CN103172258B - Glass tubing closing device - Google Patents

Abstract

The invention provides a kind of Glass tubing closing device, be included in transfer passage frame being provided with and being driven by transmission rig, described transfer passage is made up of several rollers, the mutual overlapping setting of each adjacent rollers, outer end at the overlapping place of adjacent rollers, the position near Glass tubing port are provided with the sealing part for being sealed by Glass tubing, the below of Glass tubing is provided with shift assembly, and so-called shift assembly makes Glass tubing move between the overlapping place of adjacent rollers.Glass tubing closing device structure provided by the present invention is simple, utilizes roller to realize the rotation of Glass tubing, uses the transfer passage superior displacement that shift assembly makes Glass tubing be made up of roller simultaneously, and sealing working (machining) efficiency increases substantially.

Description

Glass tubing closing device

Technical field

The present invention relates to a kind of Glass tubing closing device.

Background technology

In order to strengthen the antidetonation physical strength of pharmaceutical glass pipe, reduce the fragmentation of Glass tubing in transport, use procedure, and reducing the pollution of Glass tubing in transport, storage process, Chinese patent application 201310086844.8 proposes a kind of pharmaceutical glass pipe sealed Glass tubing one or both ends.But, in Glass tubing sealing process, the movement of Glass tubing between different station to be solved on the one hand, on the other hand during glass tube heating, Glass tubing itself needs to rotate to make the whole mouth of pipe be heated, and namely should consider the conveying of Glass tubing, considers the rotation of Glass tubing in course of conveying again.Chinese patent application 201120501647.4 discloses a kind of solar energy thermal-collecting tube sealing machine, mainly comprise and be arranged on parallel to each other in frame and driven and the driving chain group for thermal-collecting tube conveying of synchronous operation by a gap transmission system, equidistantly in driving chain group be arranged at intervals with several and correspond to each other, and be tube head mechanical manipulator and the pipe tail mechanical manipulator of concentric synchronous axial system with corresponding thermal-collecting tube, frame is provided with for the automatic sealing device by interior outer glass pipe tube head sealing, also be provided with the rotation chain group for thermal-collecting tube rotation parallel with driving chain group in addition.In order to realize conveying and the rotation of thermal-collecting tube, arrange driving chain group and rotation chain group respectively, cause this solar energy thermal-collecting tube sealing machine complex structure, cost of manufacture is high.

Summary of the invention

For above-mentioned Problems existing, technical problem to be solved by this invention be to provide a kind of realize simultaneously Glass tubing conveying and rotation, the simple Glass tubing closing device of structure.

The present invention includes frame, frame is provided with the transfer passage driven by transmission rig, Glass tubing is carried along transfer passage by beat-type, the direction that Glass tubing is positioned on transfer passage is vertical with its throughput direction, Glass tubing processing port is being provided with primary heater unit, and for the sealing part by Glass tubing port sealing, it is characterized in that: described transfer passage is made up of several rollers, the mutual overlapping setting of each adjacent roller, form the overlapping place of adjacent rollers, described sealing part is arranged on the outer end at the overlapping place of adjacent rollers also near Glass tubing port, the shift assembly making Glass tubing from the overlapping adjacent rollers overlapping place movement backward of previous adjacent rollers is also provided with in the below of Glass tubing.

Further, described transfer passage is divided into preheating section and sealing processing sections, wherein, described primary heater unit is arranged on described preheating section, and described sealing part is arranged on described sealing processing sections.

Further, for realizing the conveying displacement of Glass tubing better, and make device structure simple as far as possible, described shift assembly is supporting plate moving up and down, the inclined-plane that the direction that the upper surface of described supporting plate is movement needed for Glass tubing tilts.The shape of described supporting plate can be arranged to trapezoidal.

Further, multiple described supporting plate is connected to form supporting plate group by supporting plate framework, and this supporting plate group is driven by supporting plate cylinder and moves up and down.It is trapezoidal that the shape of described supporting plate framework also can coordinate pallet shape to be arranged to.Certainly, usually supporting plate corresponding in same processing sections should be connected into a supporting plate group, so namely can omitting the quantity of the supporting plate cylinder for driving, being also convenient to accurately to realize Glass tubing simultaneously and moving in the conveying of each machining position.Cylinder is only to provide a kind of mode of shift assembly running required drive, and other modes also can use in the present invention.

Further, the hold-down gear for pressed glass pipe is being provided with near position, adjacent rollers overlapping place.The setting of hold-down gear, is when sealing part action, and when can prevent from sealing, Glass tubing rocks or moves, impact sealing processing.

Described hold-down gear can be following concrete structure: it comprises contact roller, and the compression wheel seat be connected with contact roller.Described compression wheel seat connects compression cylinder, and described hold-down gear moves up and down under compression cylinder drives.When compressing wheel seat and moving down, contact roller contacts with Glass tubing.Cylinder is only to provide a kind of mode of hold-down gear running required drive, and other modes also can use in the present invention.

Further, described sealing part can be following concrete structure: it comprises Pneumatic clamping jaw, and the straight line line rail be connected with Pneumatic clamping jaw.Described straight line line rail connects mobile cylinder, and whole sealing part, under mobile cylinder drives, moves forward and backward along Glass tubing axis direction.Cylinder is only to provide a kind of mode of hold-down gear running required drive, and other modes also can use in the present invention.

In order to make Glass tubing two ends seal, described sealing part is arranged in pairs relative to the two ends of Glass tubing.

Conveniently Glass tubing following process, the hot gas that Glass tubing is produced in manufacturing procedure is discharged, and needs the sealing port for Glass tubing to bore a hole.Therefore, the present invention arranges perforation processing sections after sealing processing sections; At this perforation processing sections, be also also provided with the driling unit for punching to the sealing end of Glass tubing near the position of Glass tubing processing port in the outer end at the overlapping place of adjacent rollers.

Described driling unit can be any one in flame-perforated, laser boring or the flame-perforated device of draw point.Be preferably flame-perforated device, after sealing processing, when the Glass tubing port sealed still is in certain temperature but has been solid state, utilize flame can realize perforation.

The present invention uses multiple roller to form transfer passage, and transfer passage rotates under transmission rig drives, and Glass tubing realizes rotation in the overlapping place of adjacent rollers, can make to be heated in the Glass tubing course of processing more even; In addition, frame arranges the shift assembly making Glass tubing movement, and Glass tubing, under the drive of shift assembly, moves to the overlapping place of next adjacent rollers.The present invention solves rotation and the movement of Glass tubing simultaneously, realizes the automatic sealing of Glass tubing, and structure is simple, and sealing working (machining) efficiency increases substantially.

Accompanying drawing explanation

Fig. 1 is overall structure schematic diagram of the present invention;

Fig. 2 is Fig. 1 side-view;

Fig. 3 is shift assembly structural representation of the present invention;

Fig. 4 is supporting plate group structural representation of the present invention;

Fig. 5 is hold-down gear structural representation of the present invention;

Fig. 6 is sealing part structural representation of the present invention.

In figure: 1-frame, 2-motor, 3-transmission rig, 4-roller, 5-shift assembly, 6-sealing part, 7-hold-down gear, 8-primary heater unit, 9-driling unit, 10-Glass tubing, 11-supporting plate, 12-cylinder one, 13-supporting plate framework, the two guide rod cylinder of 14-, 15-contact roller, 16-compresses wheel seat, 17-Pneumatic clamping jaw, 18-straight line line rail, 19-cylinder two, 20-slide block.

Embodiment

As shown in Figure 1, 2, the present invention includes frame 1, transmission rig 3, roller 4, between each adjacent rollers, mutual overlapping setting is to form transfer passage.This transfer passage comprises preheating section I, sealing processing sections II, cooling section III, perforation processing sections IV(and first must solidify at perforation front glass end surfaces and could bore a hole after cooling slightly), holding stage V five processing sections.Outer end at the overlapping place of adjacent rollers, the position near Glass tubing 10 port, be provided with the sealing part 6 for being sealed by Glass tubing and be used for the primary heater unit 8 of scorification Glass tubing 10 port, and the overlapping place of adjacent rollers is provided with the hold-down gear 7 for pressed glass pipe 10, and the driling unit 9 for punching to Glass tubing 10.The shift assembly 5 for making Glass tubing 10 be shifted also is provided with in the below of Glass tubing 10.

As shown in Figure 3, shift assembly 5 is specially supporting plate 11, and supporting plate 11 has an inclined-plane, and described inclined-plane tilts along the direction of movement needed for Glass tubing.The below of supporting plate 11 is provided with cylinder 1, and supporting plate 11 moves up and down under the drive of cylinder 1.As shown in Figure 4, multiple supporting plate 11 forms supporting plate group under the connection of supporting plate framework 13, and cylinder 1 connects supporting plate framework 13.When Glass tubing 10 arrives station (i.e. the overlapping place of adjacent rollers) and needs displacement, cylinder 1 drives supporting plate framework 13 to rise to work desired position, Glass tubing 10 holds up by supporting plate 11 simultaneously, and Glass tubing 10 is slipped to next station along the inclined-plane of supporting plate, completes the displacement of Glass tubing 10.Supporting plate 11 can be arranged to trapezium-shaped; Supporting plate framework 13 also can be arranged to trapezium-shaped.

As shown in Figure 5, be the concrete structure of hold-down gear 7.Hold-down gear 7 comprises contact roller 15, compresses wheel seat 16.Contact roller 15 is connected with compression wheel seat 16, compresses wheel seat 16 and connects two guide rod cylinder 14.When Glass tubing 10 moves (Glass tubing displacement or rotation), two guide rod cylinder 14 is started working, drive hold-down gear 7 lifting, when Glass tubing moves to station (i.e. the overlapping place of adjacent rollers) and needs to carry out Glass tubing sealing operation, two guide rod cylinder 14 drives compression wheel seat 16 to move downward, and contact roller 15 pushes down Glass tubing 10 under the drive compressing wheel seat 16.

As shown in Figure 6, be the concrete structure of sealing part 6.Sealing part 6 comprises Pneumatic clamping jaw 17, straight line line rail 18.Pneumatic clamping jaw 17 is connected with straight line line rail 18, and straight line line rail 18 connects cylinder 2 19.When Glass tubing 10 moves to station (i.e. the overlapping place of adjacent rollers) and needs to seal port, cylinder 2 19 drives the slide block 20 on straight line line rail 18 to move, and drive the Pneumatic clamping jaw 17 be fixed on slide block 20 to move to Glass tubing 10 port direction, when arriving work desired location, the port of Pneumatic clamping jaw 17 clamping glass pipe 10, subsequently, cylinder 2 19 moves to the direction away from Glass tubing 10 port, and drive Pneumatic clamping jaw 17, when cylinder 2 19 moves into place, Pneumatic clamping jaw 17 unclamps Glass tubing 10, completes the sealing to Glass tubing 10.

As shown in Figure 1, composition graphs 2 to Fig. 6, Glass tubing closing device workflow of the present invention is: Glass tubing is successively through the four-stage such as preheating section I, sealing processing sections II, cooling section III, perforation processing sections IV, holding-zone V.At preheating section I, Glass tubing 10 is placed on station (i.e. the overlapping place of adjacent rollers), motor 2 drives drive mechanism 3, roller 4 rotates under the drive of transmission rig 3, Glass tubing 10 rotation along with the rotation of roller 4, and the Glass tubing 10 in primary heater unit 8 pairs of rotations heats, when Glass tubing 10 heats appropriateness, shift assembly 5 is under the effect of cylinder 12, and upwards hold up Glass tubing 10, Glass tubing 10 enters next station along the inclined-plane of supporting plate 11.When Glass tubing 10 moves to the station of sealing processing sections II, hold-down gear 7 compresses Glass tubing 10 under the drive of two guide rod cylinder 14, and sealing part 6 realizes the sealing to Glass tubing 10 port under the drive of cylinder 2 19 subsequently.After sealing, Glass tubing 10 is moved to next station by shift assembly 5, and when Glass tubing 10 enters cooling section III, then enter perforation processing sections IV, the port that driling unit 9 pairs of Glass tubings 10 have been closed punches.After punching, shift assembly 5 holds up Glass tubing 10 again to enter holding stage V.At preheating section I, at same station by the temperature of glass tube heating to applicable sealing, the temperature of applicable sealing operation also can slowly can be heated at multiple station.

Preheating of the present invention, sealing process can be carried out at same station, also can carry out at different station, and namely primary heater unit 8, sealing part 6 can be arranged on same station, also can be arranged on different station before and after continuous print.

As improvement of the present invention, all can carry out sealing operation to two of Glass tubing 10 port, namely primary heater unit 8, sealing part 6 are all set relative to the two ends of Glass tubing.When two ports of Glass tubing 10 are all sealed, discharge smoothly for ease of the issuable hot gas of subsequent processing operations, all can punch to two of Glass tubing sealing end, also can only to one of them sealing end punching, or when only closing one of them port, do not carry out drilling operation, thus avoid arranging driling unit 9.

Claims (9)

1. a Glass tubing closing device, comprise frame, frame is provided with the transfer passage driven by transmission rig, Glass tubing is carried along transfer passage by beat-type, the direction that Glass tubing is positioned on transfer passage is vertical with its throughput direction, Glass tubing processing port is being provided with primary heater unit, and for the sealing part by Glass tubing port sealing, it is characterized in that: described transfer passage is made up of several rollers, the mutual overlapping setting of each adjacent roller, form the overlapping place of adjacent rollers, described sealing part is arranged on the outer end at the overlapping place of adjacent rollers and processes port near Glass tubing, the shift assembly making Glass tubing from the overlapping adjacent rollers overlapping place movement backward of previous adjacent rollers is also provided with in the below of Glass tubing.

2. Glass tubing closing device as claimed in claim 1, is characterized in that: described transfer passage is divided into preheating section and sealing processing sections, and wherein, described primary heater unit is arranged on described preheating section, and described sealing part is arranged on described sealing processing sections.

3. Glass tubing closing device as claimed in claim 1 or 2, is characterized in that: described shift assembly is supporting plate moving up and down, the inclined-plane that the direction that the upper surface of described supporting plate is movement needed for Glass tubing tilts.

4. Glass tubing closing device as claimed in claim 3, is characterized in that: multiple described supporting plate is connected to form supporting plate group by supporting plate framework, and this supporting plate group is driven by supporting plate cylinder and moves up and down.

5. Glass tubing closing device as claimed in claim 1 or 2, is characterized in that: be provided with the hold-down gear for pressed glass pipe near position, adjacent rollers overlapping place; This hold-down gear comprises contact roller, and the compression wheel seat moving up and down be connected with contact roller; When compressing wheel seat and moving down, contact roller contacts with Glass tubing.

6. Glass tubing closing device as claimed in claim 1 or 2, is characterized in that: described sealing part comprises Pneumatic clamping jaw, and the straight line line rail be connected with Pneumatic clamping jaw; Described straight line line rail connects mobile cylinder, and whole sealing part, under mobile cylinder drives, moves forward and backward along Glass tubing axis direction.

7. Glass tubing closing device as claimed in claim 6, is characterized in that: described sealing part is arranged in pairs relative to the two ends of Glass tubing.

8. Glass tubing closing device as claimed in claim 2, is characterized in that: after sealing processing sections, arrange perforation processing sections; At this perforation processing sections, the overlapping place of adjacent rollers outer end and be provided with near the position of Glass tubing processing port for sealing to Glass tubing the driling unit that port punches.

9. Glass tubing closing device as claimed in claim 8, is characterized in that: described driling unit is the one in flame-perforated, laser boring or the flame-perforated device of draw point.