CN219037491U - Broken glass cleaning and recycling mechanism of ampoule bottle washing machine - Google Patents

Abstract

The utility model discloses a broken glass cleaning and recycling mechanism of an ampoule bottle washing machine, which comprises a preheating laminar flow box body, an ampoule conveying mesh belt and a preheating laminar flow fan, wherein the ampoule conveying mesh belt is arranged in the preheating laminar flow box body and can continuously convey cleaned ampoule forwards, the preheating laminar flow fan is fixed at the upper end of the inner side of the preheating laminar flow box body, the preheating laminar flow fan can blow hot air towards the ampoule on the ampoule conveying mesh belt, a broken glass collecting box is arranged below the ampoule conveying mesh belt, an opening opposite to the ampoule conveying mesh belt is formed at the upper end of the preheating laminar flow box body, a drawer pulling opening is formed on the side wall of the broken glass collecting box, a broken glass drawer is arranged in the broken glass collecting box in a pulling manner, an opening structure opposite to the opening on the broken glass collecting box is formed at the upper side of the broken glass drawer, and the broken glass drawer can be pulled out from the drawer pulling opening on the side wall of the broken glass collecting box.

Description

Broken glass cleaning and recycling mechanism of ampoule bottle washing machine

Technical Field

The utility model relates to an ampoule bottle cleaning machine, in particular to a broken glass cleaning and recycling mechanism of an ampoule bottle cleaning machine.

Background

At present, the injection is contained through the ampoule, the ampoule is required to be cleaned, disinfected and dried before being filled with the medicine, the ampoule is crushed after being mutually extruded in the conveying process of the ampoule bottle washer, broken glass is formed after the ampoule is extruded and impacted, part of broken glass enters a cleaning tank and a disinfection tank along with cleaning and disinfection, the other part of broken glass enters a drying stage, broken glass is also produced in the conveying process of the drying stage, and the broken glass falls downwards along with the ampoule conveying mesh belt due to the fact that the lower part of the ampoule conveying mesh belt is empty in the drying stage, and is scattered inside a drying section of the ampoule cleaning agent.

Disclosure of Invention

In order to overcome the defects, the utility model provides the broken glass cleaning and recycling mechanism of the ampoule bottle washing machine, which can realize automatic recycling of broken glass in the ampoule bottle washing machine and is convenient to process.

The technical scheme adopted by the utility model for solving the technical problems is as follows: the utility model provides an ampoule bottle cleaning machine garrulous glass clearance recovery mechanism, includes preheating laminar flow box, ampoule conveying net belt and preheats the laminar flow fan, ampoule conveying net belt installs in preheating laminar flow box and can carry the ampoule that washs the completion forward in succession, preheats laminar flow fan fixed mounting in preheating laminar flow box inboard upper end, preheats the ampoule that laminar flow fan can be towards ampoule conveying net belt and blows hot-blast, preheating laminar flow box is located ampoule conveying net belt below and is equipped with garrulous glass collecting box, garrulous glass collecting box upper end is formed with the opening just right with ampoule conveying net belt, be equipped with the drawer pull mouth on the garrulous glass collecting box lateral wall, be equipped with garrulous glass drawer in the garrulous glass collecting box can the pull, garrulous glass drawer upside is formed with the open structure just right with garrulous glass collecting box upper opening, and garrulous glass drawer can follow the drawer pull mouth on the garrulous glass collecting box lateral wall and take out.

As a further improvement of the utility model, the preheating section bottle feeding table plate is also arranged on the preheating layer flow box body, the preheating section bottle feeding table plate is in positive connection with the starting end of the ampoule conveying net belt, fixing rods are respectively rotatably arranged on two sides of the preheating section bottle feeding table plate in the direction of the ampoule conveying net belt, signal boards and signal induction rods are fixedly arranged on the side walls of the fixing rods, a horn-shaped bottle feeding opening of the preheating section bottle feeding table plate is formed between the two signal boards, the signal induction rods are positioned below the preheating section bottle feeding table plate, proximity switches are respectively arranged on two sides below the preheating section bottle feeding table plate, the signal induction rods can trigger the proximity switches along with the rotation of the fixing rods, and the proximity switches are in electric connection communication with a motor of the ampoule conveying net belt.

As a further improvement of the utility model, the two signal plates are V-shaped structure plates, and the V-shaped structure openings of the two signal plates are arranged oppositely.

As a further improvement of the utility model, the preheating laminar flow box body is also provided with a broken glass cleaning brush which can reciprocate at the position above the bottle inlet platen of the preheating section, and the broken glass cleaning brush can clean broken glass in the concave arc inner space of the V-shaped structure of the preheating section into the bottle platen surface and the signal board to the ampoule conveying mesh belt surface.

As a further improvement of the utility model, an elastic reset piece is also arranged in the preheating laminar flow box body, the orientation of the signal board is reduced when the elastic reset piece provides rotation torsion for the fixed rod, the signal board rotates in the direction of the gap between the horn-shaped bottle inlet and the bottle inlet, limiting blocks are respectively arranged on two sides below the bottle inlet platen of the preheating section, and one side of the signal induction rod, which is opposite to the proximity switch, is stopped on the surface of the limiting block.

As a further improvement of the utility model, the inner side wall of the cullet collecting box is also provided with a cullet full-charge detection device, the outer side wall of the cullet collecting box is also provided with a cullet full-charge indicator lamp, the cullet full-charge detection device can detect whether cullet in the cullet drawer reaches a specified height, the cullet full-charge detection device is in electric connection communication with the cullet full-charge indicator lamp, and the cullet full-charge indicator lamp can display different colors according to signals transmitted by the cullet full-charge detection device.

The beneficial effects of the utility model are as follows: according to the utility model, the cullet collecting box is arranged in the preheating laminar flow box body of the ampoule bottle washing machine, the cullet drawer for containing cullet is arranged in the cullet collecting box, when the ampoule is cleaned and disinfected, the cullet enters the preheating laminar flow box body, the cullet formed by crushing during conveying process is blown downwards on the mesh of the ampoule conveying mesh belt by the preheating laminar flow fan and falls down, and then falls into the cullet drawer for collection, after the ampoule bottle washing machine is fully collected, the cullet drawer can be directly pulled out by a worker to pour the cullet, the cullet is convenient to process, the manual cleaning is not required to be stopped, and the cullet is convenient and efficient to process.

Drawings

FIG. 1 is a perspective view of the present utility model;

FIG. 2 is a front view of the structural principle of the present utility model;

FIG. 3 is a perspective view of a preheating section bottle inlet platen of the present utility model entering the mouth of a bottle;

fig. 4 is a view showing a state in which an ampoule of the present utility model is conveyed on an ampoule conveying mesh belt.

Detailed Description

Examples: the utility model provides an ampoule bottle cleaning machine garrulous glass clearance recovery mechanism, includes preheating laminar flow box 1, ampoule conveying guipure 2 and preheats laminar flow fan 3, ampoule conveying guipure 2 installs in preheating laminar flow box 1 and can carry the ampoule 13 that washs the completion forward in succession, preheats laminar flow fan 3 fixed mounting in preheating laminar flow box 1 inboard upper end, preheats laminar flow fan 3 and can blow hot-blast towards the ampoule on ampoule conveying guipure 2, preheating laminar flow box 1 is located ampoule conveying guipure 2 below and is equipped with garrulous glass collecting box 4, garrulous glass collecting box 4 upper end is formed with the opening just to ampoule conveying guipure 2, be equipped with the drawer pull mouth on the garrulous glass collecting box 4 lateral wall, be equipped with garrulous glass drawer 5 in garrulous glass collecting box 4 can the pull, garrulous glass drawer 5 upside is formed with and is just to open the structure with garrulous glass collecting box 4 upper opening, garrulous glass drawer 5 can be followed the drawer pull mouth on the garrulous glass collecting box 4 lateral wall and draw.

Ampoule is in ampoule bottle cleaning machine after cleaning and disinfecting, get into preheating in laminar flow box 1, when carrying forward on ampoule conveying mesh belt 2, have preheating laminar flow fan 3 to the ampoule blowing hot-blast, when blow-drying the ampoule, with the garrulous glass on the ampoule conveying mesh belt 2 blow down garrulous glass drawer 5 in, collect garrulous glass by garrulous glass drawer 5, after garrulous glass drawer 5 is collected full garrulous glass, take garrulous glass drawer 5 out from garrulous glass collecting box 4 by the workman, then insert empty garrulous glass drawer 5 back into garrulous glass collecting box 4 can, this structure has avoided cleaning garrulous glass by the workman to ampoule bottle cleaning machine's preheating in laminar flow box 1 inside after shutting down, the manual work has been saved, avoided garrulous glass to scatter in preheating laminar flow box 1, can realize the high-efficient continuous operation of ampoule bottle cleaning machine.

The preheating laminar flow box body 1 is further provided with a preheating section bottle feeding table plate 6, the preheating section bottle feeding table plate 6 is connected with the starting end of the ampoule conveying mesh belt 2 in an aligned mode, fixing rods are respectively arranged on two sides of the preheating section bottle feeding table plate 6 in the width direction of the ampoule conveying mesh belt 2 in a rotatable mode, signal boards 7 and signal induction rods 8 are fixedly installed on the side walls of the fixing rods, a horn-shaped bottle feeding opening of the preheating section bottle feeding table plate 6 is formed between the two signal boards 7, the signal induction rods 8 are located below the preheating section bottle feeding table plate 6, proximity switches 9 are respectively arranged on two sides below the preheating section bottle feeding table plate 6, the signal induction rods 8 can trigger the proximity switches 9 along with rotation of the fixing rods, and the proximity switches 9 are in electric connection communication with a motor of the ampoule conveying mesh belt 2. After the ampoule enters the surface of the preheating section bottle feeding platen 6 of the preheating laminar flow box body 1, aggregation is carried out on the preheating section bottle feeding platen 6, along with the increasing of the ampoule quantity, the ampoule extrudes the side wall of the signal board 7, so that the signal board 7 rotates to enlarge the horn-shaped bottle feeding opening, when the signal board 7 rotates to a set angle, the signal induction rod 8 triggers the proximity switch 9 in the synchronous rotation process, at the moment, the ampoule conveying mesh belt 2 starts conveying, the ampoule on the ampoule conveying mesh belt 2 is ensured to keep a close contact state, a small amount of ampoule is prevented from entering the ampoule conveying mesh belt 2, a large amount of ampoule breakage is caused by dumping on the ampoule conveying mesh belt 2, the ampoule conveying breakage rate is effectively reduced, and the amount of broken glass is reduced.

The two signal plates 7 are V-shaped structure plates, and the openings of the V-shaped structures of the two signal plates 7 are arranged oppositely. The signal board 7 adopts a V signal structure board to form the guide for ampoule entering, and is preferably made of elastic sheet material, such as spring steel sheet, and has certain elasticity to avoid ampoule damage.

The preheating laminar flow box 1 is located the preheating section and advances bottle platen 6 upper position department and can also reciprocating motion installs garrulous glass brush cleaner 11, garrulous glass brush cleaner 11 can sweep the glass that the preheating section advances bottle platen 6 surface and the concave arc inner space of V-arrangement structure of signal board 7 to ampoule conveying mesh belt 2 surface. Ampoule receives the extrusion damage in signal board 7 department, and broken garrulous glass can get into in signal board 7's the outer arc space, cleans this space through garrulous glass brush 11, sweeps the garrulous glass in this space on ampoule conveying mesh belt 2 to finally get into garrulous glass collection drawer of garrulous glass collecting box 4, avoid here gathering garrulous glass, cause signal board 7 to rotate inefficacy.

Still be equipped with the elasticity piece that resets in the preheating layer flow box 1, the signal board 7 orientation reduces when the elasticity piece that resets provides rotation torsion for the dead lever, and the horn form advances bottleneck clearance direction rotation, and preheating section advances bottle platen 6 below both sides still and is equipped with stopper 10 respectively, signal induction pole 8 is kept back to proximity switch 9 one side backstop in stopper 10 surface. The signal board 7 is kept in a closing state all the time through the elastic resetting piece, the signal induction rod 8 is blocked through the limiting block 10, and then the corner of the signal board 7 is limited, so that the signal board is kept in an open state.

The utility model discloses a glass breaking full material detection device, including glass breaking collecting box 4, glass breaking full material indicator 12 and glass breaking full material indicator 12, glass breaking full material indicator 12 can be according to glass breaking full material indicator transmission signal display different colours, still be equipped with glass breaking full material detection device on the 4 inside wall of glass breaking collecting box, glass breaking full material indicator 12 can detect whether glass breaking full material in the glass breaking drawer 5 reaches appointed height. The broken glass full-charge indicator lamp 12 is used for monitoring the quantity of broken glass in the broken glass drawer 5, so that the situation that excessive broken glass does not topple in time is avoided, and the broken glass full-charge detection device can be a weight sensor or correlation light.

Claims (6)

1. Broken glass cleaning and recycling mechanism of ampoule bottle washing machine comprises a preheating laminar flow box body (1), an ampoule conveying net belt (2) and a preheating laminar flow fan (3), wherein the ampoule conveying net belt is arranged in the preheating laminar flow box body and can continuously convey cleaned ampoule (13) forwards, the preheating laminar flow fan is fixedly arranged at the upper end of the inner side of the preheating laminar flow box body, and the preheating laminar flow fan can blow hot air towards the ampoule on the ampoule conveying net belt, and is characterized in that: the preheating laminar flow box body is arranged below the ampoule conveying mesh belt and is provided with a cullet collecting box (4), the upper end of the cullet collecting box is provided with an opening which is opposite to the ampoule conveying mesh belt, the side wall of the cullet collecting box is provided with a drawer drawing opening, the glass cullet collecting box is provided with a glass cullet drawer (5) which can be pulled out, an opening structure which is opposite to the upper opening of the glass cullet collecting box is formed on the upper side of the glass cullet drawer, and the glass cullet drawer can be pulled out from a drawer pulling opening on the side wall of the glass cullet collecting box.

2. The ampoule bottle washer cullet cleaning and recovery mechanism of claim 1, wherein: the preheating section bottle feeding table plate is characterized in that the preheating section bottle feeding table plate (6) is further arranged on the preheating layer flow box body, the preheating section bottle feeding table plate is connected with the starting end of the ampoule conveying mesh belt in an aligned mode, fixing rods are respectively arranged on two sides of the preheating section bottle feeding table plate in the direction of the ampoule conveying mesh belt in a rotatable mode, signal plates (7) and signal induction rods (8) are fixedly arranged on the side walls of the fixing rods, a horn-shaped bottle feeding opening of the preheating section bottle feeding table plate is formed between the two signal plates, the signal induction rods are located below the preheating section bottle feeding table plate, proximity switches (9) are respectively arranged on two sides of the below the preheating section bottle feeding table plate, the signal induction rods can trigger the proximity switches along with rotation of the fixing rods, and the proximity switches are in electric connection communication with motors of the ampoule conveying mesh belt.

3. The ampoule bottle washer cullet cleaning and recovery mechanism of claim 2, wherein: the two signal plates are V-shaped structure plates, and the V-shaped structure openings of the two signal plates are arranged in opposite directions.

4. The ampoule bottle washer cullet cleaning and recovery mechanism of claim 3, wherein: the preheating laminar flow box body is also provided with a broken glass cleaning brush (11) which can reciprocate at the upper position of the bottle feeding bedplate of the preheating section, broken glass in the concave arc inner space of the V-shaped structure of the preheating section entering the surface of the bottle platen and the signal board can be swept to the surface of the ampoule conveying mesh belt by the broken glass sweeping brush.

5. The ampoule bottle washer cullet cleaning and recovery mechanism of claim 2, wherein: the preheating laminar flow box body is internally provided with an elastic reset piece, the orientation of the signal board is reduced when the elastic reset piece provides rotating torsion for the fixed rod, the horn-shaped bottle inlet gap direction rotates, two sides below the preheating section bottle inlet platen are also respectively provided with a limiting block (10), and one side of the signal induction rod, which is opposite to the proximity switch, is stopped on the surface of the limiting block.

6. The ampoule bottle washer cullet cleaning and recovery mechanism of claim 1, wherein: the utility model discloses a glass breaking full material detection device, glass breaking full material detection device and glass breaking full material indicator lamp electric connection communication are still equipped with glass breaking full material detection device on the garrulous glass collecting box inside wall, still install glass breaking full material indicator lamp (12) on the glass breaking collecting box lateral wall, glass breaking full material detection device can detect whether garrulous glass reaches appointed height in the glass breaking drawer, and glass breaking full material indicator lamp can show different colours according to the signal that glass breaking full material detection device transmitted.

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