CN219187458U - Bottle body sliding material spraying device - Google Patents

Abstract

The application relates to the technical field of bottle spraying, specifically discloses a bottle smooth material spraying device, including conveying unit, smooth material storage room, spraying structure, ultrasonic sensor, mobile unit and first motor, its characterized in that: the first motor is arranged below the end part of the conveying unit; the ultrasonic sensor is arranged below the conveying unit and aligned with the center of the spraying structure; the spraying structure is arranged at the rear of the position where the ultrasonic sensor is arranged; the sliding material storage chamber is arranged right above the spraying structure; the mobile unit is disposed between the ultrasonic sensor and the spray structure, and the mobile unit is aligned with a center of the spray structure. The purpose of this patent is to solve the problem that current body smooth material spraying device can't carry out comprehensive spraying to body and bottle in.

Description

Bottle body sliding material spraying device

Technical Field

The utility model relates to the technical field of bottle body spraying, in particular to a bottle body sliding material spraying device.

Background

In life, glass bottles are widely used, often used for containing or storing various articles, and are popular with people. Therefore, the glass bottle body and the smoothness in the bottle are also required to be higher, the glass bottle is sprayed through the spray gun at present, the efficiency is low, the spraying time is long, the spraying is possibly uneven, the bottle body is not smooth, dust is easy to deposit, and the cleaning is difficult.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides the bottle body sliding material spraying device, which solves the problem that the prior bottle body sliding material spraying device cannot comprehensively spray the bottle body and the bottle interior.

In order to solve the problems, the technical scheme adopted by the utility model is that the bottle body sliding material spraying device comprises a conveying unit, a sliding material storage chamber, a spraying structure, an ultrasonic sensor, a moving unit and a first motor, and is characterized in that: the first motor is arranged below the end part of the conveying unit; the ultrasonic sensor is arranged below the middle part of the transmission unit and aligned with the center of the spraying structure; the spraying structure is arranged at the rear part of the position where the ultrasonic sensor is positioned; the sliding material storage chamber is arranged right above the spraying structure; the mobile unit is disposed between the ultrasonic sensor and the spray structure, and the mobile unit is aligned with a center of the spray structure.

The technical principle of the scheme is as follows: the conveying unit conveys the glass bottle, when the ultrasonic sensor detects the glass bottle, the first motor controls the conveying belt to stop conveying the glass bottle, the glass bottle is moved into the spraying structure through the moving unit, and the sliding material is sprayed into the glass bottle body and the glass bottle through the spraying structure, so that the glass bottle is sprayed in an all-around mode.

The beneficial effect that this scheme produced is: the conveying unit is used for conveying the glass bottles, the ultrasonic sensor is used for detecting the positions of the glass bottles, the moving unit moves the glass bottles from the conveying unit to the spraying structure, the spraying structure is used for spraying the sliding materials in the bottle bodies and the bottles of the glass bottles, and the surfaces and the interiors of the glass bottles are smooth.

Further, the conveying unit comprises a conveying belt, rollers and a supporting frame, wherein the rollers are arranged below the conveying belt and are in sliding connection with the supporting frame, the first motor is arranged in the supporting frame and used for controlling the rollers to rotate, and the rollers drive the conveying belt to drive so as to convey glass bottles. The roller is supported by the supporting frame, and the first motor controls the roller to rotate to drive the conveying belt to drive so as to realize conveying of the glass bottle by the conveying unit.

Further, a feed inlet is arranged at the upper end part of the sliding material storage chamber, a warning lamp is arranged at one end, far away from the feed inlet, of the sliding material storage chamber, and a water level temperature sensor is arranged at the bottom part of the sliding material chamber; a first valve is arranged in the middle of the lower part of the sliding material storage chamber; and the outer ring of the sliding material storage chamber is provided with a heating layer, a heating device is arranged in the heating layer, and the heating device is electrically connected with the water level temperature sensor and the external power supply. A water level temperature sensor is arranged in the sliding material storage chamber, the residual quantity in the sliding material storage chamber and the temperature of the sliding material are monitored, and a warning lamp is used for reminding a worker to feed materials through a feed inlet at the upper end part of the sliding material storage chamber, so that the sliding material storage chamber is ensured to store sliding materials required for spraying glass bottles; and the sliding material storage chamber is provided with a heating layer, a heating device in the heating layer is electrically connected with a water level temperature sensor, and the working state of the heating device is controlled through the temperature monitored by the water level temperature sensor, so that the temperature of the sliding material is ensured to be closest to the temperature of the glass bottle, the sliding material is easier to be attached to the glass bottle in the sliding material spraying process, and the glass bottle after spraying is smoother.

Further, a water level temperature sensor is arranged at the bottom of the sliding material storage chamber, a charging opening is arranged at the upper end part of the sliding material storage chamber, and a switch is arranged at the charging opening and is electrically connected with the water level temperature sensor; a first valve is arranged in the middle of the lower part of the sliding material storage chamber; and the outer ring of the sliding material storage chamber is provided with a heating layer, a heating device is arranged in the heating layer, and the heating device is electrically connected with the water level temperature sensor and the external power supply. A water level temperature sensor is arranged in the sliding material storage chamber, the residual quantity in the sliding material storage chamber and the temperature of the sliding material are monitored, and the closing and opening of a switch at a feeding port are controlled according to the monitoring result of the water level temperature sensor so as to automatically realize feeding; and the sliding material storage chamber is provided with a heating layer, a heating device in the heating layer is electrically connected with a water level temperature sensor, and the working state of the heating device is controlled through the temperature monitored by the water level temperature sensor, so that the temperature of the sliding material is ensured to be closest to the temperature of the glass bottle, the sliding material is easier to be attached to the glass bottle in the sliding material spraying process, and the glass bottle after spraying is smoother.

Further, the spraying structure comprises a bottle body spraying structure and an in-bottle spraying structure, the bottle body spraying structure is arranged on two sides of a supporting frame of the spraying structure, the bottle body spraying structure comprises a first sliding material transmission channel, an atomizer, a first spray head and a first diffuser, and the first sliding material transmission channel is arranged between the sliding material storage chamber and the spray head; the atomizer is arranged in the sliding material transmission channel and is communicated with the first spray head; the first diffuser is fixedly connected with the first spray head. The body spraying structure is arranged on two sides of the spraying structure supporting frame, the atomizer is arranged in the first sliding material transmission channel, sliding materials in the first sliding material transmission channel are atomized, the atomized sliding materials are sprayed on the glass bottle through the first spray head and the first diffuser, the coverage area of the sliding materials sprayed through the first diffuser is larger, the glass bottle is enabled to be in contact with the sliding materials in a larger area, and the spraying of the sliding materials after atomization is more uniform.

Further, the in-bottle spraying structure is arranged in the middle of the top of the spraying structure supporting frame and comprises a first cylinder, a piston rod, a connecting rod, a second sliding material transmission channel, a second valve, a telescopic pipeline, an atomizer, a second spray head and a second diffuser, one end of the piston rod is movably connected with the cylinder, the other end of the piston rod is fixedly connected with one end of the connecting rod, and the other end of the connecting rod is fixedly connected with the second sliding material transmission channel; one end of the telescopic pipeline is communicated with a first sliding material transmission channel which is positioned right below the sliding material storage chamber, and a second valve is arranged at the joint of the first sliding material transmission channel and the telescopic pipeline, and the other end of the telescopic pipeline is fixedly connected with a second sliding material transmission channel; the atomizer is arranged in the second sliding material transmission channel and is communicated with the second spray head; the second diffuser is rotationally connected with the second spray head, wherein the second valve is always in a half-open and half-close state. The piston rod is driven to move up and down through the first air cylinder, the piston rod drives the connecting rod to move up and down, the connecting rod moves up and down to realize the extension and the shortening of the telescopic pipeline, and the second diffuser is controlled to rotate through the second motor to carry out omnibearing spraying in the bottle.

Further, the moving unit comprises an ultrasonic sensor, a push rod, a fixed plate, a chute, a supporting plate, a third motor and a rotary table, wherein the ultrasonic sensor is arranged on the supporting plate below the conveyor belt and aligned with the spraying structure in the bottle; the third motor is arranged below the supporting plate and is electrically connected with the turntable; the push rods are arranged on two sides of the spraying structure, are parallel to the supporting frame of the spraying structure and are perpendicular to the ground; the fixing plates are arranged in the supporting frame of the spraying structure and are parallel to the supporting frame, and a sliding chute for sliding the glass bottle is arranged between the two fixing plates; the turntable is arranged right below the spraying device in the bottle. Set up mobile unit between conveyer belt and spraying structure, detect through ultrasonic sensor, judge after the glass bottle conveys the assigned position, first motor control conveyer belt stops, control push rod is with the glass bottle from the conveyer belt under the assistance of fixed plate and spout propelling movement to be in on the carousel under the spraying structure in the bottle, carries out the in-process of sliding material spraying at the spraying structure, drives the glass bottle through third motor control carousel and rotates for the spraying to the glass bottle is more comprehensive.

Further, the push rod includes cylinder, mobile jib, auxiliary rod and auxiliary frame, and the cylinder is installed in the one end of mobile jib, and the one end and the cylinder of auxiliary rod are connected, and the other end fixedly connected with auxiliary frame of auxiliary rod, auxiliary frame are circular-arc. Be provided with the cylinder on the mobile jib that is in both sides, with glass bottle follow conveyer belt propelling movement to the first cylinder on the carousel by ultrasonic sensor's monitoring result drive, with glass bottle follow carousel propelling movement to the second cylinder of conveyer belt according to the long control of spraying that sets up in advance, cylinder drive auxiliary rod motion realizes the removal of glass bottle, and the one end that auxiliary rod kept away from the mobile jib is fixed with and is convex auxiliary frame, and the circular arc is laminated more with the glass bottle to ensure the safety of pushing in-process glass bottle.

Drawings

Fig. 1 is a schematic front view of a bottle body spraying device provided by the utility model;

fig. 2 is a schematic front view of an area a of the body spraying device according to the present utility model;

fig. 3 is a schematic top view of a region B of the body spraying device according to the present utility model;

fig. 4 is a schematic left view of a region B of a body spraying device according to the present utility model.

Detailed Description

The following is a further detailed description of the embodiments:

reference numerals in the drawings of the specification include: the device comprises a sliding material storage chamber 1, a heating layer 101, a water level temperature sensor 102, a charging hole 103, a warning lamp 104, a first valve 2, a first motor 6-1, a support frame 10, rollers 4, a conveyor belt 11, a first sliding material transmission channel 20, an atomizer 5, a first spray nozzle 501, a first diffuser 502, a first cylinder 201, a piston rod 202, a connecting rod 203, a second valve 2-1, a telescopic pipeline 80, a second sliding material transmission channel 20-1, a second spray nozzle 501-1, a second diffuser 502-1, a third motor 6-3, a support plate 8, an ultrasonic sensor 9, a fixed plate 16, a sliding chute 11-1, a rotary disc 12, a main rod 13, a second cylinder 7-1, a third cylinder 7-2, an auxiliary frame 17 and an auxiliary rod 19.

Example 1 this is shown in the accompanying drawings:

the utility model provides a body slide spraying device, as shown in fig. 1-4, including the conveyer belt unit, the slide storage room, the spraying structure, ultrasonic sensor, mobile unit and first motor 6-1, it is transmitted to control the conveyer unit through first motor 6-1, in order to realize the conveying of glass bottle, ultrasonic sensor 9 is installed in the conveyer unit below and aligns with the center of spraying structure, when the conveyer unit conveys the glass bottle to ultrasonic sensor 9 place, first motor 6-1 controls the conveyer unit and stops the transmission, mobile unit moves the glass bottle from conveying to the spraying structure simultaneously, move the slide spraying that stores in the slide storage room 1 on the glass bottle through the spraying structure, move the glass bottle from the spraying structure to the conveyer belt again by the mobile unit, first motor 6-1 controls the conveyer unit and continues the transmission, the glass bottle that will spray finish conveys to the next process.

The roller 4 and the conveyor belt 11 of the conveying unit are supported by the supporting frame 10, the first motor 6-1 is arranged in the supporting frame 10, the roller 4 is driven to rotate by the first motor 6-1, the roller 4 drives the conveyor belt 11 to drive so as to convey glass bottles, a spraying structure is arranged beside the conveyor belt 11, the ultrasonic sensor 9 is arranged below the conveyor belt 11 and aligned with the center of the spraying structure, during conveying of the glass bottles, if the ultrasonic sensor 9 detects that the glass bottles are conveyed to the position where the ultrasonic sensor 9 is located, the first motor 6-1 controls the conveyor belt 11 to stop driving, meanwhile, the second cylinder 7-1 drives the auxiliary rod 18 to push the glass bottles from the conveyor belt 11 to the turntable 12 through the sliding groove 11-1, and during pushing of the glass bottles, the two sides of the sliding groove 11-1 are provided with fixing plates 16 so as to ensure safety during pushing of the glass bottles, and when the glass bottles are pushed onto the turntable 12, the auxiliary rod 18 is retracted for the next pushing. After the glass bottles are sprayed for a preset time by the spraying mechanism, the third air cylinder 7-2 drives the auxiliary rod 18 to push the glass bottles from the turntable 12 to the conveyor belt 11 through the chute 11-1, and the first motor 6-1 rotates to control the conveyor belt 11 to continuously convey the glass bottles. The mobile unit's mobile jib 13 sets up in spraying structure's both sides to be parallel to spraying structure's braced frame and perpendicular to level ground, install the cylinder in the one end of mobile jib 13, it is flexible to drive auxiliary lever 18 through the cylinder, realizes the removal of glass bottle between conveyer belt 11 and carousel 12, and the one end that auxiliary lever 18 kept away from the cylinder is provided with and is circular-arc auxiliary frame 17, auxiliary frame 17 laminating with the glass bottle when the propelling movement glass bottle, safety when guaranteeing the glass bottle propelling movement.

The first valve 2 is electrically connected with an external power supply, when the glass bottle is pushed onto the turntable 12, the external power supply controls the first valve 2 to be opened, so that the sliding material enters the first sliding material transmission channel 20 from the sliding material storage chamber 1 and enters the second sliding material transmission channel 20-1 through the second valve 2-1 which is semi-opened and semi-closed, after the sliding material enters the first sliding material transmission channel 20, the atomizer 5 atomizes the sliding material, the atomized sliding material sprays the bottle body through the first spray head 501 and the first diffuser 502, meanwhile, the first cylinder 201 drives the piston rod 202 to move downwards, the telescopic pipeline 80 is driven to stretch through the connecting rod 203, the second sliding material transmission channel 20-1 stretches into the glass bottle to spray the sliding material in the glass bottle, after the sliding material enters the second sliding material transmission channel 20-1, the atomizer 5 atomizes the sliding materials, the atomized sliding materials are sprayed into the bottle through the second spray nozzle 501-1 and the second diffuser 502-1, the second diffuser 502-1 is rotationally connected with the second spray nozzle 501-1 through a rotating connecting shaft which is not shown in the figure, in the process of spraying the sliding materials into the bottle, the rotating connecting shaft is driven to rotate through a third motor 6-3 so that the second diffuser 502-1 can realize 360-degree rotation, the bottle is sprayed in an omnibearing manner, after a preset time, a first cylinder 201 drives a piston rod 202 to move upwards, a connecting rod 204 drives a telescopic pipeline 80 to retract, a second sliding material transmission pipeline 20-1 is pulled out of the glass bottle, a third cylinder 7-2 drives a subsidiary rod 18 to push the glass bottle from the rotary table 12 to the conveyor belt 11 through a sliding groove 11-1, when the ultrasonic sensor 9 detects that the glass bottle is positioned at the position of the ultrasonic sensor 9, the first motor 6-1 controls the conveyor belt 11 to continue driving, and the glass bottle is conveyed to the next process. When spraying the bottle body and the bottle, the sprayed water mist is atomized by the sliding material, so that the sliding material sprayed on the glass bottle is more uniform.

A water level temperature sensor 102 is arranged in the sliding material storage chamber 1 to monitor the residual quantity of sliding materials in the sliding material storage chamber 1 and the temperature of the sliding materials, when the water level temperature sensor 102 monitors that the residual quantity of the sliding materials is smaller than or equal to a preset value, a warning lamp 104 prompts a worker, and the worker reminds the worker of adding the sliding materials from a charging hole 103 through the warning lamp 104; or a switch is arranged at the feed inlet 103, when the water level temperature sensor 102 monitors that the residual amount of the sliding material is smaller than or equal to a preset value, the switch at the feed inlet 103 is controlled to be opened to automatically add the sliding material, and when the residual amount of the sliding material in the sliding material storage chamber 1 reaches a certain amount, the switch is closed to ensure that the sliding material required for spraying the glass bottle is stored in the sliding material storage chamber 1; and the outer ring of the sliding material storage chamber 1 is provided with a heating layer 101, a heating device is arranged in the heating layer 101, the heating device is not marked in the figure, a temperature range when the glass bottle is conveyed to the spraying structure is preset by the water level temperature sensor 102, the sliding material in the sliding material storage chamber 1 is heated by controlling the heating device through the temperature monitored by the water level temperature sensor 102, so that the temperature of the sliding material is kept basically consistent with the temperature of the glass bottle, the sliding material is ensured to be more easily attached to the glass bottle when the sliding material spraying is carried out, and uneven or uneven phenomenon does not occur on the glass bottle.

The specific implementation process is as follows:

the glass bottle conveying device is characterized in that conveying of glass bottles is achieved through a conveying belt 11, when a first motor 6-1 drives the conveying belt 11 to convey the glass bottles, the conveying belt 11 stops driving when the glass bottles reach the position where an ultrasonic sensor 9 is located, the glass bottles are pushed onto a rotary table 12 from the conveying belt 11 through a second cylinder 7-1 control auxiliary rod 18, the first valve 2 is powered on through an external power supply to open the first valve 2, the sliding materials enter a first sliding material conveying channel 20 and a second sliding material conveying channel 20-1, after the sliding materials are atomized through an atomizer 5, the sliding materials are sprayed into a bottle body and the bottle body of the glass bottles through a spray head and a diffuser, after the spraying structure sprays the bottle body and the bottle body of the glass bottles for a preset time, the glass bottles are pushed onto the conveying belt 11 from the rotary table 12 through a third cylinder 7-2 control auxiliary rod 18, the first motor 6-1 controls the conveying belt 11 to continue driving, and the glass bottles are conveyed to the next step.

The foregoing is merely exemplary embodiments of the present utility model, and specific structures and features that are well known in the art are not described in detail herein. It should be noted that modifications and improvements can be made by those skilled in the art without departing from the structure of the present utility model, and these should also be considered as the scope of the present utility model, which does not affect the effect of the implementation of the present utility model and the utility of the patent. The protection scope of the present application shall be subject to the content of the claims, and the description of the specific embodiments and the like in the specification can be used for explaining the content of the claims.

Claims (8)

1. The utility model provides a body sliding spraying device, includes conveying unit, sliding storage room, spraying structure, ultrasonic sensor, mobile unit and first motor, its characterized in that: the first motor is arranged below the end part of the conveying unit; the ultrasonic sensor is arranged below the conveying unit and aligned with the center of the spraying structure; the spraying structure is arranged at the rear of the position where the ultrasonic sensor is arranged; the sliding material storage chamber is arranged right above the spraying structure; the mobile unit is disposed between the ultrasonic sensor and the spray structure, and the mobile unit is aligned with a center of the spray structure.

2. The body slide spraying device according to claim 1, wherein: the conveying unit comprises a conveying belt, rollers and a supporting frame, wherein the rollers are arranged below the conveying belt and are in sliding connection with the supporting frame, and the first motor is arranged in the supporting frame and used for controlling the rollers to rotate and drive the conveying belt to drive so as to convey glass bottles.

3. The body slide spraying device according to claim 2, wherein: a feed inlet is arranged at the upper end part of the sliding material storage chamber, a warning lamp is arranged at one end, far away from the feed inlet, of the sliding material storage chamber, and a water level temperature sensor is arranged at the bottom part of the sliding material chamber; a first valve is arranged in the middle of the lower part of the sliding material storage chamber; and the outer ring of the sliding material storage chamber is provided with a heating layer, a heating device is arranged in the heating layer, and the heating device is electrically connected with the water level temperature sensor and an external power supply.

4. The body slide spraying device according to claim 1, wherein: a water level temperature sensor is arranged at the bottom of the sliding material storage chamber, a charging opening is arranged at the upper end part of the sliding material storage chamber, a switch is arranged at the charging opening, and the switch is electrically connected with the water level temperature sensor; a first valve is arranged in the middle of the lower part of the sliding material storage chamber; and the outer ring of the sliding material storage chamber is provided with a heating layer, a heating device is arranged in the heating layer, and the heating device is electrically connected with the water level temperature sensor and an external power supply.

5. The body slide spraying device according to claim 2, wherein: the spraying structure comprises a bottle body spraying structure and an in-bottle spraying structure, the bottle body spraying structure is arranged on two sides of the spraying structure supporting frame, the bottle body spraying structure comprises a first sliding material transmission channel, an atomizer, a first spray head and a first diffuser, and the first sliding material transmission channel is arranged between the sliding material storage chamber and the spray head; the atomizer is arranged in the sliding material transmission channel and is communicated with the first spray head; the first diffuser is fixedly connected with the first spray head.

6. The body slide spraying device according to claim 5, wherein: the in-bottle spraying structure is arranged in the middle of the top of the spraying structure supporting frame and comprises a first cylinder, a piston rod, a connecting rod, a second sliding material transmission channel, a second valve, a telescopic pipeline, an atomizer, a second spray head and a second diffuser, one end of the piston rod is movably connected with the first cylinder, the other end of the piston rod is fixedly connected with one end of the connecting rod, and the other end of the connecting rod is fixedly connected with the second sliding material transmission channel; one end of the telescopic pipeline is communicated with the first sliding material transmission channel right below the sliding material storage chamber, the second valve is arranged at the joint of the first sliding material transmission channel and the telescopic pipeline, and the other end of the telescopic pipeline is fixedly connected with the second sliding material transmission channel; the atomizer is arranged in the second sliding material transmission channel and is communicated with the second spray head; the second diffuser is rotationally connected with the second spray head, wherein the second valve is always in a half-open and half-close state.

7. The body slide spraying device according to claim 5, wherein: the device also comprises a moving unit, wherein the moving unit comprises an ultrasonic sensor, a push rod, a fixed plate, a chute, a supporting plate, a third motor and a turntable, the ultrasonic sensor is arranged on the supporting plate below the conveyor belt and aligned with the in-bottle spraying structure; the third motor is arranged below the supporting plate and is electrically connected with the turntable; the push rods are arranged on two sides of the spraying structure, are parallel to the supporting frame of the spraying structure and are perpendicular to the ground; the fixing plates are arranged in the supporting frame of the spraying structure and are parallel to the supporting frame, and a sliding chute for sliding the glass bottle is arranged between the two fixing plates; the turntable is arranged right below the spraying device in the bottle.

8. The body slide spraying device according to claim 7, wherein: the push rod comprises a cylinder, a main rod, an auxiliary rod and an auxiliary frame, wherein the cylinder is arranged at one end of the main rod, one end of the auxiliary rod is connected with the cylinder, the auxiliary frame is fixedly connected with the other end of the auxiliary rod, and the auxiliary frame is arc-shaped.

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