CN210333656U - Tunnel type full-automatic glassware cleaning machine - Google Patents

Abstract

The utility model provides a tunnel type full-automatic glassware washer, which comprises a conveyor belt, a washing frame, a tunnel type washing cabin and a control system; the conveyor belt penetrates through the tunnel type cleaning cabin, is of a hollow structure and is provided with one or more cleaning rack mounting positions; the cleaning frame is arranged on an installation position on the conveying belt, a plurality of vertical spray pipes are arranged on the cleaning frame, and the tunnel type cleaning cabin is sequentially provided with the prewashing module, the main washing module, the washing module and the drying module; the control system controls the operation of the driving device of the transmission belt, the prewashing module, the main washing module, the washing module and the drying module. The assembly line cleaning production realizes the cleaning of a large amount of glassware, and improves the cleaning efficiency; each cleaning step is carried out by adopting each independent module, the cleaning effect is better, and the defect of cross infection of a single cleaning cabin in the prior art is overcome; the glassware is sprayed and cleaned in all directions, and the cleaning efficiency is improved by one-time completion.

Description

Tunnel type full-automatic glassware cleaning machine

Technical Field

The utility model relates to a cleaning device field, in particular to full-automatic glassware cleaning machine of tunnel type.

Background

The cleaning steps of laboratory glassware such as beakers, triangular flasks and the like are very strict and must be cleaned thoroughly to ensure the accuracy of test data in the next experiment. At present, besides manual cleaning, spraying equipment can be adopted for cleaning, and glassware can be circularly cleaned by using the spraying pressure of water and the auxiliary action of cleaning liquid.

At present, a cleaning machine is of a single cleaning cabin structure, a whole set of cleaning steps are carried out in the same cleaning cabin, the loading capacity of a cleaning frame is certain, and the next batch of utensils can be cleaned only after all the cleaning steps are completed, so that the cleaning efficiency of glassware is lower. Moreover, a single cleaning cabin structure cannot realize all-dimensional cleaning due to narrow space, and the cleaning effect is poor. Moreover, glassware reagent residues of different experiments are different, so that multiple times of cleaning is completed in the same cabin, cross contamination is easy to generate, and the cleaning effect is poor.

SUMMERY OF THE UTILITY MODEL

The utility model provides a full-automatic glassware cleaning machine of tunnel type has solved single cleaning cabin structure cleaning efficiency among the prior art low, the poor problem of cleaning performance.

The technical scheme of the utility model is realized like this:

a tunnel-type full-automatic glassware washing machine, which includes: the device comprises a conveyor belt, a cleaning frame, a tunnel type cleaning cabin and a control system; wherein,

the conveyor belt penetrates through the tunnel type cleaning cabin, is of a hollow structure and is provided with one or more cleaning rack mounting positions;

the cleaning frame is arranged on an installation position on the conveying belt, a plurality of vertical spray pipes are arranged on the cleaning frame, spray holes are formed in the tops of the spray pipes, and water supply pipelines of the spray pipes are communicated with water supply pipelines in the tunnel type cleaning cabin through water supply pipelines of the cleaning frame;

a pre-washing module, a main washing module, a washing module and a drying module are sequentially arranged in the tunnel type washing cabin;

the pre-washing module comprises a first washing cabin, a first upper spraying device is arranged above the washing rack of the first washing cabin, and a first lower spraying device is arranged below the washing rack;

the main cleaning module comprises a second cleaning cabin, a second upper spraying device is arranged above the cleaning rack in the second cleaning cabin, and a second lower spraying device is arranged below the cleaning rack;

the flushing module comprises a third cleaning cabin, a third upper spraying device is arranged above the cleaning rack in the third cleaning cabin, and a third lower spraying device is arranged below the cleaning rack;

the drying module comprises a drying cabin, and the drying cabin is provided with a fan;

the control system controls the operation of the driving device of the transmission belt, the prewashing module, the main washing module, the washing module and the drying module.

Optionally, the positions of the spraying paths of the conveyor belt corresponding to the first lower spraying device, the second lower spraying device and the third lower spraying device are hollowed out.

Optionally, the first lower spray device is disposed between the upper and lower belts of the conveyor. Optionally, a second lower spray device is disposed between the upper and lower belts of the conveyor. Optionally, a third lower spray device is disposed between the upper and lower belts of the conveyor.

Optionally, the cleaning frame is a bearing platform formed by fixedly connecting a plurality of pipe fittings, the pipe fittings are hollow structures and communicated with each other, and the pipe fittings form a water supply pipeline for supplying water to the spray pipe.

Optionally, a support member is arranged on the spray pipe of the wash rack, and the support member is arranged at the lower end of the spray pipe.

Optionally, the support member is flat, and has a cross section in a herringbone shape or a polygonal shape, and the maximum diameter of the support member is larger than the opening diameter of the glass vessel.

Optionally, the support is an approximately circular frame body surrounded by at least two elastic rings, and the top of the support is abutted against the bottom of the glass vessel.

Optionally, the wash rack further comprises a guard member removably attached to the wash rack.

Optionally, the guard is a perforated cover plate or a mesh-structured mesh cover.

Optionally, the pre-washing module further comprises a first water tank, a first water inlet system and a first circulating system, the first water inlet system provides cleaning water for the first water tank, the first circulating system comprises a collecting pipeline, a water supply pipeline and a circulating pump, the water supply pipeline and the circulating pump provide cleaning water for the first upper spraying device and the first lower spraying device, and the collecting pipeline is used for collecting the cleaning water to the first water tank.

Optionally, the prewashing module still includes first water tank, first water intake system, first drainage system and first circulation system, and first water intake system provides the cleaning water to first water tank, and first drainage system is used for the water discharge in the first water tank, and first circulation system includes collection pipeline, water supply pipe and circulating pump, and water supply pipe and circulating pump provide cleaning water to first spray set and first spray set down, and the collection pipeline is used for collecting the cleaning water to first water tank.

Optionally, the water supply lines of the first upper spray device and the first lower spray device are connected with the tap water line.

Optionally, the water supply lines of the first upper and lower spray devices are connected to an external water storage tank.

Optionally, a first heating device is further arranged in the first water tank, the first heating device is a heating wire or a heating rod, and the control system controls the heating device to work.

Optionally, the prewashing module further comprises a first dosing device, the first dosing device comprises a first medicine storage box, a first pump body and a medicine inlet pipe, and the control system controls the first pump body to pump the liquid medicine in the first medicine storage box into a water supply pipeline of the first cleaning cabin or into the first water tank through the medicine inlet pipe.

Optionally, the main washing module comprises a second water tank, a second water inlet system and a second circulating system, the second water inlet system provides cleaning water for the second water tank, the second circulating system comprises a collecting pipeline, a water supply pipeline and a circulating pump, the water supply pipeline and the circulating pump provide cleaning water for the second upper spraying device and the second lower spraying device, and the collecting pipeline is used for collecting the cleaning water to the second water tank.

Optionally, the flushing module includes a third water tank, a third water inlet system and a third circulation system, the third water inlet system provides cleaning water for the third water tank, the third circulation system includes a collection pipeline, a water supply pipeline and a circulation pump, the water supply pipeline and the circulation pump provide cleaning water for the third upper spray device and the third lower spray device, and the collection pipeline is used for collecting the cleaning water to the third water tank.

Optionally, the main washing module includes a second water tank, a second water inlet system, a second water discharge system and a second circulation system, the second water inlet system provides cleaning water for the second water tank, the second water discharge system is used for discharging water in the second water tank, the second circulation system includes a collection pipeline, a water supply pipeline and a circulation pump, the water supply pipeline and the circulation pump provide cleaning water for the second upper spraying device and the second lower spraying device, and the collection pipeline is used for collecting cleaning water to the second water tank.

Optionally, the water supply lines of the second upper spray device and the second lower spray device are connected with the tap water line.

Optionally, the water supply lines of the second upper and lower spray devices are connected to an external water storage tank.

Optionally, the main washing module further comprises a second heating device, the second heating device is arranged in the second water tank and is a heating wire or a heating rod, and the control system controls the second heating device to operate.

Optionally, the main washing module further comprises a second dosing device, the second dosing device comprises a second medicine storage box, a second pump body and a medicine inlet pipe, and the control system controls the second pump body to pump liquid medicine in the second medicine storage box into a water supply pipeline of the second washing cabin or the second water tank through the medicine inlet pipe.

Optionally, the flushing module further comprises a third water tank, a third water inlet system, a third water discharge system and a third circulation system, the third water inlet system provides cleaning water for the third water tank, the third water discharge system is used for discharging water in the third water tank, the third circulation system comprises a collecting pipeline, a water supply pipeline and a circulating pump, the water supply pipeline and the circulating pump provide cleaning water for the third upper spraying device and the third lower spraying device, and the collecting pipeline is used for collecting cleaning water to the third water tank.

Optionally, the water supply lines of the third upper spray device and the third lower spray device are connected with the tap water line.

Optionally, the water supply lines of the third upper and lower spray devices are connected to an external water storage tank.

Optionally, the flushing module further comprises a third heating device, the third heating device is arranged in the third water tank and is a heating wire or a heating rod, and the control system controls the third heating device to operate.

Optionally, isolation devices are arranged between the modules in the tunnel type cleaning cabin.

Optionally, the isolation device is a water curtain, an air curtain, or a flexible door curtain.

Optionally, an isolation device is arranged between each module in the tunnel type cleaning cabin, and the isolation device is one or more than one flexible door curtain.

Optionally, an isolation device is arranged between each module in the tunnel type cleaning cabin, and the isolation device is a water curtain.

Optionally, an isolation device is arranged between each module in the tunnel type cleaning cabin, and the isolation device is an air curtain.

Optionally, each module in the tunnel type cleaning cabin is separated by a preset distance, two sides of the preset distance are provided with isolating devices, each isolating device is a flexible door curtain, and the number of the flexible door curtains on one side is one or more than one.

Optionally, each module in the tunnel type cleaning cabin is separated by a preset distance, and isolation devices are arranged on two sides of the preset distance and are water curtains.

Optionally, each module in the tunnel type cleaning cabin is separated by a preset distance, and isolation devices are arranged on two sides of the preset distance and are air curtains.

Optionally, the predetermined distance is 10-30 cm.

Optionally, a sensor for detecting the position of the cleaning rack is arranged in each module in the tunnel type cleaning cabin, and the control system controls the module where the sensor is located to operate through signals transmitted by the sensor.

Optionally, the air outlet of the fan is further provided with an air heating device, the air heating device comprises an electric heating wire and a gas storage bin, the gas storage bin is arranged at the air outlet of the fan, the electric heating wire is arranged in the gas storage bin, and the control system controls the electric heating wire to work.

Optionally, the fan is arranged on the top of the drying cabin.

Optionally, the number of the fans is multiple, wherein at least one fan is arranged on the top of the drying compartment.

Optionally, a fan is arranged at the bottom of the drying cabin.

Optionally, the drying module further comprises a filtering device, and the filtering device is arranged at the air inlet of the fan or the air outlet of the fan.

Optionally, the filter device is a mesh enclosure.

Optionally, the washing machine further comprises an anti-collision device arranged at the output end of the conveyor belt and used for preventing the washing rack after washing from falling.

Optionally, the collision preventing device is a stopper.

Optionally, an elastic layer is arranged on the side wall of the block.

The utility model has the advantages that:

(1) the control system controls the conveyor belt to accurately convey the cleaning rack to a set position, accurately positions the cleaning rack, and is used for assembly line cleaning production, so that a large number of glassware can be cleaned at the same time, and the cleaning efficiency is greatly improved; each cleaning step is carried out by adopting each independent module, so that the cleaning effect is better; overcomes the defect of cross infection of a single cleaning cabin in the prior art.

(2) The glass ware is used for spraying and cleaning the upper part, the lower part and the inside in an all-dimensional manner, and the cleaning is completed at one time, so that the cleaning effect is enhanced, the cleaning time is shortened, and the cleaning efficiency is improved.

(3) Through the drying module, the integrated production of cleaning and drying is realized, and the use is convenient.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural view of a tunnel-type fully automatic glassware washer according to the present invention;

FIG. 2 is a schematic structural view of a rotating shaft and a pipe fitting in the cleaning rack of the tunnel-type full-automatic glassware cleaning machine of the present invention;

FIG. 3 is a schematic view of an assembly of a glassware in the tunnel-type automatic glassware washer of the present invention;

FIG. 4 is a schematic view of the nozzle, the supporting member and the contact head of the tunnel-type automatic glassware washer according to the present invention;

fig. 5 is a schematic structural view of a support member in the tunnel-type full-automatic glassware washing machine of the present invention.

Reference numerals:

1. a conveyor belt; 2. a cleaning frame; 2-2, pipe fittings; 2-3, spraying pipes; 2-4, a support member; 2-5, contact head; 2-6, a guard; 3. a tunnel-type cleaning cabin; 4. a control system; 5. a prewashing module; 5-1, a first cleaning cabin; 5-2, a first upper spraying device; 5-3, a first lower spraying device; 5-4, a first water tank; 5-5, a first circulation system; 5-6, a first heating device; 6. a main washing module; 6-1, a second cleaning cabin; 6-2, a second upper spraying device; 6-3, a second lower spraying device; 6-4, a second water tank; 6-5, a second circulating system; 6-6, a second heating device; 7. a flushing module; 7-1, a third cleaning cabin; 7-2, a third upper spraying device; 7-3, a third lower spraying device; 7-4, a third water tank; 7-5, a third circulating system; 7-6, a third heating device; 8. a drying module; 8-1, a fan; 8-2, electric heating wires; 8-3, a gas storage bin; 9. an anti-collision device; 10. an isolation device.

Detailed Description

The following description and the drawings sufficiently illustrate specific embodiments herein to enable those skilled in the art to practice them. Portions and features of some embodiments may be included in or substituted for those of others. The scope of the embodiments herein includes the full ambit of the claims, as well as all available equivalents of the claims. The terms "first," "second," and the like, herein are used solely to distinguish one element from another without requiring or implying any actual such relationship or order between such elements. In practice, a first element can also be referred to as a second element, and vice versa.

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1 to 5, the present application discloses a tunnel type full-automatic glassware washer, which comprises a conveyor belt 1, a washing frame 2, a tunnel type washing cabin 3 and a control system 4; the conveying belt penetrates through the tunnel type cleaning cabin, is of a hollow structure, and is provided with one or more cleaning rack mounting positions; the cleaning frame is arranged on an installation position on the conveyor belt, a plurality of vertical spray pipes 2-3 are arranged on the cleaning frame, spray holes are formed in the tops of the spray pipes, glassware to be cleaned is inverted on the spray pipes, and water supply pipelines of the spray pipes are communicated with water supply pipelines in the tunnel type cleaning cabin through water supply pipelines of the cleaning frame; the cleaning rack is placed on the inlet side of the tunnel type cleaning cabin on the conveyor belt, and is taken out from the outlet side of the tunnel type cleaning cabin on the conveyor belt after being cleaned by the tunnel type cleaning cabin; a pre-washing module 5, a main washing module 6, a washing module 7 and a drying module 8 are sequentially arranged in the tunnel type washing cabin; the prewashing module comprises a first washing cabin 5-1, wherein a first upper spraying device 5-2 is arranged above the washing rack in the first washing cabin, and a first lower spraying device 5-3 is arranged below the washing rack; the main cleaning module comprises a second cleaning cabin 6-1, a second upper spraying device 6-2 is arranged above the cleaning rack in the second cleaning cabin, and a second lower spraying device 6-3 is arranged below the cleaning rack; the flushing module comprises a third cleaning cabin 7-1, a third upper spraying device 7-2 is arranged above the cleaning frame of the third cleaning cabin, and a third lower spraying device 7-3 is arranged below the cleaning frame; the drying module comprises a drying cabin, and the drying cabin is provided with a fan 8-1; the control system controls the operation of the driving device of the transmission belt, the prewashing module, the main washing module, the washing module and the drying module.

Optionally, the positions of the spraying paths of the conveyor belt corresponding to the first lower spraying device, the second lower spraying device and the third lower spraying device are hollowed out.

Optionally, the first lower spray is disposed below the conveyor belt. Optionally, a second lower spray is disposed below the conveyor belt. Optionally, a third lower spray device is disposed below the conveyor belt.

Optionally, the first lower spray device is disposed between the upper and lower belts of the conveyor. Optionally, a second lower spray device is disposed between the upper and lower belts of the conveyor. Optionally, a third lower spray device is disposed between the upper and lower belts of the conveyor.

Optionally, the cleaning frame is formed by fixedly connecting a plurality of pipe fittings 2-2 to form a bearing platform, the pipe fittings are hollow structures and communicated with each other, and the pipe fittings form a water supply pipeline for supplying water to the spray pipes. Optionally, a water conduit is arranged in the hollow structure of the pipe fitting, and the water conduit is used as a water supply pipeline of the spray pipe.

Optionally, a water supply pipeline interface is arranged on the cleaning rack, and the water supply pipeline interface is arranged on the left side or the right side of the advancing direction. The prewashing module, the main washing module or the flushing module are provided with a water outlet interface matched with the water supply pipeline interface on the advancing path of the water supply pipeline interface of the cleaning frame.

The control system sets up the displacement of installation position accurately, and under the drive of conveyer belt, when the water supply line interface of wash rack removed the delivery port department to the water supply line of prewashing module, main module or washing module, the water supply line interface of wash rack and the delivery port height and the size adaptation of the water supply line of each module, and two interfaces are closely laminated, realize closely docking and supply water. If water leaks from the butt joint, the water is collected through the water tank in the module, and waste of cleaning water or inconvenience for cleaning the peripheral area of the cabin are avoided.

Optionally, the cleaning frame is formed by fixedly connecting a plurality of pipe fittings 2-2 to form a bearing platform, the pipe fittings are hollow and communicated, the pipe fittings form a water supply pipeline for supplying water to the spray pipe, and the water supply pipeline formed by the pipe fittings is communicated with a water supply pipeline on the installation position. Optionally, a water conduit is arranged in the hollow structure of the pipe fitting, and the water conduit is used as a water supply pipeline of the spray pipe.

Optionally, a water supply line interface is arranged on the installation position of the conveyor belt, and the water supply line interface is arranged on the left side or the right side of the traveling direction. The prewashing module, the main washing module or the flushing module is provided with a water outlet interface matched with the water supply pipeline interface on the advancing path of the water supply pipeline interface at the installation position.

The control system accurately sets the displacement of the installation position, and under the drive of the conveying belt, when the water path interface of the water supply pipeline on the installation position of the cleaning frame moves to the water outlet interface of the water supply pipeline of the prewashing module, the main washing module or the flushing module, the height and the size of the water outlet interface of the water supply pipeline on the installation position and the water outlet interface of the water supply pipeline of each module are matched, so that the tight butt joint is realized. If water leaks from the butt joint, the water is collected through the water tank in the module, so that waste or inconvenience for cleaning the peripheral area of the cabin is avoided.

Optionally, the conveyor belt water path supplies water to the spray pipes on the wash rack through a unified water conduit, water tank and circulation pump.

Optionally, the spray pipe of the wash rack is provided with support members 2-4, which are provided at the lower end of the spray pipe. Optionally, the support member is flat, and has a cross section in a herringbone shape or a polygonal shape, and the maximum diameter of the support member is larger than the opening diameter of the glass vessel. Optionally, the supporting member is an approximately circular frame body surrounded by at least two elastic rings, the top of the supporting member is abutted against the bottom of the glassware, and the whole glassware is supported at the same time, so that the bottle mouth of the glassware is separated from the cleaning frame; the elastic rings are gathered inwards until the maximum diameter of the supporting piece is smaller than the diameter of the bottle opening of the glass ware, then when the glass ware is placed on the supporting piece, the pressure acting on the elastic rings is removed, the elastic rings are released, and the elastic rings expand outwards, so that the elastic rings abut against the side wall of the glass ware and the glass ware is supported and fixed. When the glassware needs to be taken down, the glassware can be taken down only by inwardly gathering the elastic ring again to ensure that the maximum diameter of the elastic ring is smaller than the diameter of the bottle mouth of the glassware. Alternatively, the resilient ring is oval in shape, with the narrower end being secured to the support member by a connector.

Optionally, in order to enlarge the contact area between the elastic ring and the bottom of the glass vessel and achieve a better supporting effect, the top of the elastic ring is bent towards the side away from the spray pipe to form a bearing surface, so that the bearing surface is abutted against the bottom of the glass vessel.

Optionally, the top of the spray pipe of the wash rack is provided with a contact head 2-5 made of a flexible material for realizing flexible contact with glassware and preventing the glassware from being collided and damaged in the process of putting and taking the glassware. Optionally, the side wall of the spray pipe of the washing rack is provided with a plurality of spray holes with horizontal or inclined spray axes, and the spray holes are distributed on the side wall of the spray pipe of the washing rack at the positions related to the depth of the cleaned glassware.

Optionally, the wash rack further comprises a guard 2-6, which is detachably connected to the wash rack. Optionally, the guard is a perforated cover plate or a mesh-structured mesh cover. When the cleaning rack bearing glassware is taken and put, if the cleaning rack accidentally overturns, the protection part protects the cleaning rack and prevents the glassware from falling off from the spray pipe of the cleaning rack.

Optionally, the prewashing module is provided with one or more spray arms on the top of the belt, and the spray arms are provided with a plurality of spray heads. Optionally, the first upper spray arms are disposed on both sides of the belt. Optionally, the spray arm is in-line. Optionally, the spray arm is S-shaped. Optionally, the top of the spray arm is driven to rotate by the first driving device, and the spray arm is driven by the first driving device to rotate on the top of the prewashing module. Optionally, the axial angle of the spray header on the spray arm is driven to rotate by a second driving device, and the spray header can adjust the spray angle within the range of 0-180 degrees under the driving of the second driving device. Through the cooperation of the first driving device and the second driving device, the top and the side wall of the glassware can be more thoroughly cleaned by the pre-washing module. Optionally, the number of the spray arms is multiple, and the multiple spray arms are fixed on the same longitudinal driving shaft and driven to rotate by the first driving device. The prewashing module is provided with one or more than one spray arm at the bottom of the conveyor belt, and the spray arm is provided with a plurality of spray heads. Optionally, the first lower spray arms are disposed on both sides of the belt. Optionally, the spray arm is in-line. Optionally, the spray arm is S-shaped. Optionally, the bottom of the spray arm is driven to rotate by a third driving device, and the spray arm is driven by the third driving device to rotate at the bottom of the prewashing module. Optionally, the axial angle of the spray header of the spray arm is driven to rotate by a fourth driving device, and the spray header can adjust the spray angle within the range of 0-180 degrees under the driving of the fourth driving device. Through the cooperation of the third driving device and the fourth driving device, the pre-washing module can more thoroughly wash the bottom and the side wall of the glassware. Optionally, the number of the spray arm spray arms is multiple, and the multiple spray arm spray arms are fixed on the same longitudinal driving shaft and driven to rotate by a third driving device.

Optionally, the pre-washing module further comprises a first water tank, a first water inlet system and a first circulating system, the first water inlet system provides cleaning water for the first water tank, the first circulating system comprises a collecting pipeline, a water supply pipeline and a circulating pump, the water supply pipeline and the circulating pump provide cleaning water for the first upper spraying device and the first lower spraying device, and the collecting pipeline is used for collecting the cleaning water to the first water tank.

Optionally, the pre-washing module further comprises a first water tank 5-4, a first water inlet system for supplying cleaning water to the first water tank, a first water discharge system for discharging water in the first water tank, and a first circulation system 5-5 comprising a collection pipeline, a water supply pipeline and a circulation pump, the water supply pipeline and the circulation pump supplying cleaning water to the first upper spray device and the first lower spray device, and the collection pipeline is used for collecting cleaning water to the first water tank.

Optionally, the water supply lines of the first upper spray device and the first lower spray device are connected with the tap water line.

Optionally, the water supply lines of the first upper and lower spray devices are connected to an external water storage tank.

Optionally, a first heating device 5-6 is also provided in the first water tank. Optionally, the first heating device is a heating wire or a heating rod, and the control system controls the heating device to work.

Optionally, the prewashing module further comprises a first dosing device, the first dosing device comprises a first medicine storage box, a first pump body and a medicine inlet pipe, and the control system controls the first pump body to pump the liquid medicine in the first medicine storage box into a water supply pipeline of the first cleaning cabin or into the first water tank through the medicine inlet pipe.

And the spray header of the prewashing module outputs the cleaning liquid in the first water tank. Optionally, the cleaning liquid in the first water tank is water. Optionally, a cleaning agent is added to the cleaning liquid in the first water tank. Optionally, the bottom of the pre-wash module returns the wash water to the first tank for recycling through a collection line. Alternatively, the user may select whether the first heating device is operated to heat the cleaning solution in the first water tank as required.

Optionally, the main washing module is provided with one or more spray arms on the top of the belt, and the spray arms are provided with a plurality of spray heads. Optionally, the spray arm is in-line. Optionally, the spray arm is S-shaped. Optionally, the top of the spray arm is driven to rotate by a fifth driving device, and the spray arm is driven by the fifth driving device to rotate on the top of the main washing module. Optionally, the axial angle of the spray header of the spray arm is driven to rotate by a sixth driving device, and the spray header can adjust the spray angle within the range of 0-180 degrees under the driving of the sixth driving device. Through the cooperation of the fifth driving device and the sixth driving device, the top and the side wall of the glassware can be more thoroughly cleaned by the main washing module. Optionally, the number of the spray arms is multiple, and the multiple spray arms are fixed on the same longitudinal driving shaft and driven to rotate by a seventh driving device. The main washing module is provided with one or more than one spray arm at the bottom of the conveyor belt, and the spray arm is provided with a plurality of spray heads. Optionally, the spray arm is in-line. Optionally, the spray arm is S-shaped. Optionally, the bottom of the spray arm is driven to rotate by an eighth driving device, and the spray arm is driven by the eighth driving device to rotate at the bottom of the main washing module. Optionally, the axial angle of the spray head of the spray arm is driven to rotate by an eighth driving device, and the spray head can adjust the spray angle within the range of 0-180 degrees under the driving of the eighth driving device. Through the cooperation of the seventh driving device and the eighth driving device, the bottom and the side wall of the glassware can be more thoroughly cleaned by the main washing module.

Optionally, the main washing module further comprises a second water tank, a second water inlet system and a second circulating system, the second water inlet system provides cleaning water for the second water tank, the second circulating system comprises a collecting pipeline, a water supply pipeline and a circulating pump, the water supply pipeline and the circulating pump provide cleaning water for the second upper spraying device and the second lower spraying device, and the collecting pipeline is used for collecting the cleaning water to the second water tank; the washing module further comprises a third water tank, a third water inlet system and a third circulating system, the third water inlet system provides cleaning water for the third water tank, the third circulating system comprises a collecting pipeline, a water supply pipeline and a circulating pump, the water supply pipeline and the circulating pump provide the cleaning water for the third upper spraying device and the third lower spraying device, and the collecting pipeline is used for collecting the cleaning water for the third water tank.

Optionally, the main washing module further includes a second water tank 6-4, a second water inlet system for supplying cleaning water to the second water tank, a second water discharge system for discharging water in the second water tank, and a second circulation system 6-5 including a collection line, a water supply line and a circulation pump for supplying cleaning water to the second upper and lower spray devices, the collection line for collecting cleaning water to the second water tank.

Optionally, the water supply lines of the second upper spray device and the second lower spray device are connected with the tap water line.

Optionally, the water supply lines of the second upper and lower spray devices are connected to an external water storage tank.

Optionally, the main washing module further comprises a second heating device 6-6, the second heating device is arranged in the second water tank and is a heating wire or a heating rod, and the control system controls the second heating device to operate.

Optionally, the main washing module further comprises a second dosing device, the second dosing device comprises a second medicine storage box, a second pump body and a medicine inlet pipe, and the control system controls the second pump body to pump liquid medicine in the second medicine storage box into a water supply pipeline of the second washing cabin or into the second water tank through the medicine inlet pipe.

And the spray header of the main washing module outputs the cleaning liquid in the second water tank. Optionally, the cleaning liquid in the second water tank is water. Optionally, a cleaning agent is added to the cleaning liquid in the second water tank. Optionally, the bottom of the main wash module returns the wash water to the second tank for recycling through a collection line. Optionally, the user can select whether the second heating device works or not according to requirements, namely, the cleaning liquid in the second water tank is heated.

Optionally, the flushing module is provided with one or more spray arms on top of the belt, the spray arms being provided with a plurality of spray headers. Optionally, the spray arm is in-line. Optionally, the spray arm is S-shaped. Optionally, the top of the spray arm is driven to rotate by a ninth driving device, and the spray arm is driven by the ninth driving device to rotate at the top of the flushing module. Optionally, the axial angle of the spray header of the spray arm is driven to rotate by a tenth driving device, and the spray header can adjust the spray angle within the range of 0-180 degrees under the driving of the tenth driving device. Through the cooperation of the ninth driving device and the tenth driving device, the washing module can clean the top and the side wall of the glassware more thoroughly. Optionally, the number of the spray arms is multiple, and the multiple spray arms are fixed on the same longitudinal driving shaft and driven to rotate by a ninth driving device. The washing module is provided with one or more than one spray arm at the bottom of the conveyor belt, and the spray arm is provided with a plurality of spray heads. Optionally, the spray arm is in-line. Optionally, the spray arm is S-shaped. Optionally, the bottom of the spray arm is driven to rotate by an eleventh driving device, and the spray arm is driven by the eleventh driving device to rotate at the bottom of the flushing module. Optionally, the axial angle of the spray head of the spray arm is driven to rotate by a twelfth driving device, and the spray head can adjust the spray angle within the range of 0-180 degrees under the driving of the twelfth driving device. Through the cooperation of the eleventh driving device and the twelfth driving device, the washing module can clean the bottom and the side wall of the glassware more thoroughly.

Optionally, the rinsing module further includes a third water tank 7-4, a third water inlet system for supplying cleaning water to the third water tank, a third water discharge system for discharging water in the third water tank, and a third circulation system 7-5 including a collection line, a water supply line and a circulation pump for supplying cleaning water to the third upper and lower spray devices, the collection line for collecting cleaning water to the third water tank.

Optionally, the water supply lines of the third upper spray device and the third lower spray device are connected with the tap water line.

Optionally, the water supply lines of the third upper and lower spray devices are connected to an external water storage tank.

Optionally, the flushing module further comprises a third heating device 7-6, the third heating device is arranged in the third water tank, the third heating device is a heating wire or a heating rod, and the control system controls the third heating device to operate.

The spray header of the flushing module outputs cleaning water in the third water tank. Optionally, the bottom of the flushing module returns the cleaning water to the third tank for recycling through a collection line. Alternatively, the user may select whether the third heating means is operated, i.e., heat the cleaning water in the third water tank, as desired.

The first driving device, the second driving device, the third driving device, the fourth driving device, the fifth driving device, the sixth driving device, the seventh driving device, the eighth driving device, the ninth driving device, the tenth driving device, the eleventh driving device and the twelfth driving device can be realized by motors, and the types and the volume of the motors can be selected according to actual requirements.

Optionally, the pre-wash module, the main wash module and the rinse module are structurally identical.

Because the pre-washing module, the main washing module and the washing module are different in washing mode, in order to avoid cross contamination of the cleaning water after each module is used, an isolating device 10 is arranged between each module in the tunnel type washing cabin.

Optionally, an isolation cabin is arranged between each module in the tunnel type cleaning cabin, so that the adjacent modules are separated by a preset distance, and isolation devices are arranged on two sides of the isolation cabin. Optionally, the predetermined distance is 10-30 cm.

Optionally, the isolation device is a flexible door curtain. Optionally, the number of flexible door curtains is one or more than one.

Optionally, the isolation device is a water curtain. By providing a water curtain between adjacent modules, mixing of cleaning water between adjacent modules is prevented. Optionally, the water curtain is isolated and collected for recycling.

Optionally, the isolation device is an air curtain. With this alternative embodiment, cleaning water on both sides is reliably driven away by injecting high pressure gas between adjacent modules.

Optionally, a sensor for detecting the position of the cleaning rack is arranged in each module in the tunnel type cleaning cabin, and the control system controls the module where the sensor is located to operate through signals transmitted by the sensor.

When the sensor detects that no cleaning frame exists in the current module, a signal is sent to the control system, and the control system sends a signal to stop the operation of the current module; when the sensor detects that the cleaning rack is arranged in the current module, a signal is sent to the control system, the control system sends the signal to the current module, and the current module is started to operate.

Optionally, the air outlet of the fan is further provided with an air heating device, the air heating device comprises an electric heating wire 8-2 and a gas storage bin 8-3, the gas storage bin is arranged at the air outlet of the fan, the electric heating wire is arranged in the gas storage bin, and the control system controls the electric heating wire to work. Optionally, the fan is arranged at the top of the drying cabin; optionally, the number of the fans is multiple, wherein at least one fan is arranged on the top of the drying compartment. Optionally, a fan is arranged at the bottom of the drying cabin.

The gas storage bin plays a role in collecting gas and buffering, and the temperature of the output gas is ensured to meet the requirement; secondly, under the condition that the temporary fault of the fan is not effective, the gas storage bin can output gas constantly to wait for the maintenance or the electrification of the fan, and the buffer effect is achieved.

Optionally, the drying module further comprises a filtering device, and the filtering device is arranged at the air inlet of the fan or the air outlet of the fan. Optionally, the filter device is a mesh enclosure. The filtering device prevents external impurities from polluting glassware which is just cleaned.

Optionally, the washing machine further comprises an anti-collision device arranged at the output end of the conveyor belt and used for preventing the washing rack after washing from falling. Optionally, the collision preventing device is a stopper. Optionally, an elastic layer is arranged on the side wall of the block.

The following provides a specific embodiment of the washing machine for washing glassware.

In this embodiment, glassware is manually loaded onto the wash rack; the cleaning rack is placed on the installation position of the conveyor belt, and the control system controls the conveyor belt to convey the cleaning rack loaded with glassware into the prewashing module; after 5-10S, the transmission of the conveyor belt is stopped after the cleaning rack reaches the cleaning position, and the conveying of the cleaning rack is started after the cleaning rack is used for cleaning the pre-cleaning module for a set cleaning time; after 5-10S, the cleaning rack is conveyed to the main cleaning module, and after the set cleaning time is carried out, the conveying is started; after 5-10S, the cleaning rack is conveyed to a washing module, and after the set cleaning time is carried out, the conveying is started; after 5-10S, the cleaning rack is conveyed to a drying module for alternately drying by cold air and hot air, and then continuously conveying; conveying the cleaning rack to an outlet, and manually carrying the cleaning rack; and finishing the cleaning.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a full-automatic glassware cleaning machine of tunnel type which characterized in that includes:

the device comprises a conveyor belt, a cleaning frame, a tunnel type cleaning cabin and a control system; wherein,

the conveyor belt penetrates through the tunnel type cleaning cabin, is of a hollow structure and is provided with one or more cleaning rack mounting positions;

the cleaning frame is arranged on an installation position on the conveying belt, a plurality of vertical spray pipes are arranged on the cleaning frame, spray holes are formed in the tops of the spray pipes, and water supply pipelines of the spray pipes are communicated with water supply pipelines in the tunnel type cleaning cabin through water supply pipelines of the cleaning frame;

a pre-washing module, a main washing module, a washing module and a drying module are sequentially arranged in the tunnel type washing cabin;

the pre-washing module comprises a first washing cabin, a first upper spraying device is arranged above the washing rack of the first washing cabin, and a first lower spraying device is arranged below the washing rack;

the main cleaning module comprises a second cleaning cabin, a second upper spraying device is arranged above the cleaning rack in the second cleaning cabin, and a second lower spraying device is arranged below the cleaning rack;

the flushing module comprises a third cleaning cabin, a third upper spraying device is arranged above the cleaning rack in the third cleaning cabin, and a third lower spraying device is arranged below the cleaning rack;

the drying module comprises a drying cabin, and the drying cabin is provided with a fan;

the control system controls the operation of the driving device of the transmission belt, the prewashing module, the main washing module, the washing module and the drying module.

2. The tunnel-type fully automatic glassware cleaning machine of claim 1, wherein the conveyor is hollowed out in a position corresponding to the spray paths of the first lower spray device, the second lower spray device and the third lower spray device.

3. The tunnel type full automatic glassware cleaning machine of claim 1, wherein the cleaning frame is formed by fixing a plurality of pipe members to form a carrying platform, the pipe members are hollow and communicated, and the pipe members form a water supply pipeline for supplying water to the spray pipe.

4. A tunnel-type fully automatic glassware washing machine, as claimed in claim 3, wherein the spray tubes of the wash rack are provided with support members which are located at the lower ends of the spray tubes.

5. The tunnel-type fully automatic glassware washing machine of claim 1, wherein the pre-wash module further includes a first water tank, a first water inlet system that supplies cleaning water to the first water tank, and a first circulation system that includes a collection line, a water supply line, and a circulation pump that supplies cleaning water to the first upper spray and the first lower spray, the collection line collecting the cleaning water to the first water tank.

6. The tunnel-type fully automatic glassware washing machine of claim 5, wherein a first heating means is also provided in the first tank, and the control system controls operation of the heating means.

7. The tunnel-type fully automatic glassware washing machine of claim 1, wherein,

the main washing module further comprises a second water tank, a second water inlet system and a second circulating system, the second water inlet system provides cleaning water for the second water tank, the second circulating system comprises a collecting pipeline, a water supply pipeline and a circulating pump, the water supply pipeline and the circulating pump provide cleaning water for the second upper spraying device and the second lower spraying device, and the collecting pipeline is used for collecting the cleaning water to the second water tank;

the washing module further comprises a third water tank, a third water inlet system and a third circulating system, the third water inlet system provides cleaning water for the third water tank, the third circulating system comprises a collecting pipeline, a water supply pipeline and a circulating pump, the water supply pipeline and the circulating pump provide cleaning water for the third upper spraying device and the third lower spraying device, and the collecting pipeline is used for collecting the cleaning water to the third water tank.

8. A tunnel-type fully automatic glassware washing machine, as claimed in claim 1, wherein isolation means are provided between each module within the tunnel-type washing chamber.

9. The tunnel-type fully automatic glassware washing machine of claim 1, wherein each module in the tunnel-type washing chamber is provided with a sensor for detecting the position of the washing rack, and the control system controls the operation of the module in which the sensor is located through signals transmitted by the sensors.

10. The tunnel-type fully-automatic glassware cleaning machine of claim 1, wherein the air outlet of said blower is further provided with an air heating device, said air heating device includes an electric heating wire and a gas storage bin, said gas storage bin is provided at the air outlet of the blower, the electric heating wire is provided in the gas storage bin, and the control system controls the operation of the electric heating wire.

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