CN218694343U - Cutting device - Google Patents

Abstract

The utility model relates to a building material production facility technical field, concretely relates to cutting device, including base, upper bracket, lower carriage, sliding plate, two slide bars and a plurality of supporting component. A cutting groove is formed in the base, and sliding grooves I are formed in two sides of the cutting groove; the upper bracket and the lower bracket are respectively and fixedly connected with the upper end surface and the lower end surface of the base; the sliding plate is in sliding connection with the lower bracket; the two sliding rods are connected with the upper bracket in a sliding manner; a screw rod transmission pair is arranged on the sliding plate, and a cutting machine is arranged on the screw rod transmission pair; a pressing component is arranged between the two sliding rods; the supporting component is divided equally into two groups and is arranged in the sliding groove I. An upper support block in the support assembly is fixedly connected to the sliding seat I, and two side support blocks are hinged to two sides of the upper support block; the two sliding blocks are connected to the sliding seat I in a sliding mode through the horizontal guide pillar; the vertical guide post is connected on the slide block in a sliding way, and the upper end part of the vertical guide post is hinged with the side supporting block. The utility model discloses can effectively prevent the shake when the various steel tile of cutting, the various steel tile of adaptable multiple specification has improved production efficiency simultaneously.

Description

Cutting device

Technical Field

The utility model relates to a building material production facility technical field, concretely relates to cutting device.

Background

The color steel tile is also called color pressed tile, it is made up by using color coated steel plate and rolling and cold-bending it into various wave-shaped pressed plates, and is applicable to roofing, wall surface and internal and external wall decoration of industrial and civil buildings, warehouse, special buildings and large-span steel structure house, and possesses the characteristics of light weight, high strength, rich colour, convenient and quick construction, resisting earthquake, resisting fire, resisting rain, long service life and free maintenance, etc..

Cutting the produced color steel tile; in the prior art, when a color steel tile with a trapezoidal section is cut, the problem of insufficient fastening performance exists when the color steel tile is fixed by using a conventional fixing mode, so that the color steel tile is shaken when cut, and the cut surface is not smooth enough; the color steel tile is thin, and if the fastening force of the conventional fixing mode is large, the color steel tile is deformed, so that the later use is influenced.

In the prior art, chinese patent application No. CN202220539776.0 discloses a cutting device for producing color steel tiles for box houses, which comprises: a housing; and a stabilizing base slidably mounted within the housing; the fixing column is fixedly connected with the shell and extends to the inside of the stabilizing seat; the stabilizing spring is movably arranged in the stabilizing seat and is positioned at the top of the fixing column; a plurality of adjusting structures arranged inside the shell and used for adjusting the sliding range of the stabilizing seat; a mounting bracket slidably mounted inside the housing; and the cutting structure is detachably connected with the mounting frame and is positioned above the stabilizing seat.

The technical solution described in the above patent has the following disadvantages when in use: the color steel tile with the trapezoidal section can be effectively fixed through the stabilizing seat, so that the color steel tile is prevented from deforming; however, when the color steel tiles with different specifications and sizes are cut, the corresponding stabilizing seats need to be replaced, the replacement is time-consuming and labor-consuming, the adaptability of the device is poor, and the production efficiency is further influenced.

SUMMERY OF THE UTILITY MODEL

In view of the above, the present invention provides a cutting device to solve the above problems.

The technical scheme of the utility model as follows:

a cutting device for cutting color steel tiles, comprising:

the cutting device comprises a base, wherein a cutting groove is formed in the base along the width direction, two sides of the cutting groove are respectively provided with a sliding groove I, and the sliding grooves penetrate through the upper end face and the lower end face of the base;

the upper support is fixed on the upper end face of the base along the width direction of the base and is fixedly connected with an air cylinder;

the lower support is fixed on the lower end face of the base along the width direction of the base, and the upper support is fixedly connected with an air cylinder;

the sliding plate is connected to the lower bracket in a sliding manner and is fixedly connected with the piston rod end of the air cylinder; the sliding plate is provided with a lead screw transmission pair, and the lead screw transmission pair is provided with a cutting machine;

the two sliding rods are connected to the upper bracket in a sliding manner and are fixedly connected with the piston rod end of the cylinder; two compressing components are fixedly connected between the two sliding rods and are respectively positioned right above the two sliding chutes I;

and a plurality of support assemblies; each supporting component comprises a sliding seat I, an upper supporting block, two side supporting blocks and two sliding blocks; the sliding seat I is connected with the sliding groove I in a sliding mode and is fixed through a locking block; the sliding seat I is symmetrically provided with two sliding chutes II which penetrate through the upper end surface and the lower end surface of the sliding seat I; the upper supporting block is fixedly connected to the sliding seat I through a supporting column; the two side supporting blocks are hinged to two sides of the upper supporting block; horizontal guide posts are fixedly connected in the two sliding grooves respectively, the two sliding blocks are connected to the horizontal guide posts of the two sliding grooves in a sliding mode respectively, and springs are sleeved on the horizontal guide posts and located between the sliding blocks and the end faces of the inner sides of the sliding grooves II; the sliding block is in sliding connection with a vertical guide pillar, the vertical guide pillar penetrates through the upper end face and the lower end face of the sliding block and is connected with a side supporting block on the same side in a switching mode, and a spring is sleeved on the vertical guide pillar and is located between the sliding block and the switching position of the guide pillar.

Preferably, one end of the sliding chute I penetrates through the side end face of the base and is fixedly connected with a reinforcing block; a plurality of scale marks are arranged on the outer side of the sliding groove I.

Preferably, the screw transmission pair comprises a screw seat, a screw, a guide post, a motor I and a sliding seat II; the number of the screw rod seats is two, and the screw rod seats are fixedly connected to the sliding plate; the screw rod is connected between the two screw rod seats in a rotating mode; the guide post is fixedly connected between the two screw rods and is arranged in parallel with the screw rods; the motor I is fixedly connected with one end of the screw rod; and the sliding seat II is in threaded connection with the screw rod and is in sliding connection with the guide post.

Preferably, the cutting machine comprises a motor II and a cutting blade; the motor II is fixedly connected to the upper end face of the sliding seat II; and the cutting blade is fixedly connected with the output end of the motor II and is positioned right below the cutting groove.

Preferably, the pressing assembly comprises a plurality of guide pillars, pressing blocks and cross bars; the cross rod is fixedly connected between the two sliding rods and is positioned right above the sliding groove I; the guide posts are vertically connected on the cross bar in a sliding manner; the pressing block is arranged right below the cross rod and fixedly connected with the lower end part of the guide pillar; the guide post is sleeved with a spring and is positioned between the cross rod and the pressing block.

According to the technical scheme, compared with the prior art, the invention has the following advantages:

the utility model discloses a compress tightly subassembly and supporting component can be under the circumstances that prevents various steel tile deformation, effectively fix various steel tile, various steel tile produces the shake when preventing the cutting, simultaneously, but the various steel tile of multiple specification and dimension of self-adaptation through the supporting component need not to change, and the adaptability of device is higher, has further improved production efficiency.

Drawings

Fig. 1 is a perspective view of the utility model in a working state;

fig. 2 is a perspective view of the present invention in a standby state;

fig. 3 is a side view of the present invention;

fig. 4 is a cross-sectional view of the present invention;

FIG. 5 is a perspective view of the base;

FIG. 6 is a perspective view of the support assembly;

FIG. 7 is an enlarged view taken at A of FIG. 2;

FIG. 8 is an enlarged view of FIG. 3 at B;

FIG. 9 is an enlarged view at C of FIG. 4;

FIG. 10 is an enlarged view of FIG. 5 at D;

fig. 11 is an enlarged view of fig. 1 at E.

The labels in the figure are:

1. base 2, cutting groove 3, spout I4, upper bracket 5, cylinder

6. Lower bracket 7, sliding plate 8, sliding rod 9, sliding seat I10 and upper supporting block

11. Side supporting block 12, slide block 13, locking block 14, sliding groove II 15 and horizontal guide column

16. Spring 17, vertical guide post 18, reinforcing block 19, scale mark 20, lead screw seat

21. Lead screw 22, guide post 23, motor I24, sliding seat II 25, motor II

26. Cutting blade 27, guide post 28, pressing block 29, cross bar 30 and color steel tile

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects of the present invention to be solved clearer, the present invention will be further described with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and do not limit the invention.

It is to be understood that the terms "upper end surface, top end, left and right ends, left side, right side" and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

As shown in fig. 2, the utility model relates to a cutting device installs the end at various steel tile 30 production line, including base 1, upper bracket 4, lower carriage 6, sliding plate 7, two slide bars 8, eight supporting components and two sets of subassemblies that compress tightly.

As shown in fig. 5, the base 1 is a plate and is fixedly installed on the ground through four support columns; a cutting groove 2 for accommodating a cutting blade 26 is formed in the middle line of the base 1 in the width direction, and the cutting groove 2 penetrates through the upper end face and the lower end face of the base 1; two sides of the cutting groove 2 are respectively provided with a sliding groove I3, the sliding grooves I3 penetrate through the upper end face and the lower end face of the base 1, and the cross section of each sliding groove I3 is of a stepped structure with a wide upper part and a narrow lower part; one end of each of the two sliding grooves I3 penetrates through the side end face of the base 1, and the supporting assembly can be conveniently mounted due to the design; as shown in fig. 10, after the support assembly is installed, the opening of the sliding groove i 3 is fastened with a reinforcing block 18 through a bolt, and the reinforcing block 18 can be designed to prevent the support assembly from sliding out of the opening and to ensure the structural strength of the base 1.

As shown in fig. 1, the upper bracket 4 is an inverted U-shaped structure, and has two blocks; the two upper brackets 4 are respectively fixedly connected to the upper end surface of the base 1 and positioned at two sides of the base 1 in the width direction; each upper bracket 4 is provided with an air cylinder 5, and the output end of the air cylinder 5 faces downwards vertically.

As shown in fig. 2, the lower bracket 6 is a U-shaped structure, and has two parts; the two lower brackets 6 are respectively fixedly connected to the lower end surface of the base 1 and positioned on two sides of the base 1 in the width direction; each lower support 6 is provided with an air cylinder 5, and the output end of the air cylinder 5 is vertically upward.

As shown in fig. 3 and 11, the sliding plate 7 is slidably mounted between the two lower brackets 6, and the lower end surface of the sliding plate 7 is fixedly connected with the output end of the cylinder 5 of the lower bracket 6 and can move up and down through the cylinder 5.

As shown in fig. 4, the upper end surface of the slide plate 7 is provided with a screw transmission pair along the width direction of the base 1. As shown in fig. 7, the screw transmission pair includes two screw seats 20, a screw 21, two guide posts 22, a motor i 23 and a sliding seat ii 24; as shown in fig. 1, two lead screw bases 20 are fixedly connected to the sliding plate 7 through bolts, and are respectively located at two sides of the sliding plate 7 in the length direction; two guide posts 22 are horizontally and fixedly arranged between the two screw rod seats 20 and play a role in guiding the sliding seat II 24; the screw 21 is rotatably arranged between the two screw seats 20, is positioned between the two guide posts 22 and is parallel to the guide posts 22; the motor I23 is fixedly arranged on the upper end surface of the sliding plate 7, and the output end of the motor I is connected with one end of the screw 21 through a coupler; the sliding seat II 24 is screwed on the screw rod 21 and is in sliding connection with the guide post 22; the motor I23 drives the screw rod 21 to rotate, and further drives the sliding seat II 24 to do horizontal linear motion on the guide post 22.

As shown in fig. 3, the cutter includes a motor ii 25 and a cutting blade 26; the motor II 25 is fixedly connected to the sliding seat II 24, and the output end of the motor II is perpendicular to the cutting groove 2; the cutting blade 26 is connected with the output end of the motor II 25 through a transmission mechanism, and the cutting blade 26 is positioned right below the cutting groove 2; when the device is operated, the sliding plate 7 moves upwards under the action of the air cylinder 5, so that the cutting blade 26 extends out of the upper end of the base 1 through the cutting groove 2; the motor I23 works to drive the cutting machine to move linearly and further drive the cutting blade 26 to move in the cutting groove 2; the motor II 25 works to drive the cutting blade 26 to rotate to cut the color steel tile 30.

As shown in fig. 4, two sliding rods 8 are slidably mounted on the two upper brackets 4, respectively, and the upper end surfaces of the sliding rods 8 are fixedly connected to the output ends of the cylinders 5 of the upper brackets 4 and can move up and down through the cylinders 5. Two sets of subassemblies that compress tightly are installed to two slide bars 8 between, and two sets of subassemblies that compress tightly are located I3's of spout directly over respectively.

As shown in fig. 8, each set of hold-down assemblies includes five guide posts 27, a press block 28, and a cross bar 29. As shown in fig. 2, the cross bar 29 is fixedly installed between the two sliding bars 8 through bolts, and is respectively positioned right above the sliding chute i 3; five through holes penetrating through the upper end surface and the lower end surface of the cross rod 29 are uniformly distributed on the cross rod 29 and used for installing the guide posts 27. As shown in fig. 8, five guide posts 27 are slidably mounted in five through holes of the cross bar 29, and the lower ends of the guide posts 27 extend out of the lower end surface of the cross bar 29. The pressing block 28 is arranged right below the cross rod 29 and is parallel to the cross rod 29; the upper end surface of the pressing block 28 is fixedly connected with the lower end parts of the five guide posts 27; the guide post 27 is sleeved with a spring 16 and is positioned between the cross rod 29 and the pressing block 28; the rubber layer is attached to the surface of the pressing block 28, so that the buffering effect is achieved, and the color steel tile 30 is prevented from being excessively extruded when the pressing block 28 is pressed downwards, so that the color steel tile 30 is prevented from deforming. At this device during operation, drive slide bar 8 through cylinder 5 and descend, further drive briquetting 28 and press admittedly to the upper surface of various steel tile 30, the design of spring 16 and guide arm plays the cushioning effect, plays the automatically regulated effect, can prevent effectively that briquetting 28 from leading to various steel tile 30 to produce deformation to the pressure of various steel tile 30 too big.

As a further optimization of the present invention, the bottom plate at one end of the outer side of the sliding chute i 3 shown in fig. 10 is marked with a scale mark 19, and the design is helpful for the position of the accurate and quick adjusting and supporting component.

As shown in fig. 2, eight groups of support assemblies, four in one group, are respectively slidably mounted in two sliding grooves i 3; as shown in fig. 9, the spacing between the supporting members is adjusted according to the color steel tile 30 to be cut, and the position of the supporting members is fixed by the locking blocks 13 after the adjustment is completed.

As shown in fig. 6, the support assembly includes a sliding seat i 9, an upper support block 10, two side support blocks 11 and two sliding blocks 12. As shown in fig. 6, the upper support block 10 is fixedly mounted on the upper end surface of the sliding seat i 9 through two support columns; the two side supporting blocks 11 are respectively hinged on two sides of the upper supporting block 10 through rotating shafts; the sliding seat I9 is symmetrically provided with two sliding chutes II 14 penetrating through the upper end surface and the lower end surface of the sliding seat I, and the two sliding chutes II are respectively positioned on two sides of the upper supporting block 10 and below the supporting blocks 11 on the two sides. Two horizontal guide posts 15 are arranged in the sliding groove II 14 along the sliding direction of the sliding seat I9. The two sliding blocks 12 are respectively installed in the two sliding grooves II 14 in a sliding mode and are in sliding connection with the horizontal guide post 15. The slide block 12 is provided with a through hole for sliding connection of the vertical guide post 17, and the through hole penetrates through the upper end surface and the lower end surface of the slide block 12. The horizontal guide post 15 is sleeved with a spring 16 and is positioned between the slide block 12 and the end face of the sliding groove II 14 close to one side of the upper supporting block 10. The vertical guide post 17 is slidably mounted in a through hole of the sliding block 12, the upper end of the vertical guide post 17 is hinged with the outer end of the side supporting block 11, and the lower end of the vertical guide post 17 extends out of the lower end face of the sliding seat I9. The vertical guide post 17 is sleeved with a spring 16 which is positioned among the hinged parts of the sliding block 12, the vertical guide post 17 and the side support block 11. Under the non-working state, the slide block 12 moves towards the outer side of the sliding seat I9 under the action of the spring 16 and the horizontal guide post 15, and meanwhile, the side support block 11 rotates upwards by taking the hinged part of the side support block 11 and the upper support block 10 as an axis under the action of the spring 16 and the vertical guide post 17 until the side support block 11 is in a horizontal state; in the working state, the side supporting block 11 rotates downwards around the axle center under the action of the color steel tile 30 and the pressing block 28. The color steel tiles 30 with different angle specifications can be effectively supported by the self-adaptive side supporting blocks 11 and the upper supporting block 10.

The above-mentioned embodiments are merely illustrative of the preferred embodiments of the present invention, and do not limit the scope of the present invention, and various modifications and improvements of the technical solution of the present invention by those skilled in the art should fall within the protection scope defined by the claims of the present invention without departing from the spirit of the present invention.

Claims (5)

1. A cutting device for cutting color steel tiles, comprising:

the cutting device comprises a base, wherein a cutting groove is formed in the base along the width direction, two sides of the cutting groove are respectively provided with a sliding groove I, and the sliding grooves penetrate through the upper end face and the lower end face of the base;

the upper bracket is fixed on the upper end surface of the base along the width direction of the base, and the upper bracket is fixedly connected with an air cylinder;

the lower support is fixed on the lower end face of the base along the width direction of the base and is fixedly connected with an air cylinder;

the sliding plate is connected to the lower bracket in a sliding manner and is fixedly connected with the piston rod end of the air cylinder; the sliding plate is provided with a lead screw transmission pair, and the lead screw transmission pair is provided with a cutting machine;

the two sliding rods are connected to the upper bracket in a sliding manner and are fixedly connected with the piston rod end of the cylinder; two compressing components are fixedly connected between the two sliding rods and are respectively positioned right above the two sliding chutes I;

and a plurality of support assemblies; each supporting component comprises a sliding seat I, an upper supporting block, two side supporting blocks and two sliding blocks; the sliding seat I is connected with the sliding groove I in a sliding mode and is fixed through a locking block; the sliding seat I is symmetrically provided with two sliding chutes II which penetrate through the upper end surface and the lower end surface of the sliding seat I; the upper supporting block is fixedly connected to the sliding seat I through a supporting column; the two side supporting blocks are hinged to two sides of the upper supporting block; horizontal guide posts are fixedly connected in the two sliding grooves respectively, the two sliding blocks are connected to the horizontal guide posts of the two sliding grooves in a sliding mode respectively, and springs are sleeved on the horizontal guide posts and located between the sliding blocks and the end faces of the inner sides of the sliding grooves II; the sliding block is in sliding connection with a vertical guide pillar, the vertical guide pillar penetrates through the upper end face and the lower end face of the sliding block and is connected with a side supporting block on the same side in a switching mode, and a spring is sleeved on the vertical guide pillar and is located between the sliding block and the switching position of the guide pillar.

2. A cutting device as claimed in claim 1, characterized in that: one end of the sliding chute I penetrates through the side end face of the base and is fixedly connected with a reinforcing block; a plurality of scale marks are arranged on the outer side of the sliding groove I.

3. A cutting device as claimed in claim 1, characterized in that: the screw rod transmission pair comprises a screw rod seat, a screw rod, a guide post, a motor I and a sliding seat II; the number of the screw rod seats is two, and the screw rod seats are fixedly connected to the sliding plate; the screw rod is connected between the two screw rod seats in a rotating mode; the guide post is fixedly connected between the two screw rods and is arranged in parallel with the screw rods; the motor I is fixedly connected with one end of the lead screw; and the sliding seat II is in threaded connection with the screw rod and is in sliding connection with the guide post.

4. A cutting device as claimed in claim 1, characterized in that: the cutting machine comprises a motor II and a cutting blade; the motor II is fixedly connected to the upper end face of the sliding seat II; and the cutting blade is fixedly connected with the output end of the motor II and is positioned under the cutting groove.

5. A cutting device as claimed in claim 1, characterized in that: the pressing assembly comprises a plurality of guide pillars, pressing blocks and cross rods; the cross rod is fixedly connected between the two sliding rods and is positioned right above the sliding groove I; the guide posts are vertically connected on the cross bar in a sliding manner; the pressing block is arranged right below the cross rod and fixedly connected with the lower end part of the guide pillar; the guide post is sleeved with a spring and is positioned between the cross rod and the pressing block.

Images