CN222472813U - Computer numerical control board cutting device - Google Patents

Abstract

The utility model relates to the technical field of furniture processing and production and discloses a computer numerical control board cutting device which comprises a machine table, wherein a control panel is fixedly connected to the side wall surface of the machine table, a rotating wheel is fixedly connected to the top of the machine table, lifting motors are symmetrically and fixedly connected to the two sides of the rear of the top of the machine table, sliding rods are fixedly connected to the tops of the symmetrical lifting motors, sliding machines are slidably connected to the wall surfaces of the sliding rods, cutting knives are rotatably connected to the bottoms of the sliding machines, a clamping structure is arranged at the top of the machine table and comprises side boards and clamping plates, the side boards are symmetrically arranged at the top of the machine table, the clamping plates are rotatably connected to the wall surface of the side boards, and the clamping structure can fix boards at the top of the machine table.

Description

Computer numerical control board cutting device

Technical Field

The utility model belongs to the technical field of furniture processing and production, and particularly relates to a computer numerical control board cutting device.

Background

The prior art (publication number: CN 217992829U) discloses a computer numerical control board cutting machine, relates to the field of board processing, and the trouble problem of board location has been improved, and it includes workstation and cutting seat, and one side of workstation is the pan feeding end, is provided with first controlling means on the workstation, is provided with the cutting knife on the cutting seat.

In the prior art, the plate is fixed at the top of the device and then is cut, so that the plate is cut, and although the plate can be cut in the prior art, the cut plate needs to be manually taken off from the device after the completion of each time, and the next plate can be cut.

The present utility model has been made in view of this.

Disclosure of utility model

In order to solve the technical problems, the utility model adopts the basic conception of the technical scheme that:

The utility model provides a computer numerical control cuts out board device, includes the board, and the lateral wall face fixedly connected with of board controls the panel, board top fixedly connected with runner, the top both sides symmetry fixedly connected with elevator motor in the top rear of board, the top fixedly connected with slide bar between the elevator motor of symmetry, the wall sliding connection of slide bar has the slider, and the bottom of slider rotates and is connected with the cutting knife, the top of board is provided with clamping structure, and clamping structure includes sideboard and splint, and the sideboard sets up at the top symmetry of board, and splint rotates at the wall of sideboard to be connected, and clamping structure can fix panel at the board top.

As a preferred implementation mode of the utility model, one side plate of the symmetrical side plates is fixedly connected with one side of the top of the machine table, the other side plate of the symmetrical side plates is movably connected with the other side of the top of the machine table, and the wall surface of each side plate is provided with a clamping plate.

As a preferred embodiment of the utility model, the clamping structure further comprises a shrinkage groove, a shrinkage rod, a sliding block, a rotation groove and a rotating shaft, wherein the shrinkage groove is formed in the top of the machine table, the shrinkage rod is fixedly connected in the shrinkage groove, the sliding block is fixedly connected with the end part of the shrinkage rod, the rotation groove penetrates through the side wall surface of the side plate, the rotating shaft is rotationally connected in the rotation groove, and the clamping plate is fixedly connected with the side wall surface of the rotating shaft.

As a preferred embodiment of the utility model, the sliding block is fixedly connected to the bottom of the movable side plate, the sliding block can slide in the shrinkage groove, the symmetrical clamping plates are arranged on the wall surface of the side plate facing the other side plate, the rear wall surface of the clamping plates is in a semicircular angle shape, and the rear wall surface of the clamping plates is flush with the rear wall surface of the side plate.

As a preferred embodiment of the utility model, the clamping structure further comprises an expanding groove, a bottom rod, a stretching rod, a clamping groove and a belt shaft, wherein the expanding groove is formed in the side wall surface of the clamping plate, the bottom rod is symmetrically arranged at the top of the machine table, the stretching rod is in sliding connection with the bottom rod, the clamping groove is formed in the top of the stretching rod, and the belt shaft is fixedly connected in the clamping groove.

As a preferable implementation mode of the utility model, the expanding groove is an inverted L-shaped groove, the belt shaft is cylindrical, the belt shaft can slide in the expanding groove, the clamping plate wall surface in the expanding groove can slide at the position between the bottom of the belt shaft and the extending rod, the bottom rod in the direction of the sliding block is fixedly connected to the side wall surface of the side plate in the direction of the sliding block, and the bottom rod on the other side is fixedly connected to the top of the machine table.

As a preferred embodiment of the utility model, the clamping structure further comprises a spring groove, a spring block and a clamping column, wherein the spring groove is formed in the side wall surface of the side plate, the spring block is elastically connected in the spring groove through a spring, the clamping column is rotationally connected to the side wall surface of the spring block, the spring in the spring groove can push the spring block to the vertical bottom, the clamping column is cylindrical, and the spring groove, the spring block and the clamping column on the side wall surface of the symmetrical side plate face each other.

As a preferred implementation mode of the utility model, the rear wall surface of the machine table is provided with a rear groove, a sliding plate block is fixedly connected in the rear groove, the rear wall surface of the symmetrical lifting motor is fixedly connected with a dividing rod, the sections of the sliding plate block and the dividing rod are in right-angle triangle shapes, and the tops of the dividing rod and the top of the clamping plate are flush.

Compared with the prior art, the utility model has the following beneficial effects:

1. The working pressure of staff can be reduced through setting up the clamping structure, because the clamping structure reduces staff's working pressure through the mode of automatic panel follow device separation after will cutting to the process of separating on panel follow device does not need to carry out artificial interference, whole cutting process only need manual place the panel at the runner top can, so compare in prior art, this scheme working pressure when using is littleer and operating time is shorter.

2. The plates with different sizes can be adapted by arranging the side plates with the spacing being changeable, because the spacing between the side plates with the symmetry can be adjusted to the size of the adapted plates before cutting the plates, the plates are fixed between the side plates with the symmetry, and therefore the application range of the device can be increased.

3. Through setting up clamp post and bullet piece can carry out the clamp post with panel when splint top and carry out the centre gripping fixed prevent that panel from removing when the cutting to the clamp post can also remove along with the thickness of panel, thereby the thickness of the different panels of adaptation, consequently can further increase the application scope of device.

4. Through setting up branch bar and slide plate can be with cut off and two kinds of plates that remain separately, prevent that two kinds of plates from mixing together and increasing and need the manual separation of staff, so branch bar and slide plate can be convenient for the staff collect the panel after the cutting.

The following describes the embodiments of the present utility model in further detail with reference to the accompanying drawings.

Drawings

In the drawings:

FIG. 1 is a perspective view of the present utility model;

FIG. 2 is a perspective view of all the fixed structures of the top of the machine of the present utility model;

FIG. 3 is a combination of side and clamping plates and bottom bar of the present utility model;

FIG. 4 is an exploded view of the sideboard and splint of the present utility model;

FIG. 5 is a disassembled view of the clamping plate and bottom bar of the present utility model;

FIG. 6 is an exploded view of the side plate and clip column of the present utility model;

FIG. 7 is a view showing a structure of a rear sidewall portion of the machine of the present utility model.

The drawing shows that the device comprises a machine table 20, a machine table 21, a control panel 22, a rotating wheel 23, a lifting motor 24, a sliding rod 25, a sliding machine 26, a cutting knife 30, a contraction groove 31, a contraction rod 32, a side plate 33, a sliding block 34, a rotating groove 35, a rotating shaft 36, a clamping plate 37, a expanding groove 38, a spring groove 40, a bottom rod 41, a stretching rod 42, a clamping groove 43, a belt shaft 44, a spring block 45, a clamping column 50, a rear groove 51, a sliding plate block 52 and a parting rod.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and the following embodiments are used to illustrate the present utility model.

As shown in fig. 1 and 2, a computerized numerical control board cutting device comprises a machine 20, a control panel 21 is fixedly connected to a side wall surface of the machine 20, a rotating wheel 22 is fixedly connected to the top of the machine 20, lifting motors 23 are symmetrically and fixedly connected to two sides of the rear of the top of the machine 20, sliding rods 24 are fixedly connected to the tops among the symmetrical lifting motors 23, a sliding machine 25 is slidingly connected to the wall surface of the sliding rod 24, a cutting knife 26 is rotationally connected to the bottom of the sliding machine 25, the control panel 21 can control the rotation of the rotating wheel 22 and the lifting of the lifting motor 23, the sliding of the sliding machine 25 and the rotation speed of the cutting knife 26 can be controlled, and the sliding machine 25 can slide along the sliding rods 24 in an offset manner, which is the prior art and is not repeated herein.

As shown in fig. 1, 2, 3, 4 and 5, the top of the machine 20 is provided with a clamping structure, the clamping structure includes a side plate 32 and a clamping plate 36, the side plate 32 is symmetrically disposed at the top of the machine 20, the clamping plate 36 is rotatably connected to the wall surface of the side plate 32, and the clamping structure can fix the plate on the top of the machine 20.

As shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5 and fig. 6, one symmetrical side plate 32 is fixedly connected to one side of the top of the machine 20, the other side plate 32 is movably connected to the other side of the top of the machine 20, the wall surface of each side plate 32 is provided with a clamping plate 36, the clamping structure further comprises a shrinkage groove 30, a shrinkage rod 31, a sliding block 33, a rotating groove 34 and a rotating shaft 35, the shrinkage groove 30 is formed at the top of the machine 20, the shrinkage rod 31 is fixedly connected in the shrinkage groove 30, the sliding block 33 is fixedly connected with the end part of the shrinkage rod 31, the rotating groove 34 penetrates through the side wall surface of the side plate 32, the rotating shaft 35 is rotationally connected in the rotating groove 34, the clamping plate 36 is fixedly connected to the side wall surface of the rotating shaft 35, the clamping structure further comprises an expanding groove 37, a bottom rod 40, an extending rod 41, a clamping groove 42 and a belt shaft 43, the bottom rod 40 is symmetrically arranged at the top of the machine 20, the extending rod 41 is slidingly connected with the bottom rod 40, the clamping groove 42 is fixedly connected to the top of the extending rod 41, the belt shaft 43 is fixedly connected to the side wall surface of the clamping plate 32 in the opposite side of the machine 20, the extending groove 37 is in the direction of the extending groove 37, and the bottom of the extending rod 37 is fixedly connected to the side wall surface of the extending rod 43 in the opposite side of the extending groove 37, and the side of the extending rod 33 is fixedly connected to the side surface of the extending rod 43;

When the device is used, the control panel 21 can also control the contraction of the contraction rod 31, the contraction length is adjusted by the contraction rod 31 before the device is used so that the interval between the symmetrical side plates 32 can be matched with the width of the plate, all structures at the top of the sliding block 33 can be driven to translate at the top of the machine 20 simultaneously when the contraction rod 31 is adjusted, the plate can be placed at the top of the rotating wheel 22 and can be driven to move towards the top of the clamping plate 36 between the symmetrical side plates 32 along with the rotation of the rotating wheel 22, the control panel 21 can control the lifting motor 23 to lift when the plate moves to the top of the clamping plate 36, the sliding rod 24, the sliding machine 25 and the cutting knife 26 can be driven to lift simultaneously when the sliding rod 23 lifts, the cutting knife 26 can also rotate when the cutting knife 26 moves to the wall surface of the plate at the bottom and the sliding machine 25 can drive the cutting knife 26 to slide reciprocally along the sliding rod 24 when the plate begins to cut, after the cutting of the plate is finished, the bottom rod 40 and the extension rod 41 can form a telescopic hydraulic machine, after the cutting of the plate is finished, the symmetrical extension rod 41 can be reduced towards the direction of the bottom rod 40 at the corresponding bottom of the plate, the extension rod 41 can drive the belt shaft 43 to move simultaneously when moving, the clamping plate 36 can be driven in the expansion groove 37 when moving the extension rod 41 so that the original plane at the top of the clamping plate 36 can be rotated into an inclined plane, at the moment, the cut plate can slide away along with the top of the clamping plate 36 towards the rear wall surface of the machine 20 due to gravity, after the plate slides away at the top of the clamping plate 36, the extension rod 41 can extend again, the bottom of the clamping plate 36 can be propped against the original plane when the extension rod 41 extends, and the next plate can be put into the next plate for cutting;

To sum up, can reduce staff's operating pressure through setting up the clamp structure, because the clamp structure reduces staff's operating pressure through the mode of automatic panel follow device separation after will cutting to do not need to carry out artificial interference at the process of panel follow device separation, whole cutting process only need manual place panel at runner 22 top can, so compare prior art, this scheme operating pressure when using is littleer and operating time is shorter.

As shown in fig. 2 and 3, the sliding block 33 is fixedly connected to the bottom of the movable side plate 32, the sliding block 33 can slide in the shrinkage groove 30, the symmetrical clamping plates 36 are arranged on the wall surface of the side plate 32 facing the other side plate 32, the rear wall surface of the clamping plates 36 is in a semicircular angle shape, and the rear wall surface of the clamping plates 36 is flush with the rear wall surface of the side plate 32;

when the telescopic rod 31 is used specifically, the distance between the symmetrical side plates 32 can be changed along with the expansion and contraction of the telescopic rod 31 when the telescopic rod 31 drives the sliding block 33 to slide;

in summary, by providing the side plates 32 with a variable pitch, plates of different sizes can be adapted, since the pitch of the symmetrical side plates 32 can be adjusted to the size of the adapted plates before cutting the plates, thereby fixing the plates between the symmetrical side plates 32, and thus the application range of the device can be increased.

As shown in fig. 6, the clamping structure further includes a spring groove 38, a spring block 44 and a clamping column 45, the spring groove 38 is formed on a side wall surface of the side plate 32, the spring block 44 is elastically connected in the spring groove 38 through a spring, the clamping column 45 is rotatably connected on a side wall surface of the spring block 44, the spring in the spring groove 38 can push the spring block 44 towards the vertical bottom, the clamping column 45 is cylindrical, and the spring groove 38, the spring block 44 and the clamping column 45 on the side wall surface of the symmetrical side plate 32 face each other;

When the spring in the spring groove 38 pushes the spring block 44 towards the bottom, the clamping column 45 moves along with the spring block 44 when the spring block 44 is pushed, the bottom of the clamping column 45 can contact with the top of the plate and rotate when the plate moves to the top of the clamping plate 36, and the clamping column 45 and the spring block 44 slide in the spring groove 38 along with the thickness of the plate;

In summary, by arranging the clamping posts 45 and the elastic blocks 44, the clamping posts 45 can clamp and fix the plate when the plate is at the top of the clamping plate 36, so that the plate is prevented from moving when being cut, and the clamping posts 45 can also move along with the thickness of the plate, so that the thickness of different plates is adapted, and the application range of the device can be further increased.

As shown in fig. 7, a rear groove 50 is formed in the rear wall surface of the machine 20, a sliding plate block 51 is fixedly connected in the rear groove 50, a dividing rod 52 is fixedly connected to the rear wall surface of the symmetrical lifting motor 23, the cutting surfaces of the sliding plate block 51 and the dividing rod 52 are in right-angle triangle shapes, and the top of the dividing rod 52 is flush with the top of the clamping plate 36;

In particular use, the sheet cut by the cutter 26 will move with the bevel of the slitting bar 52, while the remaining sheet will slide along the bevel of the slider block 51 after sliding along the top of the clamping plate 36;

In summary, by providing the slitting bar 52 and the sliding plate block 51, the cut and remaining two plates can be separated, so that the two plates are prevented from being mixed together and are manually separated by a worker, and the slitting bar 52 and the sliding plate block 51 can facilitate the collection of the cut plates by the worker.

The working principle is that a plate is placed on the top of the rotating wheel 22 and moves towards the top of the clamping plates 36 between the symmetrical side plates 32 along with the rotation of the rotating wheel 22, when the plate moves to the top of the clamping plates 36, the control panel 21 controls the lifting motor 23 to lift, the sliding rod 24, the sliding machine 25 and the cutting knife 26 can be driven to lift simultaneously when the plate 23 lifts, the cutting knife 26 can also rotate when moving, and the sliding machine 25 can drive the cutting knife 26 to slide reciprocally along the sliding rod 24 when the cutting knife 26 moves to the wall surface of the plate at the bottom and the plate begins to cut, so that the cutting of the plate is completed.

It will be understood that the utility model has been described in terms of several embodiments, and that various changes and equivalents may be made to these features and embodiments by those skilled in the art without departing from the spirit and scope of the utility model. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the utility model without departing from the essential scope thereof. Therefore, it is intended that the utility model not be limited to the particular embodiment disclosed, but that the utility model will include all embodiments falling within the scope of the appended claims.

Claims (8)

1. The utility model provides a computer numerical control cuts out board device, includes board (20), and the lateral wall face fixedly connected with of board (20) controls panel (21), board (20) top fixedly connected with runner (22), and the top rear both sides symmetry fixedly connected with elevator motor (23) of board (20), the top fixedly connected with slide bar (24) between elevator motor (23) of symmetry, the wall sliding connection of slide bar (24) has slide machine (25), and the bottom of slide machine (25) rotates and is connected with cutting knife (26), a serial communication port, the top of board (20) is provided with clamping structure, and clamping structure includes sideboard (32) and splint (36), and sideboard (32) set up at the top symmetry of board (20), and splint (36) are at the wall rotation connection of sideboard (32), and clamping structure can fix panel at board (20) top.

2. The computerized numerical control board cutting device according to claim 1, wherein one side board (32) of the symmetry is fixedly connected to one side of the top of the machine (20), the other side board (32) is movably connected to the other side of the top of the machine (20), and the wall surface of each side board (32) is provided with a clamping plate (36).

3. The computerized numerical control cutting board device according to claim 1, wherein the clamping structure further comprises a shrinkage groove (30), a shrinkage rod (31), a sliding block (33), a rotation groove (34) and a rotating shaft (35), wherein the shrinkage groove (30) is formed in the top of the machine table (20), the shrinkage rod (31) is fixedly connected in the shrinkage groove (30), the sliding block (33) is fixedly connected with the end part of the shrinkage rod (31), the rotation groove (34) penetrates through the side wall surface formed in the side board (32), the rotating shaft (35) is rotationally connected in the rotation groove (34), and the clamping plate (36) is fixedly connected with the side wall surface of the rotating shaft (35).

4. A computerized numerical control cutting board device according to claim 3, characterized in that the sliding block (33) is fixedly connected to the bottom of a movable side board (32), the sliding block (33) can slide in the shrinkage groove (30), symmetrical clamping boards (36) are arranged on the wall surface of the side board (32) facing the other side board (32), the rear wall surface of the clamping boards (36) is in a semicircular angle shape, and the rear wall surface of the clamping boards (36) is flush with the rear wall surface of the side board (32).

5. The computerized numerical control cutting board device according to claim 3, wherein the clamping structure further comprises a spreading groove (37), a bottom rod (40), a stretching rod (41), a clamping groove (42) and a belt shaft (43), the spreading groove (37) is formed in the side wall surface of the clamping plate (36), the bottom rod (40) is symmetrically arranged at the top of the machine table (20), the stretching rod (41) is slidably connected with the bottom rod (40), the clamping groove (42) is formed in the top of the stretching rod (41), and the belt shaft (43) is fixedly connected in the clamping groove (42).

6. The computerized numerical control cutting board device according to claim 5, wherein the expanding groove (37) is an inverted L-shaped groove, the belt shaft (43) is cylindrical, the belt shaft (43) can slide in the expanding groove (37), the wall surface of the clamping plate (36) in the expanding groove (37) can slide between the bottom of the belt shaft (43) and the extending rod (41), the bottom rod (40) in the direction of the sliding block (33) is fixedly connected to the side wall surface of the side plate (32) in the direction of the sliding block (33), and the bottom rod (40) on the other side is fixedly connected to the top of the machine table (20).

7. The computerized numerical control cutting board device according to claim 5, wherein the clamping structure further comprises a spring groove (38), a spring block (44) and a clamping column (45), the spring groove (38) is formed in the side wall surface of the side board (32), the spring block (44) is elastically connected in the spring groove (38) through a spring, the clamping column (45) is rotationally connected to the side wall surface of the spring block (44), the spring in the spring groove (38) can push the spring block (44) towards the vertical bottom, the clamping column (45) is cylindrical, and the spring groove (38), the spring block (44) and the clamping column (45) on the wall surface of the symmetrical side board (32) face each other.

8. The computerized numerical control cutting board device according to claim 1, wherein the rear wall surface of the machine table (20) is provided with a rear groove (50), a sliding plate block (51) is fixedly connected in the rear groove (50), the rear wall surface of the symmetrical lifting motor (23) is fixedly connected with a dividing bar (52), the cutting surfaces of the sliding plate block (51) and the dividing bar (52) are in right-angle triangle shapes, and the top of the dividing bar (52) is flush with the top of the clamping plate (36).