CN115710083B

CN115710083B - Glass tube blocking device and glass tube production system

Info

Publication number: CN115710083B
Application number: CN202211493460.3A
Authority: CN
Inventors: 李博; 王刚; 薄昌盛; 刘彬; 董华伟; 孙昌
Original assignee: Tunghsu Technology Group Co Ltd; Gansu Xukang Material Technology Co Ltd
Current assignee: Tunghsu Technology Group Co Ltd; Gansu Xukang Material Technology Co Ltd
Priority date: 2022-11-25
Filing date: 2022-11-25
Publication date: 2024-04-23
Anticipated expiration: 2042-11-25
Also published as: CN115710083A

Abstract

The present disclosure relates to a glass tube blocking device and a glass tube production system, the glass tube blocking device comprising: the glass tube production line comprises a conveying device, a cutting device arranged on the conveying device and a crushing device arranged on the outer side of the conveying device, and the supporting device is arranged between the cutting device and the crushing device; and the blocking piece is arranged on one side of the supporting device, which is close to the cutting device, and extends into the conveying device, and is used for blocking the cut glass tube so that the glass tube falls on the conveying device, and the blocking piece can be arranged in an openable and closable manner so that the glass tube which is not cut off can enter the crushing device. The glass tube is blocked by the blocking piece after being cut by the cutting device, the glass tube is prevented from being separated from the conveying device under the action of inertia, the blocking piece can be arranged in an openable and closable manner, the blocking piece can be opened to enter the crushing device when the glass tube is not cut off, and the glass tube is prevented from being blocked at the blocking piece when the glass tube is cut off, so that the processing of the subsequent glass tube is prevented.

Description

Glass tube blocking device and glass tube production system

Technical Field

The disclosure relates to the technical field of glass production, in particular to a glass tube blocking device and a glass tube production system.

Background

In the production of the horizontal Danna tube, a primary glass tube root is formed on a rotating tube in a muffle furnace by molten glass flow, the glass tube is drawn into a glass tube by dragging glass flow of a tractor, and then the glass tube is cut into a length which is convenient for packaging by a glass tube cutting device and then falls on a conveying device to enter the next processing link.

Disclosure of Invention

An object of the present disclosure is to provide a glass tube blocking device and a glass tube production system, which can solve the above-described problems.

In order to achieve the above object, the present disclosure provides a glass tube blocking device comprising: the glass tube production line comprises a conveying device, a cutting device arranged on the conveying device and a crushing device arranged on the outer side of the conveying device, and the supporting device is arranged between the cutting device and the crushing device; and the blocking piece is arranged on one side of the supporting device, which is close to the cutting device, and extends into the conveying device, and is used for blocking the cut glass tube so that the glass tube falls on the conveying device, and the blocking piece can be arranged in an openable and closable manner so that the glass tube which is not cut off can enter the crushing device.

Optionally, the blocking piece comprises a baffle plate perpendicular to the transportation direction of the glass tube, one side of the baffle plate is hinged with the supporting device, and a channel is arranged on the supporting device so as to prop up the baffle plate to enter the crushing device through the channel when the glass tube is not cut off.

Optionally, the support device comprises a height adjustment device, and the blocking member is connected with the height adjustment device to adjust the height of the blocking member.

Optionally, the height adjusting device includes first slip subassembly, first driving motor, with first lead screw that first driving motor's drive end is connected and cup joints first lead screw on the first lead screw with first lead screw threaded connection's first nut, the stopper with first slip subassembly is connected, first lead screw is vertical to be set up, first nut with first slip subassembly is connected in order to drive the stopper up-and-down motion.

Optionally, the first sliding component includes first guide rail, first slider and connecting plate, the vertical interval of first guide rail is equipped with two, every on the first guide rail respectively sliding connection have one first slider, the connecting plate sets up two between the first slider, be equipped with on the connecting plate and supply not cut off the through-hole that glass tube passed through, first screw with the connecting plate is connected, first lead screw sets up one side of through-hole.

Optionally, the first slider sets up the first guide rail is close to one side of baffle, the barrier still includes the connecting rod of level setting, the one end of connecting rod with the top of connecting plate is connected, the other end with the top of baffle articulates so that the baffle can follow the articulated end and reciprocate, the length of connecting rod is greater than the width of baffle.

Optionally, the glass tube blocking device further comprises a horizontal adjusting device, and the supporting device is connected with the horizontal adjusting device so that the supporting device can move towards or away from the conveying device.

Optionally, the level adjustment device includes the second guide rail that the level set up, with second guide rail sliding connection's second slider, second driving motor, with the second lead screw that second driving motor's drive end is connected and cup joint on the second lead screw with second lead screw threaded connection's second nut, strutting arrangement with the second slider is connected, the second nut with strutting arrangement is connected in order to drive strutting arrangement horizontal movement.

Optionally, a silica gel layer is arranged on one side of the baffle close to the conveying device.

The present disclosure also provides a glass tube production system comprising: the glass tube blocking device described above; and a glass tube production line, wherein the glass tube blocking device is arranged on the glass tube production line.

Through above-mentioned technical scheme, the glass pipe blocking device that this disclosure provided, including strutting arrangement and blocking piece, the blocking piece sets up on strutting arrangement, strutting arrangement sets up between cutting device and breaker, and glass pipe is blocked by the blocking piece after being cut by cutting device, prevents that glass pipe from breaking away from conveyor under the effect of inertia, and the blocking piece can open and shut the setting for can open the blocking piece when glass pipe is not cut off and get into breaker, prevent that glass pipe from being blocked in blocking piece department when cutting constantly, prevent the processing of follow-up glass pipe.

Additional features and advantages of the present disclosure will be set forth in the detailed description which follows.

Drawings

The accompanying drawings are included to provide a further understanding of the disclosure, and are incorporated in and constitute a part of this specification, illustrate the disclosure and together with the description serve to explain, but do not limit the disclosure. In the drawings:

FIG. 1 is a schematic view of a glass tube production system according to the present disclosure;

FIG. 2 is a schematic elevational view of a glass tube blocking device according to the present disclosure;

FIG. 3 is a schematic view of the back side structure of a glass tube blocking device according to the present disclosure;

Fig. 4 is a side view of a baffle according to the present disclosure.

Description of the reference numerals

1. A glass tube production line; 2. a cutting device; 3. a glass tube blocking device; 31. a support device; 311. a channel; 32. a blocking member; 321. a baffle; 322. a connecting rod; 323. a silica gel layer; 33. a level adjustment device; 331. a second driving motor; 332. a second guide rail; 333. a second slider; 334. a second lead screw; 34. a height adjusting device; 341. a first slide assembly; 3411. a first guide rail; 3412. a first slider; 3413. a connecting plate; 3414. a through hole; 342. a first driving motor; 343. a first lead screw; 344. a first nut; 4. a crushing device; 5. a conveying device; 6. a glass tube.

Detailed Description

Specific embodiments of the present disclosure are described in detail below with reference to the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating and illustrating the disclosure, are not intended to limit the disclosure.

In this disclosure, unless otherwise indicated, terms of orientation such as "upper, lower, bottom, top" are used to generally refer to the upper, lower, bottom, top of a corresponding component in the direction of gravity, and "inner, outer" are used to refer to the inner, outer relative to the contour of the component or structure itself. In addition, it should be noted that terms such as "first, second", etc. are used to distinguish one element from another element without order or importance. In addition, in the description with reference to the drawings, the same reference numerals in different drawings denote the same elements.

As shown in fig. 1-4, the present disclosure provides a glass tube blocking device comprising: a supporting device 31 for being arranged on the glass tube production line 1, the glass tube production line 1 comprising a conveying device 5, a cutting device 2 arranged on the conveying device 5 and a crushing device 4 arranged outside the conveying device 5, for example, the crushing device 4 is arranged at the tail end of the glass tube 6 in the moving direction, and the supporting device 31 is arranged between the cutting device 2 and the crushing device 4; a blocking member 32 is provided on a side of the supporting means 31 adjacent to the cutting means 2 and extends into the conveying means 5 for blocking the cut glass tube 6 so that the glass tube 6 falls on the conveying means 5, the blocking member 32 being openably and closably provided so that the glass tube 6 which is not cut off can enter the crushing means 4.

Through the technical scheme, the glass tube blocking device provided by the disclosure comprises the supporting device 31 and the blocking piece 32, wherein the blocking piece 32 is arranged on the supporting device 31, the supporting device 31 is arranged between the cutting device 2 and the crushing device 4, the glass tube 6 is blocked by the blocking piece 32 after being cut by the cutting device 2, the glass tube 6 is prevented from being separated from the conveying device 5 under the action of inertia, the cut glass tube 6 is conveyed to the next stage of process for processing through the conveying device 5 or the conveying device of the next stage of process, for example, the conveying device 5 can be L-shaped, the crushing device 4 and the cutting device 2 are arranged at the tail end of linear conveying, namely, at the corner, then the cut glass tube 6 turns to enter the next stage of process, or the conveying device 5 is a linear conveying device, the conveying device of the next stage is connected with the tail end of the conveying device 5 so as to convey the cut glass tube 6 to the next stage of process, and the crushing device 4 and the cutting device 2 are arranged at the tail end of the conveying device 5; the blocking member 32 is configured to be openable and closable, so that when the glass tube 6 is not cut, the blocking member 32 can be opened to enter the breaking device 4, the segment of the glass tube 6 is broken to the next cutting point, the glass tube 6 which is not cut completely enters the breaking device 4 under the thrust force of the subsequent glass tube 6, the inertia of the blocking member, the acting force of the conveying device 5 and the acting force of the breaking device 4, the glass tube 6 is prevented from being blocked at the blocking member 32 when being cut continuously, the processing of the subsequent glass tube 6 is hindered, and the breaking device 4 is not easy to break and extend the broken segment to the glass tube 6 of the previous segment because the glass tube 6 has a certain rigidity although being formed, but has not been subjected to cooling and other treatments, and the rigidity is not yet completely finished.

As an alternative embodiment, as shown in fig. 2 to 3, the blocking member 32 includes a blocking plate 321 disposed perpendicular to the transport direction of the glass tube 6 for blocking the cut glass tube 6, and one side of the blocking plate 321 is hinged to the supporting device 31, that is, is disposed to be openable and closable, and the supporting device 31 is provided with a passage 311 for pushing up the blocking plate 321 into the crushing device 4 through the passage 311 when the glass tube 6 is not cut.

Optionally, the support means 31 comprise height adjustment means 34, and the blocking member 32 is connected to the height adjustment means 34 for adjusting the height of the blocking member 32 for adapting to different glass tube production lines 1.

The height adjusting device 34 includes a first sliding component 341, a first driving motor 342, a first screw 343 connected to a driving end of the first driving motor 342, and a first nut 344 sleeved on the first screw 343 and screwed to the first screw 343, where the blocking member 32 is connected to the first sliding component 341, the first screw 343 is vertically disposed, and the first nut 344 is connected to the first sliding component 341 to drive the blocking member 32 to move up and down. For example, the first driving motor 342 is fixed on the supporting device 31, the driving end thereof is upward, the bottom end of the first screw 343 is connected with the driving end, the top end is rotatably connected with the top plate disposed on the top of the supporting device 31 to stabilize the first screw 343, and the first driving motor 342 rotates to drive the first screw 344 to move up and down along the first screw 343, so that the blocking member 32 is driven to move up and down by the first sliding component 341. In other embodiments, the height adjustment device 34 may also be an electric telescopic rod or a hydraulic rod to which the blocking member 32 is connected.

The first sliding assembly 341 includes two first guide rails 3411, first sliding blocks 3412 and a connecting plate 3413, the first guide rails 3411 are vertically spaced and provided with two first guide rails 3411, a space between the two first guide rails 3411 is a channel 311 on the supporting device 31 through which a glass tube 6 that is not cut off passes, each first guide rail 3411 is slidably connected with a first sliding block 3412, the connecting plate 3413 is disposed between the two first sliding blocks 3412, the connecting plate 3413 is provided with a through hole 3414 through which the glass tube 6 that is not cut off passes, the first nut 344 is connected with the connecting plate 3413, the connecting plate 3413 is used for connecting the two first sliding blocks 3412, the first nut 344 is connected with the connecting plate 3413, and the two first sliding blocks 3412 are driven to move by a first driving motor 342, and the first screw 343 is disposed on one side of the through hole 3414 to avoid the first screw 343 and the first nut 344 from blocking the through hole 3414 to block the glass tube 6. In other embodiments, the connection plate 3413 may be configured as a rod structure connected to the top of the two first sliders 3412, the first nut 344 being connected to the rod structure, and the glass tube 6 passing under the rod structure.

Optionally, the first slider 3412 is disposed on a side of the first guide rail 3411 near the baffle 321, and the blocking member 32 further includes two horizontally disposed connecting rods 322, for example, the connecting rods 322 are disposed vertically to the baffle 321, one end of each connecting rod 322 is connected to the top of the connecting plate 3413, and the other end is hinged to the top of the baffle 321 so that the baffle 321 can rotate up and down along the hinged end, and the length of each connecting rod 322 is greater than the width of the baffle 321. The connecting rod 322 is provided to prevent the connecting plate 3413 from obstructing the rotation of the baffle 321, so that the baffle 321 cannot be opened, the glass tube 6 which is not cut off pushes the baffle 321 open, so that the baffle 321 rotates anticlockwise along the hinged end, the glass tube 6 passes through the through hole 3414 and enters the crushing device 4, and the glass tube 6 passes through and then returns to the original position under the action of gravity without other driving equipment.

As an alternative embodiment, as shown in fig. 2-3, the glass tube blocking device 3 further comprises a horizontal adjusting device 33, the supporting device 31 is connected with the horizontal adjusting device 33 so that the supporting device 31 can move towards or away from the conveying device 5, and the horizontal adjusting device 33 can adjust the distance between the supporting device 31 and the conveying device 5 to block glass tubes 6 with different lengths. The supporting device 31 further comprises a supporting member arranged below the height adjusting device 34, the supporting member comprises a supporting rod arranged vertically and supporting plates connected to the upper end and the lower end of the supporting rod and arranged horizontally, the supporting plate on the upper portion is connected with the bottom of the height adjusting device 34, and the supporting plate on the lower portion is connected with the top of the horizontal adjusting device 33.

Optionally, the horizontal adjusting device 33 includes a second guide rail 332 disposed horizontally, a second slider 333 slidably connected with the second guide rail 332, a second driving motor 331, a second screw 334 connected with a driving end of the second driving motor 331, and a second nut sleeved on the second screw 334 and screwed with the second screw 334, where the supporting device 31 is connected with the second slider 333, and the second nut is connected with the supporting device 31 to drive the supporting device 31 to move horizontally. For example, two second guide rails 332 are arranged at intervals, each second guide rail 332 is provided with a second sliding block 333, the extending direction of each second guide rail 332 is perpendicular to the corresponding baffle 321, two ends of each second guide rail 332 are respectively vertically provided with a first mounting plate and a second mounting plate, a second driving motor 331 is horizontally arranged and fixed on the first mounting plate and kept motionless, one end of a second lead screw 334 is connected with the driving end of the second driving motor 331, the other end of the second lead screw 334 extends in the same direction with the second guide rail 332 and is rotationally connected with the second mounting plate, the second driving motor 331 rotationally drives a second screw to horizontally move along the second lead screw 334, the second screw is connected with the bottom of the supporting device 31, the supporting device 31 is connected with the second sliding blocks 333, and the supporting device 31 is driven by the second screw and horizontally moves on the second guide rails 332 through the second sliding blocks 333. In other embodiments, the horizontal adjusting device 33 may be an electric telescopic rod or a hydraulic rod, and the bottom of the supporting device 31 is connected to the electric telescopic rod or the hydraulic rod to drive the supporting device 31 to move horizontally.

As an alternative embodiment, as shown in fig. 4, a silica gel layer 323 is disposed on a side of the baffle 321 near the conveying device 5, so as to prevent the glass tube 6 from being broken when the glass tube 6 impacts on the baffle 321, the silica gel layer 323 can be adhered to the baffle 321, or can be connected to the baffle 321 by a bolt, if the end of the bolt is connected to the bolt, the end of the bolt is located inside the silica gel layer 323 or is flush with the outer surface of the silica gel layer 323, so as to prevent the glass tube 6 from impacting on the bolt.

As shown in fig. 1, the present disclosure also provides a glass tube production system comprising: the glass tube blocking device 3 described above; and a glass tube production line 1, and a glass tube blocking device 3 is provided on the glass tube production line 1. The blocking piece 32 is arranged on the supporting device 31, the supporting device 31 is arranged between the cutting device 2 and the crushing device 4, the glass tube 6 is blocked by the blocking piece 32 after being cut by the cutting device 2, the glass tube 6 is prevented from being separated from the conveying device 5 under the action of inertia, the blocking piece 32 can be arranged in an openable and closable manner, the blocking piece 32 can be opened to enter the crushing device 4 when the glass tube 6 is not cut, the glass tube 6 is prevented from being blocked at the blocking piece 32 when the glass tube 6 is cut continuously, and the processing of the subsequent glass tube 6 is prevented.

In actual use, the cutting device 2 is arranged on the conveying device 5, the crushing device 4 is arranged on the outer side of the conveying device 5, the glass tube blocking device 3 is arranged between the cutting device 2 and the conveying device 5, the glass tube 6 is blocked by the blocking plate 321 to prevent the glass tube 6 from being separated from the conveying device 5 through the cutting device 2, then the glass tube 6 is conveyed to the next stage of process through the conveying device 5 or the conveying device of the next stage of process, if the glass tube 6 is not cut off, the blocking plate 321 is pushed open and enters the crushing device 4 for crushing through the through hole 3414, and the glass tube 6 is reset under the action of gravity through the rear blocking plate 321 to continue working.

The preferred embodiments of the present disclosure have been described in detail above with reference to the accompanying drawings, but the present disclosure is not limited to the specific details of the embodiments described above, and various simple modifications may be made to the technical solutions of the present disclosure within the scope of the technical concept of the present disclosure, and all the simple modifications belong to the protection scope of the present disclosure.

In addition, the specific features described in the foregoing embodiments may be combined in any suitable manner, and in order to avoid unnecessary repetition, the present disclosure does not further describe various possible combinations.

Moreover, any combination between the various embodiments of the present disclosure is possible as long as it does not depart from the spirit of the present disclosure, which should also be construed as the disclosure of the present disclosure.

Claims

1. A glass tube blocking device, comprising:

the glass tube production line comprises a conveying device, a cutting device arranged on the conveying device and a crushing device arranged on the outer side of the conveying device, and the supporting device is arranged between the cutting device and the crushing device;

A blocking piece arranged on one side of the supporting device, which is close to the cutting device, and extends into the conveying device, and is used for blocking the cut glass tube so as to enable the glass tube to fall on the conveying device, and the blocking piece can be arranged in an openable and closable manner so as to enable the glass tube which is not cut off to enter the crushing device;

The blocking piece comprises a baffle plate which is perpendicular to the transportation direction of the glass tube, one side of the baffle plate is hinged with the supporting device, a channel is arranged on the supporting device, the baffle plate can be jacked up to enter the crushing device through the channel when the glass tube is not cut off, and the supporting device comprises a height adjusting device which is connected with the blocking piece to adjust the height of the blocking piece;

The glass tube blocking device further comprises a horizontal adjusting device, and the supporting device is connected with the horizontal adjusting device so that the supporting device can move towards or away from the conveying device.

2. The glass tube blocking device according to claim 1, wherein the height adjusting device comprises a first sliding component, a first driving motor, a first screw rod connected with the driving end of the first driving motor and a first screw nut sleeved on the first screw rod and in threaded connection with the first screw rod, the blocking piece is connected with the first sliding component, the first screw rod is vertically arranged, and the first screw nut is connected with the first sliding component to drive the blocking piece to move up and down.

3. The glass tube blocking device according to claim 2, wherein the first sliding assembly comprises two first guide rails, first sliding blocks and a connecting plate, the first guide rails are vertically arranged at intervals, each first guide rail is respectively connected with one first sliding block in a sliding mode, the connecting plate is arranged between the two first sliding blocks, a through hole for the glass tube which is not cut off to pass through is formed in the connecting plate, the first screw is connected with the connecting plate, and the first screw is arranged on one side of the through hole.

4. A glass tube blocking device according to claim 3, wherein the first slider is disposed on a side of the first guide rail adjacent to the baffle plate, the blocking member further comprises a horizontally disposed connecting rod, one end of the connecting rod is connected to the top of the connecting plate, the other end is hinged to the top of the baffle plate so that the baffle plate can rotate up and down along the hinged end, and the length of the connecting rod is greater than the width of the baffle plate.

5. The glass tube blocking device according to claim 1, wherein the horizontal adjusting device comprises a second guide rail which is horizontally arranged, a second sliding block which is in sliding connection with the second guide rail, a second driving motor, a second screw rod which is connected with the driving end of the second driving motor, and a second screw nut which is sleeved on the second screw rod and is in threaded connection with the second screw rod, the supporting device is connected with the second sliding block, and the second screw nut is connected with the supporting device to drive the supporting device to horizontally move.

6. A glass tube blocking device according to claim 1, wherein the side of the baffle adjacent to the conveyor is provided with a layer of silica gel.

7. A glass tube production system, comprising:

A glass tube blocking device according to any of claims 1 to 6; and

And the glass tube blocking device is arranged on the glass tube production line.