CN112141182A

CN112141182A - High-pressure-resistant borosilicate tube transfer device and use method thereof

Info

Publication number: CN112141182A
Application number: CN202010881309.1A
Authority: CN
Inventors: 王遥; 李颂明
Original assignee: Nanjing Xuyurui Material Technology Co Ltd
Current assignee: Nanjing Xuyurui Material Technology Co Ltd
Priority date: 2020-08-27
Filing date: 2020-08-27
Publication date: 2020-12-29

Abstract

The invention discloses a high-pressure-resistant boron-silicon tube transfer device and a using method thereof. The high-pressure-resistant borosilicate tube transfer device disclosed by the invention can be used for facilitating storage and storage of borosilicate tubes by people, improving the use convenience, playing a better protection role on the borosilicate tubes and improving the transfer safety, and can be used for conveniently and stably transferring the turning plate, improving the stability, being convenient to operate and having higher practicability.

Description

High-pressure-resistant borosilicate tube transfer device and use method thereof

Technical Field

The invention relates to the field of transfer devices, in particular to a high-pressure-resistant borosilicate tube transfer device, and more particularly relates to a high-pressure-resistant borosilicate tube transfer device and a use method thereof.

Background

The boron-silicon tube is a transparent tube, and when the boron-silicon tube is produced, the boron-silicon tube needs to be transported to a warehouse through a production plant, so that a transport device needs to be used for short-distance transport work of the boron-silicon tube;

the existing high-pressure resistant borosilicate tube transfer device has certain defects when in use, firstly, the borosilicate tube is inconvenient to store and fix, and the phenomenon of sliding and rolling can occur because the borosilicate tube belongs to a cylindrical object; secondly, the boron-silicon tube has no protection function, belongs to a fragile and smooth tube body, and is easy to scratch and damage caused by vibration during transportation, and the transportation safety is poor; in addition, all need promote through the truckle when transporting, but storing and when taking out the borosilicate pipe, the roll phenomenon can appear between truckle and the ground, influences the stability of transporting the sweep to influence people and store and take out the borosilicate pipe, the result of use is poor.

Disclosure of Invention

The invention mainly aims to provide a high-pressure-resistant borosilicate tube transfer device which can effectively solve the problems that the borosilicate tube in the background art is inconvenient to store and fix, and the borosilicate tube belongs to a cylindrical object and can slide and roll, and the existing high-pressure-resistant borosilicate tube transfer device also needs to be fixed by an external tool when storing the borosilicate tube, so that the use effect is poor and the use convenience is poor; secondly, the boron-silicon tube has no protection function, belongs to a fragile and smooth tube body, and is easy to scratch and damage caused by vibration during transportation, and the transportation safety is poor; in addition, all need promote through the truckle when transporting, but when storing and taking out the borosilicate pipe, the roll phenomenon can appear between truckle and the ground, influences the stability of transporting the sweep to influence people and store and take out the borosilicate pipe, the poor technical problem of result of use.

In order to achieve the purpose, the invention adopts the technical scheme that:

the utility model provides a high pressure resistant borosilicate pipe transfer device, includes the transport sweep, transports the bottom four corners position movable mounting of sweep has the truckle, the upper portion one side fixed mounting who transports the sweep has the transport sweep, the top fixed mounting who transports the sweep has the handle, one side that the upper portion that transports the sweep is located the transport sweep is equipped with borosilicate pipe supporting mechanism, borosilicate pipe supporting mechanism is equipped with borosilicate pipe positioning mechanism including first stand, second stand, first borosilicate pipe backup pad, second borosilicate pipe backup pad, supporting spring, connection crossbeam, axle bed, spiral shell seat and screw rod between first borosilicate pipe backup pad and the second borosilicate pipe backup pad, borosilicate pipe positioning mechanism is including first constant head tank, second constant head tank, silica gel head and elastic rubber, the bottom of transporting the sweep is equipped with prevents rocking mechanism.

As a further scheme of the invention, the first upright column and the second upright column are fixedly installed on the upper portion of the transfer cart plate, the first borosilicate tube supporting plate and the second borosilicate tube supporting plate are both slidably connected between the first upright column and the second upright column, the supporting spring is sleeved outside the first upright column, the supporting spring is located between the first borosilicate tube supporting plate and the second borosilicate tube supporting plate, the connecting cross beam is fixedly connected at the top end position between the first upright column and the second upright column, the shaft seat is fixedly installed at the top center position of the second borosilicate tube supporting plate, the screw seat is fixedly installed at the center position of the connecting cross beam, and the screw penetrates through the screw seat and is movably connected with the shaft seat.

As a further scheme of the invention, the number of the first borosilicate tube supporting plates is five, and a supporting spring is arranged between every two first borosilicate tube supporting plates.

As a further scheme of the present invention, the first positioning groove is formed in an upper surface of the first borosilicate tube supporting plate, the second positioning groove is formed in a lower surface of the second borosilicate tube supporting plate, the silicone head is fixedly connected to an inner side of the first positioning groove, and the elastic rubber is filled in the interior of the silicone head.

As a further scheme of the present invention, the lower surface of the second borosilicate tube supporting plate is provided with eleven second positioning grooves, and each second positioning groove vertically corresponds to one first positioning groove.

As a further scheme of the invention, the first positioning groove and the second positioning groove are both arc-shaped, and seven groups of silica gel heads are arranged inside each of the first positioning groove and the second positioning groove.

As a further scheme of the invention, the anti-shaking mechanism comprises an anti-shaking stop block, a rubber seat, a first guide seat, a second guide seat, a push rod, a slide block, a push handle, a movable groove, a fixed column, a connecting spring, a limiting piece, an inclined plane, a rotating shaft and a roller, the rubber seat is fixedly arranged at the bottom of the anti-shaking stop block, the first guide seat is fixedly arranged at the bottom of the transfer vehicle plate, the second guide seat is fixedly arranged at the bottom of the transfer vehicle plate and is positioned at one side position of the first guide seat, the push rod penetrates through the first guide seat and the second guide seat, the slide block is slidably connected at the bottom of the transfer vehicle plate and is positioned at the other side of the first guide seat, one end of the push rod is fixedly connected with the slide block, the other end of the push rod is fixedly connected with the push handle, the movable groove is arranged in the anti-shaking stop block, one end of the fixed, the other end fixed connection of fixed column is in the bottom intermediate position of transporting the sweep, the outside at the fixed column is established to the coupling spring cover, the inclined plane sets up the bottom turning position at the slider, the plane sets up the bottom one side position at the slider, the gyro wheel is through pivot and slider sliding connection.

As a further scheme of the invention, the number of the rollers is four, the inclined surfaces and the bottom of the plane are respectively provided with two groups, the corner position of the upper part of the anti-shaking stop block is provided with a slope, and the slope is matched with the inclined surfaces.

As a further scheme of the invention, one end of the connecting spring is fixedly connected with the bottom of the transfer cart plate, the other end of the connecting spring is fixedly connected with the anti-shaking stop block, and the number of the connecting spring and the number of the fixing columns are six.

A use method of a high-pressure-resistant borosilicate tube transfer device specifically comprises the following steps:

the method comprises the following steps: firstly, rotating a screw rod, driving a second boron-silicon tube supporting plate to move upwards through the screw action of the screw rod and a screw seat, moving the second boron-silicon tube supporting plate to the highest position of a first upright post and a second upright post, and allowing a supporting spring to bounce off each first boron-silicon tube supporting plate when the pressure of five first boron-silicon tube supporting plates is lost;

step two: the boron-silicon tube to be transported is placed between each first positioning groove and each second positioning groove, the boron-silicon tubes are in contact with the silica gel heads, then the screw rod is rotated, the screw rod pushes the second boron-silicon tube supporting plate to press downwards, so that the first boron-silicon tube supporting plates are pressed to extrude each other, the boron-silicon tubes between the first boron-silicon tube supporting plates can be pressed and fixed, the storage work of the boron-silicon tubes is completed, meanwhile, the boron-silicon tubes are caused to press the silica gel heads to push the elastic rubber to shrink, and the silica gel heads and the elastic rubber are enabled to be kept in an expansion state all the time;

step three: the hand-held handle pushes the transfer trolley plate to move through the transfer trolley beam by using the trundles, after the hand-held handle is transferred to a required position, the push rod is pushed to move through the first guide seat and the second guide seat by using the push handle, so that the slide block can be pushed to move, the slide block vertically presses down the anti-shaking stop block through the slope of the inclined plane matched with the anti-shaking stop block, the idler wheel provides a lubricating effect, the slide block is pushed more labor-saving, when the plane of the slide block moves to the top of the anti-shaking stop block, the rubber seat is tightly pressed on the ground, so that the transfer trolley plate is stabilized on the ground, and then the screw is rotated to lift the second boron-silicon tube supporting plate, so that the supporting spring can flick each first boron-silicon;

step four: after the borosilicate pipe is all taken out, utilize to push away the pulling push rod for the slider breaks away from and prevents rocking the dog, prevents rocking the dog and receives the pulling force lifting of connecting spring, can continue to promote the removal of transportation sweep.

Compared with the prior art, the invention has the following beneficial effects:

through setting up boron-silicon tube supporting mechanism, the screw rod rotates, the screw rod drives second boron-silicon tube backup pad through the screw action with the spiral shell seat and upwards moves, with the second boron-silicon tube backup pad remove the highest point of first stand and second stand, the pressure that five first boron-silicon tube backup pads lost this moment, supporting spring pops open each first boron-silicon tube backup pad, can place the boron-silicon tube, after placing, the screw rod rotates again, make the screw rod promote the second boron-silicon tube backup pad to push down, thereby oppress each first boron-silicon tube backup pad and extrude each other, can compress tightly fixedly the boron-silicon tube between each first boron-silicon tube backup pad, can make things convenient for people to store the boron-silicon tube, when storing and taking out, can pop open automatically, provide the space of taking out for people, in the process of storing, also can compress tightly the boron-silicon tube, avoid the boron-silicon tube to appear sliding, The rolling phenomenon improves the use convenience;

by arranging the boron-silicon tube positioning mechanism, the boron-silicon tube is stressed to press each silica gel head to push the elastic rubber to contract, so that the silica gel heads and the elastic rubber are always kept in an expanded state, a good protection effect on the boron-silicon tube can be achieved, the phenomena of friction and damage of the boron-silicon tube in the transferring process are avoided, and the transferring safety is improved;

through setting up and preventing rocking mechanism, handheld handle promotes through transporting the car roof beam and transports the sweep and utilizes the truckle to remove, transport to needs the position after, utilize to push away the promotion push rod and remove through first guide holder and second guide holder, can promote the slider and remove, the slider prevents through the inclined plane cooperation that the slope of rocking the dog will prevent rocking the dog and push down perpendicularly, the gyro wheel provides lubricated effect, it is more laborsaving when promoting the slider, when the plane of slider moves to preventing rocking the dog top, the rubber seat compresses tightly on ground, make the transport sweep stable on ground, can conveniently stabilize the transport sweep, when storing and taking out the borosilicate pipe, avoid transporting the sweep phenomenon that the sweep appears rocking, stability is improved, and convenient for operation, the practicality is higher.

Drawings

FIG. 1 is a schematic view of the overall structure of a high pressure resistant borosilicate tubular transfer device according to the present invention;

FIG. 2 is an enlarged view of a partial structure of a first borosilicate tube supporting plate and a second borosilicate tube supporting plate of the high pressure resistant borosilicate tube transferring device and a cross-sectional view of a silica gel head;

FIG. 3 is a cross-sectional view of a transfer cart plate of the high pressure resistant borosilicate tubular transfer device of the present invention;

FIG. 4 is an enlarged view of A in FIG. 3 of a high pressure resistant borosilicate tubular transfer device in accordance with the present invention;

FIG. 5 is a side sectional view of an anti-shaking block of the high pressure resistant borosilicate tubular transfer device of the present invention.

In the figure: 1. a transfer cart plate; 2. a caster wheel; 3. a transfer car beam; 4. a handle; 5. a borosilicate tube supporting mechanism; 501. a first upright post; 502. a second upright post; 503. a first borosilicate tube supporting plate; 504. a second borosilicate tube supporting plate; 505. a support spring; 506. connecting the cross beam; 507. a shaft seat; 508. a screw seat; 509. a screw; 6. a borosilicate tube positioning mechanism; 601. a first positioning groove; 602. a second positioning groove; 603. a silica gel head; 604. an elastic rubber; 7. an anti-sloshing mechanism; 701. an anti-shaking stop block; 702. a rubber seat; 703. a first guide seat; 704. a second guide seat; 705. a push rod; 706. a slider; 707. a push handle; 708. a movable groove; 709. fixing a column; 7010. a connecting spring; 7011. a limiting sheet; 7012. a bevel; 7013. a plane; 7014. a rotating shaft; 7015. and a roller.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1-5, a high pressure resistant borosilicate tube transfer device comprises a transfer cart plate 1, casters 2 are movably mounted at four corners of the bottom of the transfer cart plate 1, a transfer cart beam 3 is fixedly mounted at one side of the upper portion of the transfer cart plate 1, a handle 4 is fixedly mounted at the top of the transfer cart beam 3, a borosilicate tube supporting mechanism 5 is arranged at one side of the transfer cart beam 3 at the upper portion of the transfer cart plate 1, the borosilicate tube supporting mechanism 5 comprises a first upright column 501, a second upright column 502, a first borosilicate tube supporting plate 503, a second borosilicate tube supporting plate 504 and a supporting spring 505, the connecting beam 506, the shaft seat 507, the screw seat 508 and the screw 509 are connected, a borosilicate tube positioning mechanism 6 is arranged between the first borosilicate tube supporting plate 503 and the second borosilicate tube supporting plate 504, the borosilicate tube positioning mechanism 6 comprises a first positioning groove 601, a second positioning groove 602, a silica gel head 603 and elastic rubber 604, and an anti-shaking mechanism 7 is arranged at the bottom of the transfer car plate 1;

a first upright column 501 and a second upright column 502 are fixedly arranged at the upper part of the transfer trolley plate 1, a first borosilicate tube supporting plate 503 and a second borosilicate tube supporting plate 504 are both connected between the first upright column 501 and the second upright column 502 in a sliding manner, a supporting spring 505 is sleeved outside the first upright column 501, the supporting spring 505 is positioned between the first borosilicate tube supporting plate 503 and the second borosilicate tube supporting plate 504, a connecting cross beam 506 is fixedly connected at the top end position between the first upright column 501 and the second upright column 502, a shaft seat 507 is fixedly arranged at the top center position of the second borosilicate tube supporting plate 504, a screw seat 508 is fixedly arranged at the center position of the connecting cross beam 506, and a screw 509 penetrates through the screw seat 508 and is movably connected with the shaft seat 507; the number of the first borosilicate tube supporting plates 503 is five, and a supporting spring 505 is arranged between each first borosilicate tube supporting plate 503; the first positioning groove 601 is formed in the upper surface of the first borosilicate tube supporting plate 503, the second positioning groove 602 is formed in the lower surface of the second borosilicate tube supporting plate 504, the silica gel head 603 is fixedly connected to the inner side of the first positioning groove 601, and the elastic rubber 604 is filled in the silica gel head 603; eleven second positioning grooves 602 are formed in the lower surface of the second borosilicate tube supporting plate 504, and each second positioning groove 602 vertically corresponds to one first positioning groove 601; the first positioning groove 601 and the second positioning groove 602 are both arc-shaped, and seven groups of silica gel heads 603 are arranged inside each first positioning groove 601 and each second positioning groove 602; the anti-shaking mechanism 7 comprises an anti-shaking stop block 701, a rubber seat 702, a first guide seat 703, a second guide seat 704, a push rod 705, a sliding block 706, a push handle 707, a movable groove 708, a fixed column 709, a connecting spring 7010, a limiting sheet 7011, an inclined surface 7012, a plane 7013, a rotating shaft 7014 and a roller 7015, wherein the rubber seat 702 is fixedly arranged at the bottom of the anti-shaking stop block 701, the first guide seat 703 is fixedly arranged at the bottom of the transfer vehicle plate 1, the second guide seat 704 is fixedly arranged at the bottom of the transfer vehicle plate 1 at one side position of the first guide seat 703, the push rod 705 penetrates through the first guide seat 703 and the second guide seat 704, the sliding block 706 is slidably connected at the bottom of the transfer vehicle plate 1 at the other side of the first guide seat 703, one end of the push rod 705 is fixedly connected with the sliding block 706, the other end of the push rod is fixedly connected with the push handle 707, the movable groove is arranged inside the anti-shaking stop block 701, one end of the 709 is movably, the other end of the fixed column 709 is fixedly connected to the middle position of the bottom of the transfer cart plate 1, the connecting spring 7010 is sleeved outside the fixed column 709, the inclined plane 7012 is arranged at the corner position of the bottom of the sliding block 706, the plane 7013 is arranged at one side position of the bottom of the sliding block 706, and the roller 7015 is in sliding connection with the sliding block 706 through the rotating shaft 7014; the rollers 7015 are four in number, two on each of the inclined surfaces 7012 and the bottoms of the flat surfaces 7013, a slope is arranged at the upper corner of the anti-shaking block 701 and matched with the inclined surfaces 7012, and the slope can play a role in pushing the anti-shaking block 701 to move downwards in cooperation with the inclined surfaces 7012; one end of the connecting spring 7010 is fixedly connected with the bottom of the transfer vehicle plate 1, the other end of the connecting spring 7010 is fixedly connected with the anti-shaking stop block 701, and the number of the connecting spring 7010 and the number of the fixing columns 709 are six.

the method comprises the following steps: firstly, the screw 509 is rotated, the screw 509 drives the second borosilicate tube supporting plate 504 to move upwards through the thread action with the screw seat 508, the second borosilicate tube supporting plate 504 moves to the highest position of the first upright column 501 and the second upright column 502, at the moment, the pressure of the five first borosilicate tube supporting plates 503 is lost, and the supporting spring 505 bounces off each first borosilicate tube supporting plate 503;

step two: placing the borosilicate tubes to be transported between each first positioning groove 601 and each second positioning groove 602, contacting the borosilicate tubes with the silicone heads 603, and then rotating the screw 509 to push the second borosilicate tube supporting plate 504 to press downwards so as to press the first borosilicate tube supporting plates 503 to extrude each other, so that the borosilicate tubes between the first borosilicate tube supporting plates 503 can be pressed and fixed, the storage work of the borosilicate tubes is completed, and meanwhile, the borosilicate tubes press the silicone heads 603 to push the elastic rubber 604 to shrink, so that the silicone heads 603 and the elastic rubber 604 are kept in an expanded state all the time;

step three: the hand-held handle 4 pushes the transfer cart plate 1 to move through the caster 2 through the transfer cart beam 3, after the transfer cart plate is transferred to a required position, the push rod 705 is pushed through the push handle 707 to move through the first guide seat 703 and the second guide seat 704, the sliding block 706 can be pushed to move, the sliding block 706 is matched with the slope of the anti-shaking stop block 701 through the inclined surface 7012 to vertically press down the anti-shaking stop block 701, the roller 7015 provides a lubricating effect, the sliding block 706 is pushed more labor-saving, when the plane 7013 of the sliding block 706 moves to the top of the anti-shaking stop block 701, the rubber seat 702 is pressed on the ground, so that the transfer cart plate 1 is stabilized on the ground, then the screw 509 is rotated to lift the second borosilicate tube support plate 504, the support spring 505 is made to bounce each first borosilicate tube support plate 503, and people can take out the borosilicate tubes;

step four: after all the borosilicate tubes are taken out, the pushing handle 707 is utilized to pull the pushing rod 705, so that the sliding block 706 is separated from the anti-shaking block 701, the anti-shaking block 701 is lifted by the pulling force of the connecting spring 7010, and the transfer trolley plate 1 can be continuously pushed to move.

According to the invention, the borosilicate tube supporting mechanism 5 is arranged, the screw 509 is rotated, the screw 509 drives the second borosilicate tube supporting plate 504 to move upwards through the screw action with the screw seat 508, the second borosilicate tube supporting plate 504 moves to the highest position of the first upright column 501 and the second upright column 502, at the moment, the pressure lost by the five first borosilicate tube supporting plates 503 is provided, the supporting spring 505 bounces off each first borosilicate tube supporting plate 503, so that a borosilicate tube can be placed, after the borosilicate tube is placed, the screw 509 is rotated, so that the screw 509 pushes the second borosilicate tube supporting plate 504 to press downwards, thereby pressing each first borosilicate tube supporting plate 503 to mutually extrude, namely, the borosilicate tubes between each first borosilicate tube supporting plate 503 are pressed and fixed, so that the borosilicate tubes can be conveniently stored and taken out by people, the borosilicate tubes can be automatically bounced open when being stored and taken out, a space for storing and taking out by people is provided, and the borosilicate tubes can be pressed during the transferring process, the sliding and rolling phenomena of the boron-silicon tube are avoided, and the use convenience is improved; by arranging the borosilicate tube positioning mechanism 6, the borosilicate tube is stressed to press each silica gel head 603 to push the elastic rubber 604 to contract, so that the silica gel heads 603 and the elastic rubber 604 are always kept in an expanded state, a good protection effect on the borosilicate tube can be achieved, the phenomenon that the borosilicate tube is rubbed and damaged in the transferring process is avoided, and the transferring safety is improved; through setting up anti-rock mechanism 7, handheld handle 4 promotes the transport sweep 1 through transport roof beam 3 and utilizes truckle 2 to remove, after transporting needs the position, utilize to push 707 to promote push rod 705 to remove through first guide holder 703 and second guide holder 704, can promote slider 706 to remove, slider 706 prevents through inclined plane 7012 cooperation that the slope of rocking dog 701 will prevent rocking dog 701 and push down perpendicularly, gyro wheel 7015 provides lubricated effect, it is more laborsaving when promoting slider 706, when the plane 7013 of slider 706 moves to preventing rocking dog 701 top, rubber seat 702 compresses tightly on ground, make transport sweep 1 stabilize on ground, can conveniently stabilize transport sweep 1, when storing and taking out the borosilicate pipe, avoid transport sweep 1 the phenomenon of rocking to appear, and the stability is improved, and the operation is convenient, the practicality is higher.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a high pressure resistant borosilicate pipe transfer device which characterized in that: including transporting sweep (1), the bottom four corners position movable mounting who transports sweep (1) has truckle (2), the upper portion one side position fixed mounting who transports sweep (1) has transportation sweep (3), the top fixed mounting who transports sweep (3) has handle (4), one side that the upper portion of transporting sweep (1) is located transportation sweep (3) is equipped with boron-silicon tube supporting mechanism (5), boron-silicon tube supporting mechanism (5) are including first stand (501), second stand (502), first boron-silicon tube backup pad (503), second boron-silicon tube backup pad (504), supporting spring (505), connecting beam (506), axle bed (507), spiral shell seat (508) and screw rod (509), be equipped with boron-silicon tube positioning mechanism (6) between first boron-silicon tube backup pad (503) and second boron-silicon tube backup pad (504), boron-silicon tube positioning mechanism (6) including first positioning groove (601), Second constant head tank (602), silica gel head (603) and elastic rubber (604), the bottom of transport sweep (1) is equipped with prevents rocking mechanism (7).

2. The high pressure resistant borosilicate pipe transfer device according to claim 1, wherein: the first upright column (501) and the second upright column (502) are fixedly arranged at the upper part of the transfer cart plate (1), the first boron-silicon tube supporting plate (503) and the second boron-silicon tube supporting plate (504) are both connected between the first upright post (501) and the second upright post (502) in a sliding manner, the supporting spring (505) is sleeved outside the first upright post (501), and the supporting spring (505) is positioned between the first boron-silicon tube supporting plate (503) and the second boron-silicon tube supporting plate (504), the connecting cross beam (506) is fixedly connected to the top end position between the first upright column (501) and the second upright column (502), the shaft seat (507) is fixedly arranged at the central position of the top of the second borosilicate tube supporting plate (504), the screw seat (508) is fixedly arranged at the central position of the connecting beam (506), the screw rod (509) penetrates through the screw seat (508) and is movably connected with the shaft seat (507).

3. The high pressure resistant borosilicate pipe transfer device according to claim 2, wherein: the number of the first borosilicate tube supporting plates (503) is five, and a supporting spring (505) is arranged between each first borosilicate tube supporting plate (503).

4. The high pressure resistant borosilicate pipe transfer device according to claim 1, wherein: the upper surface at first borosilicate pipe backup pad (503) is seted up in first constant head tank (601), the lower surface at second borosilicate pipe backup pad (504) is seted up in second constant head tank (602), silica gel head (603) fixed connection is in the inboard of first constant head tank (601), elastic rubber (604) are filled in the inside of silica gel head (603).

5. The high pressure resistant borosilicate pipe transfer device according to claim 4, wherein: eleven second positioning grooves (602) are formed in the lower surface of the second borosilicate tube supporting plate (504), and each second positioning groove (602) vertically corresponds to one first positioning groove (601).

6. The high pressure resistant borosilicate pipe transfer device according to claim 4, wherein: the first positioning groove (601) and the second positioning groove (602) are both arc-shaped, and seven groups of silica gel heads (603) are arranged in each of the first positioning groove (601) and the second positioning groove (602).

7. The high pressure resistant borosilicate pipe transfer device according to claim 1, wherein: the anti-shaking mechanism (7) comprises an anti-shaking stop block (701), a rubber seat (702), a first guide seat (703), a second guide seat (704), a push rod (705), a sliding block (706), a push handle (707), a movable groove (708), a fixed column (709), a connecting spring (7010), a limiting sheet (7011), an inclined plane (7012), a plane (7013), a rotating shaft (7014) and a roller (7015), wherein the rubber seat (702) is fixedly arranged at the bottom of the anti-shaking stop block (701), the first guide seat (703) is fixedly arranged at the bottom of the transfer car plate (1), the second guide seat (704) is fixedly arranged at one side position of the first guide seat (703) at the bottom of the transfer car plate (1), the push rod (705) penetrates through the first guide seat (703) and the second guide seat (704), the sliding block (706) is connected at the other side of the first guide seat (703) at the bottom of the transfer car plate (1), one end of the push rod (705) is fixedly connected with the sliding block (706), the other end of the push rod (705) is fixedly connected with the push handle (707), the movable groove (708) is formed in the anti-shaking stop block (701), one end of the fixed column (709) is movably connected to the inside of the movable groove (708) through a limiting piece (7011), the other end of the fixed column (709) is fixedly connected to the middle position of the bottom of the transfer trolley plate (1), the connecting spring (7010) is sleeved on the outer portion of the fixed column (709), the inclined plane (7012) is arranged at the corner position of the bottom of the sliding block (706), the plane (7013) is arranged at one side position of the bottom of the sliding block (706), and the roller (7015) is connected with the sliding block (706) in a sliding mode through the rotating shaft (7014).

8. The high pressure resistant borosilicate pipe transfer device according to claim 7, wherein: the number of the rollers (7015) is four, the bottoms of the inclined surfaces (7012) and the flat surfaces (7013) are respectively provided with two groups, the upper corner of the anti-shaking stop block (701) is provided with a slope, and the slope is matched with the inclined surfaces (7012).

9. The high pressure resistant borosilicate pipe transfer device according to claim 7, wherein: one end of the connecting spring (7010) is fixedly connected with the bottom of the transfer trolley plate (1), the other end of the connecting spring (7010) is fixedly connected with the anti-shaking stop block (701), and the number of the connecting spring (7010) and the number of the fixing columns (709) are six.

10. The use method of the high-pressure-resistant borosilicate tubular transfer device according to claim 1 is characterized by comprising the following steps:

the method comprises the following steps: firstly, a screw rod (509) is rotated, the screw rod (509) drives a second boron silicon tube supporting plate (504) to move upwards through the thread action with a screw seat (508), the second boron silicon tube supporting plate (504) is moved to the highest position of a first upright column (501) and a second upright column (502), at the moment, the pressure of five first boron silicon tube supporting plates (503) is lost, and a supporting spring (505) bounces off each first boron silicon tube supporting plate (503);

step two: the borosilicate tube to be transported is placed between each first positioning groove (601) and each second positioning groove (602), the borosilicate tube is in contact with the silica gel heads (603), then the screw (509) is rotated, so that the screw (509) pushes the second borosilicate tube supporting plate (504) to press downwards, and the first borosilicate tube supporting plates (503) are pressed to extrude each other, the borosilicate tube between the first borosilicate tube supporting plates (503) can be pressed and fixed, storage and storage of the borosilicate tube are completed, and the borosilicate tube is caused to press each silica gel head (603) to push the elastic rubber (604) to shrink, so that the silica gel heads (603) and the elastic rubber (604) are kept in an expanded state all the time;

step three: the hand-held handle (4) pushes the transfer cart plate (1) to move by using the caster (2) through the transfer cart beam (3), after the transfer cart is transferred to a required position, the push rod (705) is pushed by using the push handle (707) to move through the first guide seat (703) and the second guide seat (704), namely, the slide block (706) can be pushed to move, the slide block (706) is matched with the slope of the anti-shaking block (701) through the inclined plane (7012) to vertically press down the anti-shaking block (701), the roller (7015) provides a lubricating effect, the slide block (706) is pushed more labor-saving, when the plane (7013) of the slide block (706) moves to the top of the anti-shaking block (701), the rubber seat (702) is pressed on the ground, so that the transfer cart plate (1) is stabilized on the ground, then the screw (509) is rotated to lift the second boron-silicon tube supporting plate (504), so that the supporting springs (505) can flick each first boron-silicon tube supporting plate, people can take out the borosilicate tube to finish the transfer work;

step four: after all the borosilicate tubes are taken out, the push rod (705) is pulled by the push handle (707) so that the slide block (706) is separated from the anti-shaking stop block (701), and the anti-shaking stop block (701) is lifted by the pulling force of the connecting spring (7010), and then the transfer trolley plate (1) can be continuously pushed to move.