CN112456768B - Pre-filling and sealing bottle making machine B part and working method thereof - Google Patents

Abstract

The invention discloses a pre-filling and sealing bottle making machine B part and a working method thereof, wherein the pre-filling and sealing bottle making machine B part comprises a bottle making machine B part body assembled on a bottle making machine frame, wherein the bottle making machine B part body is provided with a slag blowing cleaning station before a bottle taking station and after a bottle unloading station, and the bottle making machine frame corresponding to the slag blowing cleaning station is provided with a slag blowing cleaning mechanism for cleaning slag blowing of a B part chuck; the working method of the B part of the pre-filling and sealing bottle making machine comprises the steps of S1, taking bottles; s2, processing; s3, unloading the bottle; s4, slag blowing and cleaning. The invention can clean the slag blowing of the clamping head at the B part. The invention is suitable for the part B of the pre-filling and sealing bottle making machine and is used for cleaning the slag blowing of the clamping head after bottle unloading and before bottle taking.

Description

Pre-filling and sealing bottle making machine B part and working method thereof

Technical Field

The invention belongs to the technical field of bottle making machines, and particularly relates to a pre-filling and sealing bottle making machine B part and a working method thereof.

Background

The bottle making machine B part body is assembled on a bottle making machine frame on one side of the bottle making machine A part, and comprises a B part big disc driven to rotate by a driving mechanism and a plurality of B part chucks which are circumferentially and uniformly assembled on the B part big disc, and the B part chucks are driven by the B part big disc to circularly operate among different bottle making stations corresponding to the bottle making processing mechanism. When the body of the B part of the bottle making machine is used for processing semi-finished product bottles, the chuck of the B part of the bottle making machine is rotated to a bottle taking station to clamp the semi-finished product bottles output by the A part of the bottle making machine, the chuck of the B part of the bottle making machine is driven to clamp the semi-finished product bottles to sequentially finish the forming processing procedure under the rotation of the big disk of the B part of the bottle making machine, the chuck of the B part of the bottle making machine is rotated to a bottle unloading station to unload the bottles, and finally the chuck of the B part of the bottle making machine is driven to directly rotate to the bottle taking station to reset by the big disk of the B part of the bottle making machine, and the processing of the bottles is realized in a repeated manner.

In the actual production process, the waste residues generated in the processing process are very easy to fall into the clamping head of the B part of the bottle making machine due to the fact that the B part of the bottle making machine is used for forming the semi-finished bottle body, so that the normal use of the clamping head of the B part is directly influenced, and the following influences are brought to production:

one of them is to influence the opening and closing of the jaws. When waste residue falls in the clamping jaw opening and closing control mechanism of the clamping head, the normal opening and closing function of the clamping jaw at the end part of the clamping head is affected, so that a semi-finished bottle body output by the A part is not clamped by the clamping head of the bottle taking position by the B part in time, and the semi-finished bottle output by the A part is caused to fall downwards, thereby reducing the output quantity of products and increasing the production cost.

And secondly, the positioning accuracy and stability of the bottle clamping are reduced. When waste residue drops in the clamping jaw, the center line of the semi-manufactured goods bottle body clamped by the clamping jaw is easy to deviate from the center line of the B part chuck, so that the positioning accuracy and the bottle clamping stability of the clamping jaw for clamping the bottle are affected, the semi-manufactured goods bottle body is caused to shake in the clamping jaw, the accuracy of subsequent bottle processing is affected, the production quality of products is reduced, and the reject ratio is increased.

Thirdly, the surface of the bottle body is easy to scratch. When waste residues fall on the contact surface of the clamping jaw and the bottle body, the outer surface of the bottle body is easily scratched, the surface quality of the bottle body is affected, and the reject rate is increased.

Disclosure of Invention

In order to solve the defects in the prior art, the invention aims to provide a B part of a pre-filling and sealing bottle making machine and a working method thereof so as to achieve the aim of cleaning slag blowing of a clamping head of the B part.

In order to achieve the above purpose, the technical scheme adopted by the invention is as follows: the utility model provides a prepackaged bottle-making machine B portion, includes the bottle-making machine B portion body of assembly in the bottle-making machine frame, and bottle-making machine B portion body is equipped with before getting the bottle station, unload behind the bottle station and blow the sediment clearance station, is equipped with the sediment that blows that is used for blowing the sediment clearance to the B portion chuck on the bottle-making machine frame of sediment clearance station is blown in the correspondence.

As the limitation of the invention, the slag blowing and cleaning mechanism comprises a gas transmission assembly fixedly arranged on a frame of the bottle making machine and a gas blowing assembly fixedly arranged on a big disk of the B part of the bottle making machine and respectively corresponding to the clamping heads of the B part of each bottle making machine, wherein a gas transmission outlet of the gas transmission assembly corresponds to a gas blowing inlet of the gas blowing assembly on a slag blowing and cleaning station, and a gas blowing outlet of each group of gas blowing assemblies corresponds to a gas inlet of a corresponding clamping head shaft sleeve of the B part.

As a further limitation of the invention, the gas transmission assembly comprises a telescopic device fixedly arranged on the stand of the bottle making machine and a gas transmission pipe fixedly arranged at the power output end of the telescopic device, the gas transmission inlet of the gas transmission pipe is connected with a gas source, and the gas transmission outlet of the gas transmission pipe corresponds to the gas blowing inlet of the gas blowing assembly on the slag blowing cleaning station.

As still further defined by the invention, the blowing assembly comprises blowing pipes fixedly arranged on the big plate of the B part of the bottle making machine, the blowing inlets of the blowing pipes on the slag blowing cleaning station correspond to the gas delivery outlets of the gas delivery pipes, and the blowing outlets of each group of blowing pipes of the blowing assembly are correspondingly arranged with the corresponding gas inlets of the chuck shaft sleeves of the B part.

As a further limitation of the invention, the gas delivery outlet of the gas delivery pipe and the gas blowing inlet of the gas blowing pipe are provided with the matched taper.

As other limitation of the invention, the waste residue hopper is fixedly arranged on the frame of the bottle making machine and is correspondingly arranged with the slag blowing and cleaning station chuck.

The invention also provides a working method of the B part of the pre-filling and sealing bottle making machine, which is realized by utilizing the B part of the pre-filling and sealing bottle making machine, and the technical scheme is as follows: the method comprises the following steps:

s1, taking a bottle: driving a big plate at the B part of the bottle making machine to rotate, and positioning a chuck at the B part to a bottle taking station for taking bottles;

s2, bottle body processing: driving a big plate at the B part of the bottle making machine to rotate, positioning a chuck at the B part to a processing station for processing and forming the bottle body;

s3, unloading: driving a big plate at the B part of the bottle making machine to rotate, and positioning a chuck at the B part to a bottle unloading station for unloading bottles;

s4, slag blowing and cleaning: and driving the big disk at the B part of the bottle making machine to rotate, positioning the chuck at the B part to a slag blowing and cleaning station, and cleaning the slag blowing and cleaning mechanism for the chuck at the B part.

As a limitation of the present invention, step S4 includes the steps of:

s41, positioning: driving a B part large disc of the bottle making machine to rotate, and positioning a B part chuck to a slag blowing and cleaning station;

s42, gas butt joint: the gas transmission outlet of the gas transmission assembly is in butt joint with the gas blowing inlet of the gas blowing assembly arranged at the slag blowing cleaning station;

s43, blowing and deslagging: opening an air source, discharging air into a chuck shaft sleeve at the part B of the slag blowing cleaning station by an air blowing assembly, and blowing air to the chuck to remove slag;

s44, closing the air source.

As a further definition of the invention, step S4 comprises the steps of:

s42, gas butt joint: the expansion device drives the gas delivery outlet of the gas delivery pipe to extend into the gas blowing inlet of the gas blowing pipe;

s43, blowing and deslagging: opening an air source, blowing air into the air pipe, discharging the air into a corresponding chuck shaft sleeve of the part B through an air blowing pipe of the slag blowing cleaning station, and blowing the air to the clamping jaw by the chuck shaft sleeve to remove slag;

s44, air-off reset: closing the air source and resetting the telescopic device.

By adopting the technical scheme, compared with the prior art, the invention has the following beneficial effects:

according to the invention, the slag blowing and cleaning station is additionally arranged between the bottle unloading station and the bottle taking station of the B part of the bottle making machine, so that the gas can be blown into the shaft sleeve of the chuck on the slag blowing and cleaning station through the gas pipe after unloading the bottle, so that the gas is blown into the clamping jaw at the front end of the shaft sleeve through the shaft sleeve, and the cleaning of the waste slag in the chuck is realized. After the clamping head is cleaned by blowing slag, the clamping jaw can be ensured to be normally opened and closed, so that the bottle taking position clamping head at the B part timely clamps the semi-finished product bottle output by the A part. And moreover, the positioning accuracy and the bottle clamping stability of the bottle clamping can be effectively ensured, namely, the center line of the semi-finished product bottle clamped by the clamping jaw is collinear with the center line of the B-part clamping head, the semi-finished product bottle is stably clamped in the clamping jaw, the accuracy of bottle processing in the subsequent processing procedure is ensured, the condition that waste residues in the clamping jaw are contacted with the surface of the clamped bottle body to scratch the surface of the bottle body can be avoided, the production quality of products is effectively improved, and the reject ratio is reduced.

The invention is suitable for the part B of the pre-filling and sealing bottle making machine and is used for cleaning the slag blowing of the clamping head after bottle unloading and before bottle taking.

Drawings

The invention will be described in more detail below with reference to the accompanying drawings and specific examples.

Fig. 1 is a schematic perspective view of embodiment 1 of the present invention;

FIG. 2 is a top view showing the structural relationship of embodiment 1 of the present invention;

FIG. 3 is a cross-sectional view showing the structural relationship of the slag blowing and cleaning station according to embodiment 1 of the present invention;

fig. 4 is a cross-sectional view showing the construction relationship of the slag blowing and cleaning station after the cylinder in embodiment 2 of the present invention is reset.

In the figure: 1. a frame; 2. a slag blowing cleaning station; 3. a bottle unloading station; 4. a bottle taking station; 5. a B part big disc; 6. a clamping head of the B part; 7. a gas pipe; 8. a cylinder; 9. an air blowing pipe; 10. a shaft sleeve; 11. a clamping jaw; 12. a blowing outlet of the blowing pipe; 13. a gas outlet of the gas pipe; 14. an air blowing inlet of the air blowing pipe; 15. a gas inlet of the gas pipe.

Detailed Description

Preferred embodiments of the present invention will be described below with reference to the accompanying drawings. It should be understood that the preferred embodiments described herein are presented for purposes of illustration and understanding only, and are not intended to limit the invention.

Example 1A prefilled bottle machine B section

In the embodiment, the slag blowing and cleaning station 2 is additionally arranged behind the bottle unloading station 3 and in front of the bottle taking station 4 of the B part body of the bottle making machine, and slag blowing and slag discharging cleaning operations are carried out on the B part clamping head 6 after bottle unloading and before bottle taking through the slag blowing and cleaning mechanism, so that waste slag in the B part clamping head 6 is cleaned.

As shown in fig. 1 to 3, the present embodiment includes a bottle making machine B body provided with a slag blowing cleaning station 2 between a bottle taking station 4 and a bottle unloading station 3, and a slag blowing cleaning mechanism, both of which are assembled on a bottle making machine frame 1. Wherein, bottle-making machine B portion body adopts bottle-making machine B portion structure among the prior art, as shown in fig. 2, and actuating mechanism drive bottle-making machine B portion large tray 5 anticlockwise rotates, is located behind unloading bottle station 3, is equipped with in front of getting bottle station 4 and blows sediment clearance station 2. The slag blowing and cleaning mechanism comprises a gas transmission assembly and a blowing assembly.

And the gas transmission assembly is used for blowing gas into the blowing assembly. The gas transmission assembly is fixedly arranged on the frame 1 of the bottle making machine and is correspondingly arranged with the gas blowing assembly on the slag blowing and cleaning station 2, namely, the gas transmission outlet of the gas transmission assembly corresponds to the gas blowing inlet of the gas blowing assembly on the slag blowing and cleaning station, so that the gas in the gas transmission assembly is discharged into the gas blowing assembly. The gas transmission assembly comprises a telescopic device, a gas source and a gas transmission pipe 7. The telescopic device is fixedly arranged on the bottle making machine frame 1, the telescopic device is a linear driver which can drive the gas pipe 7 to linearly move to the blowing inlet of the blowing assembly, and the telescopic device can be a linear motor, an electric screw rod and other structures which can realize the linear movement of the gas pipe 7 in the prior art. The telescopic device of the embodiment adopts a cylinder 8, and the power output end of the cylinder 8 is fixedly connected with a gas pipe 7. The gas inlet at one end of the gas pipe 7 is connected with a gas source, and the gas outlet at the other end of the gas pipe 7 corresponds to the gas inlet of the gas blowing assembly on the slag blowing cleaning station 2.

In order to facilitate the gas pipe 7 at the gas outlet to extend into the gas blowing inlet of the gas blowing assembly on the slag blowing cleaning station 2, the gas outlet 13 of the gas pipe and the gas blowing inlet 14 of the gas pipe are provided with adaptive taper, so that the gas outlet 13 of the gas pipe is conveniently inserted into the gas blowing inlet 14 of the gas pipe. Further, a soft plug of soft material with taper can be arranged on the gas pipe 7 at the gas outlet so as to improve the tightness of the joint of the gas outlet 13 of the gas pipe and the gas inlet 14 of the gas pipe.

The blowing assembly is used for discharging the gas blown in the gas transmission assembly into the chuck shaft sleeve 10 at the B part of the slag blowing cleaning station 2, and a group of blowing assemblies are correspondingly arranged on the chuck 6 at the B part of each bottle making machine. Each group of blowing assemblies comprises a blowing pipe 9 fixedly arranged on a big plate 5 at the B part of the bottle making machine, a blowing inlet 14 of the blowing pipe on the slag blowing cleaning station 2 corresponds to a gas outlet 13 of the gas pipe, a blowing outlet 12 of each group of blowing assemblies corresponds to a gas inlet of a shaft sleeve 10 of a corresponding chuck 6 at the B part, namely, the blowing outlets 12 of each group of blowing pipes are arranged outside the gas inlet of the shaft sleeve 10 of the corresponding chuck 6 at the B part and are oppositely arranged, and the axis of the blowing outlet 12 of the blowing pipe is collinear with the axis of the shaft sleeve 10 of the corresponding chuck.

In order to collect the waste slag blown out by the slag blowing cleaning station 2, a waste slag hopper (not shown in the figure) is fixedly arranged on the frame 1 of the bottle making machine. The slag hopper is arranged corresponding to the front end of the clamping jaw 11 of the clamping head of the slag blowing and cleaning station 2.

The slag blowing cleaning method of this example is shown in example 2.

Example 2A method for operating the B section of a prefilled bottle making machine

This example was realized by the pre-potting machine B part of example 1, and includes the following steps under the control of the machine controller:

s1, taking a bottle: the big disk 5 at the B part of the bottle making machine is driven to rotate, the chuck 6 at the B part is positioned to the bottle taking station 4, and the chuck 6 at the B part clamps the semi-finished bottle body input to the B part.

S2, bottle body processing: the big plate 5 at the B part of the bottle making machine is driven to rotate, the clamping head 6 at the B part is sequentially positioned at each processing station, and the bottle body is processed and molded step by a corresponding processing mechanism.

S3, unloading: the big B-part disc 5 of the bottle making machine is driven to rotate, the clamping head 6 of the B-part is positioned to the bottle unloading station 3, and the bottle unloading mechanism takes down the finished bottle after being processed and molded from the clamping head 6 of the B-part and transfers the finished bottle to the next production process.

S4, slag blowing and cleaning: the big B part disc 5 of the bottle making machine is driven to rotate, the B part clamping head 6 after bottle unloading is positioned to the slag blowing cleaning station 2, and the slag blowing cleaning mechanism is used for cleaning slag blowing of the B part clamping head 6. Namely, the method comprises the following steps:

s41, positioning: the big B part disc 5 of the bottle making machine is driven to rotate, and the B part clamping head 6 after bottle unloading is positioned on the slag blowing cleaning station 2.

S42, gas butt joint: the gas outlet 13 of the gas pipe is aligned with the gas blowing inlet 14 of the gas blowing pipe arranged at the slag blowing and cleaning station 2, namely, the gas cylinder 8 drives the gas pipe 7 to linearly move until the gas outlet 13 of the gas pipe extends into the gas blowing inlet 14 of the gas blowing pipe, so that the gas outlet 13 of the gas pipe corresponds to the gas blowing inlet 14 of the gas blowing pipe of the slag blowing and cleaning station 2.

S43, blowing and deslagging: the gas source is opened, gas is blown into the gas pipe 7, and is discharged into the corresponding shaft sleeve 10 of the chuck 6 at the B part through the gas blowing pipe 9 of the slag blowing cleaning station 2, the gas is blown to the clamping jaw 11 by the shaft sleeve 10 of the chuck 6 at the B part for slag discharging, and the waste slag at the chuck is discharged outwards and can fall into the waste slag hopper positioned at the front end of the clamping jaw 11 on the slag blowing cleaning station 2.

S44, air-off reset: the air source is closed, the air cylinder 8 is reset, and the air outlet 13 of the air pipe leaves the air blowing inlet 14 of the air blowing pipe, as shown in fig. 4.

S5, repeating the steps S1-S4.

It should be noted that the foregoing description is only a preferred embodiment of the present invention, and is not intended to limit the present invention, but the present invention is described in detail with reference to the foregoing embodiment, and it will be apparent to those skilled in the art that modifications may be made to the technical solutions described in the foregoing embodiments, or equivalents may be substituted for some of the technical features thereof. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The utility model provides a bottle-making machine B portion of embedment in advance, includes bottle-making machine B portion body of assembly in the bottle-making machine frame, its characterized in that: the bottle making machine B part body is provided with a slag blowing and cleaning station before the bottle taking station and after the bottle unloading station, and a slag blowing and cleaning mechanism for cleaning slag blowing of the chuck of the B part is arranged on a bottle making machine frame corresponding to the slag blowing and cleaning station;

the slag blowing and cleaning mechanism comprises a gas transmission assembly fixedly arranged on a frame of the bottle making machine and a gas blowing assembly fixedly arranged on a big plate at the B part of the bottle making machine and respectively corresponding to the clamping heads at the B part of each bottle making machine, a gas transmission outlet of the gas transmission assembly corresponds to a gas blowing inlet of the gas blowing assembly at a slag blowing and cleaning station, and a gas blowing outlet of each group of gas blowing assemblies corresponds to a gas inlet of a corresponding clamping head shaft sleeve at the B part;

the gas transmission assembly comprises a linear expansion device fixedly arranged on the frame of the bottle making machine and a gas transmission pipe fixedly arranged at the power output end of the linear expansion device, a gas transmission inlet of the gas transmission pipe is connected with a gas source, and a gas transmission outlet of the gas transmission pipe corresponds to a gas blowing inlet of the gas blowing assembly on the slag blowing cleaning station;

the blowing assembly comprises blowing pipes fixedly arranged on a big plate at the B part of the bottle making machine, a blowing inlet of each blowing pipe on the slag blowing cleaning station corresponds to a gas transmission outlet of the gas transmission pipe, and a blowing outlet of each blowing assembly blowing pipe corresponds to a corresponding gas inlet of the chuck shaft sleeve at the B part;

the gas pipe at the gas outlet is provided with a soft plug made of soft materials with taper.

2. The pre-filled bottle machine B of claim 1, wherein: the gas delivery outlet of the gas delivery pipe and the gas blowing inlet of the gas blowing pipe are provided with an adaptive taper.

3. The pre-potting machine B section according to claim 1 or 2, wherein: the slag hopper is fixedly arranged on the frame of the bottle making machine and corresponds to the slag blowing and cleaning station chuck.

4. A working method of a B part of a pre-filling and sealing bottle making machine is characterized by comprising the following steps of: the pre-filling and sealing bottle making machine B part according to any one of claims 1-3, comprising the following steps:

s1, taking a bottle: driving a big plate at the B part of the bottle making machine to rotate, and positioning a chuck at the B part to a bottle taking station for taking bottles;

s2, bottle body processing: driving a big plate at the B part of the bottle making machine to rotate, positioning a chuck at the B part to a processing station for processing and forming the bottle body;

s3, unloading: driving a big plate at the B part of the bottle making machine to rotate, and positioning a chuck at the B part to a bottle unloading station for unloading bottles;

s4, slag blowing and cleaning: and driving the big disk at the B part of the bottle making machine to rotate, positioning the chuck at the B part to a slag blowing and cleaning station, and cleaning the slag blowing and cleaning mechanism for the chuck at the B part.

5. The working method of the B part of the pre-filling and sealing bottle making machine according to claim 4, which is characterized in that: step S4 comprises the steps of:

s41, positioning: driving a B part large disc of the bottle making machine to rotate, and positioning a B part chuck to a slag blowing and cleaning station;

s42, gas butt joint: the gas transmission outlet of the gas transmission assembly is in butt joint with the gas blowing inlet of the gas blowing assembly arranged at the slag blowing cleaning station;

s43, blowing and deslagging: opening an air source, discharging air into a chuck shaft sleeve at the part B of the slag blowing cleaning station by an air blowing assembly, and blowing air to the chuck to remove slag;

s44, closing the air source.

6. The working method of the B part of the pre-filling and sealing bottle making machine according to claim 4, which is characterized in that: step S4 comprises the steps of:

s41, positioning: driving a B part large disc of the bottle making machine to rotate, and positioning a B part chuck to a slag blowing and cleaning station;

s42, gas butt joint: the expansion device drives the gas delivery outlet of the gas delivery pipe to extend into the gas blowing inlet of the gas blowing pipe;

s43, blowing and deslagging: opening an air source, blowing air into the air pipe, discharging the air into a corresponding chuck shaft sleeve of the part B through an air blowing pipe of the slag blowing cleaning station, and blowing the air to the clamping jaw by the chuck shaft sleeve to remove slag;

s44, air-off reset: closing the air source and resetting the telescopic device.