CN113754264B - Glass tube processing equipment and production line - Google Patents

Abstract

The utility model relates to a glass manages processing equipment and production line relates to the technical field of glass manages processing, which comprises a bracket, the support on be equipped with heating device and rolling device, the rolling device include supporting mechanism and rolling mechanism, supporting mechanism on be equipped with the support groove that is used for supporting the glass pipe, rolling mechanism be used for the drive supported glass pipe to rotate along self axis in supporting the inslot, heating device be used for heating the tip of glass pipe. This application has the better advantage of round mouth effect to the glass pipe.

Description

Glass tube processing equipment and production line

Technical Field

The application relates to the technical field of glass tube processing, in particular to glass tube processing equipment and a glass tube processing production line.

Background

The glass tube is a glass having sodium oxide (Na2O), boron oxide (B2O3), and silicon dioxide (SiO2) as essential components. In the chemical industry, boron glass with good thermal stability and corrosion resistance is generally adopted.

In the process of processing the glass tube, the end part of the glass tube needs to be subjected to round mouth operation, the end part of the glass tube conveyed by the conveying device is heated by flame of the existing glass tube, so that the end part of the glass tube is melted, and then the edge of the port of the glass tube is re-solidified after being heated and melted to form a round end part. However, the existing round mouth operation has poor effect on the round mouth of the glass tube.

Disclosure of Invention

To the not enough of prior art existence, one of the purpose of this application provides a glass manages processing equipment and production line, and it has the better advantage of round mouth effect to the glass pipe.

The application discloses a glass manages processing equipment on the one hand:

the glass tube processing equipment comprises a support, wherein a heating device and a rolling device are arranged on the support, the rolling device comprises a supporting mechanism and a rolling mechanism, a supporting groove used for supporting a glass tube is formed in the supporting mechanism, the rolling mechanism is used for driving the supported glass tube to rotate in the supporting groove along the axis of the rolling mechanism, and the heating device is used for heating the end part of the glass tube.

Through adopting above-mentioned technical scheme, when using, the glass pipe is supported by the support groove and one end stretches out in supporting the groove, and heating device heats the one end of glass pipe, and rolling mechanism drive glass pipe rotates, and consequently the tip of glass pipe also can rotate thereupon for the tip of glass pipe is heated more evenly, makes the port edge of glass pipe more mellow and more regular of tip that solidifies the formation again after being heated melts.

The present application may be further configured in a preferred example to: the supporting mechanism comprises at least two supporting wheels, the two supporting wheels are rotatably connected with the bracket, the supporting groove is formed by the two supporting wheels, and the axes of the two supporting wheels are parallel.

Through adopting above-mentioned technical scheme, when using, because the support groove is formed by two supporting wheels, consequently better to the supporting effect of glass pipe, also can reduce the probability that the glass pipe damaged simultaneously.

The present application may be further configured in a preferred example to: the rolling mechanism comprises a driving assembly, and the driving assembly is connected with the two supporting wheels and used for driving the two supporting wheels to rotate.

Through adopting above-mentioned technical scheme, in use, drive assembly drive supporting wheel rotates to can drive the glass pipe that is located the support inslot and take place to rotate, consequently when using, make the tip of glass pipe be heated more evenly.

The present application may be further configured in a preferred example to: still include the mobile device, the mobile device include the mount and install the moving mechanism on the mount, moving mechanism include horizontal migration subassembly and jacking subassembly, the horizontal migration subassembly be used for driving the jacking subassembly remove, the jacking subassembly be used for driving the support reciprocate.

Through adopting above-mentioned technical scheme, in use, the glass pipe is carried by conveyor, and when the glass pipe was carried to the top of supporting the groove, jacking subassembly drive support rose for the glass pipe is located supporting the inslot and breaks away from conveyor, and mobile device drives jacking subassembly and moves along conveyor's direction of delivery afterwards, and consequently in actual use, when carrying out the round mouth operation to the glass pipe, the glass pipe breaks away from with conveyor mutually, and consequently conveyor need not the stop and waits.

The present application may be further configured in a preferred example to: the sealing device comprises a clamping mechanism and a driving mechanism used for driving the clamping mechanism to reciprocate along the axis direction of the glass tube.

Through adopting above-mentioned technical scheme, in use, when needs seal the operation to the glass pipe, heat the glass pipe through heating device for by the melting of heating section, fixture grip the glass pipe of melting section one end afterwards, and keep away from the glass pipe under actuating mechanism's effect, consequently by the molten state glass of heating section can seal the glass pipe, thereby reach the purpose of sealing.

The present application may be further configured in a preferred example to: the sealing device further comprises a pressing mechanism, and the pressing mechanism comprises a pressing head used for pressing the glass tube.

By adopting the technical scheme, when the glass tube sealing device is used, when the two ends of the glass tube are required to be sealed, the pressing head presses the glass tube, and the probability of dislocation of the glass tube caused by pulling of the clamping device when the other end of the glass tube is not heated to a molten state is reduced.

The present application may be further configured in a preferred example to: the sealing device further comprises a forming mechanism, the forming mechanism comprises an air outlet nozzle, and the air flow sprayed out of the air outlet nozzle is heated towards the glass tube.

By adopting the technical scheme, when the glass tube melting section is separated from the glass tube under the action of the clamping mechanism, the air outlet nozzle blows molten glass which is not clamped by the clamping mechanism, so that the part is sunken in the glass tube, and the glass tube cannot be protruded outwards after being cooled and formed.

On the other hand, this application still discloses a production line, includes as above-mentioned a glass manages processing equipment, still includes conveyor, conveyor be used for carrying the glass pipe, the support setting be in conveyor's one side.

Through adopting above-mentioned technical scheme, when using, the support that sets up on conveyor one side is more convenient for carry out one's worth processing to the tip of glass pipe.

The present application may be further configured in a preferred example to: the device also comprises a fine cutting device which is arranged in front of the bracket along the conveying direction of the conveying device.

Through adopting above-mentioned technical scheme, in use, the glass pipe that is carried by conveyor is the nozzle stub that is broken into one section by the long tube, and consequently the tip of the glass pipe that is carried by conveyor is uneven, and the finish cutting device can be amputated the tip of glass pipe for the tip of glass pipe is more neat, makes the round mouth effect to the tip of glass pipe better.

The present application may be further configured in a preferred example to: the heat preservation device is arranged behind the support along the conveying direction of the conveying device.

Through adopting above-mentioned technical scheme, when using, heat preservation device makes the tip temperature reduction of glass pipe more slow, consequently can effectively reduce the intraductal stress of glass pipe after the cooling.

Drawings

FIG. 1 is a schematic view of the structure of a glass tube processing apparatus according to the present invention.

Fig. 2 is a schematic structural diagram of a jacking frame of the present application.

Fig. 3 is an enlarged schematic view of a portion a in fig. 1 of the present application.

Fig. 4 is a schematic structural view of the pressing mechanism of the present application.

Fig. 5 is a schematic top view of the heating device and the rolling device of the present application.

FIG. 6 is a schematic diagram of the present application.

Fig. 7 is a schematic view of the support block structure of the present application.

FIG. 8 is a schematic view of the punching device according to the present application.

Reference numerals: 1. a fixed mount; 11. a movable frame; 111. a transverse frame; 112. a longitudinal frame; 113. a power source; 121. a lateral moving member; 122. a longitudinal moving member; 13. a jacking frame; 131. a vertical moving member; 14. a support; 141. a left support plate; 142. a right support plate; 143. mounting grooves; 15. a support mechanism; 151. a rotating shaft; 152. a support wheel; 153. a support groove; 161. a first nozzle; 17. a drive assembly; 18. a drive mechanism; 181. a slider; 182. mounting a plate; 183. a pneumatic finger; 184. a drive member; 19. a pressing mechanism; 191. a hinged lever; 192. a pressing head; 193. pressing the wheel; 194. a pressing plate; 195. a vertical plate; 196. a bolt; 197. a limiting plate; 101. an air outlet nozzle; 2. a conveying device; 21. a support block; 22. a V-shaped groove; 3. a fine cutting device; 4. a punching device; 41. a lamp holder with a hole; 5. a heat preservation device.

Detailed Description

The present application is described in further detail below with reference to figures 1-8.

Referring to fig. 1 and 2, a glass tube processing apparatus disclosed in the present application includes a moving device, where the moving device includes a fixing frame 1, and the fixing frame 1 is disposed on a supporting surface, which may be the surface of the ground or other objects. The fixed frame 1 is provided with a moving mechanism, and the moving mechanism comprises a horizontal moving assembly and a jacking assembly. The horizontal moving assembly includes a moving frame 11, a lateral moving member 121, and a longitudinal moving member 122. The moving direction of the transverse moving member 121 is perpendicular to the moving direction of the longitudinal moving member 122. The transverse moving member 121 is fixedly installed on the fixed frame 1, the moving frame 11 comprises a transverse frame 111 and a longitudinal frame 112, the transverse frame 111 and the transverse moving member 121 are connected to realize transverse movement of the transverse frame 111 relative to the fixed frame 1, the longitudinal moving member 122 is fixedly installed on the transverse frame 111, and the longitudinal frame 112 and the longitudinal moving member 122 are connected to realize longitudinal movement of the longitudinal frame 112 relative to the transverse frame 111. The jacking assembly comprises a jacking frame 13 and vertical moving parts 131, the vertical moving parts 131 are vertically and fixedly mounted on the longitudinal frame 112, and the jacking frame 13 is connected with the vertical moving parts 131 to realize that the jacking frame 13 moves up and down relative to the longitudinal frame 112. In the present embodiment, the vertical moving member 131, the horizontal moving member 121, and the longitudinal moving member 122 are all linear guide rails. In this embodiment, the jacking frame 13, the transverse frame 111 and the longitudinal frame 112 are driven to move by a power source 113, and the power source 113 may be an air cylinder, an oil cylinder, an electric push rod or a linear module. The driving can also be performed by a motor, a gear and a rack, taking the embodiment as an example, for example, the motor is fixedly installed on the transverse frame 111, the rack is fixedly installed on the fixed frame 1, and the gear is fixedly installed on the output shaft of the motor and is meshed with the rack.

Referring to fig. 2, a support 14 is fixedly connected to the jacking frame 13, a heating device and a rolling device are arranged on the support 14, the support 14 includes a left support plate 141 and a right support plate 142 which are connected, and the left support plate 141 is fixedly connected to the jacking frame 13. A mounting groove 143 is formed between the left support plate 141 and the right support plate 142, and the heating device comprises a first nozzle 161, and the first nozzle 161 is fixedly mounted in the mounting groove 143. In use, the first nozzle 161 is connected to a combustible gas source (e.g., gas, natural gas, etc.) via a conduit and a stable flame is achieved at the first nozzle 161 by igniting the gas emitted from the first nozzle 161.

The rolling device comprises a supporting mechanism 15 and a rolling mechanism, the supporting mechanism 15 comprises two groups of rotating shafts 151, two ends of each rotating shaft 151 are respectively connected with the left support plate 141 and the right support plate 142 in a rotating mode, and supporting wheels 152 are fixedly mounted at two ends of each rotating shaft 151. The support wheels 152 on the adjacent rotary shafts 151 form support grooves 153 to support the glass tubes. The first nozzle 161 is located between the adjacent two rotating shafts 151. In this embodiment, the support 14 is provided with a plurality of support mechanisms 15. The rolling mechanism comprises a drive assembly 17, the drive assembly 17 comprising a motor and a chain. One end fixedly connected with gear of axis of rotation 151, motor fixed mounting are in mounting groove 143, and the motor drives the reduction gear work, fixedly connected with gear on the output shaft of reduction gear, and the chain cover is established on the gear on the output shaft of reduction gear and the gear on axis of rotation 151 to the realization drives axis of rotation 151 pivoted mesh through the motor.

Referring to fig. 3, a sealing device is further fixedly connected to the longitudinal frame 112, the sealing device includes a driving mechanism 18, the driving mechanism 18 includes a sliding member 181, a mounting plate 182 and a driving member 184, the sliding member 181 is fixedly mounted on the longitudinal frame 112, the mounting plate 182 is fixedly mounted on the sliding member 181, the driving member 184 is fixedly mounted on the longitudinal frame 112 and is connected to the mounting plate 182 for realizing the relative sliding between the mounting plate 182 and the longitudinal frame 112, and the sliding direction of the mounting plate 182 is parallel to the axis of the glass tube. In this embodiment, the glide is a linear guide. The driving member 184 can be a cylinder, an oil cylinder, an electric push rod or a linear module. The mounting plate 182 is fixedly provided with a clamping mechanism, the clamping mechanism comprises a pneumatic finger 183, and the pneumatic finger 183 is fixedly arranged on the lower surface of the mounting plate 182 and is positioned above the supporting groove 153.

Referring to fig. 4, the sealing apparatus further includes a pressing mechanism 19, and the pressing mechanism 19 includes a hinge rod 191 and a pressing head 192 fixedly disposed at one end of the hinge rod 191. The vertical frame 112 is fixedly provided with a vertical plate 195, the hinge rod 191 is hinged with the vertical plate 195, the vertical plate 195 is further provided with a limit plate 197, the limit plate 197 is connected with a bolt 196 through a thread, and the end part of the bolt 196 is abutted against the hinge rod 191 to adjust the height position of the pressing head 192. The pressing head 192 includes a pressing plate 194 and a pressing wheel 193 rotatably installed on the pressing plate 194, and the pressing wheel 193 has two and forms a pressing groove for pressing the glass tube in this embodiment. The pressing groove is positioned right above the supporting groove 153.

The sealing device further comprises a forming mechanism, the forming mechanism comprises an air outlet nozzle 101 and an air source, and the air source is connected with the air outlet nozzle 101 through a pipeline and is used for providing air with a certain pressure for the air outlet nozzle 101. The air flow ejected from the air outlet nozzle 101 is directed toward the heated portion of the glass tube. In this embodiment, the air outlet 101 is fixedly installed on the hinge rod 191 between the pressing head 192 and the pneumatic finger 183.

That is, in use, the fixed frame 1 is located below the conveying device 2 for conveying the glass tube, and the moving devices are two and located at both sides of the conveying device 2, respectively. At this time, the moving direction of the traverse member 121 is perpendicular to the conveying direction of the conveying device 2. The moving direction of the longitudinal moving member 122 is parallel to the conveying direction of the conveying device 2. Therefore, when the conveying device 2 conveys the glass tube above the supporting grooves 153, the lift-up frame 13 moves upward so that both ends of the glass tube are respectively positioned in the supporting grooves 153 at both sides of the conveying device 2 until the upper portion of the glass tube is positioned in the pressing groove. At this time, the glass tube is supported by the supporting groove 153 and separated from the conveying device 2, and then the glass tube supported by the supporting groove 153 and the conveying device 2 move synchronously in the same direction by the longitudinal frame 112 and rotate by the supporting wheel 152.

When round mouth operation is needed, the end part of the glass tube is heated to be molten by the flame at the first nozzle 161, and when the molten part is cooled again, the end opening of the glass tube is more round and regular. Subsequently, the lift-up frame 13 is lowered so that the glass tube after the round-nose operation falls on the conveyor 2 again.

When the sealing operation is needed, the part of the glass tube close to the end is heated to a molten state, then the pneumatic finger 183 clamps the glass tube and moves towards the direction far away from the conveying device 2, so that the tube body on one side of the molten section of the glass tube is pulled down from the glass tube, at the moment, the molten glass liquid covers the port of the glass tube supported by the supporting groove 153, and the molten glass liquid can seal the glass tube in the rotating process of the glass tube. In the sealing process, gas ejected from the gas nozzle exerts certain pressure on molten glass, so that the sealing of the glass tube is sunken in the glass tube after cooling. Then the lift-up frame 13 is lowered so that the glass tube after the sealing operation falls on the conveyor 2 again.

In this embodiment, the heating means and the rolling means on the frame 14 are divided into two groups of equal number, see fig. 5, and the heating means and the rolling means are divided into two groups of equal number, i.e., group B and group C, wherein one group (group B) is used for sealing or rounding the glass tube. The other group (group C) is used for preserving the heat of the end part of the glass tube after sealing and rounding, so that the temperature of the end part of the glass tube is reduced more slowly, and the stress of the glass tube in the cooled glass tube can be effectively reduced.

That is, when in use, under the action of the jacking frame 13, the glass tube after the round mouth or sealing operation on the conveying device 2 falls into the supporting groove 153 of the rolling device for insulating the glass tube, and the end part of the glass tube is exposed to the flame at the first nozzle 161, so that the cooling speed of the end part of the glass tube can be reduced, and the glass tube and the conveying device 2 synchronously move in the same direction under the drive of the longitudinal frame 112. After the heat is preserved for a period of time, the jacking frame 13 descends to enable the glass tube after the heat preservation operation to fall on the conveying device 2 again.

Referring to fig. 6 and 7, the application further discloses a production line, which comprises a conveying device 2, wherein the conveying device 2 comprises a chain conveyor and a supporting block 21, the supporting block 21 is fixedly installed on a chain of the chain conveyor, and a V-shaped groove 22 for supporting the glass tube is formed in the supporting block 21.

A fine cutting device 3, a perforating device 4, glass tube processing equipment and a heat preservation device 5 are sequentially arranged along the conveying direction of the conveying device 2. The fixing frame 1 of the glass tube processing equipment is positioned below the conveying device 2 for conveying glass tubes, and the two moving devices are respectively positioned at two sides of the conveying device 2.

In this embodiment, there are two sets of glass tube processing equipment, and in other embodiments, there may be one set or multiple sets of glass tube processing equipment. In the present embodiment, the heating device and the rolling device of the glass tube processing equipment are not divided into two groups, that is, the number of the supporting grooves is equal to the number of the pneumatic fingers, that is, the heating device and the rolling device are only used for sealing and rounding the glass tube. The round mouth or the sealed end of the glass tube is insulated by an insulation device 5.

The fine cutting device 3 comprises a support frame, a second nozzle is fixedly connected to the support frame, the second nozzle is connected with a combustible gas source (such as coal gas, natural gas and the like) through a pipeline, and stable flame can be achieved at the second nozzle by igniting gas sprayed out of the second nozzle. Still be equipped with the cooling pan on the support frame, the cooling pan is the metal material, is equipped with the shower nozzle that is used for to cold dish water spray on the support frame. The second nozzle and the cooling disc are positioned on the same straight line and arranged along the conveying direction of the conveying device 2.

When the glass tube cutting device is used, the end part of the glass tube is heated by the flame at the second nozzle and then moves to the cooling disc under the conveying of the conveying device 2, and the temperature of the cooling disc is far lower than that of the glass tube, so that the glass tube can be broken at the heated position, and the end part of the glass tube can be cut.

Referring to fig. 8, the punching device 4 includes a moving unit composed of linear modules and movable in the vertical direction and the conveying direction of the conveying device 2, and the punching device 4 further includes a punching head 41 for punching, and the punching head 41 is mounted on the moving unit and moved by the moving unit. The perforated base 41 is connected to a combustible gas source (e.g., gas, natural gas, etc.) through a pipe, and by igniting the gas ejected from the perforated base 41, a stable flame can be achieved at three locations of the nozzle. The glass tube is punched.

The heat preservation device 5 comprises a third nozzle, the third nozzle is connected with a combustible gas source (such as coal gas, natural gas and the like) through a pipeline, and stable flame can be realized at the third nozzle by igniting the gas sprayed out of the third nozzle. The glass tube after the round mouth or sealing operation on the conveying device 2 moves to the heat preservation device 5 under the conveying of the conveying device 2, and the end part of the glass tube moves along the flame at the three positions of the nozzle under the conveying of the glass tube along the conveying device 2, so that the cooling speed of the end part of the glass tube can be reduced.

The implementation principle of the embodiment is as follows: when using, place the glass pipe in V type groove 22 on supporting shoe 21, conveyor 2 drives the glass pipe and removes afterwards, the glass pipe is in proper order through finish cut device 3, perforating device 4, glass pipe processing equipment and heat preservation device 5, in the in-service use, the operator can adjust opening of above-mentioned device according to actual need and stop, thereby realize carrying out required operation to the glass pipe, through opening and stopping of operation finish cut device 3, perforating device 4, glass pipe processing equipment and heat preservation device 5 and realize one or more in cutting, punch, round mouth, seal and the heat preservation promptly.

The embodiments of the present invention are preferred embodiments of the present application, and the scope of protection of the present application is not limited by the embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a glass tube processing equipment which characterized in that: the glass tube rolling device comprises a support (14), wherein a heating device and a rolling device are arranged on the support (14), the rolling device comprises a supporting mechanism (15) and a rolling mechanism, a supporting groove (153) for supporting a glass tube is arranged on the supporting mechanism (15), the rolling mechanism is used for driving the supported glass tube to rotate in the supporting groove (153) along the axis of the rolling mechanism, and the heating device is used for heating the end part of the glass tube;

the mobile device comprises a fixed frame (1) and a mobile mechanism arranged on the fixed frame (1), wherein the mobile mechanism comprises a horizontal moving component and a jacking component, the horizontal moving component is used for driving the jacking component to move, and the jacking component is used for driving the support (14) to move up and down;

the glass tube conveying device is characterized by further comprising a conveying device (2), wherein the conveying device (2) is used for conveying a glass tube, and the support (14) is arranged on one side of the conveying device (2);

the horizontal moving assembly comprises a moving frame (11), a transverse moving member (121) and a longitudinal moving member (122), the moving direction of the transverse moving member (121) is perpendicular to the conveying direction of the conveying device (2), and the moving direction of the longitudinal moving member (122) is parallel to the conveying direction of the conveying device (2).

2. The glass tube processing apparatus as set forth in claim 1, wherein: the supporting mechanism (15) comprises at least two supporting wheels (152), the two supporting wheels (152) are rotatably connected with the bracket (14), the supporting groove (153) is formed by the two supporting wheels (152), and the axes of the two supporting wheels (152) are parallel.

3. The glass tube processing apparatus as set forth in claim 2, wherein: the rolling mechanism comprises a driving assembly (17), and the driving assembly (17) is connected with the two supporting wheels (152) and used for driving the two supporting wheels (152) to rotate.

4. The glass tube processing apparatus as set forth in claim 1, wherein: the glass tube sealing device further comprises a sealing device, wherein the sealing device comprises a clamping mechanism and a driving mechanism (18) used for driving the clamping mechanism to reciprocate along the axis direction of the glass tube.

5. The glass tube processing apparatus as set forth in claim 4, wherein: the sealing device further comprises a pressing mechanism (19), and the pressing mechanism (19) comprises a pressing head (192) used for pressing the glass tube.

6. The glass tube processing apparatus as set forth in claim 4, wherein: the sealing device further comprises a forming mechanism, the forming mechanism comprises an air outlet nozzle (101), and air flow sprayed out of the air outlet nozzle (101) faces to the heated part of the glass tube.

7. A production line comprising a glass tube processing apparatus according to any one of claims 1 to 6, characterized in that: the automatic cutting device is characterized by further comprising a fine cutting device (3), wherein the fine cutting device (3) is arranged in front of the support (14) in the conveying direction of the conveying device (2).

8. A production line according to claim 7, characterized in that: the device is characterized by further comprising a heat preservation device (5), wherein the heat preservation device (5) is arranged behind the support (14) in the conveying direction of the conveying device (2).

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