CN113929279A

CN113929279A - Glass spiral pipe blowing system

Info

Publication number: CN113929279A
Application number: CN202111232446.3A
Authority: CN
Inventors: 张洪有
Original assignee: Individual
Current assignee: Xinyi Mingda Glass Co ltd
Priority date: 2021-10-22
Filing date: 2021-10-22
Publication date: 2022-01-14
Anticipated expiration: 2041-10-22
Also published as: CN113929279B

Abstract

The invention belongs to the field of glass processing, and relates to a glass spiral tube blowing system which comprises a box body, wherein a mounting platform is fixedly arranged in the box body and far away from the bottom of the box body, a supporting base is fixedly arranged on one side of the bottom of the box body, a rotating supporting ring is slidably arranged on the supporting base, a mold box is fixedly arranged on the rotating supporting ring, a first track shell is fixedly arranged on one side, facing the box body, in the mounting platform, a mounting slide block is slidably arranged in the first track shell, a telescopic base is fixedly arranged on one side, facing the lower end face of the box body, of the mounting slide block, a telescopic shell is fixedly arranged on the telescopic base, a telescopic rod is slidably arranged in the telescopic shell, second track shells are fixedly arranged on two side walls in the box body, a slide block is slidably arranged in the second track shells, and a smelting furnace is fixedly arranged on one side, far away from the supporting base, on the lower end face in the box body. The problem that the pipe diameter of the glass spiral pipe cannot be kept consistent in the longitudinal direction in the blow molding process can be effectively solved.

Description

Glass spiral pipe blowing system

Technical Field

The invention belongs to the field of glass processing, and particularly relates to a glass spiral tube blowing system.

Background

The glass tube is a kind of non-metal tube, and is a kind of glass with sodium oxide, boron oxide and silicon dioxide as basic components. Its good performance is widely accepted in all world, compared with ordinary glass, it has no toxic side effect, its mechanical property, thermal stability, water-resisting, alkali-resisting and acid-resisting properties are greatly raised, in the course of making glass tube, the blow-moulding processing method is usually adopted, and the blow-moulding is also called hollow blow-moulding, so that it is a plastic processing method with rapid development.

Common glass pipe blow molding industry includes that the manual blowing shaping, in the work of manual blowing, need the manual hand-held blowing pipe dip in plastics, stretch plastics at the in-process of blowing, the air current through the blowing simultaneously moulds the type to the glass pipe, because of the air current is unstable relatively among the manual blowing in-process, and ordinary glass pipe goods often need the manual work frequently to change the extravagant manpower of back and forth operation between blowing and the two steps of reheat when the preparation, often can't make the glass pipe inner wall keep unified wall thickness on the vertical direction in the glass pipe manufacture process, this makes the glass pipe internal diameter can't keep unanimous, consequently, it is necessary to improve.

Disclosure of Invention

The invention aims to solve the problems in the prior art, and provides a glass spiral tube blowing system which can effectively solve the problem that the tube diameter of a glass spiral tube cannot be kept consistent in the longitudinal direction in the blowing process.

The purpose of the invention can be realized by the following technical scheme: the utility model provides a glass spiral pipe blowing system, includes the box, it has set firmly mounting platform to keep away from the bottom half in the box, bottom half one side has set firmly the support base, it is equipped with the rotation support ring to slide on the support base, the mould case has set firmly on the rotation support ring, the mounting platform internal face has set firmly first track casing towards one side of box, it is equipped with the installation slider to slide in the first track casing, the installation slider face has set firmly flexible base towards terminal surface one side under the box in, flexible casing has set firmly on the flexible base, it is equipped with the telescopic link to slide in the flexible casing, second track casing has set firmly on the wall of box both sides, it is equipped with the sliding block to slide in the second track casing, the smelting furnace has set firmly to keep away from one side of supporting the base on the terminal surface under the box.

Preferably, the first track shell is a downward-facing transverse straight rail, the rotary support ring is a square box body, the smelting furnace is cylindrical, and the second track shell is a downward-facing transverse straight rail and symmetrically arranged on two sides of the box body.

Preferably, the output of telescopic link has set firmly the connecting block, connecting block lower extreme sliding connection has the swivel becket, the terminal surface has set firmly the installation piece under the swivel becket, the slip is equipped with the axis of rotation in the installation piece, the sleeve has set firmly outside the axis of rotation, telescopic one side of keeping away from the axis of rotation has set firmly the gas blow pole, be equipped with the gas blow pipe in the gas blow pole, the gas blow pipe passes the connecting block and stretches out in the telescopic link and links to each other with the pump machine, the pump machine is located the connecting block up end.

Preferably, the last electric telescopic casing that has set firmly of sliding block, it is equipped with electric telescopic handle to slide in the electric telescopic casing, electric telescopic handle's output has set firmly the fastening block, the sliding casing has set firmly on the lateral wall adjacent with second track casing in the box, it is equipped with the slide bar to slide in the sliding casing, the output of slide bar has set firmly the connecting rod, lean on one side on the connecting rod and set firmly the spout, it is equipped with the feeler lever to slide in the spout, with spring coupling between feeler lever and the spout, the one end of connecting rod has set firmly the apron.

Preferably, a mounting cylinder is fixedly arranged in the smelting furnace, an arc-shaped barrel is fixedly arranged on the inner lower surface of the mounting cylinder, heating plates are arranged on two sides of the inner lower surface of the smelting furnace, a hot melting motor is arranged outside the smelting furnace, and the upper part of the smelting furnace is connected with a cover plate.

Preferably, a template placing groove is fixedly arranged in the mold box, a first hydraulic shell is fixedly arranged in the side end face of the template placing groove, a first hydraulic rod is arranged in the first hydraulic shell in a sliding manner, the output end of the first hydraulic rod is fixedly provided with a connecting plate, a round pipe template is fixedly arranged on the connecting plate and slides in the template placing groove, a template connecting rod is fixedly arranged on the upper surface of the template placing groove, a sliding arrangement block is fixedly arranged on one side of the template connecting rod, a trimming shell is arranged on the sliding arrangement block in a sliding manner, a lower trimming cylinder is fixedly arranged on the side wall of the inner lower end of the trimming shell, an elastic clamping block is fixedly arranged at the upper end of the lower trimming cylinder, an upper trimming cylinder is arranged on the lower trimming cylinder in a sliding manner, a limiting groove is arranged at the upper end of the lower trimming cylinder in the trimming shell, a second spring is elastically connected between the upper trimming cylinder and the trimming shell, and the upper trimming cylinder slides in the limiting groove, a third spring is arranged between the edge-trimming shell and the template connecting rod for elastic connection, a second die groove is fixedly arranged at the upper end of the template connecting rod, a second hydraulic shell is fixedly arranged on the inner side wall of the second die groove, a second hydraulic rod slides in the second hydraulic shell, a die connecting block is fixedly arranged at the output end of the second hydraulic rod, a second die is fixedly arranged on the die connecting block, a heating motor is arranged in the second die, two groups of parts from the template arranging groove to the second die and required parts for elastic connection are symmetrically arranged in the die box, a pump arranging box is fixedly arranged at the center of the upper surface of the supporting base, a gas pipe groove is fixedly arranged at one side of the pump arranging box, a gas pump is arranged in the pump arranging box, the output end of the gas pump is communicated with a pump output pipe, and the pump output pipe passes through the gas pipe groove to be communicated with two gaps of the circular pipe template, the input end of the air pump penetrates through the supporting base to be communicated with the outside.

Compared with the prior art, the invention has the following advantages:

1. the glass tube can be preliminarily extruded to enable the softened glass to have a certain shape before the spiral glass tube is blown, and the glass is continuously heated in the process, so that the mold can be effectively filled in the mold in the subsequent process.

2. After the primary shaping and the blow molding are finished, the excess part of the spiral glass tube, which is generated by the extrusion of the mold, can be scraped through the trimming part.

3. The air pressure in the glass tank is kept stable by two-way air blowing at two sides, and the inner diameter of the glass tube is basically kept consistent by matching with external rotation.

Drawings

Fig. 1 is a perspective view of the present invention.

Fig. 2 is a front view of the present invention.

Fig. 3 is a side view of the present invention.

Fig. 4 is a sectional view taken along a-a in fig. 3.

Fig. 5 is a sectional view taken along line B-B in fig. 4.

Fig. 6 is a sectional view taken along line C-C in fig. 4.

Fig. 7 is an enlarged view at D in fig. 4.

Fig. 8 is an enlarged view at F in fig. 6.

FIG. 9 is a view of the glass tube after the preliminary pressing.

Fig. 10 is a finished product drawing.

In the figure, a box 10, an installation platform 11, a support base 12, a rotary support ring 13, a first track shell 14, an installation slide block 15, a telescopic base 16, a telescopic shell 17, a telescopic rod 18, a second track shell 19, a slide block 20, a smelting furnace 21, a slide shell 22, a slide rod 23, a connecting block 24, a rotary ring 25, an installation block 26, a rotary shaft 27, a sleeve 28, an air blow rod 29, an air blow pipe 30, a slide cylinder 31, a sliding connection gasket 32, a pump 33, an electric telescopic shell 34, an electric telescopic rod 35, a fastening block 36, a connecting rod 37, a sliding chute 38, a touch rod 39, a spring 40, a cover plate 41, a mounting cylinder 42, an arc-shaped cylinder 43, a heating plate 44, a hot melting motor 45, a template mounting groove 46, a first hydraulic shell 47, a first hydraulic rod 48, a connecting plate 49, a circular tube template 50, a template connecting rod 51, a sliding mounting block 52, a whole edge shell 53, a lower whole edge cylinder 54, a rotary support block, a rotary support, the device comprises an upper trimming barrel 55, an elastic fixture block 56, a limiting groove 57, a second spring 58, a second die groove 59, a second hydraulic shell 60, a second hydraulic rod 61, a die connecting block 62, a heating motor 63, a second die 64, a die box 65, a third spring 66, a pump machine arranging box 67, an air pipe groove 68, an air pump 69, a pump machine output pipe 70, a primary spiral pipe 71 and a finished spiral pipe 72.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1-10, a glass spiral tube blowing system includes a box 10, a mounting platform 11 is fixedly disposed in the box 10 and away from the bottom of the box 10, a supporting base 12 is fixedly disposed on one side of the bottom of the box 10, a rotating supporting ring 13 is slidably disposed on the supporting base 12, a mold box 65 is fixedly disposed on the rotating supporting ring 13, a first rail shell 14 is fixedly disposed on one side of the inner surface of the mounting platform 11 facing the box 10, a mounting slider 15 is slidably disposed in the first rail shell 14, a telescopic base 16 is fixedly disposed on one side of the mounting slider 15 facing the lower end surface of the box 10, a telescopic shell 17 is fixedly disposed on the telescopic base 16, a telescopic rod 18 is slidably disposed in the telescopic shell 17, second rail shells 19 are fixedly disposed on two side walls in the box 10, a sliding block 20 is slidably disposed in the second rail shells 19, and a melting furnace 21 is fixedly disposed on one side of the inner lower end surface of the box 10 and away from the supporting base 12.

Further, the first rail housing 14 is a downward facing horizontal straight rail, the rotary support ring 13 is a square box, the melting furnace 21 is cylindrical, and the second rail housing 19 is a horizontal straight rail facing two sides and symmetrically arranged on two sides of the box 10.

Furthermore, the output end of the telescopic rod 18 is fixedly provided with a connecting block 24, the lower end of the connecting block 24 is slidably connected with a rotating ring 25, the lower end face of the rotating ring 25 is fixedly provided with an installation block 26, a rotating shaft 27 is slidably arranged in the installation block 26, a sleeve 28 is fixedly arranged outside the rotating shaft 27, one side, far away from the rotating shaft 27, of the sleeve 28 is fixedly provided with an air blowing rod 29, an air blowing pipe 30 is arranged in the air blowing rod 29, the air blowing pipe 30 penetrates through the connecting block 24 and extends out of the telescopic rod 18 to be connected with a pump 33, and the pump 33 is arranged on the upper end face of the connecting block 24.

Further, an electric telescopic shell 34 is fixedly arranged on the sliding block 20, an electric telescopic rod 35 is slidably arranged in the electric telescopic shell 34, a fastening block 36 is fixedly arranged at the output end of the electric telescopic rod 35, a sliding shell 22 is fixedly arranged in the box body 10 on a side wall adjacent to the second rail shell 19, a sliding rod 23 is slidably arranged in the sliding shell 22, a connecting rod 37 is fixedly arranged at the output end of the sliding rod 23, a sliding groove 38 is fixedly arranged on one side, close to the upper side, of the connecting rod 37, a contact rod 39 is slidably arranged in the sliding groove 38, the contact rod 39 is connected with the sliding groove 38 through a spring 40, and a cover plate 41 is fixedly arranged at one end of the connecting rod 37.

Furthermore, a placing cylinder 42 is fixedly arranged in the smelting furnace 21, an arc-shaped barrel 43 is fixedly arranged on the inner lower surface of the placing cylinder 42, heating plates 44 are arranged on two sides of the inner lower surface of the smelting furnace 21, a hot melting motor 45 is arranged outside the smelting furnace 21, and the smelting furnace 21 is connected with a cover plate 41.

Further, a template placing groove 46 is fixedly arranged in the mold box 65, a first hydraulic shell 47 is fixedly arranged in the side end face of the template placing groove 46, a first hydraulic rod 48 is slidably arranged in the first hydraulic shell 47, a connecting plate 49 is fixedly arranged at the output end of the first hydraulic rod 48, a round pipe template 50 is fixedly arranged on the connecting plate 49, the round pipe template 50 slides in the template placing groove 46, a template connecting rod 51 is fixedly arranged on the upper surface of the template placing groove 46, a sliding mounting block 52 is fixedly arranged on one side of the template connecting rod 51, an edge trimming shell 53 is slidably arranged on the sliding mounting block 52, a lower edge trimming cylinder 54 is fixedly arranged on the side wall of the inner lower end of the edge trimming shell 53, an elastic clamping block 56 is fixedly arranged at the upper end of the lower edge trimming cylinder 54, an upper edge trimming cylinder 55 is slidably arranged on the upper end of the lower edge trimming cylinder 54 in the edge trimming shell 53, a limiting groove 57 is arranged at the upper end of the lower edge trimming cylinder 54, a second spring 58 is elastically connected between the upper edge trimming cylinder 55 and the edge trimming shell 53, an upper trimming barrel 55 slides in a limiting groove 57, a third spring 66 is elastically connected between a trimming shell 53 and a template connecting rod 51, a second mould groove 59 is fixedly arranged at the upper end of the template connecting rod 51, a second hydraulic shell 60 is fixedly arranged on the inner side wall of the second mould groove 59, a second hydraulic rod 61 is slidably arranged in the second hydraulic shell 60, a mould connecting block 62 is fixedly arranged at the output end of the second hydraulic rod 61, a second mould 64 is fixedly arranged on the mould connecting block 62, a heating motor 63 is arranged in the second mould 64, two groups of parts from the template arranging groove 46 to the second mould 64 and required parts for elastic connection are symmetrically arranged in a mould box 65, a pump machine arranging box 67 is fixedly arranged at the center of the upper surface of the supporting base 12, an air pipe groove 68 is fixedly arranged at one side of the pump machine arranging box 67, an air pump 69 is arranged in the pump machine arranging box 67, the output end of the air pump 69 is communicated with an output pipe 70 of the pump machine, and the output pipe 70 of the pump machine penetrates through the air pipe groove 68 to be communicated with two gaps of the circular pipe template 50, an input end of the air pump 69 is communicated with the outside through the support base 12.

The working principle is as follows:

the installation slide block 15 drives the air blowing rod 29 to move towards the movable smelting furnace 21, the sliding cylinder 31 is contacted with the contact rod 39 in the moving process to enable the contact rod 39 to move inwards to achieve a buffering effect, the sliding cylinder 31 continues to move to enable the sliding rod 23 to move, the sliding rod 23 moves to drive the cover plate 41 to move to enable the smelting furnace 21 to be opened, after the smelting furnace 21 is opened, the telescopic rod 18 extends downwards to enable the air blowing rod 29 to be inserted into softened glass in the smelting furnace 21 and enable one end of the air blowing rod 29 to clamp the softened glass through rotation of the rotating ring 25, then the air blowing rod 29 moves out, the installation slide block 15 moves to a position between the supporting base 12 and the smelting furnace 21, then the sliding block 20 moves to the position of the air blowing rod 29, then the electric telescopic rod 35 extends to enable the fastening block 36 to be contacted with the softened glass, at the moment, the fastening block 36 is located at the port of the air blowing rod 29, when the fastening block 36 is contacted with the glass, the rotating ring 25 rotates, and the fastening block 36 continues to extend slowly, the glass is sealed firmly with the port of the blow pin 29.

After sealing is completed, the electric telescopic rod 35 withdraws, the sleeve 28 rotates around the rotating shaft 27 for a small degree, the air blowing rod 29 is driven to swing left and right, softened glass extends downwards along with gravity, and the mounting slide block 15 moves to the position right above the supporting base 12 after extending and extends into the mold box 65.

After the elongated glass extends into the second mold groove 59, the second hydraulic rod 61 extends to drive the second mold 64 to move towards two sides to bend the glass to enable the glass to be in an initial shape, the heating motor 63 in the second mold 64 continuously heats the glass during initial bending to keep the glass in a softening state, one end of the bent glass enters the trimming shell 53, the rotating ring 25 drives the glass to rotate to enable the glass to rotate in the channel of the upper trimming cylinder 55 to move downwards, and burrs on the glass are scraped in the downward moving process, the upper trimming cylinder 55 is limited by the trimming shell 53 at the moment and therefore does not move, and after the glass completely passes through the trimming shell 53, the port of the air blowing rod 29 is pressed downwards to enable the elastic fixture block 56 to be pressed downwards to enable the upper trimming cylinder 55 to slide into the limiting groove 57.

The bent glass enters the template placing groove 46, the first hydraulic rod 48 drives the circular tube template 50 to cover the glass, the pump 33 starts to blow air like the glass, the air pump 69 starts to blow air into the glass in the circular tube template 50 at the same time when the glass expands, the support ring 13 is rotated to drive the elastic clamping block 56 to rotate while the air pump blows air, the rotating ring 25 rotates at the same speed, the glass is subjected to centrifugal force while being subjected to internal air pressure expansion, and the inner wall of the glass starts to expand uniformly and outwards.

The bent glass tube after molding moves up and passes through the lower trimming cylinder 54, the rotating ring 25 rotates to enable the lower trimming cylinder 54 to scrape burrs of the glass tube at the edge of the mold, and the upper trimming cylinder 55 slides into the limiting groove 57, so that the diameter formed by the two trimming shells 53 is larger than the diameter formed by the upper trimming cylinder 55, and the trimming shells 53 can stretch out.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. The utility model provides a glass spiral pipe blowing system, includes box (10), its characterized in that, keep away from box (10) bottom in box (10) and set firmly installation platform (11), box (10) bottom one side has set firmly support base (12), it is equipped with rotation support ring (13) to slide on support base (12), set firmly mould case (65) on rotation support ring (13), first track casing (14) have been set firmly towards one side of box (10) to installation platform (11) inner face, it is equipped with installation slider (15) to slide in first track casing (14), installation slider (15) face has set firmly flexible base (16) towards box (10) lower terminal surface one side in, flexible casing (17) are set firmly on flexible base (16), it is equipped with telescopic link (18) to slide in flexible casing (17), second track casing (19) have set firmly on the wall in box (10), a sliding block (20) is arranged in the second track shell (19) in a sliding mode, and a smelting furnace (21) is fixedly arranged on one side, far away from the supporting base (12), of the inner lower end face of the box body (10).

2. A glass spiral tube blowing system as recited in claim 1, wherein: the first track shell (14) is a downward-facing transverse straight rail, the rotating support ring (13) is a square box body, the smelting furnace (21) is cylindrical, and the second track shell (19) is a downward-facing transverse straight rail and is symmetrically arranged on two sides of the box body (10).

3. A glass spiral tube blowing system as recited in claim 1, wherein: the output of telescopic link (18) has set firmly connecting block (24), connecting block (24) lower extreme sliding connection has swivel becket (25), the terminal surface has set firmly installation piece (26) under swivel becket (25), it is equipped with axis of rotation (27) to slide in installation piece (26), axis of rotation (27) have set firmly sleeve (28) outward, one side of keeping away from axis of rotation (27) of sleeve (28) has set firmly blowing pole (29), be equipped with gas blow pipe (30) in blowing pole (29), gas blow pipe (30) pass connecting block (24) and stretch out from telescopic link (18) and link to each other with pump machine (33), connecting block (24) up end is located in pump machine (33).

4. A glass spiral tube blowing system as recited in claim 1, wherein: the utility model discloses a slide block, including sliding block (20), box (10), second track casing (19), sliding block (34), electric telescopic handle (35) are equipped with in sliding block (20), the output of electric telescopic handle (35) has set firmly fastening block (36), sliding block (22) have been set firmly on the adjacent lateral wall of box (10) and second track casing (19), sliding block (23) are equipped with in sliding block (22), the output of sliding block (23) has set firmly connecting rod (37), last one side of leaning on of connecting rod (37) has set firmly spout (38), it is equipped with feeler lever (39) to slide in spout (38), be connected with spring (40) between feeler lever (39) and spout (38), the one end of connecting rod (37) has set firmly apron (41).

5. A glass spiral tube blowing system as recited in claim 1, wherein: a placing cylinder (42) is fixedly arranged in the smelting furnace (21), an arc-shaped barrel (43) is fixedly arranged on the inner lower surface of the placing cylinder (42), heating plates (44) are arranged on two sides of the inner lower surface of the smelting furnace (21), a hot melting motor (45) is arranged outside the smelting furnace (21), and the smelting furnace (21) is connected with a cover plate (41).

6. A glass spiral tube blowing system as recited in claim 1, wherein: a template placing groove (46) is fixedly arranged in the mold box (65), a first hydraulic shell (47) is fixedly arranged in the side end face of the template placing groove (46), a first hydraulic rod (48) is arranged in the first hydraulic shell (47) in a sliding manner, a connecting plate (49) is fixedly arranged at the output end of the first hydraulic rod (48), a round pipe template (50) is fixedly arranged on the connecting plate (49), the round pipe template (50) slides in the template placing groove (46), a template connecting rod (51) is fixedly arranged on the upper surface of the template placing groove (46), a sliding placing block (52) is fixedly arranged on one side of the template connecting rod (51), an edge adjusting shell (53) is slidably arranged on the sliding placing block (52), a lower edge adjusting cylinder (54) is fixedly arranged on the side wall of the inner lower end of the edge adjusting shell (53), an elastic clamping block (56) is fixedly arranged at the upper end of the lower edge adjusting cylinder (54), the lower trimming barrel (54) is provided with an upper trimming barrel (55) in a sliding manner, the upper end of the lower trimming barrel (54) in the trimming shell (53) is provided with a limiting groove (57), a second spring (58) is elastically connected between the upper trimming barrel (55) and the trimming shell (53), the upper trimming barrel (55) slides in the limiting groove (57), a third spring (66) is elastically connected between the trimming shell (53) and a template connecting rod (51), the upper end of the template connecting rod (51) is fixedly provided with a second mould groove (59), a second hydraulic shell (60) is fixedly arranged on the inner side wall of the second mould groove (59), a second hydraulic rod (61) is arranged in the second hydraulic shell (60) in a sliding manner, the output end of the second hydraulic rod (61) is fixedly provided with a mould connecting block (62), and a second mould (64) is fixedly arranged on the mould connecting block (62), be equipped with heating motor (63) in second mould (64), template arrangement groove (46) are all equipped with two sets ofly at mould case (65) symmetry to second mould (64) and the required part of elastic connection, it settles case (67) to support base (12) upper surface center and has set firmly pump machine, one side that case (67) was settled to the pump machine has set firmly trachea groove (68), be equipped with air pump (69) in pump machine arrangement case (67), the output and the pump machine output tube (70) of air pump (69) communicate with each other, pump machine output tube (70) pass in trachea groove (68) and the two spaces of pipe template (50) and communicate with each other, the input of air pump (69) passes and supports base (12) and communicate with each other with the external world.