JP3083356U - Ultrasonic treatment equipment for transport bottles - Google Patents

Abstract

(57) [Summary] [Problem] A bottle (liquid container) moving at a high speed on a transport path
The present invention relates to an apparatus for cleaning and inspecting a bottle by ultrasonically treating the bottom of the bottle, the apparatus including means for removing bubbles adhering to the surface of the bottle immersed in a treatment water tank. SOLUTION: The bottom of the bottle is immersed in treated water and irradiated with ultrasonic waves to perform processing such as cleaning of the bottom of the bottle and inspection for contamination of foreign matter. In ultrasonic treatment, it is necessary to eliminate air bubbles adhering to the surface of the object to be treated.However, there is a dent at the bottom of the bottle, or air is immersed in a bottle that moves at high speed in treated water. Air bubbles adhere to the bottom of the bottle immersed in the treated water due to entrapment, and this obstructs the ultrasonic treatment. The device according to the present invention uses the wake device 1
3 and a water nozzle 14 driven by a submersible pump 15.

Description

[Detailed description of the invention]

[0001]

[Technical field to which the invention belongs]

 This invention relates to a device for ultrasonically treating the bottom of a continuously transported bottle (liquid container) in a bottle washing line or a bottle inspection line, and particularly to a bottle surface immersed in an ultrasonically treated water tank. The present invention relates to the above device provided with means for removing attached air bubbles.

[0002]

[Prior art]

 The bottle washing line and bottle inspection line are provided with conveyors, pallets, and other transport devices to continuously transport many bottles. The bottles are transported upright on a pallet or belt in a transport device.

[0003] On these transport devices, the bottle is supported at the bottom, so that trash and the contents of the bottle adhere to the bottom of the bottle during transport. Particularly in bottle washing lines where used bottles are collected and washed for reuse, garbage often adheres to the bottom of the bottle during the distribution stage, and these garbage adheres in a wet state. Through the process of drying, it often adheres to the bottom of the bottle without easily detaching. Cleaning of the bottom of the bottle to remove such dust is conventionally performed by providing a step of spraying cleaning water or rubbing with a brush while spraying cleaning water.

[0004] Further, in a bottle inspection line placed after a bolt filling line or the like, an ultrasonic wave may be used as a detecting means for detecting whether or not foreign matter has entered the contents of the bottle.

[0005]

[Problems to be solved by the invention]

 Efforts to increase the speed of washing collected bottles and filling the contents of bottles are being continued, and the transport speed of bottles flowing through washing lines and inspection lines is also increasing. For this reason, it is necessary to quickly clean the bottom of the bottle and to check for contamination, and there is a demand for a technical means for processing the bottle moving at a high speed without stopping the bottle moving on the transport path.

The present invention has been made in order to satisfy such a demand, and performs cleaning and inspection of the bottle by ultrasonically treating the bottom of the bottle moving at a high speed in the transport path, and cleaning the bottle. It is an object of the present invention to obtain a device capable of speeding up inspections.

[0007]

[Means for Solving the Problems]

 The device of the present invention immerses the bottom of the bottle in treated water and irradiates it with ultrasonic waves to clean the bottom of the bottle and inspect foreign substances. In the ultrasonic treatment, it is necessary to eliminate air bubbles adhering to the surface of the object to be treated, but there is a dent at the bottom of the bottle, or when the bottle moving at high speed is immersed in the treated water, the air is removed. Air bubbles adhere to the bottom of the bottle immersed in the treated water, and this hinders the ultrasonic treatment. The ultrasonic bottle treatment apparatus of the present invention solves this obstacle by providing the wake-up device 13 and the water nozzle 14 driven by the submersible pump 15.

[0008] That is, the ultrasonic processing apparatus for a transport bottle of the present invention includes a bottle transport path 1 including a carry-in section 1a, a descending slope section 1b, an immersion section 1c, an ascending slope section 1d, and an unloading section 1e; 1c, a conveying means 3 for gripping or nipping a portion above the bottom of the bottle and conveying the bottle; and a height at which the bottom of the bottle disposed below the conveying path 1 and passing through the immersion section 1c is immersed. A water tank 10 having a water surface set therein; a motive device 13 for forcibly flowing at least an upper layer of the treated water in the water tank in the direction of transport of the bottle A in the immersion section 1c; A water nozzle 14 for injecting treated water toward the bottom of the bottle A passing through the immersion section 1c, a submersible pump 15 for supplying treated water to the water nozzle, and a direction in which the water nozzle 14 transfers the bottle. An ultrasonic oscillator 16 that oscillates ultrasonic waves toward the bottom of the bottle that moves in the immersion section 1c on the downstream side is provided.

The wake device 13 generates a water flow in the direction of bottle movement in the upper layer of the water tank, and makes the speed of this water flow substantially the same as the transport speed of the bottle A, so that the bottom of the bottle enters the treated water. Sometimes it hits the surface of the water to prevent air bubbles from getting into the water. That is, if the treated water is stationary when the bottom of the bottle enters the treated water in the downward slope 1b, the bottom of the bottle hits the surface of the treated water due to the relative speed difference between the treated water and the bottle A, and the wave The bubbles entrained in the water adhere to the bottom of the bottle or float on the bottom of the bottle, which hinders the ultrasonic treatment. , A difference in the relative speed between the bottle A and the water surface is reduced, so that the bottom of the bottle substantially enters the treated water gently, and the bottom of the bottle enters the treated water. Prevents the generation of bubbles at the time.

The water nozzle 14 removes bubbles adhering to the bottom of the bottle and bubbles remaining in the recess at the bottom of the bottle by injecting treated water containing no bubbles into the bottom of the bottle that has entered the treated water. are doing. The supply of the treated water to the water nozzle 14 by the submersible pump 15 prevents the entrainment of air into the treated water flowing through the pump.

By applying ultrasonic waves from the ultrasonic oscillator 16 to the bottom of the bottle with the air bubbles completely removed in this manner, cleaning and inspection of the bottom of the bottle are performed. If necessary, an appropriate defoaming agent may be added to the treatment water to suppress generation of bubbles.

When the temperature of the treated water rises, air dissolved in the treated water precipitates and becomes bubbles, which hinders the ultrasonic treatment. The dirt removed from the bottom of the bottle by ultrasonic irradiation will be suspended in the treated water. Treated water contamination also interferes with sonication. Therefore, in the ultrasonic treatment apparatus for a transport bottle according to the invention of claim 2, the dust filter 42, the circulation pumps 41 and 45 for circulating the treated water in the water tank 10 through the dust filter, and the circulation path 40 are disposed. A dissolved air removal device 44 is provided.

The filter 42 removes dirt suspended in the treated water, and the dissolved air removing device 44 forcibly precipitates and removes the dissolved air in the treated water under a reduced pressure environment. According to a more preferred aspect of the present invention, a treated water cooling device 47 is provided to further suppress the precipitation of dissolved air in the treated water due to a temperature rise.

[0014] The processed bottle is pulled up from the treated water when passing through the uphill section 1d and is transferred to the unloading section 1e. However, the treated water adheres to the bottom of the pulled up bottle. Therefore, since treated water is taken out, it is necessary to supply water to replenish it. At this time, if air bubbles are present in the water supply or the amount of dissolved air is large, this will hinder the ultrasonic treatment. Therefore, in the ultrasonic treatment device for a transport bottle according to the invention of claim 4, the water supply port 32 of the treated water to the inside of the water tank 10 is opened on the upstream side of the dissolved air removal device 44 in the circulation path 40, and newly. Bubbles contained in the supplied treated water have been removed to reduce the amount of dissolved air.

[0015] When the bottom of the bottle is very dirty, a spare water tank for performing pre-cleaning is provided in front of the water tank having the above structure. In the ultrasonic processing apparatus for a transport bottle according to the fifth aspect of the present invention, a preliminary water tank 20 is provided upstream of the water tank 10 in the bottle transport direction so as to block the flow of the treated water into the water tank 10, and is moved above the preliminary water tank. A pre-cleaning nozzle 22 for injecting the treated water is provided at the bottom of the bottle. It is preferable that the spare water tank 20 is provided with a one-way valve 21 that allows inflow from the water tank 10 but does not allow outflow into the water tank 10 for replenishment of the treated water.

The transporting means 3 for transporting the bottles at the downgraded section 1b, the immersed section 1c and the upgraded section 1d includes, on both sides of the transport path 1 along the downgraded section 1b, the immersed section 1c and the upgraded section 1d. It is convenient to use a three-dimensionally arranged transport belt or chain 3 with flexibility. The bottle A, which moves on the downhill section 1b, the immersion section 1c, and the uphill section 1d, is conveyed while being clamped from both sides by a conveyor belt or chain 3 at the upper part of its body. By using the transporting means having such a structure, smooth high-speed transport of the bottle in the immersion section becomes possible.

[0017]

[Embodiment of the invention]

 Hereinafter, preferred embodiments of the present invention will be described with reference to examples shown in the drawings. FIG. 1 is a block diagram showing details of the apparatus of the embodiment, and FIG. 2 is a schematic plan view. A carry-in section 1a, a descending slope section 1b, an immersion section 1c, an ascending slope section 1d, and a carry-out section 1e are provided in the transport path 1 of the bottle A in the bottle washing line or the inspection line. The carry-in part 1a, carry-out part 1e and immersion part 1c are sections for horizontally transporting the bottle A, and the immersion part 1c has a lower height than the carry-in part 1a and carry-out part 1e. In the carry-in part 1a and the carry-out part 1e, the bottle A is conveyed in an upright state on the belt conveyors 2a and 2e.

In the descending slope part 1b, the immersion part 1c and the ascending slope part 1d, it is possible to bend in three-dimensional directions arranged on both sides of the transport path 1 from the downstream end of the loading part 1a to the upstream end of the unloading part 1e. The bottle A is conveyed while the upper body of the bottle A is sandwiched from both sides by the orbiting chain 3. The immersion section 1c is provided with a neck caddy 4 for guiding the neck of the bottle and a bottle holder 5 for preventing the bottle from rising in order to stabilize the posture and height of the bottle during transportation.

A water tank 10 provided with a preliminary water tank 20 and a water supply tank 30 is disposed below the downward slope 1b, the immersion section 1c, and the upward slope 1d. Partition walls 6, 7 are provided between the tanks 20, 10, 30. Each partition wall allows the flow of the treated water from the water tank 10 to the preliminary water tank 20 or the water supply tank 30, and is provided in the opposite direction. One-way valves 21 and 31 are provided to shut off the flow of the treated water. The one-way valve 21 on the side of the reserve tank functions to replenish the treated water in the reserve tank, and the one-way valve 31 on the side of the supply tank blocks the flow of water from the supply tank 30 to the tank 10. This is substantially an inlet of a circulation path 40 to be described later.

At the upper part of the preliminary water tank 20, a preliminary cleaning nozzle 22 for jetting treated water toward the bottom of the bottle moving on the downward slope 1b is provided. The treated water in the preliminary water tank 20 is supplied to the preliminary cleaning nozzle 22 via a pump 23, a strainer 24, and a cock 25. A drain blower 26 is provided near the downstream side of the pre-wash nozzle 22 in the bottle transfer direction. The draining blower 26 prevents dirty pretreated water from adhering to the bottom of the bottle and being taken out to the water tank 10.

In the water tank 10, a wake device 13 having a screw 12 driven by a submersible motor 11, a plurality of water nozzles 14 for injecting treated water toward the bottom of the bottle moving in the immersion section 1 c, and The ultrasonic oscillators 16 are arranged in order from the upstream side in the bottle transfer direction. The treated water in the water tank is supplied to the water nozzle 14 from a submersible pump 15 installed in the water tank. The bottom of the bottle moving through the immersion section 1c is immersed in the water of the water tank 10. A level sensor 17 is provided in the water tank to control the level of the treated water, thereby ensuring that the bottom of the bottle is immersed in the treated water. The screw 12 of the wake-up device generates a water flow in the upper layer of the treated water in the transport direction of the bottle, and the speed of the water flow is set to substantially match the transport speed of the bottle. In the embodiment shown in the drawing, as shown in FIG. 2, a loop-shaped peripheral circuit 10a for guiding a water flow generated by the screw 12 is formed.

Since the water flow generated by the wake device 13 flows in the upper part of the water tank 10 in the same direction as the direction in which the bottles are transported, at substantially the same speed, the water is conveyed at a high speed and the downstream side of the downwardly inclined portion 1 b Waves and bubbles generated on the water surface of the treated water are suppressed by the bottom of the bottle entering the treated water at the part.

At the bottom of the bottle that is immersed in the treated water and moves through the immersion part 1 c, treated water containing no air bubbles is jetted from the water nozzle 14, and the air accumulated in the recess at the bottom of the bottle and the bottom of the bottle Air bubbles that adhere to the surface and are brought into the treated water are washed out and removed. The bottom of the bottle, from which the air bubbles adhering through the water nozzle 14 have been completely removed, passes above the ultrasonic oscillator 16 to clean and inspect the bottom of the bottle. Waste attached to the bottom of the bottle is removed and suspended in the treated water. The bottle that has passed over the ultrasonic oscillator 16 is pulled up from the treated water in the uphill section 1d, and the treated water attached to the bottom of the bottle and taken out is drained by the second drain blower 18 and transported to the discharge section 1e. Is done.

The treated water in the water tank 10 is provided with a one-way valve 31, a water supply tank 30, a push-in circulation pump 41, a filter 42, a balance tank 43, a dissolved air removal tank 44, and a draw-out circulation pump 45 on the water supply tank side. It circulates through the circulation path 40. The circulated treated water flows out through the water guide pipe 46 to the suction side of the screw 12 of the wake device.

The push-in circulation pump 41 of the circulation path sends the treated water to the filter 42, and the pressure of the circulating water is released to the atmospheric pressure in the balance tank 43 on the downstream side. The balance tank is provided with a level sensor 43a, and the detection signal balances the discharge amount of the press-in circulation pump 41 and the vacuum pressure in the dissolved air removal tank 44. The upper end of the dissolved air removal tank 44 is connected to a vacuum pressure source (not shown) and has an internal pressure of about 70 Torr. The treated water in the balance tank 43 flows into the dissolved air removal tank 44 due to the pressure difference. The inflow amount, that is, the outflow amount from the balance tank 43 and the discharge amount of the push-in circulation pump 41 are balanced so that the water level in the balance tank 43 is maintained in a certain range.

In the dissolved air removal tank 44, dissolved air in the treated water is precipitated by negative pressure, separated as bubbles, and sucked out by a vacuum device. A level sensor is provided in the dissolved air removal tank 44, and the draw-out circulation pump 45 is controlled so that the water level in the tank is within a certain range. In the balance tank 43, the refrigerant of the refrigeration unit 47 is circulated to prevent the temperature of the treated water in the water tank 10 from rising.

A water supply port 32 for supplying treated water is open to the water supply tank 30. Therefore, the replenished treated water first flows into the water tank 10 through the circulation path 40. In the embodiment shown in the drawing, chlorine is added to make-up water by the hypochlorite tank 33. That is, a water supply valve 35, a flow meter 36, and a static mixer 37 are interposed in the water supply passage 34, and a diaphragm pump built in the hypochlorite tank 33 according to the supply guess measured by the flow meter 36. 38 is driven to supply chlorine in an amount proportional to the flow rate. The chlorine is supplied to the maintenance water by the static mixer 37 and then sent to the water supply port 32. The amount of water supply is determined by controlling a water supply valve 35 by a level sensor 39 provided in the water supply tank 30.

In the apparatus of the embodiment of the present invention, the bottom of the bottle is immersed in the treated water to perform the ultrasonic treatment, and the water nozzle 14 is arranged in the water tank 10 in order to eliminate air bubbles which may hinder the treatment. The treated water is supplied by a submersible pump 15 for preventing air bubbles from being caught in the water nozzle. The transport path 1 is provided with a neck caddy 4 and a bottle holding device 5 for correcting the position of the bottle being processed, and the wake device 13 suppresses the resistance of water at the bottom of the bottle that enters the treated water. This helps control the bottle's attitude. Further, in this embodiment, a dissolved air removing device 44 is provided to prevent the formation of bubbles due to a rise in the temperature of the treated water, and a refrigerating device 47 is further provided for preventing the temperature from rising. When the bottom of the bottle is very dirty, a pre-water tank 20 and a pre-wash nozzle 22 for pre-washing the bottom of the bottle are provided.

[Brief description of the drawings]

FIG. 1 is a block diagram showing details of an embodiment apparatus.

FIG. 2 is a plan view showing a schematic device arrangement of the apparatus of the embodiment.

[Explanation of symbols]

 1 Conveyance path 1a Loading section 1b Downhill section 1c Immersion section 1d Uphill section 1e Unloading section 3 Orbiting chain 10 Water tank 13 Starting device 14 Water nozzle 15 Submersible pump 16 Ultrasonic oscillator 20 Spare water tank 21 One-way valve 22 Prewash nozzle 32 Water supply port 40 Circulation path 41 Push-in circulation pump 42 Filter 44 Dissolved air removal tank 45 Withdrawal circulation pump 47 Refrigeration unit A Bottle

Claims (7)

[Utility model registration claims] 1. A loading section (1a), a descending slope section (1b), and a dipping section (1
c), a bottle conveying path (1) provided with an ascending part (1d) and an unloading part (1e), and conveying means for conveying at least a portion above the bottom of the bottle in the immersion part and conveying the bottle.
(3), a water tank (10) arranged below the transport path and having a water surface set at a height at which the bottom of the bottle passing through the immersion section is immersed, and at least an upper layer of the treated water in the water tank. A wake-up device (13) for forcibly flowing in the transfer direction of the bottle in the immersion section, and a water nozzle (14) disposed below the surface of the water tank and injecting treated water toward the bottom of the bottle passing through the immersion section And a submersible pump that supplies treated water to this water nozzle
(15), comprising an ultrasonic oscillator (16) that oscillates ultrasonic waves toward the bottom of the bottle moving the immersion section on the downstream side of the water nozzle in the bottle transfer direction, ultrasonic treatment of the transport bottle apparatus. 2. A dust filter (42) and a circulating pump (41, 45) for circulating treated water in the water tank through the dust filter.
And a dissolved air removal device (44) disposed in the circulation path (40).
The ultrasonic treatment apparatus for a transport bottle according to claim 1, comprising: 3. A cooling device for treated water flowing through the circulation path.
The ultrasonic treatment apparatus for a transport bottle according to claim 2, further comprising (7). 4. A water supply port (32) of the treated water into the water tank is opened on an upstream side of the dissolved air removing device in the circulation path.
The ultrasonic treatment apparatus for a transport bottle according to claim 2. 5. A preliminary water tank (20) that shuts off inflow of treated water into the water tank on the upstream side of the water tank in the bottle transport direction,
2. A pre-wash nozzle (22) for injecting treated water into a bottom of a bottle moving above the pre-water tank, wherein the pre-wash nozzle is provided.
5. The ultrasonic treatment apparatus for a transport bottle according to claim 2, 3, or 4. 6. A one-way valve (21) is provided between the spare water tank and the water tank to allow inflow of treated water from the water tank to the spare water tank and to block outflow from the spare water tank to the water tank. Item 5
An ultrasonic treatment device for a transport bottle according to claim 1. 7. A transport belt or chain having flexibility in three dimensions arranged on both sides of the transport path along the descending slope section, the immersion section, and the upward slope section, wherein the transport means in the immersion section is provided. (3), wherein the bottle moving in the descending slope section, the immersion section and the ascending section is conveyed while being clamped from both sides by the conveying belt or chain at an upper portion of its body. 1, 2, 3, 4, 5, or 6
An ultrasonic treatment device for a transport bottle according to claim 1.