CN109264982B - Glass curtain wall cutting tool - Google Patents

Abstract

The invention discloses a glass curtain wall cutting tool which comprises a cutting frame and cutting knives arranged on the cutting frame, wherein the cutting frame is of a quadrilateral shape as a whole and comprises a transverse assembly and a longitudinal assembly, the transverse assembly comprises two transverse frames and telescopic structures arranged at two ends of each transverse frame, the longitudinal assembly comprises a main vertical plate with two ends respectively rotatably arranged in the middle of the two transverse frames and auxiliary vertical plates positioned at two sides of the main vertical plate, the end parts of the auxiliary vertical plates are rotatably connected with the telescopic structures, and the cutting knives are arranged on the main vertical plates. The invention has simple structure, convenient assembly and disassembly, convenient operation and convenient use at any time and any place; the extending structure and the cutting knife that set up all can be dismantled, the maintenance of being convenient for, the extending structure cooperation gyro wheel that reduce cost set up can be applicable to the cutting of the glass curtain wall of various regular shapes, and application range is wide, and cutting accuracy is high and fixed effectual, need not fixed glass with the hand, and the security is high.

Description

Glass curtain wall cutting tool

Technical Field

The invention belongs to the technical field of material processing equipment for curtain walls, and particularly relates to a glass curtain wall cutting tool.

Background

The glass curtain wall is a building outer enclosure structure or a decorative structure which has a supporting structure system and can have certain displacement capacity relative to a main body structure and does not share the action of the main body structure. The wall body has two types of single-layer glass and double-layer glass. The glass curtain wall is a beautiful and novel building wall decorating method and is a remarkable characteristic of modern high-rise building times. When curtain wall glass is manufactured, the glass needs to be cut, and sometimes the glass needs to be cut into a specific shape, so that the requirements of different projects are met. In general, a curtain wall glass cutter is used for cutting, but the method can only realize pretreatment of glass, the glass curtain wall cutter has larger volume and is inconvenient to carry, and the glass cutter cannot be used on a curtain wall glass installation site and can only be used for manual cutting.

The manual cutting method is that one hand holds the glass and the other hand uses a small cutting tool, so that the operation method has a great danger and is easy to cause injury to human bodies, and meanwhile, the glass is held by hand to cause inaccurate cutting, so that the cutting efficiency is low.

Disclosure of Invention

The invention aims to provide a glass curtain wall cutting tool which is high in safety, convenient to operate and accurate in cutting.

In order to achieve the above purpose, the technical scheme of the invention is as follows: the utility model provides a glass curtain wall cutting tool, includes the cutting frame and installs the cutting knife on the cutting frame, the cutting frame is a quadrangle as a whole, including transverse assembly and longitudinal assembly, transverse assembly includes two crossbearers and sets up the extending structure at every crossbearer both ends, longitudinal assembly includes that both ends rotate respectively and install a main riser at two crossbearer middle parts and be located the auxiliary riser of main riser both sides, the tip of auxiliary riser with extending structure rotates to be connected, the cutting knife is installed on the main riser.

Preferably, the telescopic structure comprises a middle plate sleeved in the transverse frame and an inner plate sleeved in the middle plate, wherein the outer wall of the middle plate is in contact with the inner wall of the transverse frame and can slide relatively, the outer wall of the inner plate is in contact with the inner wall of the middle plate and can slide relatively, the end part of the inner plate is in rotary connection with the end part of the auxiliary vertical plate, the telescopic structure can change the length of the transverse assembly, and the telescopic structure is convenient and stable to operate.

Preferably, the telescopic structure is further provided with a locking structure, the telescopic structure comprises a middle plate locking screw arranged on the transverse frame and an inner plate locking screw arranged on the middle plate, the middle plate locking screw and the inner plate locking screw are respectively arranged through screw holes penetrating through the transverse frame and the side wall of the middle plate, when locking is needed, the middle plate locking screw or the inner plate locking screw is rotated, the end part of the middle plate locking screw or the inner plate locking screw abuts against the side wall of the middle plate or the inner plate, and locking and fixing are completed.

Preferably, the telescopic structure is further provided with a limiting structure, the telescopic structure comprises a middle plate clamping block arranged in the transverse frame and close to one end of the longitudinal assembly and an inner plate limiting fixed in the middle plate and close to one end of the longitudinal assembly, the inner plate limiting structure is corresponding to the limiting structure, one end of the inner plate sliding groove which is closed along the length direction of the inner plate is formed in the outer portion of the inner plate, the closed end of the inner plate sliding groove is close to one end of the main vertical plate, the inner plate limiting structure can slide in the inner plate sliding groove, one end of the middle plate sliding groove which is open along the length direction of the middle plate is formed in the outer portion of the middle plate, the closed end of the middle plate sliding groove is close to one end of the main vertical plate, the middle plate clamping block can slide in the middle plate sliding groove, and the telescopic structure can be prevented from being too large in telescopic length and being separated, so that the telescopic structure is influenced in use.

Preferably, the middle plate clamping block is fixed in the transverse frame through a screw, so that the assembly, disassembly and maintenance or replacement are facilitated, and the maintenance cost is reduced.

Preferably, the roller coaxial with the rotation direction is installed at the rotation connection position of the longitudinal component and the transverse component, and when the glass cutting device is used, the roller can roll along the edge of the glass, so that the cutting tool can be used for cutting conveniently, and the cutting is accurate.

Preferably, the cutting knife is arranged in a mounting hole in the middle of the main vertical plate and is locked and fixed through a cutting knife mounting assembly.

Preferably, the mounting hole in the middle of the main vertical plate is a stepped round hole, the cutting knife comprises a stepped columnar knife body and a conical knife head corresponding to the mounting hole, and the cutting knife mounting assembly comprises a clamping shell sleeved outside the cutting knife and located at the knife head end and a clamping nut located at the knife body end.

Preferably, the cutter mounting assembly is further provided with a cutter body rear end clamping structure, the cutter body rear end clamping structure comprises a rear end clamping locking piece, the rear end clamping locking piece is externally attached to the inner wall of the clamping nut, and the attaching portion of the cutter body rear end clamping structure is an arc-shaped rear end arc-shaped surface. When the cutter is used, the clamping nut is matched with the rear-end clamping locking block, so that the cutter body can be clamped firmly, and the cutter is prevented from loosening.

Preferably, the cutter mounting assembly is further provided with a cutter body front end clamping structure, the cutter body front end clamping structure comprises a convex ring extending from a mounting hole on the main vertical plate to the cutter head direction and a front end clamping locking piece arranged in a through hole of the convex ring, the front end clamping locking piece is externally attached to the inner wall of the clamping shell, the attaching part of the front end clamping locking piece is an arc-shaped front end arc-shaped surface, and when the cutter is used, the clamping shell is matched with the front end clamping locking piece, so that the cutter body can be clamped firmly, and the cutter is prevented from loosening.

Preferably, the cutter mounting assembly further comprises a cutter body support, the cutter body support is a circular ring, the inner diameter of the cutter body support is larger than or equal to the diameter of the front part of the cutter body and smaller than the diameter of the rear part of the cutter body, the outer diameter of the cutter body support is smaller than the diameter of the rear part in the mounting hole and larger than the diameter of the front part in the mounting hole, and the cutter body support is used for fixing the cutter and preventing the cutter from falling off.

Preferably, the outer circumference of the blade support is provided with a groove arranged along the length direction of the blade, and the mounting hole of the main vertical plate is internally provided with a bump corresponding to the groove, so that the blade support is prevented from rotating, and the cutting efficiency is improved.

Preferably, the blade support is further provided with a through fixing hole along the length direction of the blade, the rear end clamping locking piece is correspondingly provided with a fixing protrusion corresponding to the fixing hole in an extending mode on one side, close to the blade support, of the rear end clamping locking piece, and the fixing protrusion is embedded into the fixing hole during installation, so that the blade support and the cutting blade are further prevented from rotating, and cutting efficiency is improved.

In the technical scheme of the invention, all rotation installation is realized through the rotating shaft hole and the rotating shaft.

The application method of the invention comprises the following steps: loosening the locking structure, pulling the middle plate and the inner plate outwards, erecting the cutting tool on glass to be cut, adjusting the position of the cutting knife according to the requirement, enabling the idler wheel to cling to the edge of the glass, tightening the locking screw of the inner plate and the locking screw of the middle plate, locking the locking mechanism, properly pressing the cutting knife and moving the cutting tool to cut.

According to the technical characteristics of the invention, several efficient cutting methods can be obtained:

1. bisecting and cutting: the method is suitable for rapid equal division cutting of glass with common specifications, and when the method is used, a cutting tool is directly erected on the glass without adjustment, so that rollers at the transverse assembly are tightly attached to the edge of the glass for mobile cutting; the method is also used for bisecting and cutting unconventional glass, according to the width of the glass, the telescopic structures at the two ends of the transverse frame, namely the telescopic lengths of the middle plate and the inner plate, are adjusted, so that the transverse frame is positioned in the middle position, namely the cutting knife is positioned in the middle of the cutting frame, the locking structures, namely the middle plate locking screw and the inner plate locking screw, are screwed, and then the cutting tool is erected on the glass to perform bisecting and cutting.

Further, when the telescopic length of the telescopic structure, namely the middle plate and the inner plate is adjusted, the distance between the two auxiliary vertical plates is larger than the width of glass.

2. And (5) performing equal cutting: the method is suitable for glass with common specifications or glass with the width smaller than the distance between the longitudinal assembly when the transverse assembly stretches to the maximum length, when the method is used, the stretching structure of the transverse assembly is adjusted, the distance between the cutting knife and one auxiliary vertical plate is twice that between the cutting knife and the other auxiliary vertical plate, the cutting tool is erected on the glass after the locking structure is screwed, rollers of the same auxiliary vertical plate are tightly attached to the same side edge of the glass, and then cutting is carried out; the method is also used for equally dividing and cutting unconventional glass in the same shape, firstly, two telescopic structures positioned on one side of a main vertical plate are adjusted according to the requirement, the distance between a cutting knife and an auxiliary vertical plate on the side is equal to the width of the required glass, after the adjustment is completed, a locking structure at the telescopic structure on the side is screwed, the telescopic structure positioned on the other side of the main vertical plate is pulled to a longer position, the side locking structure is in a loosening state or the side roller is placed on the glass, when the glass is used, the roller on the adjusted side is tightly attached to the edge of the glass, cutting is carried out, and the equal dividing and cutting operation can be completed by repeating the cutting operation.

The invention also has other using methods, such as the cutting frame can be used as a wire frame for scribing.

The invention has the beneficial effects that:

1. the invention has simple structure, convenient assembly and disassembly, convenient operation and convenient use at any time and any place.

2. The telescopic structure and the cutting knife are detachable, so that the telescopic structure is convenient to maintain and repair, and the cost is reduced.

3. The telescopic structure cooperates with the idler wheels, can be suitable for cutting glass curtain walls of various regular shapes, and has wide application range and high cutting precision.

4. The telescopic structure cooperates the gyro wheel, and fixed effectual need not fixed glass with the hand, and the security is high.

5. The cutter body locking structure is arranged, and the cutter is fixed and stable.

Drawings

Fig. 1 is a schematic structural diagram of embodiment 1 of the present invention.

Fig. 2 is a schematic installation diagram of a telescopic structure according to embodiment 2 of the present invention.

Fig. 3 is an exploded view of the structure of the telescopic structure according to embodiment 2 of the present invention.

Fig. 4 is a schematic structural view of a locking structure according to embodiment 2 of the present invention.

Fig. 5 is a schematic structural diagram of a limiting structure according to embodiment 2 of the present invention.

Fig. 6 is an exploded view of the limit structure of embodiment 2 of the present invention.

Fig. 7 is a schematic installation diagram of a cutter according to embodiment 2 of the present invention.

Fig. 8 is an exploded view showing the structure of the mounting part of the cutter according to embodiment 2 of the present invention.

Fig. 9 is a schematic structural view of a cutter mounting assembly according to embodiment 3 of the present invention.

Fig. 10 is a cross-sectional view of a cutter mounting assembly according to embodiment 3 of the present invention.

Fig. 11 is a schematic diagram of bisecting dicing according to embodiment 2 of the present invention.

FIG. 12 is a schematic representation of the adjustment of example 2 of the present invention when bisecting a cut.

Fig. 13 is a schematic diagram of the bisection of embodiment 2 of the present invention.

FIG. 14 is a schematic diagram of the bisecting cut performed in example 2 of the present invention.

The drawings are respectively as follows: the cutter comprises a cutting frame, a cutting knife, a transverse component 3, a longitudinal component 4, a transverse frame 5, a telescopic structure 6, a main vertical plate 7, an auxiliary vertical plate 8, a middle plate 9, an inner plate 10, a middle plate locking screw 11, a middle plate locking screw 12, a middle plate clamping block 13, a middle plate limiting plate 14, a middle plate sliding groove 15, a middle plate sliding groove 16, a roller 17, a mounting hole 18, a cutter body 19, a cutter head 20, a clamping shell 21, a clamping nut 22, a cutter body rear end clamping structure 23, a rear end arc surface 24, a rear end clamping locking block 25, a cutter body front end clamping structure 26, a convex ring 27, a through hole 28, a front end clamping locking block 29, a front end arc surface 30, a cutter body bracket 31, a groove 32, a convex block 33, a fixing hole 34, a fixing protrusion 35 and glass A.

Detailed Description

The technical scheme of the present invention will be described in detail with reference to the following examples and the accompanying drawings.

Example 1

As shown in fig. 1, a glass curtain wall cutting tool comprises a cutting frame 1 and cutting knives 2 installed on the cutting frame 1, wherein the cutting frame 1 is integrally quadrilateral, the cutting frame comprises a transverse assembly 3 and a longitudinal assembly 4, the transverse assembly 3 comprises two transverse frames 5 and telescopic structures 6 arranged at two ends of each transverse frame, the longitudinal assembly 4 comprises a main vertical plate 7 with two ends respectively installed in the middle of the two transverse frames 5 in a rotating mode and auxiliary vertical plates 8 located at two sides of the main vertical plate 7, the end portions of the auxiliary vertical plates 8 are connected with the telescopic structures 6 in a rotating mode, and the cutting knives 2 are installed on the main vertical plates 7.

Example 2

This embodiment is based on embodiment 1, with the difference that:

as shown in fig. 2 or 3, the telescopic structure 6 comprises a middle plate 9 sleeved in the transverse frame 5 and an inner plate 10 sleeved in the middle plate 9, wherein the outer wall of the middle plate 9 is in contact with the inner wall of the transverse frame 5 and can slide relatively, the outer wall of the inner plate 10 is in contact with the inner wall of the middle plate 9 and can slide relatively, the end part of the inner plate 10 is in rotary connection with the end part of the auxiliary vertical plate 8, and the telescopic structure 6 can change the length of the transverse assembly 3 and is convenient and stable to operate.

As shown in fig. 4, the telescopic structure 6 is further provided with a locking structure, and the telescopic structure comprises a middle plate locking screw 11 installed on the transverse frame 5 and an inner plate locking screw 12 installed on the middle plate 9, wherein the middle plate locking screw 11 and the inner plate locking screw 12 are installed through screw holes penetrating through the side walls of the transverse frame 5 and the middle plate 9 respectively, and when locking is needed, the middle plate locking screw 11 or the inner plate locking screw 12 is rotated, the end part of the middle plate locking screw 11 or the inner plate locking screw 12 abuts against the side wall of the middle plate 9 or the inner plate 10, so that locking and fixing are completed.

As shown in fig. 5, the telescopic structure 6 is further provided with a limiting structure, which comprises a middle plate clamping block 13 installed inside the transverse frame 5 and close to one end of the longitudinal component 4, and an inner plate limiting 14 fixed inside the middle plate 9 and close to one end of the longitudinal component 4, wherein one end of the inner plate limiting 14 is provided with an inner plate sliding groove 15 which is closed along one side of the inner plate 10 in a length direction, the closed end of the inner plate limiting groove 15 is close to one end of the main vertical plate 7, the inner plate limiting 14 can slide in the inner plate sliding groove 15, one end of the middle plate 9, which is open along one side of the middle plate clamping block 13, is closed to one end of the main vertical plate 7, the middle plate clamping block 13 can slide in the middle plate sliding groove 16, and the setting of the limiting structure can prevent the telescopic structure 6 from being excessively large in telescopic length and being separated, so that the use is affected.

Wherein, the middle plate clamping block 13 is fixed in the transverse frame 5 through screw installation, so that the assembly, disassembly, maintenance or replacement are convenient, and the maintenance cost is reduced.

As shown in fig. 1, the roller 17 coaxial with the rotation direction is installed at the rotation connection position of the longitudinal component 4 and the transverse component 3, and when in use, the roller 17 can roll along the edge of glass, so that the cutting tool is convenient to cut and use, and the cutting is accurate.

As shown in fig. 7 or 8, the cutter 2 is mounted in a mounting hole 18 in the middle of the main riser 7, and is locked and fixed by a cutter mounting assembly.

The mounting hole 18 in the middle of the main vertical plate 7 is a stepped round hole, the cutting blade 2 comprises a stepped cylindrical blade body 19 and a conical cutter head 20 corresponding to the mounting hole, and the cutting blade mounting assembly comprises a clamping shell 21 sleeved outside the cutting blade 2 and positioned at the end of the cutter head 20 and a clamping nut 22 positioned at the end of the blade body 19.

In the technical scheme of the embodiment, all rotation installation is realized through the rotating shaft hole and the rotating shaft.

The application method of the invention comprises the following steps: the locking structure is loosened, the middle plate 9 and the inner plate 10 are pulled outwards, the cutting tool is erected on glass to be cut, the position of the cutting knife 2 is adjusted according to the requirement, the roller 17 is tightly attached to the edge of the glass, the inner plate locking screw 12 and the middle plate locking screw 11 are screwed, the locking mechanism is locked, the cutting knife 2 is properly pressed, and the cutting tool is moved to cut.

According to the technical characteristics of the embodiment, several efficient cutting methods can be obtained:

1. bisecting and cutting: the method is suitable for the rapid equal division cutting of the glass A with common specifications, and when the method is used, a cutting tool is directly erected on the glass A without adjustment, so that the roller 17 at the transverse assembly 3 is tightly attached to the edge of the glass A for moving cutting; the method is also used for bisecting and cutting unconventional glass A, according to the width of the glass A, the telescopic structures 6 at the two ends of the transverse frame 5, namely the telescopic lengths of the middle plate 9 and the inner plate 10, are adjusted, so that the transverse frame 5 is positioned in the middle position, namely the cutting knife 2 is positioned in the middle of the cutting frame 1, the locking structures, namely the middle plate locking screw 11 and the inner plate locking screw 12, are screwed, and then a cutting tool is erected on the glass A to perform bisecting and cutting, as shown in fig. 11.

Further, when the telescopic length of the telescopic structure 6, that is, the middle plate 9 and the inner plate 10 is adjusted, the distance between the two auxiliary risers 8 can be larger than the width of the glass a, as shown in fig. 12, the method does not need to precisely set the telescopic length of the telescopic structure 6, after the setting is completed, a cutting tool is erected on the glass a, and then the two auxiliary risers 8 are pulled reversely until the rollers 17 are closely attached to the edge of the glass a, as shown in fig. 13, and then halving cutting is performed.

2. And (5) performing equal cutting: the method is suitable for glass A with common specifications or glass A with the width smaller than the distance between the longitudinal assembly 4 when the transverse assembly 3 stretches to the maximum length, when the method is used, the telescopic structure 6 of the transverse assembly 3 is adjusted, the distance between the cutting knife 2 and one auxiliary vertical plate 8 is twice that between the cutting knife 2 and the other auxiliary vertical plate 8, a cutting tool is erected on the glass A after the locking structure is screwed, and the rollers 17 of the same auxiliary vertical plate 8 are tightly attached to the same side edge of the glass A and then cut; the method is also used for equally dividing and cutting unconventional glass A in the same shape, firstly, two telescopic structures 6 positioned on one side of a main vertical plate 7 are adjusted according to the requirement, the distance between a cutting knife 2 and an auxiliary vertical plate 8 on the side is equal to the required width of the glass A, after the adjustment is completed, a locking structure at the telescopic structure 6 on the side is screwed, the telescopic structure 6 positioned on the other side of the main vertical plate 7 is pulled to a longer position, the side locking structure is in a loosening state or the side roller is placed on the glass A, when the glass A is used, the roller 17 on the adjusted side is clung to the edge of the glass A, as shown in fig. 14, cutting is carried out, and the equally dividing and cutting can be completed by repeating the cutting operation.

The present embodiment also has other methods of use, such as the use of a dicing frame as a wire frame for scribing.

Example 3

This example is based on example 2, with the difference that:

as shown in fig. 9 or 10, the cutter mounting assembly is further provided with a cutter body rear end clamping structure 23, which comprises a rear end clamping lock block 25, wherein the outer part of the rear end clamping lock block 25 is attached to the inner wall of the clamping nut 22, the attaching part of the rear end clamping lock block is an arc-shaped rear end arc surface 24, and when in use, the clamping nut 22 is matched with the rear end clamping lock block 25, so that the cutter body 19 can be clamped firmly, and the cutter 2 is prevented from loosening.

And, the cutting knife installation component still includes blade front end clamping structure 26, including by the bulge loop 27 that mounting hole 18 on the main riser 7 extends to tool bit 20 direction and install the front end clamp locking piece 29 in the through-hole 28 of bulge loop 27, the front end clamp locking piece 29 outside with press from both sides tight shell 21 inner wall laminating mutually, its laminating part is curved front end arcwall face 30, and when using, press from both sides tight shell 21 and front end clamp locking piece 29 cooperation, can firmly grip the blade 19, prevent that cutting knife 2 from becoming flexible.

The cutter mounting assembly further comprises a cutter body support 31, the cutter body support 31 is a circular ring, the inner diameter of the cutter body support 31 is larger than or equal to the diameter of the front part of the cutter body 19 and smaller than the diameter of the rear part of the cutter body 19, the outer diameter of the cutter body support is smaller than the diameter of the rear part in the mounting hole 18 and larger than the diameter of the front part in the mounting hole 18, and the cutter body support 31 is used for fixing the cutter 2 and preventing the cutter 2 from falling off.

In this embodiment, the outer circumference of the blade support 31 is provided with a groove 32 disposed along the length direction of the blade 19, and correspondingly, the mounting hole of the main riser 7 is provided with a protrusion 33 corresponding to the groove 32, so as to prevent the blade support 31 from rotating, thereby improving the cutting efficiency.

Further, the blade support 31 is further provided with a through fixing hole 34 along the length direction of the blade 19, and correspondingly, the rear end clamping lock block 25 is extended and arranged on one side, close to the blade support 19, of the blade support, a fixing protrusion 35 corresponding to the fixing hole 34 is arranged, and when the cutter is mounted, the fixing protrusion 35 is embedded into the fixing hole 34, so that the blade support 19 and the cutter 2 are further prevented from rotating, and the cutting efficiency is improved.

Claims (2)

1. The utility model provides a glass curtain wall cutting tool which characterized in that: the cutting device comprises a cutting frame (1) and cutting knives (2) arranged on the cutting frame (1), wherein the cutting frame (1) is integrally quadrilateral, the cutting frame comprises a transverse assembly (3) and a longitudinal assembly (4), the transverse assembly (3) comprises two transverse frames (5) and telescopic structures (6) arranged at two ends of each transverse frame (5), the longitudinal assembly (4) comprises a main vertical plate (7) with two ends respectively rotatably arranged in the middle of each transverse frame (5) and auxiliary vertical plates (8) arranged at two sides of the main vertical plate (7), the ends of the auxiliary vertical plates (8) are rotatably connected with the telescopic structures (6), and the cutting knives (2) are arranged on the main vertical plates (7);

a roller (17) coaxial with the rotation direction is arranged at the rotation connection part of the longitudinal component (4) and the transverse component (3);

the telescopic structure (6) comprises a middle plate (9) sleeved in the transverse frame (5) and an inner plate (10) sleeved in the middle plate (9), the outer wall of the middle plate (9) is in contact with the inner wall of the transverse frame (5) and can slide relatively, the outer wall of the inner plate (10) is in contact with the inner wall of the middle plate (9) and can slide relatively, and the end part of the inner plate (10) is in rotary connection with the end part of the auxiliary vertical plate (8);

the telescopic structure (6) is also provided with a locking structure, and comprises a middle plate locking screw (11) arranged on the transverse frame (5) and an inner plate locking screw (12) arranged on the middle plate (9), wherein the middle plate locking screw (11) and the inner plate locking screw (12) are respectively arranged through screw holes penetrating through the side walls of the transverse frame (5) and the middle plate (9);

the telescopic structure (6) is further provided with a limiting structure, and comprises a middle plate clamping block (13) which is arranged in the transverse frame (5) and is close to one end of the longitudinal assembly (4) and an inner plate limiting (14) which is fixed in the middle plate (9) and is close to one end of the longitudinal assembly (4), corresponding to the limiting structure, one end of the inner plate (10) is provided with an inner plate sliding groove (15) which is closed along one side of the inner plate limiting (14) in the length direction, the closed end of the inner plate sliding groove is close to one end of the main vertical plate (7), one end of the middle plate (9) is provided with a middle plate sliding groove (16) which is closed along one end opening and one end of the middle plate (9) in the length direction, and the closed end of the middle plate sliding groove is close to one end of the main vertical plate (7);

the cutting knife (2) is arranged in a mounting hole (18) in the middle of the main vertical plate (7) and is locked and fixed through a cutting knife (2) mounting component;

the mounting hole (18) in the middle of the main vertical plate (7) is a stepped round hole, the cutting knife (2) comprises a stepped cylindrical knife body (19) and a conical knife head (20) which correspond to the mounting hole (18), and the cutting knife (2) mounting assembly comprises a clamping shell (21) sleeved outside the cutting knife (2) and positioned at the end of the knife head (20) and a clamping nut (22) positioned at the end of the knife body (19);

the cutter (2) mounting assembly further comprises a cutter body rear end clamping structure (23) which comprises a rear end clamping locking block (25), wherein the outer part of the rear end clamping locking block (25) is attached to the inner wall of the clamping nut (22), and the attaching part of the rear end clamping locking block is an arc-shaped rear end arc surface (24);

the cutter (2) mounting assembly further comprises a cutter body front end clamping structure (26), and the cutter body front end clamping structure comprises a convex ring (27) extending from a mounting hole (18) on the main vertical plate (7) to the cutter head (20) and a front end clamping locking block (29) mounted in a through hole (28) on the convex ring (27).

2. A glass curtain wall cutting tool according to claim 1, characterized in that the mid-plate fixture block (13) is fixed in the cross frame (5) by screw mounting.