle 26 is disposed on the conveying chain 25, the drying induced draft fan 27 guides air in the inner cavity of the inner casing 23 to flow through the heating plates 22, and then flows back into the inner cavity of the inner casing 23 through the vent holes 24, so as to achieve air heat circulation.

The sections of the inner shell 23 and the outer shell 21 are square, and the heating plates 22 are arranged on the inner walls of the two sides of the outer shell 21. Air flows to the inner shell and the outer shell interlayer inner cavity from the inner shell inner cavity, then flows back to the inner shell inner cavity, and is dried through hot air circulation, the air temperature in the whole inner shell inner cavity is even, the drying effect on the glass cup is better, and the drying speed is more even.

And an insulating layer 29 is arranged outside the shell 21, so that the heat loss is reduced. The conveying chains 25 are arranged on two sides of the transition assembly.

The discharging table 71 is provided with a limit switch 28, and the limit switch 28 is used for detecting whether the cleaning basket 5 is arranged on the discharging table 71.

The middle part of the drying induced draft fan 27 is provided with a sealing clapboard 272, a rotating shaft 273 penetrates through the sealing clapboard 272, the top of the rotating shaft 273 is connected with a motor 274, and the bottom of the rotating shaft 273 is provided with blades 271.

The heating plate 22 can be formed by combining a stainless steel plate, an electrothermal alloy and a ceramic tube, carries a silicon controlled rectifier and rectifier tube mixing module and an intelligent power controller with a self-learning self-adaptive function, and realizes effective energy conservation through high-precision temperature control.

Working process or working principle:

1. feeding: the workman will wait to wash glass cup spiral-lock and adorn on the support frame, and after glass cup filled a washing basket, hold the handle, the terminal withdrawal of handle, top cover net puts into the frame, loosens the handle, and the spacing plug of handle inserts spacing hole, and top cover net and latticed frame lock, and top cover net blocks glass cup, and washing basket and glass cup become a whole, will fill the washing basket of glass cup and place the material loading bench.

2. Cleaning:

as shown in fig. 2, the cleaning lifting cylinder acts, the cleaning lifting cylinder descends to drive the pull plate to descend, the pull plate is inserted into the cleaning basket, the pulling cylinder acts to pull the cleaning basket to move leftwards according to the drawing, and the limiting clamping table of the cleaning basket is matched with the T-shaped limiting groove for limiting and fixing; the cleaning lifting cylinder resets and the pulling cylinder resets; the cleaning shaft rotates, the cleaning basket is shifted to a position below the liquid level of the cleaning pool, and after a set time, workers complete feeding of the next cleaning basket during cleaning; the cleaning shaft rotates, and the cleaned cleaning basket rotates to the position above the cleaning pool;

the cleaning lifting cylinder descends to drive the pulling plate to descend, the pulling plate is inserted into the cleaning basket, the cylinder is pulled to act, the pulling plate pulls the cleaning basket to move leftwards according to the drawing, the limiting clamping table of the cleaning basket is matched with the T-shaped limiting groove for limiting and fixing,

the cleaning lifting cylinder resets and the pulling cylinder resets; the cleaning shaft rotates, the cleaning basket is shifted to a position below the liquid level of the cleaning pool, and after a set time, workers finish feeding the next cleaning basket while cleaning; the cleaning shaft rotates, and the cleaned cleaning basket rotates to the upper part of the cleaning pool;

the cleaning basket is circularly reciprocated in such a way, and the cleaning process is completed after the cleaning basket is sequentially cleaned for four times by the cleaning pool I, the cleaning pool II, the cleaning pool III and the cleaning pool IV after being loaded.

3. Transfer of

The first transition lifting cylinder jacks the first transition support and the first transition roller, and the pulling cylinder pulls the cleaning basket corresponding to the fourth cleaning pool onto the first transition roller through the pulling plate; the first transition lifting cylinder resets, the first transition support and the first transition roller descend, and two ends of the cleaning basket are matched with the roller conveying line; it transfers top prop 15 to transfer to lift cylinder 13 top connection, it descends to transfer lift cylinder 13, it descends to drive and transfer pull rod 12, it inserts washing basket 5 to transfer pull rod 12, it removes to transfer pulling cylinder 14 pulling washing basket to glass cup stoving structure direction, second transition lift cylinder rises, it rises with second transition gyro wheel to drive second transition support and transition gyro wheel, washing basket from the gyro wheel transfer chain pulling to second transition gyro wheel, after the washing basket targets in place, second transition lift cylinder resets, second transition support and second transition gyro wheel fall down, the washing basket falls into on the conveyor chain, the conveyor chain action, the baffle promotes the washing basket and removes, send into in the glass cup stoving structure.

4. Drying the mixture

The hot plate starts, start the stoving draught fan, the stoving draught fan upwards attracts the air in with the inner shell inner chamber, through inner shell and shell intermediate layer inner chamber, the hot plate is arranged in intermediate layer inner chamber, the hot-air in the intermediate layer inner chamber gets into the inner shell inner chamber through the bleeder vent of inner shell bottom, through the circulation of hot-blast in the stoving draught fan realization inner shell inner chamber, temperature is more even in the inner shell inner chamber, moreover, air-dry mode, than directly adopting the hot plate to promote the temperature to dry, the stoving temperature of needs is lower, more the energy can be saved.

5. Discharging material

After the drying is completed, the limit switch detects that the discharging platform is not provided with the cleaning basket, the conveying chain is started, the conveying chain drives the cleaning basket to move to the discharging platform, and meanwhile, the new cleaning basket enters the glass cup drying structure.

Present glass washs structure and glass drying structure length unanimous basically, and the conveying chain once sends into a washing basket in the glass drying structure, sends out a washing basket of ejection of compact platform, and itself can hold a plurality of washing baskets in the glass drying structure, and during this period, all glass that wash in the basket in the glass drying structure all are same temperature and wind speed and dry, and drying time is sufficient, and it is effectual to dry.

The description of the directions and the relative position relationship of the structures in the present invention, such as the description of the front, the back, the left, the right, the upper and the lower, does not limit the present invention, and is only for the convenience of description.

Claims (5)

1. The utility model provides a glass cup stoving structure, shell (21) and inner shell (23) including the suit together, shell (21) top is equipped with stoving draught fan (27), correspond stoving draught fan (27), inner shell (23) opening sets up, bleeder vent (24) are seted up to inner shell (23) bottom, be equipped with hot plate (22) on shell (21) inner wall, carry chain (25) to pass inner shell (23) and walk around from shell (21) bottom, be equipped with baffle (26) on carrying chain (25), stoving draught fan (27) are with inner shell (23) inner chamber cavity air induced flow through hot plate (22), then follow bleeder vent (24) and flow back in inner shell (23) inner chamber, realize heated air circulation.

2. Glass drying construction according to claim 1, characterized in that the inner casing (23) and the outer casing (21) are provided with a square cross-section and that the heating plates (22) are provided on the inner walls on both sides of the outer casing (21).

3. Glass drying construction according to claim 2, characterized in that the outer casing (21) is provided with an insulating layer (29) on the outside.

4. A glass drying arrangement according to any of claims 1-3, characterized in that the discharge table (71) is provided with a limit switch (28), the limit switch (28) being adapted to detect whether there is a washing basket (5) on the discharge table (71).

5. The glass drying structure according to claim 4, wherein a sealing partition plate (272) is arranged in the middle of the drying induced draft fan (27), a rotating shaft (273) penetrates through the sealing partition plate (272), the top of the rotating shaft (273) is connected with the motor (274), and blades (271) are arranged at the bottom of the rotating shaft (273).

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