CN219380906U - Bearing table and numerical control electronic saw - Google Patents

Abstract

The utility model relates to the technical field of electronic saws, in particular to a bearing table and a numerical control electronic saw, which comprises the following components: the supporting legs are arranged on the feeding side of the saw box; a support frame fixed to the upper side of the support leg; the first supporting layer is arranged on the supporting framework, and the upper end face of the first supporting layer is flush with the feeding port of the saw box; the first supporting layer comprises a stainless steel layer, and the stainless steel layer is coated on the upper portion of the supporting framework. The utility model abandons the prior art air bearing table as a bearing table for conveying the boards, uses the smooth metal plate as a bearing surface, particularly uses the stainless steel plate as the bearing table, can ensure that the boards are not deformed and not sunken under the frequent conveying environment of the boards due to the strong rigidity and smooth surface of the stainless steel plate, and simultaneously can not generate scratches and dents when being contacted with the board holding surface and the surface, thereby being suitable for bearing and conveying the original boards of the wooden doors with the panel layers.

Description

Bearing table and numerical control electronic saw

Technical Field

The utility model relates to the technical field of electronic saws, in particular to a bearing table and a numerical control electronic saw.

Background

The numerical control electronic saw mainly comprises an air floatation table, a saw carriage, a pressing plate component, a driving device and a touch screen system, wherein man-machine integrated operation is adopted, data needing to be cut are input on the touch screen, then a machine automatically operates, and a plate needing to be processed is accurately cut.

For example, as shown in patent document 1 and patent document 2, the current electronic saw uses an air bearing table as a supporting table for conveying the plate material, a plurality of air holes are formed on the table surface, steel balls are arranged in the air holes, when the air holes blow upwards, the steel balls are in an upward floating state, at the moment, the plate material can be made to float on the table surface to reduce the resistance of manually pushing the plate material, when no air exists in the air holes, the steel balls retract into the air holes, and the specific principle is that the technical scheme shown in patent document 3 is referred to, and the plate material can be moved on the air bearing table, but when the plate material with high surface requirements, especially the wooden door plate with the panel layer is processed, the dent or the scratch can be formed on the surface of the plate material, which is not desirable.

Prior art literature

Patent document 1 CN212885396U numerical control electronic panel saw equipment

Patent document 2 CNC 208680662U numerical control cutting saw

Patent document 3 cd 107555174a air bearing platform.

Disclosure of Invention

The first aspect of the present utility model proposes a technical solution, a bearing table, comprising:

the supporting legs are arranged on the feeding side of the saw box;

a support frame fixed to the upper side of the support leg;

the first supporting layer is arranged on the supporting framework, and the upper end face of the first supporting layer is flush with the feeding port of the saw box;

the first supporting layer comprises a stainless steel layer, and the stainless steel layer is coated on the upper portion of the supporting framework.

Preferably, a metal wire drawing layer is arranged on the surface of the stainless steel layer, the metal wire drawing layer comprises a straight grain metal wire drawing layer, and the direction of the wire drawing grain is the same as the length direction of the first supporting layer.

Preferably, the surface of the stainless steel layer is a mirror layer.

Preferably, the supporting framework comprises two side beams which are distributed parallel to the length direction of the first supporting layer, the side beams are fixedly connected with the supporting legs, an anti-collision beam is arranged at the first end of each side beam, and a supporting plate is arranged at the second end of each side beam.

Preferably, the stainless steel layer is provided with a side plate extending downwards at the position of the side beam, the side plate is attached to the outer wall of the side beam, the stainless steel layer is provided with a guide plate in the direction close to the anti-collision beam, the first end of the guide plate is in contact with the upper end face of the anti-collision beam, and the first end is flush with the stainless steel layer.

Preferably, the side plate is provided with a first screw hole, the side beam is provided with a second screw hole, and the side plate and the side beam are fixed through bolts mounted to the first screw hole and the second screw hole.

Preferably, the tops of the supporting legs are provided with I-steel, and the side beams are fixed to two ends of the I-steel.

The second aspect of the present utility model proposes a technical solution, a numerical control electronic saw, comprising:

the saw box is provided with a feeding port, and a cutting joint is arranged in the saw box;

a saw carriage configured to cut a sheet material entering from a feed port along the slit;

at least two plummer, set up the feed inlet of saw case, supply panel to slide into from the up end of first supporting layer in the feed inlet of saw case.

Preferably, the saw box comprises a saw box bearing table, wherein the surface of the saw box bearing table is provided with a saw box bearing table, and a cutting seam for the cutter of the saw truck to walk is formed in the saw box bearing table; wherein, be equipped with the second supporting layer in the both sides of kerf, the second supporting layer includes the stainless steel layer.

Compared with the prior art, the utility model has the advantages that:

the utility model abandons the prior art air bearing table as a bearing table for conveying the boards, uses the smooth metal plate as a bearing surface, particularly uses the stainless steel plate as the bearing table, can ensure that the boards are not deformed and not sunken under the frequent conveying environment of the boards due to the strong rigidity and smooth surface of the stainless steel plate, and simultaneously can not generate scratches and dents when being contacted with the board holding surface and the surface, thereby being suitable for bearing and conveying the original boards of the wooden doors with the panel layers.

Drawings

The drawings are not intended to be drawn to scale. In the drawings, each identical or nearly identical component that is illustrated in various figures may be represented by a like numeral. For purposes of clarity, not every component may be labeled in every drawing. Embodiments of various aspects of the utility model will now be described, by way of example, with reference to the accompanying drawings, in which:

FIG. 1 is a schematic view of a numerical control electronic saw of the present utility model;

FIG. 2 is a schematic view of the structure of the carrying platform according to the present utility model;

FIG. 3 is a schematic view of the structure of the support framework of the present utility model;

FIG. 4 is a schematic view of a semi-sectional structure of a carrying platform according to the present utility model;

fig. 5 is a schematic view of the saw case carrying table of the present utility model.

Detailed Description

For a better understanding of the technical content of the present utility model, specific examples are set forth below, along with the accompanying drawings.

[ plummer ]

In combination with fig. 1-2, the first aspect of the present utility model proposes a technical solution, a carrying table 10 is disposed on a feeding side of a saw case 20, a board is sent into the saw case 20 through the carrying table 10, and is cut by a saw truck in the saw case 20, and in combination with fig. 2, the carrying table 10 mainly includes supporting legs 11, a supporting framework and a first supporting layer 15.

Wherein, the supporting leg 11 is disposed at the feeding side of the saw case 20 and supported on the ground, and the supporting frame is fixed above the supporting leg 11 for supporting the first supporting layer 15, and the upper end surface of the first supporting layer 15 is flush with the feeding port of the saw case 20.

In this manner, the sheet material slides over the first support layer 15 and into the feed port of the saw housing 20.

Further, the first supporting layer 15 includes a stainless steel layer, and the stainless steel layer is coated on the upper portion of the supporting framework. Thus, the first supporting layer 15 can be ensured to have reliable durability and cannot be scratched by wood, and meanwhile, the supporting framework enables the stainless steel layer to have higher strength and can support the plate to repeatedly slide on the surface of the first supporting layer 15.

Preferably, the surface of the stainless steel layer is provided with a metal wire drawing layer, the metal wire drawing layer comprises a straight grain metal wire drawing layer, and the direction of the wire drawing grain is the same as the length direction of the first supporting layer 15.

Thus, when the wood slides from the surface of the stainless steel layer, scratches are not easily scratched by the plate, the surface of the stainless steel layer is smooth, and the wood can be easily pushed into the feeding port of the saw box 20.

In a preferred embodiment, the stainless steel layer comprises a stainless steel layer. The stainless steel layer has high strength and rigidity, is not easy to deform and damage after long-time use, and can ensure the durability of the bearing table 10.

Preferably, the stainless steel layer has a thickness of 2-5mm.

Further, in order to support the stainless steel layer, as shown in fig. 3-4, the support skeleton includes two side beams 12 distributed parallel to the length direction of the first support layer 15, the side beams 12 are fixedly connected with the support legs 11, the first ends of the side beams 12 are provided with anti-collision beams 13, and the second ends are provided with support plates 14.

Alternatively, the side beams 12 are hollow stainless steel square tubes, the anti-collision beams 13 are made of thickened steel plates by bending into beam shapes, and the anti-collision beams are welded to one ends of the side beams 12, so that the first supporting layer 15 can be prevented from being collided and bent by the plates.

Preferably, the stainless steel layer is provided with a side plate 151 extending downwards at the position of the side beam 12, the side plate 151 is attached to the outer wall of the side beam 12, the stainless steel layer is provided with a guide plate 152 in the direction close to the anti-collision beam 13, the first end of the guide plate 152 is in contact with the upper end face of the anti-collision beam 13, and the second end is flush with the stainless steel layer.

In a specific embodiment, the stainless steel layer is cut into a predetermined shape, wherein the side plates 151 and the guide plates 152 are bent by punching to form a predetermined angle.

Preferably, the side plate 151 is provided with a first screw hole, the side beam 12 is provided with a second screw hole, and the side plate 151 and the side beam 12 are fixed by bolts mounted to the first screw hole and the second screw hole.

In this way, the stainless steel layer is connected with the side beam 12 and the support plate 14 by means of screw connection, which is beneficial for later replacement of the stainless steel layer.

In an alternative embodiment, the top of the support leg 11 is provided with a I-steel 111, and the side members 12 are fixed to both ends of the I-steel 111.

By welding the side members 12 to both ends of the i-beam 111, the strength of the connection of the side members 12 to the support legs 11 can be ensured, and preferably, a reinforcing member 112 for increasing the rigidity of the two side members 12 is welded between the two side members 12.

[ numerical control electronic saw ]

With reference to fig. 1, a second aspect of the present utility model proposes a technical solution, a numerically controlled electronic saw, including:

the saw box 20 is provided with a feeding port, and a cutting slot is arranged in the saw box 20;

a sawing machine which is arranged to cut the plate material entering from the feeding port along the kerf;

at least two of the bearing tables are arranged at the feeding port of the saw box 20 and used for sliding the plate into the feeding port of the saw box 20 from the upper end face of the first supporting layer 15.

Preferably, as shown in fig. 5, the saw case 20 includes a saw case carrying table 21, and a cutting slit for the saw carriage to travel is arranged on the saw case carrying table 21 on the surface of the saw case carrying table; wherein, the two sides of the kerf are provided with a second supporting layer 22, and the second supporting layer 22 comprises a stainless steel layer.

In a specific embodiment, the sheet material to be cut, especially the wooden sheet material with the panel layer, is manually placed on the surface of the carrying platform 10, and then the wooden sheet material is manually pushed towards the direction of the saw box 20 to enable the wooden sheet material to enter the feeding port of the saw box 20, at this time, the sheet material is pressed by the pressing plate component in the saw box 20, and then the saw carriage is used for moving in the cutting direction to cut the sheet material to form a preset width.

In the above process, the wooden door plate is contacted with the first supporting layer 15 and the second supporting layer 22 with smooth surfaces, and compared with the air floating table in the prior art, scratches and dents are not easy to appear on the surfaces, so that the appearance and the surface integrity of the wooden door plate are ensured.

In combination with the embodiment, the air bearing table in the prior art is abandoned as a bearing table for conveying the boards, the smooth metal plate is used as a bearing surface, and particularly, the stainless steel plate is used as the bearing table, so that the stainless steel plate is strong in rigidity and smooth in surface, can be ensured not to deform and not to sink under the frequent conveying environment of the boards, can be contacted with the board holding surface and the board holding surface, cannot generate scratches and dents, and is suitable for bearing and conveying the original wood door plate with the panel layer.

While the utility model has been described with reference to preferred embodiments, it is not intended to be limiting. Those skilled in the art will appreciate that various modifications and adaptations can be made without departing from the spirit and scope of the present utility model. Accordingly, the scope of the utility model is defined by the appended claims.

Claims (9)

1. A load-bearing table, comprising:

support legs (11) arranged on the feeding side of the saw case (20);

a support skeleton fixed to the upper side of the support leg (11);

the first supporting layer (15) is arranged on the supporting framework, and the upper end face of the first supporting layer (15) is flush with a feeding port of the saw box (20);

wherein, first supporting layer (15) include the stainless steel layer, the stainless steel layer cladding is in the upper portion of braced skeleton.

2. The carrying platform according to claim 1, characterized in that the surface of the stainless steel layer is provided with a metal wire drawing layer, the metal wire drawing layer comprises a straight grain metal wire drawing layer, and the direction of the wire drawing grain is the same as the length direction of the first supporting layer (15).

3. The stage of claim 1, wherein the surface of the stainless steel layer is a mirror layer.

4. The carrying platform according to claim 1, characterized in that the supporting framework comprises two side beams (12) distributed parallel to the length direction of the first supporting layer (15), the side beams (12) are fixedly connected with the supporting legs (11), an anti-collision beam (13) is arranged at the first end of the side beams (12), and a supporting plate (14) is arranged at the second end of the side beams.

5. The bearing table according to claim 4, wherein the stainless steel layer is provided with a side plate (151) extending downwards at the position of the side beam (12), the side plate (151) is attached to the outer wall of the side beam (12), the stainless steel layer is provided with a guide plate (152) in the direction close to the anti-collision beam (13), a first end of the guide plate (152) is in contact with the upper end face of the anti-collision beam (13), and a second end of the guide plate is flush with the stainless steel layer.

6. The carrying platform according to claim 5, wherein the side plate (151) is provided with a first screw hole, the side beam (12) is provided with a second screw hole, and the side plate (151) and the side beam (12) are fixed by bolts mounted to the first screw hole and the second screw hole.

7. The carrying floor according to claim 4, characterized in that the top of the supporting leg (11) is provided with a i-beam (111), and the side beams (12) are fixed to both ends of the i-beam (111).

8. A numerically controlled electronic saw, comprising:

the saw box (20), the saw box (20) is provided with a feeding port, and a cutting joint is arranged in the saw box (20);

a saw carriage configured to cut a sheet material entering from a feed port along the slit;

the carrying table according to any one of claims 1-7, being arranged at a feeding opening of the saw box (20) for sliding a sheet material from an upper end surface of the first supporting layer (15) into the feeding opening of the saw box (20).

9. A numerical control electronic saw according to claim 8, characterized in that the saw case (20) comprises a saw case carrying table (21), the saw case carrying table (21) is provided with a cutting slit for the running of a cutter of a saw carriage; wherein, the two sides of the kerf are provided with a second supporting layer (22), and the second supporting layer (22) comprises a stainless steel layer.