CN220413165U - Glass tube hot cutting back cover device - Google Patents

Abstract

The utility model relates to a glass tube hot cutting back cover device, and belongs to the technical field of glass cup production. Including being used for installing first actuating mechanism and second actuating mechanism's frame and the centre gripping aircraft nose A and the centre gripping aircraft nose B of relative setting, centre gripping aircraft nose A and centre gripping aircraft nose B are installed respectively on corresponding first actuating mechanism and second actuating mechanism, through first actuating mechanism and second actuating mechanism drive respectively centre gripping aircraft nose A and centre gripping aircraft nose B are close to each other or keep away from. The utility model has the following beneficial effects: the glass cup is manufactured by using the glass tube, so that the glass cup is convenient and quick, the efficiency is improved, the time is saved, and the safety is high. The heating gun is ensured to heat the middle part of the glass tube, and the produced two cups are equal in size and consistent in quality.

Description

Glass tube hot cutting back cover device

Technical Field

The utility model relates to a glass tube hot cutting back cover device, and belongs to the technical field of glass cup production.

Background

The technology of processing a cup with a bottom by using a glass tube belongs to the disclosed technology, and the technology is implemented by adopting a glass tube hot cutting bottom sealing device.

Patent number is CN202310208228.9 discloses a processingequipment of utilizing glass pipe preparation glass, including supporting platform, X axle conveyor, first removal case, second removal case, ignition and control system, supporting platform top left side is located to first removal case, supporting platform top right side is located to the second removal case, be provided with first drive arrangement in the first removal case, follow two sets of first axis of rotation and the first clamping device of X axis direction setting, be provided with second drive arrangement in the second removal case, follow two sets of second axis of rotation and the second clamping device of X axis direction setting. The utility model realizes heating while rotating the glass tube, sequentially completes the processing of the cup handle and the cup bottom, and has the advantages of convenience, rapidness, efficiency improvement, time saving and high safety.

Although the production function of the glass can be realized in the above patent, the prior art is not fully considered, and has the following defects: the synchronism of the clamping machine head A and the clamping machine head B is poor, the middle part of the glass tube can not be heated by the heating baking gun, and the produced two cups are equal in size and consistent in quality.

What need is urgent is a glass tube hot cutting back cover device, accessible control double piston rod hydraulic cylinder A and double piston rod hydraulic cylinder B drive centre gripping aircraft nose A be close to or keep away from centre gripping aircraft nose B, also accessible control double piston rod hydraulic cylinder C and double piston rod hydraulic cylinder D drive centre gripping aircraft nose B be close to or keep away from centre gripping aircraft nose A, be suitable for with the technology that utilizes glass tube processing to take the end cup, glass tube rotation while heating has been realized simultaneously, and the processing of bottom of cup has been accomplished in the in-process of glass tube heating, utilize glass tube preparation glass cup, convenient and fast, improve efficiency, save time, the security is high.

Disclosure of Invention

In order to solve one of the above problems, according to the above shortcomings in the prior art, the present utility model aims to solve the technical problems: how to realize that the double-piston rod hydraulic cylinder A and the double-piston rod hydraulic cylinder B can be controlled to drive the clamping machine head A to be close to or far away from the clamping machine head B, and also the double-piston rod hydraulic cylinder C and the double-piston rod hydraulic cylinder D can be controlled to drive the clamping machine head B to be close to or far away from the clamping machine head A, so that the glass tube hot cutting back cover device is applicable to a process of processing a cup with a bottom by using a glass tube, and meanwhile, the glass tube is heated while rotating, and the processing of the bottom is completed in the glass tube heating process.

The utility model discloses a glass tube hot cutting bottom sealing device, which comprises a frame for installing a first driving mechanism and a second driving mechanism, and a clamping head A and a clamping head B which are arranged oppositely, wherein the clamping head A and the clamping head B are respectively arranged on the corresponding first driving mechanism and the second driving mechanism, the clamping head A and the clamping head B are respectively driven to be close to or far away from each other by the first driving mechanism and the second driving mechanism, a first clamping chuck for clamping a glass tube is arranged on the clamping head A, a second clamping chuck for clamping the glass tube is arranged on the clamping head B, a heating baking gun for heating the glass tube is arranged between the clamping head A and the clamping head B by a baking gun mounting seat.

The double-piston rod hydraulic cylinder A and the double-piston rod hydraulic cylinder B can be controlled to drive the clamping machine head A to be close to or far away from the clamping machine head B, and the double-piston rod hydraulic cylinder C and the double-piston rod hydraulic cylinder D can be controlled to drive the clamping machine head B to be close to or far away from the clamping machine head A, so that the glass tube processing technology is applicable to a glass tube processing technology with a bottom cup, meanwhile, glass tube rotation heating is realized, cup bottom processing is completed in the glass tube heating process, glass tube manufacturing glass cups are utilized, convenience and rapidness are realized, efficiency is improved, time is saved, and safety is high.

The specific flow of processing the cup with the bottom by using the glass tube is as follows:

firstly, the distance between the clamping machine head A and the clamping machine head B is adjusted through a first driving mechanism and a second driving mechanism, so that the distance between the first clamping chuck and the second clamping chuck is larger than the length of a glass tube to be processed;

then clamping one end of the glass tube to be processed on a first clamping chuck;

the distance between the clamping machine head A and the clamping machine head B is adjusted through the first driving mechanism and the second driving mechanism, so that the other end of the glass tube to be processed can be clamped on the second clamping chuck;

after the end part of the glass tube to be processed is clamped and fixed by utilizing the first clamping chuck and the second clamping chuck, the first clamping chuck and the second clamping chuck are driven to drive the glass tube to rotate, and the heating baking gun is started to heat the middle part of the glass tube;

after the middle part of the glass tube is heated and melted, the distance between the clamping machine head A and the clamping machine head B is adjusted to be large through the first driving mechanism and the second driving mechanism, and the middle part of the glass tube is broken;

then the distance between the clamping machine head A and the clamping machine head B is adjusted to be smaller through the first driving mechanism and the second driving mechanism, and the broken parts are mutually extruded to form a flat cup bottom;

finally, the distance between the clamping machine head A and the clamping machine head B is adjusted to be large through the first driving mechanism and the second driving mechanism, the first clamping chuck and the second clamping chuck are controlled to stop rotating, the heating baking gun is closed, and the two cups are taken out.

The operation is circulated, and continuous processing can be realized.

The utility model only improves the structure, realizes the heating of the glass tube while rotating, completes the processing of the bottom of the glass tube in the heating process of the glass tube, and utilizes the glass tube to manufacture the glass cup, thereby being convenient and quick, improving the efficiency, saving the time and having high safety.

Preferably, the two ends of the piston rod of the double-piston-rod hydraulic cylinder A are respectively provided with a flange A and a flange B, the two ends of the piston rod of the double-piston-rod hydraulic cylinder B are respectively provided with a flange C and a flange D, the two ends of the piston rod of the double-piston-rod hydraulic cylinder C are respectively provided with a flange E and a flange F, the two ends of the piston rod of the double-piston-rod hydraulic cylinder D are respectively provided with a flange G and a flange H, the flange E and the flange B are connected together, the flange G and the flange D are connected together, and the flange A, the flange F, the flange C and the flange H are all installed on the frame. The modular structure is convenient to connect.

Preferably, the rod cavity of the double-piston rod hydraulic cylinder A near the flange B is communicated with the rod cavity of the double-piston rod hydraulic cylinder C near the flange F through a communication oil pipe A, the rod cavity of the double-piston rod hydraulic cylinder C near the flange E is communicated with the rod cavity of the double-piston rod hydraulic cylinder D near the flange H through a communication oil pipe B, the rod cavity of the double-piston rod hydraulic cylinder D near the flange G is communicated with the rod cavity of the double-piston rod hydraulic cylinder B near the flange C through a communication oil pipe C, the rod cavities of the double-piston rod hydraulic cylinder A near the flange A and the rod cavity of the double-piston rod hydraulic cylinder B near the flange D are respectively communicated with an A port and a B port of a two-position four-way reversing valve through a communication oil pipe D and a communication oil pipe E, the P port and the T port of the two-position four-way reversing valve are respectively connected to an oil tank through an oil inlet pipe and an oil return pipe, the oil pump is arranged on the oil inlet pipe, oil in the oil tank is pumped into a rod cavity of the double-piston rod hydraulic cylinder A, which is close to the flange A, through the oil pump, the two-position four-way reversing valve and the communicating oil pipe D, the cylinder body of the double-piston rod hydraulic cylinder A is pushed to move right, the extruded oil in the double-piston rod hydraulic cylinder A enters the double-piston rod hydraulic cylinder C, the cylinder body of the double-piston rod hydraulic cylinder C is pushed to move left, the extruded oil in the double-piston rod hydraulic cylinder C enters the double-piston rod hydraulic cylinder D, the cylinder body of the double-piston rod hydraulic cylinder D is pushed to move left, the clamping head A and the clamping head B are driven to move right, the clamping head A and the clamping head B are driven to move away from each other simultaneously through the reversing of the two-position four-way reversing valve, the heating gun is ensured to heat the middle part of the glass tube, and the produced two cups are equal in size and consistent in quality.

Preferably, the first clamping chuck is a manual clamping chuck, a driving gear motor A for driving the first clamping chuck to rotate is mounted on the back surface of the clamping machine head A, the second clamping chuck is a manual clamping chuck, a driving gear motor B for driving the second clamping chuck to rotate is mounted on the back surface of the clamping machine head B, and the driving gear motor A and the driving gear motor B synchronously rotate.

Preferably, the baking gun mounting seat is a long strip plate with one end fixed between the flange B and the flange E and the other end fixed between the flange D and the flange G, the heating baking gun is fixed in the middle of the long strip plate, the flaming port is positioned below the glass tube to be processed, and after the heating baking gun is started, the middle of the glass tube to be processed can be heated.

Compared with the prior art, the utility model has the following beneficial effects:

according to the glass tube hot cutting bottom sealing device, the double-piston rod hydraulic cylinder A and the double-piston rod hydraulic cylinder B can be controlled to drive the clamping machine head A to be close to or far away from the clamping machine head B, and the double-piston rod hydraulic cylinder C and the double-piston rod hydraulic cylinder D can be controlled to drive the clamping machine head B to be close to or far away from the clamping machine head A, so that the glass tube hot cutting bottom sealing device is applicable to a process of processing a cup with a bottom by using a glass tube, meanwhile, the glass tube can be heated while rotating, the processing of the bottom is completed in the heating process of the glass tube, the glass tube is used for manufacturing the glass cup, the efficiency is improved, the time is saved, and the safety is high.

According to the glass tube hot cutting bottom sealing device, the oil pump is arranged on the oil inlet pipe, oil in the oil tank is pumped into the rod cavity of the double-piston rod hydraulic cylinder A, which is close to the flange A, through the oil pump, the two-position four-way reversing valve and the communicating oil pipe D, the right side of the cylinder body of the double-piston rod hydraulic cylinder A is pushed, the extruded oil in the double-piston rod hydraulic cylinder A enters the double-piston rod hydraulic cylinder C, the left side of the cylinder body of the double-piston rod hydraulic cylinder C is pushed, the extruded oil in the double-piston rod hydraulic cylinder C enters the double-piston rod hydraulic cylinder D, the left side of the cylinder body of the double-piston rod hydraulic cylinder D is pushed, the oil extruded in the double-piston rod hydraulic cylinder D enters the double-piston rod hydraulic cylinder B, the right side of the cylinder body of the double-piston rod hydraulic cylinder B is pushed, the clamping machine head A and the clamping machine head B are driven to be mutually close, the two-position four-way reversing valve is realized, the clamping machine head A and the clamping machine head B are driven to be mutually far away, the middle part of the glass tube is heated by the heating baking gun, the two cups produced are equal, and the quality is consistent.

According to the glass tube hot cutting bottom sealing device, one end of the baking gun mounting seat is fixed between the flange B and the flange E, the other end of the baking gun mounting seat is fixed between the flange D and the flange G, the heating baking gun is fixed in the middle of the long slat, the flame spraying opening is arranged below the glass tube to be processed, and the middle of the glass tube to be processed can be heated after the heating baking gun is started.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. Like elements or portions are generally identified by like reference numerals throughout the several figures. In the drawings, elements or portions thereof are not necessarily drawn to scale.

FIG. 1 is a top view of the present utility model;

FIG. 2 is a side view of a gripping head A and a gripping head B;

fig. 3 is a hydraulic schematic diagram of the first and second drive mechanisms.

In the figure: 1. the device comprises a frame 2, a first driving mechanism 2.1, a double-piston rod hydraulic cylinder A2.2, a double-piston rod hydraulic cylinder B3, a clamping machine head A4, a clamping machine head B5, a second driving mechanism 5.1, a double-piston rod hydraulic cylinder C5.2, a double-piston rod hydraulic cylinder D6, a first clamping chuck 7, a second clamping chuck 8, a heating baking gun 9, a communication oil pipe A10, a communication oil pipe B11, a communication oil pipe C12, a communication oil pipe D13, a communication oil pipe E14, a two-position four-way reversing valve 15, an oil pump 16, a baking gun mounting seat 17 and a driving speed reducing motor A.

Detailed Description

The utility model is further described below with reference to the accompanying drawings:

the present utility model is further illustrated by the following examples, which are not intended to be limiting, but any modifications, equivalents, improvements, etc. within the spirit and principles of the present utility model are intended to be included within the scope of the present utility model.

Embodiment 1, as shown in fig. 1-2, a glass tube thermal cutting back cover device, including frame 1 and clamping aircraft nose B4 that is used for installing first actuating mechanism 2 and second actuating mechanism 5 and opposite setting, clamping aircraft nose A3 and clamping aircraft nose B4 are installed respectively on corresponding first actuating mechanism 2 and second actuating mechanism 5, through first actuating mechanism 2 and second actuating mechanism 5 drive respectively clamping aircraft nose A3 and clamping aircraft nose B4 are close to each other or keep away from, install the first clamping chuck 6 that is used for the centre gripping glass tube on clamping aircraft nose A3, install the second clamping chuck 7 that is used for the centre gripping glass tube on clamping aircraft nose B4, install the heating roast rifle 8 that heats the glass tube through roast rifle mount pad 16 between clamping aircraft nose A3 and the clamping aircraft nose B4, first actuating mechanism 2 includes horizontal setting and mutually parallel double piston rod hydraulic cylinder a2.1 and double hydraulic cylinder B2.2, the cylinder body 5 includes and double piston rod 2.2 and the piston rod 2.5 and the piston rod 2 on the piston rod 2.5C of the fixed cylinder body and the piston rod 2.2.C of double piston rod 2 and the piston rod 2.5 on the piston rod 2.C of the piston rod 2.

According to the utility model, the clamping machine head A3 is driven to be close to or far from the clamping machine head B4 by controlling the double-piston-rod hydraulic cylinder A2.1 and the double-piston-rod hydraulic cylinder B2.2, and the clamping machine head B4 is driven to be close to or far from the clamping machine head A3 by controlling the double-piston-rod hydraulic cylinder C5.1 and the double-piston-rod hydraulic cylinder D5.2;

the specific flow of processing the cup with the bottom by using the glass tube is as follows:

firstly, the distance between the clamping machine head A3 and the clamping machine head B4 is adjusted through the first driving mechanism 2 and the second driving mechanism 5, so that the distance between the first clamping chuck 6 and the second clamping chuck 7 is larger than the length of a glass tube to be processed;

then clamping one end of the glass tube to be processed on a first clamping chuck 6;

the distance between the clamping machine head A3 and the clamping machine head B4 is adjusted through the first driving mechanism 2 and the second driving mechanism 5, so that the other end of the glass tube to be processed can be clamped on the second clamping chuck 7;

after the end part of the glass tube to be processed is clamped and fixed by utilizing the first clamping chuck 6 and the second clamping chuck 7, the first clamping chuck 6 and the second clamping chuck 7 are driven to drive the glass tube to rotate, and the heating gun 8 is started to heat the middle part of the glass tube;

after the middle part of the glass tube is heated and melted, the distance between the clamping machine head A3 and the clamping machine head B4 is adjusted to be large by the first driving mechanism 2 and the second driving mechanism 5, and the middle part of the glass tube is broken;

then the distance between the clamping machine head A3 and the clamping machine head B4 is adjusted to be smaller through the first driving mechanism 2 and the second driving mechanism 5, and the stretch-broken parts are mutually extruded to form a flat cup bottom;

finally, the distance between the clamping machine head A3 and the clamping machine head B4 is adjusted to be large through the first driving mechanism 2 and the second driving mechanism 5, the first clamping chuck 6 and the second clamping chuck 7 are controlled to stop rotating, the heating baking gun 8 is closed, and the two cups are taken out.

The operation is circulated, and continuous processing can be realized.

The utility model only improves the structure, realizes the heating of the glass tube while rotating, completes the processing of the bottom of the glass tube in the heating process of the glass tube, and utilizes the glass tube to manufacture the glass cup, thereby being convenient and quick, improving the efficiency, saving the time and having high safety.

Embodiment 2, as shown in fig. 1-2, a glass tube thermal cutting back cover device, including being used for installing frame 1 and the clamping aircraft nose A3 and the clamping aircraft nose B4 of first actuating mechanism 2 and second actuating mechanism 5 and setting up relatively, clamping aircraft nose A3 and clamping aircraft nose B4 are installed respectively on corresponding first actuating mechanism 2 and second actuating mechanism 5, through first actuating mechanism 2 and second actuating mechanism 5 drive respectively clamping aircraft nose A3 and clamping aircraft nose B4 are close to each other or keep away from, install the first clamping chuck 6 that is used for the centre gripping glass tube on clamping aircraft nose A3, install the second clamping chuck 7 that is used for the centre gripping glass tube on clamping aircraft nose B4, install the heating roast rifle 8 that heats the glass tube through roast rifle mount pad 16 between clamping aircraft nose A3 and the clamping aircraft nose B4, first actuating mechanism 2 includes horizontal setting and mutually parallel double piston rod hydraulic cylinder A2.1 and double hydraulic cylinder B2.2, second actuating mechanism 5 includes and double piston rod 2.1 and double piston rod 2.5 and the fixed cylinder C1.2 and the piston rod 2.5 on the piston rod 2.2 and the piston rod C of double piston rod 2.5 and the piston rod 2 on the fixed cylinder body C of double piston rod 2.2.

Further, the two ends of the piston rod of the double-piston-rod hydraulic cylinder A2.1 are respectively provided with a flange A and a flange B, the two ends of the piston rod of the double-piston-rod hydraulic cylinder B2.2 are respectively provided with a flange C and a flange D, the two ends of the piston rod of the double-piston-rod hydraulic cylinder C5.1 are respectively provided with a flange E and a flange F, the two ends of the piston rod of the double-piston-rod hydraulic cylinder D5.2 are respectively provided with a flange G and a flange H, the flange E and the flange B are connected together, the flange G and the flange D are connected together, and the flange A, the flange F, the flange C and the flange H are all installed on the frame 1. The modular structure is convenient to connect.

Further, referring to FIG. 3, the rod cavity of the double piston rod hydraulic cylinder A2.1 near the flange B is communicated with the rod cavity of the double piston rod hydraulic cylinder C5.1 near the flange F through a communication oil pipe A9, the rod cavity of the double piston rod hydraulic cylinder C5.1 near the flange E is communicated with the rod cavity of the double piston rod hydraulic cylinder D5.2 near the flange H through a communication oil pipe B10, the rod cavity of the double piston rod hydraulic cylinder D5.2 near the flange G is communicated with the rod cavity of the double piston rod hydraulic cylinder B2.2 near the flange C through a communication oil pipe C11, the rod cavity of the double piston rod hydraulic cylinder A2.1 near the flange A and the rod cavity of the double piston rod hydraulic cylinder B2.2 near the flange D are respectively communicated with the port A and port B of the two-position four-way reversing valve 14 through a communication oil pipe D12 and a communication oil pipe E13, the port P and the port T of the two-position four-way reversing valve 14 are respectively connected to an oil tank through an oil inlet pipe and an oil return pipe, an oil pump 15 is arranged on the oil inlet pipe, oil in the oil tank is pumped into a rod cavity of the double-piston rod hydraulic cylinder A2.1 close to the flange A through the oil pump 15, the two-position four-way reversing valve 14 and the communicating oil pipe D12, the cylinder body of the double-piston rod hydraulic cylinder A2.1 is pushed to move right, the extruded oil in the double-piston rod hydraulic cylinder A2.1 enters the double-piston rod hydraulic cylinder C5.1, the cylinder body of the double-piston rod hydraulic cylinder C5.1 is pushed to move left, the extruded oil in the double-piston rod hydraulic cylinder C5.1 enters the double-piston rod hydraulic cylinder D5.2, the cylinder body of the double-piston rod hydraulic cylinder D5.2 is pushed to move left, the cylinder body of the double-piston rod hydraulic cylinder B2.2 is pushed to move right, and then the clamping machine head A3 and the clamping machine head B4 are driven to move close to each other, the two-position four-way reversing valve is used for reversing to drive the clamping machine head A and the clamping machine head B to be far away from each other, so that the heating gun 8 is guaranteed to heat the middle of the glass tube, and the produced two cups are equal in size and consistent in quality.

Further, the first clamping chuck 6 is an existing manual clamping chuck, a driving gear motor A17 for driving the first clamping chuck 6 to rotate is mounted on the back surface of the clamping machine head A3, the second clamping chuck 7 is an existing manual clamping chuck, a driving gear motor B for driving the second clamping chuck 7 to rotate is mounted on the back surface of the clamping machine head B4, and the driving gear motor A17 and the driving gear motor B synchronously rotate.

Further, the baking gun mounting seat is a long strip plate with one end fixed between the flange B and the flange E and the other end fixed between the flange D and the flange G, the heating baking gun 8 is fixed in the middle of the long strip plate, the flaming port is positioned below the glass tube to be processed, and after the heating baking gun 8 is started, the middle of the glass tube to be processed can be heated.

According to the glass tube hot cutting bottom sealing device, the double-piston rod hydraulic cylinder A and the double-piston rod hydraulic cylinder B can be controlled to drive the clamping machine head A to be close to or far away from the clamping machine head B, and the double-piston rod hydraulic cylinder C and the double-piston rod hydraulic cylinder D can be controlled to drive the clamping machine head B to be close to or far away from the clamping machine head A, so that the glass tube hot cutting bottom sealing device is applicable to a process of processing a cup with a bottom by using a glass tube, meanwhile, the glass tube can be heated while rotating, the processing of the bottom is completed in the heating process of the glass tube, the glass tube is used for manufacturing the glass cup, the efficiency is improved, the time is saved, and the safety is high.

According to the glass tube hot cutting bottom sealing device, the oil pump is arranged on the oil inlet pipe, oil in the oil tank is pumped into the rod cavity of the double-piston rod hydraulic cylinder A, which is close to the flange A, through the oil pump, the two-position four-way reversing valve and the communicating oil pipe D, the right side of the cylinder body of the double-piston rod hydraulic cylinder A is pushed, the extruded oil in the double-piston rod hydraulic cylinder A enters the double-piston rod hydraulic cylinder C, the left side of the cylinder body of the double-piston rod hydraulic cylinder C is pushed, the extruded oil in the double-piston rod hydraulic cylinder C enters the double-piston rod hydraulic cylinder D, the left side of the cylinder body of the double-piston rod hydraulic cylinder D is pushed, the oil extruded in the double-piston rod hydraulic cylinder D enters the double-piston rod hydraulic cylinder B, the right side of the cylinder body of the double-piston rod hydraulic cylinder B is pushed, the clamping machine head A and the clamping machine head B are driven to be mutually close, the two-position four-way reversing valve is realized, the clamping machine head A and the clamping machine head B are driven to be mutually far away, the middle part of the glass tube is heated by the heating baking gun, the two cups produced are equal, and the quality is consistent.

According to the glass tube hot cutting bottom sealing device, one end of the baking gun mounting seat is fixed between the flange B and the flange E, the other end of the baking gun mounting seat is fixed between the flange D and the flange G, the heating baking gun is fixed in the middle of the long slat, the flame spraying opening is arranged below the glass tube to be processed, and the middle of the glass tube to be processed can be heated after the heating baking gun is started.

The foregoing has shown and described the basic principles, main features and advantages of the present utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

The present utility model is not described in detail in the present application, and is well known to those skilled in the art.

Claims (5)

1. The utility model provides a glass tube hot cutting back cover device, is including being used for installing first actuating mechanism and second actuating mechanism's frame and the relative clamping aircraft nose A and clamping aircraft nose B that sets up, clamping aircraft nose A and clamping aircraft nose B are installed respectively on corresponding first actuating mechanism and second actuating mechanism, through first actuating mechanism and second actuating mechanism drive respectively clamping aircraft nose A and clamping aircraft nose B are close to each other or keep away from, install the first clamping chuck that is used for the centre gripping glass tube on the clamping aircraft nose A, install the second clamping chuck that is used for the centre gripping glass tube on the clamping aircraft nose B, install the heating roast rifle that heats the glass tube through roast rifle mount pad between clamping aircraft nose A and the clamping aircraft nose B, its characterized in that, first actuating mechanism includes horizontal setting and the double piston rod hydraulic cylinder A and the double piston rod hydraulic cylinder B of being parallel to each other, second actuating mechanism includes the double piston rod hydraulic cylinder C who is connected and sets up with double piston rod hydraulic cylinder A coaxial and the double piston rod hydraulic cylinder B and is connected and sets up with double piston rod hydraulic cylinder B coaxial cylinder B double cylinder B's second clamping chuck, install the heating roast rifle to heat between clamping aircraft nose A and the clamping aircraft nose B through roast rifle mount pad.

2. The glass tube hot cutting back cover device according to claim 1, wherein the two ends of the piston rod of the double-piston rod hydraulic cylinder A are respectively provided with a flange A and a flange B, the two ends of the piston rod of the double-piston rod hydraulic cylinder B are respectively provided with a flange C and a flange D, the two ends of the piston rod of the double-piston rod hydraulic cylinder C are respectively provided with a flange E and a flange F, the two ends of the piston rod of the double-piston rod hydraulic cylinder D are respectively provided with a flange G and a flange H, the flange E and the flange B are connected together, the flange G and the flange D are connected together, and the flange A, the flange F, the flange C and the flange H are all installed on the frame.

3. The glass tube hot cutting bottom sealing device according to claim 2, wherein a rod cavity of the double-piston rod hydraulic cylinder A close to the flange B is communicated with a rod cavity of the double-piston rod hydraulic cylinder C close to the flange F through a communication oil pipe A, a rod cavity of the double-piston rod hydraulic cylinder C close to the flange E is communicated with a rod cavity of the double-piston rod hydraulic cylinder D close to the flange H through a communication oil pipe B, a rod cavity of the double-piston rod hydraulic cylinder D close to the flange G is communicated with a rod cavity of the double-piston rod hydraulic cylinder B close to the flange C through a communication oil pipe C, a rod cavity of the double-piston rod hydraulic cylinder A close to the flange A and a rod cavity of the double-piston rod hydraulic cylinder B close to the flange D are respectively communicated with an A port and a B port of a two-position four-way reversing valve through a communication oil pipe D and an oil return pipe, and an oil pump is arranged on the oil inlet pipe.

4. The glass tube hot cutting back cover device according to claim 3, wherein the first clamping chuck is a manual clamping chuck, a driving gear motor A for driving the first clamping chuck to rotate is mounted on the back surface of the clamping machine head A, the second clamping chuck is a manual clamping chuck, and a driving gear motor B for driving the second clamping chuck to rotate is mounted on the back surface of the clamping machine head B.

5. The glass tube hot cutting back cover device according to claim 4, wherein the baking gun mounting seat is a long slat with one end fixed between the flange B and the flange E and the other end fixed between the flange D and the flange G, and the heating baking gun is fixed in the middle of the long slat.