CN210711265U - Full-automatic glass bottom sealing and tire blowing integrated machine - Google Patents

Abstract

The utility model discloses a full-automatic glass bottom sealing and tire blowing integrated machine, wherein the full-automatic glass bottom sealing and tire blowing integrated machine comprises a glass tube processing device, and the glass tube processing device comprises a clamp mechanism, a turnover mechanism, a burning mechanism and a clamping mould; the clamp mechanism comprises a clamp, a rotating shaft driving the clamp to rotate and a blowing assembly; the turnover mechanism is fixed below the clamp mechanism; the burning mechanism comprises a burning fire gun. The utility model discloses can prevent to be heated back glass tube bending deformation, guarantee production quality. The utility model is suitable for a glassware adds man-hour and uses for other glassware such as production glass bottle, flat cup.

Description

Full-automatic glass bottom sealing and tire blowing integrated machine

Technical Field

The utility model belongs to the technical field of glassware processing, a child machine is blown to glass and blow child method thereof is related to, specifically speaking are full-automatic glass back cover blows child all-in-one.

Background

At present, when a hollow glass product is manufactured, a hollow glass tube is generally heated by using a burning material fire gun, and then the heated hollow glass tube is subjected to tire blowing molding. In the forming process, in the prior art, a glass tube in a horizontal state is generally heated by using a burning torch, and then the heated glass tube is placed into a clamping mold for blow molding. The glass tube in the horizontal state after being heated and softened is easy to bend and deform downwards, so that the conditions of shape deformation and uneven wall thickness of the glass product are caused, the forming quality of the glass product is seriously influenced, and the product quality is reduced.

SUMMERY OF THE UTILITY MODEL

For solving exist among the prior art more than not enough, the utility model aims at providing a full-automatic glass back cover blows child all-in-one to reach the glass tube bending deformation after preventing to be heated, guarantee production quality's purpose.

In order to achieve the above object, the utility model adopts the following technical scheme: the glass tube processing device comprises a clamp mechanism, a turnover mechanism, a burning mechanism and a clamping mould for clamping and molding the heated glass tube;

the clamp mechanism comprises a clamp for clamping the glass tube, a rotating shaft for driving the clamp to rotate and a blowing assembly for conveying gas into the glass tube with a back cover;

the turnover mechanism is fixed below the clamp mechanism and used for turning over the glass tube clamped by the clamp mechanism to a vertical state;

the burning mechanism comprises a burning fire gun which is arranged on the side of the vertical glass tube and extends along the vertical direction.

As the utility model discloses a inject, through the removal of fixture mechanism among the every glass pipe processingequipment of first moving mechanism control, it is fixed that the anchor clamps centre gripping that is arranged in the horizontality glass pipe both ends respectively by a glass pipe processingequipment, thereby the glass pipe below that is in the horizontality is equipped with and is used for cutting the horizontality glass pipe and forms two blank flame guns that have back cover glass pipe.

As the utility model discloses a further inject, tilting mechanism is fixed in fixture mechanism below, and tilting mechanism below is arranged in to first moving mechanism, and first moving mechanism includes the first slide rail with tilting mechanism bottom sliding connection and is used for driving tilting mechanism along the gliding first driving source of first slide rail.

As another limitation of the utility model, a second moving mechanism is fixed between the clamp mechanism and the turnover mechanism, and the second moving mechanism comprises a second slide rail connected with the bottom of the clamp mechanism in a sliding manner, a lead screw fixedly connected with the clamp mechanism, and a second driving source for driving the lead screw to rotate so as to enable the clamp mechanism to move along the second slide rail.

As the utility model discloses a further inject again, the blank firearms slides along the third slide rail through the drive of third driving source, and the burning torch slides along the fourth slide rail through the drive of fourth driving source.

As the utility model discloses a further inject, tilting mechanism include the rotor plate and with the articulated fixed plate that links to each other of rotor plate, fixedly connected with anchor clamps mechanism on the rotor plate, the rotor plate rotates around the pin joint through sixth driving source drive rotor plate, fixed plate sliding connection is on first slide rail.

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

(1) the utility model discloses a glass pipe that tilting mechanism will have the back cover heats after upset to vertical state, and burns the material firelock and follow vertical direction and to the glass pipe heating, makes vertical state glass pipe be heated evenly, prevents effectively that glass pipe heating from softening postbending deformation, guarantees the uniformity of produced glassware shape, wall thickness, improves glassware's production quality, the reduction in the number of rejects.

(2) The utility model discloses a set up a glass pipe that is in the horizontality of two glass pipe processingequipment centre grippings, can be cut into two glass pipe backs that have the back cover with a glass pipe branch, overturn again, make the glass pipe shaping that is in vertical state and has the back cover, improve glassware's production efficiency.

(4) The utility model discloses a set up first moving mechanism, can be according to the work needs, adjust the position of the glass pipe of anchor clamps centre gripping, the smooth going on of glassware production work of being convenient for.

(5) The utility model discloses a set up second moving mechanism, be convenient for put into the clamping mould with heating back vertical state glass pipe, and through adopting the lead screw that has self-locking function, can avoid anchor clamps mechanism to receive the downward landing of action of gravity, guarantee the stability that the centre gripping glass pipe that anchor clamps removed.

(6) The utility model discloses a set up third slide rail, fourth slide rail, can make blank flame gun and burn the material flame gun according to the actual work needs, remove to operating position, the smooth going on of glassware production work of being convenient for.

(7) The utility model discloses tilting mechanism is through setting up rotor plate and fixed plate, stable in structure, reliable, and the upset is convenient.

To sum up, the utility model discloses stable in structure, convenient to use, degree of automation are high, can improve glassware's production quality greatly, bring very big economic benefits for the enterprise, and the practicality is strong.

The utility model is suitable for a glassware adds man-hour and uses for other glassware such as production glass bottle, flat cup.

Drawings

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

Fig. 1 is a schematic structural view of embodiment 3 of the present invention (the burning torch 2 and the cutting torch 4 are not shown in the figure);

fig. 2 is a top view of the structure relationship of embodiment 3 of the present invention;

fig. 3 is a left side view of the structure relationship of embodiment 3 of the present invention;

fig. 4 is a schematic structural view of the turnover mechanism according to embodiment 3 of the present invention.

In the figure: 1. a clamp; 2. firing a material gun; 3. clamping the mold; 4. a material cutting fire gun; 5. a first slide rail; 6. a rotating shaft; 7. a second slide rail; 8. a third slide rail; 9. a fourth slide rail; 10. a fixing plate; 11. and rotating the plate.

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.

Embodiment 1 full-automatic glass bottom sealing and tire blowing integrated machine

As shown in fig. 1 to 4, when a glass tube processing apparatus is used to process a glass tube having a back cover and being in a horizontal state, the glass tube having the back cover needs to be firstly turned over from the horizontal state to a vertical state by a turning mechanism, and after being heated by a burning torch 2, the glass tube having the back cover is placed in a clamping mold 3 to be blow molded. Each glass tube processing device comprises a clamp mechanism, a turnover mechanism, a material burning mechanism and a clamping mold 3.

First, anchor clamps mechanism

The clamp mechanism can drive the glass tube to rotate while clamping and fixing the glass tube in the process of burning or cutting; the clamping mechanism is capable of delivering gas into the glass tube during the blow molding process of the glass product. The clamp mechanism comprises a clamp 1, a rotating shaft 6 and a blowing assembly.

Anchor clamps 1 are used for the tip of the fixed glass pipe opening part of centre gripping, and anchor clamps 1 is fixed in pivot 6, rotates through drive pivot 6 and can make anchor clamps 1 drive the glass pipe and rotate along self axis. The rotating shaft 6 is fixed with a blowing component for inputting compressed gas into the glass tube, and the blowing component can be an air pump for inputting the compressed gas into the glass tube.

Second, turnover mechanism

The turnover mechanism is used for turning the glass tube in the horizontal state downwards by 90 degrees to be in a vertical state. The turnover mechanism comprises a rotating plate 11 and a fixing plate 10. The rotating plate 11 is arranged below the clamp mechanism and is fixedly connected with the bottom end of the clamp mechanism. Fixed plate 10 and rotor plate 11 pass through the articulated axle and articulate fixedly, can refer to the tilting mechanism structure shown in fig. 4, are fixed with the connecting rod on the articulated axle, and the connecting rod articulates in the output of arranging the sixth driving source below fixed plate 10 in, drives the connecting rod through sixth driving source and drives rotor plate 11 and rotate around the articulated axle. The sixth driving source may be a linear motor, an air cylinder, or a hydraulic cylinder.

In order to facilitate the glass tube which is in a vertical state after being turned over to enter the clamping mold 3, a second moving mechanism is fixed between the clamp mechanism and the turning mechanism. The second moving mechanism includes a second slide rail 7, a lead screw, and a second driving source. The second slide rail 7 is fixed on the top surface of the rotating plate 11, and when the rotating plate 11 is in a vertical state after being turned over, the second slide rail 7 is also in a state of extending along the vertical direction, so that the bottom end of the clamp mechanism connected with the second slide rail 7 in a sliding manner can move to the interior of the clamping mold 3 along the vertical direction on the second slide rail 7. In order to avoid the clamp mechanism from sliding downwards along the second slide rail 7 under the action of gravity, the clamp mechanism is fixedly connected with the screw rod upper nut, and the screw rod on the screw rod is driven to rotate by the second driving source, so that the clamp mechanism is driven to slide along the second slide rail 7. The second driving source may be a motor, a cylinder, or a hydraulic cylinder.

Third, burn material mechanism

The burning mechanism is used for uniformly heating the glass tube in a vertical state. The burning mechanism comprises a burning fire gun 2, a fourth driving source and a fourth sliding rail 9.

The burning torch 2 adopts a glass flame bank light which is used for heating and softening a glass tube in the prior art. The burning torch 2 extends in the vertical direction, so that the flame of the burning torch 2 heats the glass tube in the vertical state along the direction perpendicular to the axis of the glass tube. In order to be convenient for remove the burning torch 2 to the side of vertical state glass pipe when heating vertical state glass pipe, burning torch 2 slides along fourth slide rail 9 through the drive of fourth driving source, and the fourth driving source can be linear electric motor, cylinder or pneumatic cylinder.

Fourth, the clamping mould 3

The clamping mould 3 is used for clamping and forming the heated glass tube. The clamping mold 3 adopts the existing opening and closing mold which is controlled to open and close through an air cylinder. After the glass tube heated by the burning torch 2 is put into the clamping mould 3, the glass tube is blown by the blowing assembly, and the formed glass product is obtained under the pressing action of the clamping mould 3.

The method of use of this example is shown in example 2.

Embodiment 2 tire blowing method of full-automatic glass bottom sealing and tire blowing integrated machine

The embodiment is realized by using the full-automatic glass bottom sealing and tire blowing integrated machine in the embodiment 1, and comprises the following steps:

step two: heating glass tube with back cover

The clamp 1 clamps and fixes a glass tube which is provided with a back cover and is in a horizontal state, the turnover mechanism downwards turns the glass tube which is in the horizontal state and is provided with the back cover by 90 degrees to a vertical state through a sixth driving source, and the fourth driving source drives the material burning fire gun 2 to move to the side of the glass tube which is provided with the back cover along a fourth sliding rail 9. The glass tube with the back cover is heated by the burning material fire gun 2 extending along the vertical direction while the driving rotating shaft 6 drives the glass tube with the back cover in the vertical state to rotate.

Step three: blow-molding of glass tubes with bottom seals

The clamp mechanism is driven to move along the second slide rail 7 by a second driving source, the heated glass tube with the back cover is driven to be placed into the clamping mould 3, and air is conveyed into the glass tube with the back cover through the air blowing assembly, so that a formed glass product is obtained.

Embodiment 3 full-automatic glass bottom sealing and tire blowing integrated machine

In example 1, only one glass tube processing apparatus was used to process a glass tube having a back cover in a horizontal state into a glass product. In the present embodiment, two glass tube processing devices are used to cut a glass tube in a horizontal state with two openings into two glass tubes in a horizontal state with back covers, and then process the glass tubes into two glass products with back covers.

The embodiment comprises a blank fire gun 4, a first moving mechanism and two glass tube processing devices.

One or two glass tube processing device

Referring to fig. 1 to 4, the two glass tube processing devices in the present embodiment cooperate with each other to cut a glass tube in a horizontal state, which is open at both ends, to form two glass products with back covers. The structure of each glass tube processing apparatus in this example was the same as that of the glass tube processing apparatus described in example 1.

The two ends of the glass tube in the horizontal state are respectively clamped and fixed by the clamp 1 in one glass tube processing device, namely the clamp 1 of one glass tube processing device clamps and fixes the left end part of the opening of the glass tube in the horizontal state, and the clamp 1 of the other glass tube processing device clamps and fixes the right end part of the opening of the glass tube in the horizontal state.

Two, blank firearms 4

The blank fire gun 4 is used for heating and cutting the glass tube in a horizontal state into two glass tubes with back covers. The blank fire gun 4 adopts a glass flame bank light which is used for cutting a glass tube to form a back cover in the prior art. The blank fire-gun 4 is placed in the glass tube in a horizontal state below, so that two glass tubes with back covers are obtained, which have the same length.

In order to facilitate the movement of the material cutting torch 4 below the horizontal state glass tube when the horizontal state glass tube is heated, the material cutting torch 4 is driven by a third driving source to slide along a third slide rail 8, and the third driving source can be a linear motor, an air cylinder or a hydraulic cylinder.

Third, first moving mechanism

The first moving mechanism is used for controlling the position of the clamp mechanism in each glass tube processing device. The first moving mechanism is arranged below the turnover mechanism and comprises a first slide rail 5 and a first driving source. The fixing plate 10 is slidably connected to the first slide rail 5, and the extending direction of the first slide rail 5 is parallel to the axial direction of the glass tube in the horizontal state. The fixed plates 10 are driven by the first driving source to slide along the first slide rail 5, thereby moving the clamp mechanism on each of the fixed plates 10. The first driving source may be a linear motor, an air cylinder, or a hydraulic cylinder.

Embodiment 4 tire blowing method of full-automatic glass bottom sealing and tire blowing integrated machine

The embodiment is realized by using the full-automatic glass bottom sealing and tire blowing integrated machine in the embodiment 3, and comprises the following steps:

the method comprises the following steps: cut into two glass tubes with back covers

And the two ends of one glass tube in the horizontal state are respectively clamped and fixed by a clamp 1 of a glass tube processing device, and a third driving source drives a material cutting fire gun 4 to move to the middle lower part of the glass tube along a third slide rail 8. Each rotating shaft 6 is driven to drive the glass tube in the horizontal state to rotate, and meanwhile, the glass tube in the horizontal state is cut into two same glass tubes with back covers by the aid of the material cutting fire guns 4.

Step two: heating glass tube with back cover

Each clamp 1 clamps and fixes a glass tube with a back cover, and the turnover mechanism turns the glass tube with the back cover downwards by 90 degrees in a horizontal state to be in a vertical state through a sixth driving source. The first driving source drives the first moving mechanism to move the glass tube with the back cover clamped by each glass tube processing device to a position close to the burning torch 2, and the fourth driving source drives the burning torch 2 to move to the side of the glass tube with the back cover along the fourth slide rail 9. The glass tube with the back cover is heated by the burning material fire gun 2 while each rotating shaft 6 is driven to drive the glass tube with the back cover to rotate.

Step three: blow-molding of glass tubes with bottom seals

The clamp mechanism is driven to move along the second slide rail 7 by a second driving source, the heated glass tube with the back cover is driven to be placed into the clamping mould 3, and air is conveyed into the glass tube with the back cover through the air blowing assembly, so that a formed glass product is obtained.

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 full-automatic glass seals end and blows child all-in-one which characterized in that:

the glass tube processing device comprises a clamp mechanism, a turnover mechanism, a burning mechanism and a clamping mould for clamping and molding the heated glass tube;

the clamp mechanism comprises a clamp for clamping the glass tube, a rotating shaft for driving the clamp to rotate and a blowing assembly for conveying gas into the glass tube with a back cover;

the turnover mechanism is fixed below the clamp mechanism and used for turning over the glass tube clamped by the clamp mechanism to a vertical state;

the burning mechanism comprises a burning fire gun which is arranged on the side of the vertical glass tube and extends along the vertical direction.

2. The full-automatic glass bottom sealing and blowing integrated machine according to claim 1, characterized in that: the first moving mechanism controls the movement of the clamp mechanism in each glass tube processing device, the two ends of the glass tube in the horizontal state are respectively clamped and fixed by the clamp in one glass tube processing device, and the lower part of the glass tube in the horizontal state is provided with a material cutting torch for cutting the glass tube in the horizontal state so as to form two glass tubes with bottom sealing.

3. The full-automatic glass bottom sealing and blowing integrated machine according to claim 2, characterized in that: the turnover mechanism is fixed below the clamp mechanism, the first moving mechanism is arranged below the turnover mechanism, and the first moving mechanism comprises a first slide rail and a first driving source, wherein the first slide rail is in sliding connection with the bottom end of the turnover mechanism, and the first driving source is used for driving the turnover mechanism to slide along the first slide rail.

4. The full-automatic glass bottom sealing and blowing all-in-one machine as claimed in any one of claims 1 to 3, wherein: and a second moving mechanism is fixed between the clamp mechanism and the turnover mechanism and comprises a second slide rail in sliding connection with the bottom end of the clamp mechanism, a lead screw fixedly connected with the clamp mechanism and a second driving source for driving the lead screw to rotate so as to enable the clamp mechanism to move along the second slide rail.

5. The full-automatic glass bottom sealing and blowing integrated machine according to claim 4, characterized in that: the blank firearms slide along the third slide rail through the drive of the third driving source, and the burning firearms slide along the fourth slide rail through the drive of the fourth driving source.

6. The full-automatic glass bottom sealing and blowing integrated machine according to claim 3, characterized in that: tilting mechanism includes the rotor plate and links to each other with the rotor plate is articulated, fixedly connected with anchor clamps mechanism on the rotor plate, and the rotor plate rotates around the pin joint through sixth driving source drive rotor plate, and fixed plate sliding connection is on first slide rail.

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