CN111484239B - High borosilicate glass pipe cutting device - Google Patents

Abstract

The invention discloses a high borosilicate glass tube cutting device, which relates to the technical field of high borosilicate glass tube processing and comprises a support frame, wherein a supporting plate I and a supporting plate II for bearing a high borosilicate glass tube are fixed on the support frame; according to the high borosilicate glass tube cutting device, the lifting column can be driven to vertically reciprocate through the arranged driving mechanism, so that the lifting frame vertically reciprocates, the cutting mechanism on the lifting frame can vertically move, the cutting action on the high borosilicate glass tube is realized, the arranged pushing mechanism can drive the push block to rightwards step-type push the high borosilicate glass tube by equal length, the high borosilicate glass tube is cut once after being pushed once, the step-type equal-interval automatic cutting effect of the high borosilicate glass tube is realized, and the cutting efficiency of the high borosilicate glass tube is greatly improved.

Description

High borosilicate glass pipe cutting device

Technical Field

The invention relates to the technical field of high borosilicate glass tube processing, in particular to a high borosilicate glass tube cutting device.

Background

The high borosilicate glass is processed by advanced production process by utilizing the conductive characteristic of the glass in a high-temperature state and heating the glass inside to melt the glass. The glass tube contains 78% of silicon oxide and 10% of boron oxide, and has high silicon and boron contents, and the raw materials for preparing the high borosilicate glass comprise main raw materials and auxiliary raw materials, wherein the main raw materials are introduced into the raw materials of the oxide forming a network structure, an intermediate oxide, an oxide outside the network and the like of the glass, and the auxiliary raw materials can accelerate the melting of the glass or enable the glass to obtain certain necessary properties.

Application publication No. CN 108555454A discloses a laser cutting device for borosilicate glass pipe, including workstation main part and installation roof beam, the surface one end fixed mounting of workstation main part has the equipment box, and the surface of equipment box and the one end that the workstation main part is adjacent are equipped with the control box, the surface lower extreme fixed mounting of control box has the electronic box, the one end that the surface of equipment box is close to the workstation main part is equipped with movable safety cover, installation roof beam fixed mounting is above the surface of workstation main part. Although the device realizes the cutting of borosilicate glass pipe, the degree of automation of cutting process is lower, can not realize the automatic cutout effect of length such as waiting, for this reason, provides a borosilicate glass pipe cutting device now to solve above-mentioned technical problem.

Disclosure of Invention

The invention aims to provide a high borosilicate glass tube cutting device to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

the utility model provides a borosilicate glass manages cutting device, includes the support frame, is fixed with layer board I and layer board II that are used for bearing borosilicate glass pipe on the support frame, rotates on the support frame and installs the actuating lever, is connected with the ejector pad through push mechanism on the actuating lever, vertical slidable mounting has the lift post on the support frame, is equipped with the actuating mechanism who is used for driving the lift post to go up and down on the support frame, lift capital portion is fixed with the crane, is equipped with the cutting mechanism who is used for cutting borosilicate glass pipe in the crane, slidable mounting has the positioning mechanism that compresses tightly that is used for borosilicate glass pipe fixed on the crane.

As a modified scheme of the invention: the cutting mechanism is including fixing the driving motor on the crane, and driving motor's output shaft is connected with the rotation axis of rotating and installing in the crane through belt pulley mechanism III transmission, the cover is established and is fixed with cutting blade on the rotation axis.

As a modified scheme of the invention: the pressing and positioning mechanism comprises a pressing plate vertically and slidably mounted on the lifting frame, a spring II is fixedly connected between the pressing plate and the lifting frame, and an arc groove matched with the high borosilicate glass tube in a fitting manner is formed in the bottom of the pressing plate.

As a modified scheme of the invention: the driving mechanism comprises an incomplete gear I and an incomplete gear II which are rotatably installed on the supporting frame, the tooth orientations of the incomplete gear I and the incomplete gear II are opposite, a rack I meshed with the incomplete gear I and a rack II meshed with the incomplete gear II are fixed on the lifting frame, and the incomplete gear I is in transmission connection with the driving rod through a belt pulley mechanism I.

As a modified scheme of the invention: the pushing mechanism comprises a push rod hinged to the end of the driving rod, a connecting rod is hinged between the push rod and the supporting frame, and the lower end of the push rod is connected with the push block through an elastic extension assembly.

As a modified scheme of the invention: the elastic extension assembly comprises a spring sleeve sleeved at the lower end of the push rod in a sliding manner, a spring I is fixedly connected between the spring sleeve and the push rod, and the push block is hinged to the bottom of the spring sleeve.

As a modified scheme of the invention: a vertical groove is arranged between the supporting plate I and the supporting plate II, a dust collecting cylinder is arranged at the bottom of the vertical groove, and a dust collector communicated with the dust collecting cylinder is fixed on the supporting frame.

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

according to the high borosilicate glass tube cutting device, the lifting column can be driven to vertically reciprocate through the arranged driving mechanism, so that the lifting frame vertically reciprocates, the cutting mechanism on the lifting frame can vertically move, the cutting action on the high borosilicate glass tube is realized, the arranged pushing mechanism can drive the push block to rightwards step-type push the high borosilicate glass tube by equal length, the high borosilicate glass tube is cut once after being pushed once, the step-type equal-interval automatic cutting effect of the high borosilicate glass tube is realized, and the cutting efficiency of the high borosilicate glass tube is greatly improved.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is an enlarged view of portion A of FIG. 1;

FIG. 3 is a partial right side schematic view of the present invention;

FIG. 4 is a partial perspective view of the present invention;

fig. 5 is a partial perspective view of the present invention.

In the figure: 1-supporting frame, 2-driving rod, 3-supporting plate I, 4-belt pulley mechanism I, 5-lifting frame, 6-incomplete gear I, 7-rack I, 8-lifting column, 9-rack II, 10-incomplete gear II, 11-belt pulley mechanism II, 12-cutting blade, 13-connecting rod, 14-push block, 15-vertical groove, 16-high borosilicate glass tube, 17-collecting basket, 18-dust collecting barrel, 19-dust collector, 20-supporting plate II, 21-spring I, 22-spring sleeve, 23-push rod, 24-driving motor, 25-belt pulley mechanism III, 26-pressing plate, 27-spring II, 28-rotating shaft and 29-arc groove.

Detailed Description

The technical scheme of the patent is further described in detail by combining the following specific embodiments:

example 1

Please refer to fig. 1-5, a borosilicate glass tube cutting device, includes a support frame 1, a support plate I3 and a support plate II20 for bearing a borosilicate glass tube 16 are fixed on the support frame 1, a driving rod 2 is rotatably mounted on the support frame 1, a push block 14 is connected on the driving rod 2 through a pushing mechanism, a lifting column 8 is vertically slidably mounted on the support frame 1, a driving mechanism for driving the lifting column 8 to lift is arranged on the support frame 1, a lifting frame 5 is fixed at the bottom of the lifting column 8, a cutting mechanism for cutting the borosilicate glass tube 16 is arranged in the lifting frame 5, and a compressing and positioning mechanism for fixing the borosilicate glass tube 16 is slidably mounted on the lifting frame 5.

Layer board II20 and layer board I3 that set up in this device are used for bearing borosilicate glass pipe 16, play the spacing and supporting role to borosilicate glass pipe 16, drive lift post 8 through the actuating mechanism that sets up and drive 5 vertical motions of crane, realize cutting mechanism to borosilicate glass pipe 16's cutting effect.

Wherein, cutting mechanism is including fixing the driving motor 24 on crane 5, and the output shaft of driving motor 24 is connected with the rotation axis 28 of rotating and installing in crane 5 through the transmission of belt pulley mechanism III25, the cover is established on rotation axis 28 and is fixed with cutting blade 12, and the driving motor 24 of setting drives rotation axis 28 rotatoryly through belt pulley mechanism III25 for rotation axis 28 drives cutting blade 12 and rotates, realizes cutting blade 12 and to the rotary cutting action of borosilicate glass pipe 16.

The compressing and positioning mechanism of the device comprises a pressing plate 26 vertically and slidably mounted on the lifting frame 5, a spring II27 is fixedly connected between the pressing plate 26 and the lifting frame 5, and an arc groove 29 matched with the high borosilicate glass tube 16 in a fitting manner is formed in the bottom of the pressing plate 26.

When crane 5 moves down, the clamp plate 26 of crane 5 bottom contacts borosilicate glass pipe 16 earlier, along with crane 5 continues the downstream, crane 5 relative clamp plate 26 slides down, spring II27 elastic deformation compression, cutting blade 12 moves down and contacts borosilicate glass pipe 16 gradually and realizes its cutting action, before borosilicate glass pipe 16 cuts, clamp plate 26 can carry out stable the compressing tightly to it fixedly, cutting process's steady has been guaranteed, cutting quality has been promoted greatly.

Example 2

On the basis of the embodiment 1, in addition, the driving mechanism of the device comprises an incomplete gear I6 and an incomplete gear II10 which are rotatably arranged on the support frame 1, the tooth orientations of the incomplete gear I6 and the incomplete gear II10 are opposite, a rack I7 matched with the incomplete gear I6 in a meshing way and a rack II9 matched with the incomplete gear II10 in a meshing way are fixed on the lifting frame 5, and the incomplete gear I6 and the driving rod 2 are in transmission connection through a belt pulley mechanism I4.

Incomplete gear I6 is driven by prior art's motor, incomplete gear I6 drives incomplete gear II10 synchronous rotation through belt pulley mechanism II11, incomplete gear I6 and incomplete gear II10 interval are engaged with rack I7 and rack II9 in turn and are connected at this moment, realized that lift post 8 drives crane 5 vertical reciprocating motion, and the cutting mechanism of crane 5 bottom moves down once and accomplishes once to the cutting of borosilicate glass pipe 16.

The push mechanism of this device is including articulating the push rod 23 at 2 tip of actuating lever, and it has connecting rod 13 to articulate between push rod 23 and the support frame 1, the lower extreme of push rod 23 is connected with ejector pad 14 through elasticity extension subassembly, and elasticity extension subassembly includes that the slip cap is established at push rod 23 lower extreme spring sleeve 22, fixedly connected with spring I21 between spring sleeve 22 and the push rod 23, ejector pad 14 articulates in spring sleeve 22 bottom.

Through the above arrangement, when incomplete gear I6 rotated, incomplete gear I6 drove actuating lever 2 through belt pulley mechanism I4 and rotated, actuating lever 2 drove push rod 23 and realized the swing under the limiting displacement of connecting rod 13 this moment, namely spring sleeve 22 of connecting rod 13 lower extreme can drive ejector pad 14 and drive borosilicate glass pipe 16 under the effect of frictional force intermittent type and move the same distance to the right, and incomplete gear I6 is rotatory a week, borosilicate glass pipe 16 moves once to the right, cutting mechanism moves once down simultaneously and cuts borosilicate glass pipe 16 once, so relapse, the equal length automatic cutout of borosilicate glass pipe 16 is handled has been realized.

Further, a vertical groove 15 is arranged between the supporting plate I3 and the supporting plate II20, a dust collecting cylinder 18 is arranged at the bottom of the vertical groove 15, a dust collector 19 communicated with the dust collecting cylinder 18 is fixed on the supporting frame 1, dust generated in the cutting process falls to the dust collecting cylinder 18 through the vertical groove 15, and the dust is collected and absorbed through the dust collector 19.

In conclusion, the lifting column 8 can be driven to vertically reciprocate by the arranged driving mechanism, so that the lifting frame 5 vertically reciprocates, the cutting mechanism on the lifting frame 5 moves up and down, the cutting action on the borosilicate glass tube 16 is realized, the arranged pushing mechanism can drive the pushing block 14 to rightwards step-by-step push the borosilicate glass tube 16 by an equal length, the borosilicate glass tube 16 is cut by the cutting mechanism once after being pushed once, the step-by-step equidistant automatic cutting effect of the borosilicate glass tube 16 is realized, and the cutting efficiency of the borosilicate glass tube 16 is greatly improved.

It should be noted that, although the present specification describes embodiments, each embodiment does not include only a single technical solution, and such description of the specification is only for clarity, and those skilled in the art should take the specification as a whole, and the technical solutions in the embodiments may be appropriately combined to form other embodiments understood by those skilled in the art, and the above-mentioned embodiments only express the preferred embodiments of the technical solutions, and the description thereof is more specific and detailed, but should not be construed as limiting the scope of the claims of the technical solutions. It should be noted that, for those skilled in the art, various changes, modifications and substitutions can be made without departing from the spirit of the present invention, and these changes and substitutions belong to the protection scope of the present invention. The protection scope of this technical solution patent should be subject to the appended claims.

Claims (4)

1. The high borosilicate glass tube cutting device comprises a support frame (1), wherein a support plate I (3) and a support plate II (20) which are used for bearing a high borosilicate glass tube (16) are fixed on the support frame (1), the high borosilicate glass tube cutting device is characterized in that a drive rod (2) is rotatably installed on the support frame (1), a push block (14) is connected on the drive rod (2) through a pushing mechanism, a lifting column (8) is vertically and slidably installed on the support frame (1), a driving mechanism which is used for driving the lifting column (8) to lift is arranged on the support frame (1), a lifting frame (5) is fixed at the bottom of the lifting column (8), a cutting mechanism which is used for cutting the high borosilicate glass tube (16) is arranged in the lifting frame (5), a pressing and positioning mechanism which is used for fixing the high borosilicate glass tube (16) is slidably installed on the lifting frame (5), and the driving mechanism comprises an incomplete gear I (6) and an incomplete gear II (10) which, the teeth of the incomplete gear I (6) and the incomplete gear II (10) face opposite directions, a rack I (7) meshed and matched with the incomplete gear I (6) and a rack II (9) meshed and matched with the incomplete gear II (10) are fixed on the lifting frame (5), the incomplete gear I (6) is in transmission connection with the driving rod (2) through a belt pulley mechanism I (4), the pushing mechanism comprises a push rod (23) hinged at the end part of the driving rod (2), a connecting rod (13) is hinged between the push rod (23) and the supporting frame (1), the lower end of the push rod (23) is connected with the push block (14) through an elastic extension assembly, the elastic extension assembly comprises a spring sleeve (22) which is sleeved at the lower end of the push rod (23) in a sliding mode, a spring I (21) is fixedly connected between the spring sleeve (22) and the push rod (23), and the push block (14) is hinged to the bottom of the spring sleeve (22).

2. The borosilicate glass tube cutting device according to claim 1, wherein the cutting mechanism comprises a driving motor (24) fixed on the lifting frame (5), an output shaft of the driving motor (24) is in transmission connection with a rotating shaft (28) rotatably installed in the lifting frame (5) through a belt pulley mechanism III (25), and the rotating shaft (28) is sleeved and fixed with the cutting blade (12).

3. The borosilicate glass tube cutting device according to claim 1 or 2, wherein the pressing and positioning mechanism comprises a pressing plate (26) vertically and slidably mounted on the lifting frame (5), a spring II (27) is fixedly connected between the pressing plate (26) and the lifting frame (5), and an arc groove (29) matched with the borosilicate glass tube (16) in a fitting manner is formed in the bottom of the pressing plate (26).

4. The high borosilicate glass tube cutting device according to claim 1, wherein a vertical groove (15) is provided between the supporting plate I (3) and the supporting plate II (20), a dust collecting cylinder (18) is provided at the bottom of the vertical groove (15), and a dust collector (19) communicated with the dust collecting cylinder (18) is fixed on the supporting frame (1).

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