CN223849346U - Building insulation material cutting equipment - Google Patents

Abstract

The utility model belongs to the field of material cutting, in particular to a building heat-insulating material cutting device, which aims at the problems that the existing device cannot be accurately adjusted according to the size of a material, so that the cutting efficiency is low, the quality of a finished product is uneven, meanwhile, stable clamping is lacking in the cutting process, material deviation and shaking are easy to cause, and the cutting precision and safety are affected. According to the utility model, through the combination of the adjusting mechanism and the auxiliary mechanism, the flexible adjustment of the size of the cutting material and the stable clamping in the cutting process are realized, the accuracy and the efficiency of cutting are improved, and the safety and the stability of cutting operation are ensured.

Description

Building insulation material cutting equipment

Technical Field

The utility model relates to the technical field of material cutting, in particular to a cutting device for a building heat insulation material.

Background

The building heat-insulating material is a key material for improving the heat-insulating performance of a building, and can effectively maintain the indoor temperature of the building by reducing the conduction, convection and radiation of indoor heat of the building to the outside, thereby achieving the purposes of saving energy, reducing consumption and improving living comfort.

The cutting of the building heat insulation material is used for adapting to the size, shape and design requirements of different buildings, ensuring that the heat insulation layer can be closely attached to the surface of the building, reducing heat loss, improving heat insulation effect, and optimizing installation efficiency and overall attractiveness.

At present, although the existing thermal insulation material cutting equipment can complete basic cutting tasks, the thermal insulation material cutting equipment cannot be accurately adjusted according to the size of a material, so that the cutting efficiency is low, the quality of a finished product is uneven, meanwhile, stable clamping is lacked in the cutting process, material deviation and shaking are easily caused, and the cutting precision and safety are affected.

Disclosure of utility model

The utility model aims to solve the defects that in the prior art, accurate adjustment cannot be performed according to the size of a material, so that the cutting efficiency is low, the quality of a finished product is uneven, and meanwhile, stable clamping is lacking in the cutting process, so that material deviation and shaking are easy to cause, and the cutting precision and the safety are influenced.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

a building insulation cutting apparatus comprising:

The table is characterized in that a slot is formed in the top of the table, cutting pieces are arranged in the slot, surrounding blocks are fixedly arranged on the periphery of the bottom of the table, fixing blocks are fixedly arranged on two sides of the top of the table, two guide rods are symmetrically and fixedly arranged on one side, close to the fixing blocks, of the two guide rods, and the same moving frame is arranged outside the two guide rods in a sliding mode;

the adjusting mechanism is arranged on the table and used for adjusting according to the size of a required cutting material;

the collecting assembly is arranged on the table and the enclosure and used for collecting scraps generated during cutting;

and the auxiliary mechanism is arranged on the movable frame and is used for limiting the position of the material.

In a possible design, adjustment mechanism is including the spout of seting up in the desk top, the inside slip of spout is provided with the slide, the fixed frame that keeps off in top of slide, the bottom of desk is located the both ends of spout and is the fixed two support frames one that are provided with of symmetry, two one side that support frame one is close to rotates and is provided with same lead screw, lead screw and slide threaded connection, the fixed connecting rod that is provided with of one end of lead screw, and the outside of connecting rod is fixed and is provided with driven bevel gear, the bottom of desk is the fixed two support frames two that are provided with of symmetry, two one side that the support frame two are close to rotates and is provided with same bull stick, the bull stick is close to the fixed initiative bevel gear that is provided with of one end of driven bevel gear, initiative bevel gear meshes with driven bevel gear, the other end of bull stick is fixed and is provided with hand runner one.

In one possible design, the collection assembly comprises a shell cover which is fixedly arranged at the bottom of the table and covers the outside of the cutting blade, a connecting pipeline is fixedly communicated with one side of the shell cover, a suction box is embedded and installed on one side of the enclosing cover, a fan is fixedly communicated with the bottom of the suction box, the other end of the connecting pipeline is communicated with the suction box, and a filter core is detachably and hermetically inserted on one side of the suction box.

In one possible design, the auxiliary mechanism comprises a threaded rod which penetrates through one side of the movable frame in a threaded connection mode, a limiting clamping block is rotatably arranged at the front end of the threaded rod, and a second hand rotating wheel is fixedly arranged at the rear end of the threaded rod.

In one possible design, an arrow is fixedly arranged on one side of the baffle frame, and a scale is fixedly arranged on the top of the table at the arrow.

In one possible design, two sides of the inside of the chute are slidably provided with an organ cover, and one end of the organ cover is fixedly connected with one side of the baffle frame.

In one possible design, the bottom of the table is fixedly provided with a motor, and one end of an output shaft of the motor is fixedly connected with the cutting blade by rotating and penetrating through the shell cover.

When the thermal insulation material cutting machine is used, firstly, equipment is carried to a position required to be used, then the whole of the equipment is powered on, then building thermal insulation materials required to be cut are taken out, when thermal insulation materials with different sizes or different specifications are required to be cut, a rotary rod is driven to rotate by rotating a hand rotating wheel, the rotary rod drives a driving umbrella tooth to rotate while rotating, the driving umbrella tooth rotates and further drives a driven umbrella tooth meshed with the driving umbrella tooth to rotate, the driven umbrella tooth rotates and drives a screw rod to synchronously rotate, the screw rod rotates and can drive a baffle rack to slide in a sliding groove, scales on scales pointed by an arrow are observed in the moving process of the baffle rack, and when the arrow points to the proper scales, the rotation of the hand rotating wheel I is stopped, so that the position of the baffle rack is adjusted, and further flexible adjustment can be performed according to the size of the thermal insulation materials required to be cut;

Then placing the thermal insulation material on a table, rotating a second hand rotating wheel, driving a threaded rod to synchronously rotate on a moving frame to extend towards the thermal insulation material while rotating, and pushing a limiting clamping block to move towards the thermal insulation material while extending the threaded rod until the thermal insulation material is attached to the thermal insulation material (at the moment, one side of the thermal insulation material is attached to the limiting clamping block, and the other side of the thermal insulation material is attached to a blocking frame);

At this moment, the motor is started, the cutting piece is driven to rotate at a high speed by one end of the motor output shaft, meanwhile, the fan is started, then the heat insulation material is cut, in the cutting process, the fan can suck the suction box, meanwhile, the connecting pipeline is communicated with the suction box and the shell cover, suction of the fan is enabled to be equally applied to the shell cover, suction force in the shell cover is used for sucking chips generated in the cutting process of the cutting piece, the chips sucked into the suction box through the connecting pipeline are filtered and blocked by the filter core, and the chips can be prevented from entering the fan to damage the fan.

The utility model has the following beneficial effects:

According to the utility model, through the arrangement of the adjusting mechanism, the flexible adjustment of the position of the baffle frame is realized, so that the baffle frame can be accurately adjusted according to the cutting requirements of heat preservation materials with different sizes or different specifications, and the accuracy and the flexibility of cutting are improved.

According to the utility model, through the arrangement of the collecting assembly, scraps generated in the cutting process are effectively collected, environmental pollution and potential safety hazard caused by scraps scattering are avoided, meanwhile, parts are protected from being damaged by scraps, and the overall performance and the service life of the equipment are improved.

According to the utility model, the stability and the accuracy of the material to be cut in the cutting process are ensured by arranging the auxiliary mechanism, the cutting error caused by material deviation or shaking is effectively prevented, and the cutting efficiency and the quality of a finished product are improved.

According to the utility model, through the combination of the adjusting mechanism and the auxiliary mechanism, the flexible adjustment of the size of the cutting material and the stable clamping in the cutting process are realized, the accuracy and the efficiency of cutting are improved, and the safety and the stability of cutting operation are ensured.

Drawings

Fig. 1 is a schematic diagram of an overall front view structure of a cutting device for building insulation materials according to the present utility model;

FIG. 2 is a schematic diagram of the overall side view structure of a cutting device for building insulation materials according to the present utility model;

Fig. 3 is a schematic view of a table top structure of a cutting device for building insulation materials according to the present utility model;

Fig. 4 is a schematic view of a table top view and a partially disassembled structure of a cutting device for building insulation materials according to the present utility model.

In the figure, 1, a table; 2, a surrounding block, 3, a cutting sheet, 4, a fixed block, 5, a guide rod, 6, a sliding chute, 601, an organ cover, 7, a sliding seat, 8, a baffle frame, 801, an arrow, 802, a scale, 9, a first supporting frame, 901, a screw rod, 10, a driven umbrella tooth, 11, a second supporting frame, 12, a rotating rod, 13, a driving umbrella tooth, 14, a first hand rotating wheel, 15, a movable frame, 16, a threaded rod, 1601, a limiting clamping block, 17, a second hand rotating wheel, 18, a shell cover, 19, a suction box, 20, a fan, 21, a connecting pipeline, 22, a filter core, 23 and a motor.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

Example 1

Referring to fig. 1-4, a cutting apparatus, comprising:

The table 1, adjustment mechanism, collection subassembly and complementary unit, the top design of table 1 has the fluting for place cutting piece 3, two fixed blocks 4 have been fixed respectively to the top both sides of table 1, and the inboard of these two fixed blocks 4 has set up two guide bars 5, is used for supporting and direction to remove frame 15.

The core components of the adjusting mechanism comprise a sliding chute 6, a sliding seat 7, a blocking frame 8, a first supporting frame 9, a screw rod 901, a connecting rod, a driven umbrella tooth 10, a second supporting frame 11, a rotating rod 12, a driving umbrella tooth 13 and a first hand rotating wheel 14, wherein the sliding chute 6 is positioned at the top of the table 1, the sliding seat 7 and the blocking frame 8 realize horizontal sliding through the sliding chute 6, the screw rod 901 is installed through the first supporting frame 9 and is in threaded connection with the sliding seat 7, the sliding seat 7 is moved, the driving umbrella tooth 13 and the driven umbrella tooth 10 are connected through the rotating rod 12 and the connecting rod and are driven through the rotation of the first hand rotating wheel 14, and therefore the position of the blocking frame 8 is adjusted.

The collecting assembly comprises a shell cover 18, a connecting pipeline 21, a suction box 19, a fan 20 and a filter element 22, wherein the shell cover 18 is fixed at the bottom of the table 1 and covers the cutting blade 3, the connecting pipeline 21 is used for communicating the shell cover 18 with the suction box 19, the fan 20 is used for providing suction, chips generated during cutting are sucked into the suction box 19 through the connecting pipeline 21, and the filter element 22 is used for filtering the chips and preventing the chips from entering the fan 20.

The auxiliary mechanism consists of a threaded rod 16, a limiting clamping block 1601 and a second hand rotating wheel 17, wherein the threaded rod 16 is installed through a threaded hole on the movable frame 15, and the second hand rotating wheel 17 can drive the threaded rod 16 to move back and forth so as to adjust the position of the limiting clamping block 1601 and fix the thermal insulation material to be cut.

In order to more precisely adjust the position of the fence 8, an arrow 801 is provided at one side of the fence 8, and a scale 802 is installed at a corresponding position on the top of the table 1.

The application can be used in the technical field of cutting equipment for building thermal insulation materials, and can also be used in other fields suitable for the application.

Example 2

On the basis of the first embodiment, the second embodiment further comprises a building heat insulation material cutting device, which is applied to the technical field of building heat insulation material cutting devices, in order to keep the inside of the sliding chute 6 clean and the stability of the baffle frame 8, two sides of the inside of the sliding chute 6 are provided with organ covers 601, and one end of each organ cover 601 is fixedly connected with one side of the baffle frame 8.

The bottom of the table 1 is also provided with a motor 23, and an output shaft of the motor 23 penetrates through the shell cover 18 to be connected with the cutting piece 3 to provide rotary power required by cutting, and the periphery of a groove is surrounded by the enclosing shield 2 so as to prevent fragments generated during cutting from splashing.

However, as well known to those skilled in the art, the working principles and wiring methods of the blower 20 and the motor 23 are common, and all of them are conventional or common knowledge, and will not be described herein in detail, and any choice may be made by those skilled in the art according to their needs or convenience.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (7)

1. A building insulation cutting apparatus, comprising:

The novel table comprises a table (1), wherein a slot is formed in the top of the table (1), cutting pieces (3) are arranged in the slot, a surrounding baffle (2) is fixedly arranged around the bottom of the table (1), fixing blocks (4) are fixedly arranged on two sides of the top of the table (1), two guide rods (5) are symmetrically and fixedly arranged on one sides, close to the fixing blocks (4), of the two guide rods (5), and the same movable frame (15) is slidably arranged outside the two guide rods (5);

The adjusting mechanism is arranged on the table (1) and is used for adjusting according to the size of a required cutting material;

The collecting assembly is arranged on the table (1) and the enclosure (2) and used for collecting scraps generated during cutting;

And the auxiliary mechanism is arranged on the movable frame (15) and is used for limiting the position of the material.

2. The building thermal insulation material cutting equipment according to claim 1, wherein the adjusting mechanism comprises a sliding groove (6) formed in the top of a table (1), a sliding seat (7) is arranged in the sliding groove (6) in a sliding mode, a blocking frame (8) is fixedly arranged at the top of the sliding seat (7), two first supporting frames (9) are symmetrically and fixedly arranged at two ends of the sliding groove (6) at the bottom of the table (1), one side, close to the first supporting frames (9), of each first supporting frame is rotatably provided with one screw rod (901), the screw rods (901) are in threaded connection with the sliding seat (7), one end of each screw rod (901) is fixedly provided with a connecting rod, driven bevel gears (10) are fixedly arranged on the outer portion of each connecting rod, two second supporting frames (11) are symmetrically and fixedly arranged on the bottom of the table (1), one side, close to the driven bevel gears (10), one end, close to the driven bevel gears (12), of each second supporting frame (11) is fixedly provided with a driving bevel gear (13), and the other end, close to the driven bevel gears (12), of each driving bevel gear (13) is fixedly meshed with one rotary wheel (14).

3. The building thermal insulation material cutting equipment according to claim 1, wherein the collecting assembly comprises a shell cover (18) fixedly arranged at the bottom of the table (1) and covered outside the cutting sheet (3), a connecting pipeline (21) is fixedly communicated with one side of the shell cover (18), a suction box (19) is embedded and installed on one side of the enclosure (2), a fan (20) is fixedly communicated with the bottom of the suction box (19), the other end of the connecting pipeline (21) is communicated with the suction box (19), and a filter core (22) is detachably and hermetically inserted on one side of the suction box (19).

4. The building thermal insulation material cutting equipment according to claim 1, wherein the auxiliary mechanism comprises a threaded rod (16) which penetrates through one side of the threaded frame (15), a limiting clamp block (1601) is rotatably arranged at the front end of the threaded rod (16), and a hand rotating wheel two (17) is fixedly arranged at the rear end of the threaded rod (16).

5. The building thermal insulation material cutting equipment according to claim 2, wherein an arrow (801) is fixedly arranged on one side of the baffle frame (8), and a scale (802) is fixedly arranged on the top of the table (1) at the arrow (801).

6. The building thermal insulation material cutting equipment according to claim 2, wherein an organ cover (601) is slidably arranged on two sides of the inside of the sliding groove (6), and one end of the organ cover (601) is fixedly connected with one side of the baffle frame (8).

7. The building thermal insulation material cutting equipment according to claim 1, wherein a motor (23) is fixedly arranged at the bottom of the table (1), and one end of an output shaft of the motor (23) penetrates through the shell cover (18) in a rotating mode to be fixedly connected with the cutting piece (3).