CN217943487U - Combined saw for super-thick hard surface material sandwich plate strip and plate - Google Patents

Abstract

The utility model relates to an ultra-thick hard surface material sandwich plate strip and plate combined saw, which comprises a C-shaped saw bow, wherein the bottom of the C-shaped saw bow is provided with a first supporting component, and a lower cutter component is arranged on the first supporting component; the upper cutter assembly is mounted at the end part of the C-shaped saw bow, the second support assembly is mounted at the top part of the C-shaped saw bow, the first support assembly comprises a bottom plate, a truss, a first X axial slide rail and a first Y axial slide rail, and the C-shaped saw bow is connected to the first Y axial slide rail in a sliding manner; the second supporting assembly comprises a second X axial slide rail, a moving frame, a second Y axial slide rail and a transition bridge, the bottom of the C-shaped saw bow is provided with a first sliding assembly, and the truss is provided with a second sliding assembly. The utility model discloses be particularly useful for the battenboard cutting operating mode of thickening, stereoplasm plane materiel to can switch over the dish saw in a flexible way and guarantee with the band saw steady no vibration, the tangent plane is smooth, the finished product effect that the precision is high.

Description

Combined saw for super-thick hard surface material sandwich plate strip and plate

Technical Field

The utility model belongs to the technical field of panel slitting saw technique and specifically relates to super thick stereoplasm plane materiel sandwich board area, dish combination saw.

Background

In the battenboard continuous production line trade, the online cutting off of panel generally adopts the band saw, and the end of some boards needs special treatment, for example roofing corrugated sheet end needs the overlap joint, need cut off the upper steel sheet simultaneously so when cutting off, generally hang a dish on the band saw again and squat this time, the band saw with the dish squat simultaneous working, reached the incision terminal surface that needs.

Along with the promotion of the national requirements for fire prevention, sound insulation and the like of buildings, an upper calcium silicate board, a lower calcium silicate board, a cement board or a glass magnesium board with the thickness of 12 mm are added in the middle of the existing sandwich board, the structure in the prior art can not meet the requirements for online cutting, because two cement boards are added in the sandwich board, a single plate-based on-line production hung on a cantilever C-shaped frame can not cut off workpieces, because the cantilever is long, the cutting force is huge, the vibration can be generated, the saw blade cracks, the fault damage of a band saw is caused, and the production is interrupted.

SUMMERY OF THE UTILITY MODEL

The applicant provides an ultra-thick hard surface material sandwich plate strip and disc combined saw with a reasonable structure aiming at the defects in the prior art, a fixing structure is added above a C-shaped saw bow, the stability of the C-shaped saw bow structure is improved, and therefore precision deviation caused by shaking in the cutting process is prevented.

The utility model discloses the technical scheme who adopts as follows:

the C-shaped saw bow comprises a C-shaped saw bow, wherein a saw head assembly is installed at the working end of the C-shaped saw bow, a first supporting assembly is installed at the bottom of the C-shaped saw bow, and a lower cutter assembly is installed on the first supporting assembly; the end part of the C-shaped saw bow is provided with an upper cutter component, the top part of the C-shaped saw bow is provided with a second supporting component,

the first support assembly includes:

the bottom plate is used as an installation reference,

a truss which is fixedly arranged on the bottom plate,

a first X-axis slide rail arranged on the bottom plate,

the first Y-axis slide rail is connected to the first X-axis slide rail in a sliding manner, and the C-shaped saw bow is connected to the first Y-axis slide rail in a sliding manner;

the second support assembly includes:

a second X-axis slide rail installed on the truss,

a movable frame connected to the second X-axis slide rail in a sliding manner,

a second Y-axis slide rail arranged on one side of the movable frame facing the C-shaped saw bow,

one side of the transition bridge is connected to the second Y-axis slide rail in a sliding manner, and the other side of the transition bridge is connected with the end part of the C-shaped saw bow;

the bottom of the C-shaped saw bow is provided with a first sliding assembly, and the truss is provided with a second sliding assembly.

The movable frame is of a light steel structure and is provided with a connecting surface for mounting the transition bridge, and the movable frame is connected with the transition bridge.

The transition bridge frame is a fixed column or a combined fixed rod.

The combined fixing rods are arranged in a matrix form.

The top of the C-shaped saw bow is provided with a mounting plane, and the bottom end of the fixed column or the combined fixed rod is fixed on the mounting plane.

The bottom ends of the fixed columns or the combined fixed rods are fixed on the side surfaces of the C-shaped saw bow.

The movement paths of the first sliding component and the second sliding component are in the same direction, and the first sliding component and the second sliding component complete synchronous driving through a servo motor gear box.

The first sliding component and the second sliding component adopt a screw rod component, a gear rack mechanism, a synchronous belt mechanism, a hydraulic oil cylinder, an air cylinder or an electric push rod.

The truss and the bottom plate are of a firm integrated structure.

The bottom plate is provided with anti-collision blocks positioned at two sides of the C-shaped saw bow.

The utility model has the advantages as follows:

the utility model discloses the solid structure is compact, reasonable, and convenient operation through set up the second supporting component in C type bow top, plays the effect of fixed stay to the cantilever outermost end tip of C type bow, prevents because the unsettled trouble that produces in upper portion and unable cutting phenomenon in cutting process.

The utility model provides a C type bow cantilever outermost end plane adopts the high accuracy design, processes out the delicate connection face through longmen pentahedron machining center for the transition crane span structure is connected with the second supporting component to installation, thereby make C type bow, first supporting component, the second supporting component forms a firm overall structure that can resist powerful cutting force.

The utility model discloses in, consider C type bow during operation, need two direction reciprocating motion of X axial, Y axial, consequently add synchronous linear guide and the drive mechanism of X axle direction, use through the cooperation of first X axial slide rail, first Y axial slide rail, second X axial slide rail, second Y axial slide rail, realize that second supporting component is in step with in first supporting component completely in cutting work.

The truss and the bottom plate in the utility model are integrally connected, so that the stability is improved; the sandwich board is cut by the upper and lower disc saws at the same time, so that the cutting efficiency is accelerated while the stability is improved; two sets of subassemblies that slide about driving device drives simultaneously, for example lead screw drive structure, further improve driven stability.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is an enlarged view of a portion a of fig. 1 for showing a positional relationship between the upper blade assembly and the lower blade assembly.

Fig. 3 is a schematic view of the overall structure at another viewing angle of the present invention.

Fig. 4 is an enlarged view of a portion B of fig. 3 for showing the structure of the second sliding assembly.

Fig. 5 is an enlarged view of a portion C of fig. 3 for showing the structure of the first sliding assembly.

Fig. 6 is a schematic view of the overall structure of another viewing angle of the present invention.

Fig. 7 is a schematic view of the overall frame structure of the present invention.

Fig. 8 is a schematic view of the fitting structure of the C-shaped saw bow, the first supporting component and the second supporting component of the present invention.

Fig. 9 is an enlarged view of a portion D of fig. 8 for illustrating a mounting structure of the transition bridge.

Fig. 10 is an enlarged view of a portion E of fig. 8 for embodying the structure of the first support member.

Fig. 11 is a schematic view of the fitting relationship between the C-shaped saw bow, the truss and the bottom plate.

Fig. 12 is an enlarged view of a portion F of fig. 11, showing a slide rail structure of the first support member.

Figure 13 is a perspective view of a sandwich panel to be cut.

Figure 14 is a top view of the sandwich panel to be cut.

Figure 15 is a cross-sectional view of a sandwich panel to be cut.

Wherein: 1. c-shaped saw bow; 2. a first support assembly; 3. a second support assembly; 4. a first glide assembly; 5. a second glide assembly; 6. an anti-collision block; 7. a metal plate; 8. a cement layer; 9. a rock wool layer; 10. filling polyurethane; 11. an upper knife assembly; 12. a lower blade assembly; 13. a servo motor gear box;

101. a mounting plane;

201. a base plate; 202. a truss; 203. a first X-axis slide rail; 204. a first Y-axis slide rail;

301. a second X-axis slide rail; 302. a movable frame; 303. a second Y-axis slide rail; 304. a transition bridge frame.

Detailed Description

The following describes embodiments of the present invention with reference to the drawings.

As shown in fig. 1-15, the saw head assembly is mounted at the working end of a C-shaped saw bow 1,C type saw bow 1, a first supporting assembly 2 is mounted at the bottom of the C-shaped saw bow 1, and a lower cutter assembly 12 is mounted on the first supporting assembly 2; the end part of the C-shaped saw bow 1 is provided with an upper cutter component 11, the top part of the C-shaped saw bow 1 is provided with a second supporting component 3,

the first support member 2 includes:

the base plate 201, as a mounting reference,

a truss 202 fixedly installed on the bottom plate 201,

a first X-axis slide rail 203 which is arranged on the bottom plate 201,

the first Y-axis slide rail 204 is connected to the first X-axis slide rail 203 in a sliding manner, and the C-shaped saw bow 1 is connected to the first Y-axis slide rail 204 in a sliding manner;

the second support member 3 includes:

a second X-axis slide 301, mounted on truss 202,

a movable frame 302 connected to the second X-axis slide rail 301 in a sliding manner,

a second Y-axis slide rail 303 which is arranged on one side of the movable frame 302 facing the C-shaped saw bow 1,

one side of the transition bridge frame 304 is connected to the second Y-axis slide rail 303 in a sliding manner, and the other side of the transition bridge frame is connected with the end part of the C-shaped saw bow 1;

the bottom of the C-shaped saw bow 1 is provided with a first sliding component 4, and the truss 202 is provided with a second sliding component 5.

The movable frame 302 is made of light steel and is provided with a connecting surface for mounting the transition bridge frame 304, and the movable frame 302 is connected with the transition bridge frame 304.

The transition bridge frame 304 is a fixed column or a combined fixed rod.

The combined fixing rods are arranged in a matrix form.

The top of the C-shaped saw bow 1 is provided with a mounting plane 101, and the bottom ends of the fixing columns or the combined fixing rods are fixed on the mounting plane 101.

The bottom end of the fixed column or the combined fixed rod is fixed on the side surface of the C-shaped saw bow 1.

The movement paths of the first sliding component 4 and the second sliding component 5 are in the same direction, and the first sliding component 4 and the second sliding component 5 complete synchronous driving through a servo motor gear box 13.

The first sliding component 4 and the second sliding component 5 adopt a screw rod component, a gear rack mechanism, a synchronous belt mechanism, a hydraulic oil cylinder, an air cylinder or an electric push rod.

Truss 202 is a strong, unitary structure with bottom plate 201.

The bottom plate 201 is provided with anti-collision blocks 6 positioned at two sides of the C-shaped saw bow 1.

The specific structure and working process of the embodiment are as follows:

as shown in fig. 1 and fig. 2, for the overall structure schematic diagram of the present invention, with reference to fig. 8-fig. 10, the present invention includes a bottom plate 201, a first X axial slide rail 203 is disposed on the bottom plate 201, the first X axial slide rail 203 is slidably connected to a base of the C-shaped saw bow 1, a first Y axial slide rail 204 is disposed on the base of the C-shaped saw bow 1, and the C-shaped saw bow 1 reciprocates on the first Y axial slide rail 204 and the first X axial slide rail 203. The first X-axis slide rail 203 and the first Y-axis slide rail 204 can meet the requirement of turning and cutting of the C-shaped saw bow 1 in the moving process.

With combined reference to fig. 6 and 7, a truss 202 is covered above the integral structure, a second X axial slide rail 301 is arranged on the truss 202 in a position parallel to the first X axial slide rail 203, a moving frame 302 is connected to the second X axial slide rail 301 through a slide block, and a second Y axial slide rail 303 is installed on one side of the moving frame 302 facing the C-shaped saw bow 1.

With combined reference to fig. 11 and 12, the second Y-axis slide rail 303 is slidably connected to the transition bridge 304. In an embodiment of the present invention, the transition bridge frame 304 includes two sets of two fixing rods, each set of two fixing rods is arranged at a rectangular vertex angle, the top of the four fixing rods moves on the second Y axial slide rail 303, and the bottom fixing connection is on the installation plane 101 of the C-shaped saw bow 1, and can move in a translational manner along with the walking of the C-shaped saw bow 1. The mounting plane 101 provides a horizontal attachment surface to make the mounting structure more stable.

As an alternative embodiment, the transition bridge frame 304 of the present invention may also employ a fixing post. The fixing column and the combined fixing rod can be arranged on the installation plane 101 of the C-shaped saw bow 1, and can also be arranged on the side surface of the C-shaped saw bow 1. The single fixed column is easy and convenient to operate, the coverage area of the combined fixed rod is larger, the stability of the connecting structure is further improved, and the problems of shaking, saw blade cracking, band saw fault damage and the like caused by huge cutting force are solved.

The power of the movable frame 302 comes from the servo motor gear box 13 on the side of the truss 202, the output shaft of the servo motor gear box is connected with a rod piece, the rod piece can adopt a screw rod, a lead screw or a polished rod, the upper end and the lower end of the rod piece are respectively provided with a steering box, a bevel gear pair is arranged in the steering box, wherein the driving wheel of the bevel gear pair is connected with the rod piece, and the driven wheel of the bevel gear pair is connected with a sliding component. The truss 202 is provided with a second sliding component 5, the bottom plate 201 is provided with a first sliding component 4, and the sliding components can adopt a screw rod component, a gear rack mechanism, a synchronous belt machine, a hydraulic oil cylinder, an air cylinder or an electric push rod. In this embodiment, a lead screw assembly is used as the transmission structure. The first sliding component 4 and the second sliding component 5 are linked through the same servo motor gear box 13, and the consistency is good.

When the servo motor gear box 13 rotates, the steering boxes at two ends are driven simultaneously, so that the first sliding component 4 and the second sliding component 5,C type saw bow 1 in the horizontal plane are driven to move under the assistance of the first sliding component 4 and the second sliding component 5.

In use, the C-saw bow 1 moves along a desired cutting path, and the C-saw bow 1 moves on the first Y-axis slide rail 204 and the second Y-axis slide rail 303 at the same time; when the cutting direction needs to be adjusted, the C-shaped saw bow 1 moves along the first X-axis slide rail 203 and the second X-axis slide rail 301 in the X-axis direction according to actual needs. In the moving process, the bottom plate 201 is respectively provided with the anti-collision blocks 6 along two side edges of the first X-axis slide rail 203 to limit the length of the X-axis motion path of the C-shaped saw bow 1.

Referring to fig. 2, 13-15 in combination, when the thickness of the sandwich panel to be cut is larger, for example, in the structure in fig. 15, the rock wool layer 9 is bonded with the cement layer 8 on both sides, the cement layer 8 is bonded with the metal plate 7 on the side away from the rock wool layer 9, and the thickness side of the sandwich panel is bonded with the polyurethane filling 10 to form the sandwich panel with thickness and hardness, when the sandwich panel is cut, the cement has high hardness and needs to be cut by matching the upper cutter assembly 11 and the lower cutter assembly 12 as shown in fig. 2. Go up cutter unit 11, lower cutter unit 12 and stagger the setting in vertical direction, and the bottom of going up cutter unit 11, the top of lower cutter unit 12 have the coincidence in vertical direction projection to stably cut off the battenboard of waiting to cut. Go up cutter unit spare 11 and receive first supporting component 2 spacing, lower cutter unit spare 12 is installed in bow 1 bottom position, and is big with truss 202, bottom plate 201's area of contact, and the cutting hard board in-process, the difficult shake of saw bit, the shape precision of product cutting terminal surface is high.

The utility model discloses be particularly useful for the battenboard cutting operating mode of thickened, stereoplasm plane materiel, overall stability is high, can guarantee steady no vibration, the finished product effect that the tangent plane is smooth, the precision is high.

The above description is for the purpose of explanation and not limitation of the invention, which is defined in the claims, and any modifications may be made within the scope of the invention.

Claims (10)

1. Super thick stereoplasm plane materiel sandwich panel area, dish combination saw including C type saw bow (1), the work end installation saw head subassembly of C type saw bow (1), its characterized in that: a first supporting component (2) is installed at the bottom of the C-shaped saw bow (1), and a lower cutter component (12) is installed on the first supporting component (2); the end part of the C-shaped saw bow (1) is provided with an upper cutter component (11), the top part of the C-shaped saw bow (1) is provided with a second supporting component (3),

the first support assembly (2) comprises:

a base plate (201) as a mounting reference,

a truss (202) fixedly installed on the bottom plate (201),

a first X-axis slide rail (203) mounted on the base plate (201),

the first Y-axis sliding rail (204) is connected to the first X-axis sliding rail (203) in a sliding mode, and the C-shaped saw bow (1) is connected to the first Y-axis sliding rail (204) in a sliding mode;

the second support assembly (3) comprises:

a second X-axis slide rail (301) mounted on the truss (202),

a moving frame (302) which is connected on the second X-axis slide rail (301) in a sliding way,

a second Y-axis slide rail (303) which is arranged on one side of the movable frame (302) facing the C-shaped saw bow (1),

one side of the transition bridge (304) is connected to the second Y-axis slide rail (303) in a sliding manner, and the other side of the transition bridge is connected with the end part of the C-shaped saw bow (1);

the C-shaped saw bow (1) is provided with a first sliding component (4) at the bottom, and a second sliding component (5) is arranged on the truss (202).

2. The ultra-thick hard face material sandwich panel strip and panel combination saw of claim 1, wherein: the movable frame (302) is of a light steel structure and is provided with a connecting surface for mounting the transition bridge (304), and the movable frame (302) is connected with the transition bridge (304).

3. The ultra-thick hard face material sandwich panel strip and panel combination saw of claim 2, wherein: the transition bridge frame (304) is a fixed column or a combined fixed rod.

4. The ultra-thick hard face material sandwich panel strip and plate combination saw of claim 3, wherein: the combined fixing rods are arranged in a matrix form.

5. The ultra-thick hard face material sandwich panel strip and panel combination saw of claim 4, wherein: the top of the C-shaped saw bow (1) is provided with a mounting plane (101), and the bottom ends of the fixing columns or the combined fixing rods are fixed on the mounting plane (101).

6. The ultra-thick hard face material sandwich panel strip and plate combination saw of claim 4, wherein: the bottom end of the fixed column or the combined fixed rod is fixed on the side surface of the C-shaped saw bow (1).

7. The ultra-thick hard face material sandwich panel strip and plate combination saw of claim 1, wherein: the movement paths of the first sliding component (4) and the second sliding component (5) are in the same direction, and the first sliding component (4) and the second sliding component (5) complete synchronous driving through a servo motor gear box (13).

8. The ultra-thick hard face material sandwich panel strip and plate combination saw of claim 7, wherein: the first sliding component (4) and the second sliding component (5) adopt a screw rod component, a gear rack mechanism, a synchronous belt mechanism, a hydraulic oil cylinder, an air cylinder or an electric push rod.

9. The ultra-thick hard face material sandwich panel strip and panel combination saw of claim 1, wherein: the truss (202) and the bottom plate (201) are of a firm integrated structure.

10. The ultra-thick hard face material sandwich panel strip and plate combination saw of claim 1, wherein: the bottom plate (201) is provided with anti-collision blocks (6) positioned at two sides of the C-shaped saw bow (1).

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