CN214193033U - B part of pre-filling and sealing bottle-making machine - Google Patents

Abstract

The utility model discloses a embedment bottle-making machine B portion in advance, including the bottle-making machine B portion body of assembly in the bottle-making machine frame, bottle-making machine B portion body is equipped with before getting the bottle station, after unloading the bottle station and blows sediment clearance station, and the corresponding bottle-making machine frame that blows sediment clearance station is equipped with the sediment clearance mechanism that blows that is used for blowing the sediment clearance to B portion chuck. The utility model discloses can blow the sediment clearance to B portion chuck. The utility model is suitable for a embedment bottle-making machine's B portion in advance for blow the sediment clearance to unloading behind the bottle, get the chuck before the bottle.

Description

B part of pre-filling and sealing bottle-making machine

Technical Field

The utility model belongs to the technical field of the bottle-making machine, specifically speaking are embedment bottle-making machine B portion in advance.

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, the bottle-making machine B part body comprises a B part large disc and a plurality of B part chucks, wherein the B part large disc is driven by a driving mechanism to rotate, the B part chucks are uniformly assembled on the B part large disc in the circumferential direction, and the B part chucks are driven by the B part large disc to circularly operate between different bottle-making stations corresponding to the bottle-making processing mechanism. When a semi-finished bottle body at the B part of a bottle making machine is processed, a chuck at the B part of the bottle making machine is rotated to a bottle taking station to clamp the semi-finished bottle body output by the A part of the bottle making machine, a large disc at the B part of the bottle making machine is rotated to drive the chuck at the B part to clamp the semi-finished bottle and finish a forming processing procedure in sequence, the chuck at the B part of the bottle making machine is rotated to a bottle unloading station to unload the bottle, and finally the large disc at the B part drives the chuck at the B part to directly rotate to the bottle taking station to reset, and the steps are repeated in sequence, so that the bottle body is processed.

In the actual production process, because the semi-finished bottle body forming in the B part of the bottle making machine is easy to drop the waste residue generated in the processing process into the chuck of the B part of the bottle making machine, the normal use of the chuck of the B part is directly influenced, and the following influences can be brought to the production:

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

And secondly, the positioning precision and the stability of the clamped bottle are reduced. When the waste residue drops in the clamping jaw, the center line of a semi-finished product bottle clamped by the clamping jaw is easy to deviate from the center line of the B chuck, the positioning precision and the bottle clamping stability of the clamping jaw for clamping the bottle are influenced, so that the semi-finished product bottle swings in the clamping jaw, the follow-up precision for processing the bottle is influenced, the production quality of products is reduced, and the rate of unqualified products is increased.

And thirdly, the surface of the bottle body is easily scratched. When the waste residue drops on the surface that clamping jaw and bottle contacted, the easy fish tail bottle surface influences the surface quality of bottle, and the unqualified product rate increases.

SUMMERY OF THE UTILITY MODEL

For solving the above not enough that exists among the prior art, the utility model aims at providing a embedment bottle-making machine B portion in advance to reach the purpose of blowing the sediment clearance to B portion chuck.

In order to achieve the above object, the utility model adopts the following technical scheme: the utility model provides a embedment bottle-making machine B portion in advance, is including 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 the bottle station after and blow the sediment clearance station, is equipped with the sediment clearance mechanism that blows that is used for blowing the sediment clearance to B portion chuck on the bottle-making machine frame that corresponds to blow sediment clearance station.

As the utility model discloses a injecte, blow sediment clearance mechanism including adorn admittedly at the defeated gas assembly in the bottle-making machine frame and adorn admittedly on the big dish of bottle-making machine B portion and correspond the assembly of blowing that sets up respectively with each bottle-making machine B portion chuck, the defeated gas export of defeated gas assembly with blow the sediment clearance position on the assembly of blowing the entry corresponding, the every group of blowing the air outlet of assembly is corresponding with the air inlet of corresponding B portion chuck axle sleeve.

As the utility model discloses a further inject, the gas transmission assembly is including adorning the expansion bend in the bottle-making machine frame admittedly and adorning the gas-supply pipe at expansion bend power take off end admittedly, and the gas transmission entry of gas-supply pipe links to each other with the air supply, and the gas transmission export of gas-supply pipe and the entry of blowing of the assembly of blowing on blowing sediment clearance station are corresponding.

As the utility model discloses a still further inject, the assembly of blowing includes the gas blow pipe of adorning on bottle-making machine B portion deep bead admittedly, blows the slag and clears up the entry of blowing of gas blow pipe and the gas delivery export of gas-supply pipe corresponding on the station, and every group blows the export of blowing of assembly gas blow pipe and corresponding B portion chuck axle sleeve air inlet and corresponds the setting.

As a further limitation of the utility model, the air delivery outlet of the air delivery pipe and the air blowing inlet of the air blowing pipe are provided with adaptive conicity.

As other limitations of the utility model, the waste residue bucket is fixedly arranged on the frame of the bottle-making machine and corresponds to the chuck of the blowing residue cleaning station.

Since the technical scheme is adopted, compared with the prior art, the utility model, the beneficial effect who gains is:

the utility model discloses an unload bottle station in bottle-making machine B portion and add between the bottle station and blow sediment clearance station, can blow the clearance operation to the chuck after unloading the bottle, in the axle sleeve of blowing sediment clearance station upper clamp head is blown in by the gas-supply pipe through the gas blow pipe promptly to make gas blow to the clamping jaw of axle sleeve front end through the axle sleeve in, realize the clearance to waste residue in the chuck. The utility model discloses blow the sediment clearance back to the chuck, can guarantee the normal opening and shutting of clamping jaw for the semi-manufactured bottle of A portion output is in time got to the bottle position chuck of B portion getting. And, can effectively guarantee the positioning accuracy and the bottle stability of pressing from both sides the bottle, even make the semi-manufactured goods bottle central line that the clamping jaw got and the central line collineation of this B portion chuck, the semi-manufactured goods bottle is stabilized to be blocked in the clamping jaw, not only ensures the precision of follow-up manufacturing procedure to bottle processing, thereby can avoid the waste residue in the clamping jaw to take place with the condition of the bottle surface fish tail bottle surface that the bottle surface that grips contacts moreover, effectively promotes product production quality, reduces unqualified product rate.

The utility model is suitable for a embedment bottle-making machine's B portion in advance for blow the sediment clearance to unloading behind the bottle, get the chuck before the bottle.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

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

fig. 2 is a top view of the structure relationship of embodiment 1 of the present invention;

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

fig. 4 is a sectional view showing the structure of the slag blowing and cleaning station after the cylinder is reset in step S4 of embodiment 2 of the present invention.

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

Detailed Description

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

EXAMPLE 1A prefilled bottle making machine part B

The utility model discloses add behind the bottle unloading station 3 of bottle-making machine B portion body and before getting bottle station 4 and blow sediment clearance station 2, through blow sediment clearance mechanism to unload behind the bottle, get B portion chuck 6 before the bottle and blow the row's of sediment clearance operation, realize the clearance to waste residue in B portion chuck 6.

As shown in fig. 1 to 3, the present embodiment includes a bottle-making machine B body having a slag-blowing cleaning station 2 disposed between a bottle-taking station 4 and a bottle-discharging station 3, and a slag-blowing cleaning mechanism 2, both of which are mounted on a bottle-making machine frame 1. The bottle making machine B part body adopts a bottle making machine B part structure in the prior art, as shown in figure 2, a driving mechanism drives a large disc 5 of the bottle making machine B part to rotate anticlockwise, and a slag blowing and cleaning station 2 is arranged behind a bottle unloading station 3 and in front of a bottle taking station 4. The slag blowing and cleaning mechanism comprises a gas transmission assembly and a gas blowing assembly.

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

In order to facilitate the gas pipe 7 at the gas conveying outlet to extend into the blowing inlet of the blowing assembly on the slag blowing cleaning station 2, matched tapers are arranged at the gas conveying outlet 13 of the gas pipe and the blowing inlet 14 of the blowing pipe, so that the gas conveying outlet 13 of the gas pipe is inserted into the blowing inlet 14 of the blowing pipe. Furthermore, a soft plug made of tapered soft material can be arranged on the gas transmission pipe 7 at the gas transmission outlet so as to improve the sealing property at the connection part of the gas transmission outlet 13 of the gas transmission pipe and the blowing inlet 14 of the blowing pipe.

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

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

The slag blowing cleaning method of the embodiment is shown in the embodiment 2.

Example 2 operating method of part B of pre-filling and sealing bottle-making machine

This example was implemented using the pre-pot bottle making machine part B of example 1, and includes the following steps under the control of the bottle making machine controller:

s1, taking a bottle: the large disc 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 and takes the semi-finished bottle body input to the B part.

S2, processing a bottle body: and driving the large disc 5 at the B part of the bottle making machine to rotate, sequentially positioning the chucks 6 at the B part to each processing station, and processing and forming the bottle body step by the corresponding processing mechanism.

S3, unloading the bottles: the big disc 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 unloading station 3, and the finished bottle after being processed and molded is taken down from the chuck 6 at the B part by the bottle unloading mechanism and is transferred to the next production procedure.

S4, blowing slag and cleaning: the large disc 5 at the B part of the bottle making machine is driven to rotate, the clamping head 6 at the B part after the bottle is unloaded is positioned to the slag blowing cleaning station 2, and the clamping head 6 at the B part is cleaned by blowing slag by the slag blowing cleaning mechanism 2. Namely, the method comprises the following steps:

s41, positioning: and driving a large disc 5 at the B part of the bottle making machine to rotate, and positioning a clamping head 6 at the B part after bottle unloading to the slag blowing and cleaning station 2.

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

S43, blowing and deslagging: and opening an air source, blowing air into the air delivery pipe 7, discharging the air into the corresponding shaft sleeve 10 of the B-part chuck 6 through the air blowing pipe 9 of the slag blowing and cleaning station 2, blowing the air into the clamping jaws 11 through the shaft sleeve 10 of the B-part chuck 6 to remove slag, discharging waste slag at the clamping jaws outwards, and dropping the waste slag into a waste slag hopper positioned at the front end of the clamping jaws 11 on the slag blowing and cleaning station 2.

S44, gas shutoff and resetting: the air supply is closed, the air cylinder 8 is reset, and the air delivery outlet 13 of the air delivery pipe leaves the air blowing inlet 14 of the air blowing pipe, as shown in figure 4.

S5, repeating the steps S1-S4.

It should be noted that the above-mentioned embodiments are only preferred embodiments of the present invention, and the present invention is not limited thereto, and although the present invention has been described in detail with reference to the above-mentioned embodiments, it will be apparent to those skilled in the art that modifications can be made to the technical solutions described in the above-mentioned embodiments, or some technical features can be replaced with equivalents. Any modification, equivalent replacement, or improvement 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 pre-embedment bottle-making machine B portion, 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 blowing and cleaning the B part chuck is assembled on the bottle making machine frame corresponding to the slag blowing and cleaning station.

2. The pre-pot bottle-making machine B of claim 1, wherein: the slag blowing and cleaning mechanism comprises a gas transmission assembly fixedly arranged on a rack of the bottle making machine and gas blowing assemblies fixedly arranged on a large plate at the B part of the bottle making machine and respectively corresponding to the B-part chucks of each bottle making machine, a gas transmission outlet of each gas transmission assembly corresponds to a gas blowing inlet of the gas blowing assembly on the slag blowing and cleaning station, and a gas blowing outlet of each group of gas blowing assemblies corresponds to a gas inlet of the corresponding shaft sleeve of the B-part chuck.

3. The pre-pot bottle-making machine B of claim 2, wherein: the gas transmission assembly comprises a telescopic 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 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 blowing inlet of the blowing assembly on the slag blowing and cleaning station.

4. The pre-pot bottle-making machine B of claim 3, wherein: the blowing assembly comprises blowing pipes fixedly arranged on a large disc 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 conveying outlet of a gas conveying pipe, and a blowing outlet of each group of blowing assembly blowing pipes corresponds to a gas inlet of the corresponding chuck shaft sleeve at the B part.

5. The pre-pot bottle-making machine B of claim 4, wherein: the gas delivery outlet of the gas delivery pipe and the gas blowing inlet of the gas blowing pipe are provided with adaptive conicity.

6. The pre-pot bottle-making machine part B according to any one of claims 2-5, wherein: the waste residue bucket is fixedly arranged on the frame of the bottle making machine and corresponds to the chuck of the slag blowing cleaning station.

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