CN219818833U - Novel planer-type cutting machine - Google Patents

Abstract

The utility model relates to the technical field of cutting equipment, in particular to a novel gantry type cutting machine which comprises a conveying component, a cutting component, a bearing component and a gantry structure; the cutting assembly is movably arranged at the bottom of the bearing assembly, and the gantry structure is arranged above the bearing assembly; the receiving component is arranged at the discharge end of the conveying component; the bottom of the bearing component is provided with a cutting channel for accommodating the cutting component, and the bearing component is provided with a cutting gap for the working end of the cutting component to pass through. Adopt this technical scheme's aim at, provide a novel planer-type cutting machine in order to solve current cutting device's cutting machine and hang on the portal frame, because the cutting machine weight is big, the mounting means of suspension produces the cutting accuracy low and the problem that has the potential safety hazard of cutting machine easily.

Description

Novel planer-type cutting machine

Technical Field

The utility model relates to the technical field of cutting equipment, in particular to a novel gantry type cutting machine.

Background

The steel plate cutting device is a device for cutting a steel plate when the steel plate is processed, and the steel plate is large in weight and needs to be placed on a platform for conveying when being cut so as to be cut.

Patent number CN215845986U discloses a steel sheet cutting device, including first conveyer belt and second conveyer belt, the upper portion of first conveyer belt and second conveyer belt all is equipped with conveying structure, fixedly connected with portal frame between first conveyer belt and the second conveyer belt upper portion, the upper portion fixed mounting of portal frame has the cylinder, first spout has been seted up to the inner wall of portal frame, the inside sliding connection of first spout has the cantilever, the anterior fixed mounting of cantilever has the cutting machine, be equipped with the compress tightly structure between the inboard of portal frame and the cantilever. Although the cutting device effectively increases the stability of the steel plate during conveying by arranging the conveying structure, the cutting accuracy is improved by arranging the compressing structure; however, the cutting machine of the cutting device is suspended on the portal frame, and the suspended installation mode easily causes the problems of low cutting precision and potential safety hazard of the cutting machine due to the heavy weight of the cutting machine.

Disclosure of Invention

The utility model aims to provide a novel gantry type cutting machine, and the technical scheme provided by the utility model solves the problems that the cutting machine of the existing cutting device is suspended on a gantry, and the suspended installation mode is easy to cause low cutting precision and potential safety hazard of the cutting machine due to the heavy weight of the cutting machine.

In order to achieve the technical aim, the utility model provides a novel gantry type cutting machine, which comprises a conveying component, a cutting component, a bearing component, a second bearing component and a gantry structure; the cutting assembly is movably arranged at the bottom of the bearing assembly, and the gantry structure is arranged above the bearing assembly; the receiving component is arranged at the discharge end of the conveying component and is used for supporting the plates conveyed by the conveying component; the bottom of the bearing component is provided with a cutting channel for accommodating the cutting component, and the bearing component is provided with a cutting gap for the working end of the cutting component to pass through.

Preferably, the bearing assembly comprises a first bearing plate and a second bearing plate, one end of the first bearing plate and one end of the second bearing plate are oppositely arranged, and the cutting gap is positioned between the first bearing plate and the second bearing plate.

Preferably, the gantry structure comprises a cross beam and two stand columns, the two stand columns are respectively arranged on two sides of the bearing assembly, and two ends of the cross beam are respectively fixedly connected with the tops of the two stand columns.

Preferably, the cutting assembly comprises a blade, a cutting driver and a first sliding block guide rail structure, wherein the blade is in transmission connection with the cutting driver through a gear box, and the first sliding block guide rail structure is arranged in the cutting channel and is used for driving the blade and the cutting driver to directionally move.

Preferably, the cutting assembly further comprises a first movement driver for driving the sliding end of the first slider rail structure to move.

Preferably, the device further comprises a pressing component, wherein the pressing component is arranged on the gantry structure, and the working end of the pressing component is movably arranged towards the supporting surface of the bearing component.

Preferably, the first clamping assembly is further comprised; the first clamping assembly comprises a first fixed block, a first clamping block and a first clamping driver, wherein the first fixed block and the first clamping block are respectively arranged on two sides of the conveying direction of the conveying assembly, and the first clamping driver is used for driving the first clamping block to be close to or far away from the first fixed block.

Preferably, a second clamping assembly is also included; the second clamping assembly comprises a second fixed block, a second clamping block and a second clamping driver, wherein the first clamping driver (63) and the first fixed block (61) are fixedly arranged at the sliding end of the second sliding block guide rail structure (64), and the second clamping driver is used for driving the second clamping block to be close to or far away from the second fixed block.

Preferably, the first clamping assembly further comprises a second slider guide rail structure and a second moving driver, and the second moving driver drives the second fixing block and the second clamping block to move in a directional manner along the conveying direction of the conveying assembly through the second slider guide rail structure.

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

1. the plate is conveyed towards the bearing group through the conveying component, and then supported through the bearing component, so that the cutting component can cut the plate conveniently;

2. the work end of the cutting assembly passes through the cutting gap on the bearing assembly, so that the function of cutting the plate on the bearing assembly can be realized; meanwhile, the cutting assembly is arranged at the bottom of the bearing assembly, so that the mounting mode of hanging the cutting assembly is avoided, the potential safety hazard of hanging the cutting assembly is reduced, the stability of the cutting assembly is improved, and the cutting precision and safety of the cutting machine are improved;

3. the gantry structure is arranged above the bearing assembly to fix the bearing assembly, so that the strength of the bearing assembly is improved, the bearing assembly can stably support plates with larger weights, the cutting precision of the cutting assembly is improved, and the cutting stability of the cutting machine is ensured.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the utility model, and that other drawings can be obtained according to these drawings without inventive faculty for a person skilled in the art.

FIG. 1 is a schematic view of a novel gantry cutter according to an embodiment of the present utility model;

FIG. 2 is a schematic view of a partial structure of a novel gantry cutter according to an embodiment of the present utility model;

wherein: 1. a transfer assembly; 2. a receiving assembly; 3. a cutting assembly; 4. a gantry structure; 21. cutting the channel; 22. cutting the gap; 23. a first receiving plate; 24. a second receiving plate; 41. a cross beam; 42. a column; 31. a blade; 32. a cutting driver; 33. a first slider rail structure; 5. a compression assembly; 6. a first clamping assembly; 61. a first fixed block; 62. a first clamping block; 63. a first clamping driver; 7. a second clamping assembly; 71. a second clamping block; 72. a second clamping driver; 64. a second slider rail structure; 65. a second movement driver; 711. and (5) through grooves.

Detailed Description

Various embodiments of the utility model are disclosed in the following drawings, in which details of the practice are set forth in the following description for the purpose of clarity. However, it should be understood that these practical details are not to be taken as limiting the utility model. That is, in some embodiments of the utility model, these practical details are unnecessary. Moreover, for the purpose of simplifying the drawings, some conventional structures and components are shown in the drawings in a simplified schematic manner.

It should be noted that all directional indications such as up, down, left, right, front, and rear … … in the embodiments of the present utility model are merely used to explain the relative positional relationship, movement, etc. between the components in a particular posture such as that shown in the drawings, and if the particular posture is changed, the directional indication is changed accordingly.

In addition, the descriptions of the "first," "second," and the like, herein are for descriptive purposes only and are not intended to be specifically construed as order or sequence, nor are they intended to limit the utility model solely for distinguishing between components or operations described in the same technical term, but are not to be construed as indicating or implying any relative importance or order of such features. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present utility model.

For a further understanding of the utility model, its features and advantages, reference is now made to the following examples, which are illustrated in the accompanying drawings in which:

the cutting machine of the existing cutting device is suspended on the portal frame, and the suspended installation mode easily causes the problems of low cutting precision and potential safety hazard of the cutting machine due to the large weight of the cutting machine.

In order to solve the above technical problems, the present embodiment provides the following technical solutions:

referring to fig. 1-2, the present embodiment provides a novel gantry type cutting machine, which includes a conveying assembly 1, a cutting assembly 3, a receiving assembly 2, and a gantry structure 4; the cutting assembly 3 is movably arranged at the bottom of the bearing assembly 2, and the gantry structure 4 is arranged above the bearing assembly 2; the receiving component 2 is arranged at the discharge end of the conveying component 1 and is used for supporting the plates conveyed by the conveying component 1; the bottom of the receiving assembly 2 is formed with a cutting channel 21 for accommodating the cutting assembly 3, and the receiving assembly 2 is formed with a cutting slit 22 for passing the working end of the cutting assembly 3.

Specifically, the plate is conveyed towards the bearing component 2 through the conveying component 1, and then the bearing component 2 is used for supporting the plate, so that the cutting component 3 can cut the plate conveniently; the work end of the cutting assembly 3 passes through the bearing assembly 2, so that the cutting assembly 3 can cut the plate on the bearing assembly 2; meanwhile, the cutting assembly 3 is arranged at the bottom of the bearing assembly 2, so that the hanging installation mode of the cutting assembly 3 is avoided, the potential safety hazards existing in the hanging of the cutting assembly 3 are reduced, the stability of the cutting assembly 3 is improved, and the cutting precision and safety of the cutting machine are improved; the gantry structure 4 is arranged above the bearing assembly 2 to fix the bearing assembly 2, so that the strength of the bearing assembly 2 is improved, the bearing assembly 2 can stably support plates with large weight, the cutting precision of the cutting assembly 3 is improved, and the cutting stability of the cutting machine is ensured.

In this embodiment, the receiving assembly 2 includes a first receiving plate 23 and a second receiving plate 24, one end of the first receiving plate 23 and one end of the second receiving plate 24 are disposed opposite to each other, and the cutting slit 22 is located between the first receiving plate 23 and the second receiving plate 24; through the first bearing plate 23 and the second bearing plate 24 which are easy to obtain and process, the production cost of the cutting machine is reduced, and the production efficiency is improved, it can be understood that one end of the first bearing plate 23 and one end of the second bearing plate 24 are arranged oppositely, at this time, one end of the first bearing plate 23 and one end of the second bearing plate 24 are arranged in a suspended manner, namely, a cutting channel 21 can be formed below the first bearing plate 23 and the second bearing plate 24, so that the cutting assembly 3 can pass below the first bearing plate 23 and the second bearing plate 24, a cutting gap 22 is formed between the first bearing plate 23 and the second bearing plate 24, and the working end of the cutting assembly 3 can pass through the first bearing plate 23 and the second bearing plate 24 and act on the plates on the first bearing plate 23 and the second bearing plate 24, so that the cutting function of the cutting machine for cutting the plates is realized in a simple manner.

It will be appreciated that, in order to fix the first receiving plate 23 and the second receiving plate 24, the other end of the first receiving plate 23 and the other end of the second receiving plate 24 are respectively provided with a supporting leg, and simultaneously the supporting legs respectively connected with the first receiving plate 23 and the second receiving plate 24 are respectively positioned at two sides of the cutting channel 21, so that the cutting assembly 3 can enter the cutting channel 21; in other embodiments, in order to reduce sliding friction between the first receiving plate 23 and the second receiving plate 24, a plurality of rollers are respectively disposed on the first receiving plate 23 and the second receiving plate 24, and rolling contact between the rollers and the sheet material further reduces friction between the first receiving plate 23 and the second receiving plate 24 and the sheet material respectively, thereby reducing loss of the sheet material, the first receiving plate 23 and the second receiving plate 24.

In this embodiment, the gantry structure 4 includes a cross beam 41 and two upright posts 42, the two upright posts 42 are respectively disposed at two sides of the receiving assembly 2, two ends of the cross beam 41 are respectively and fixedly connected with top portions of the two upright posts 42, so that the two upright posts 42 are respectively and relatively fixed on the first receiving plate 23 and the second receiving plate 24, so that the conveying assembly 1 can convey the plate along between the two upright posts 42 onto the first receiving plate 23 and the second receiving plate 24; simultaneously, the two ends of the cross beam 41 are respectively fixedly connected with the tops of the two upright posts 42, so that the cross beam 41 is fixedly connected with one suspended end of the first bearing plate 23 and one suspended end of the second bearing plate 24 through the two upright posts 42, the strength of the first bearing plate 23 and the second bearing plate 24 is further improved, the service life of the cutting machine is prolonged, and the cutting machine can cut plates with higher weight.

In other embodiments, the cutting assembly 3 includes a blade 31, a cutting driver 32, and a first slider rail structure 33, where the blade 31 is in driving connection with the cutting driver 32 through a gear box, the first slider rail structure 33 is disposed in the cutting channel 21, and a sliding end of the first slider rail structure 33 is used to drive the blade 31 and the cutting driver 32 to move in an oriented manner; the cutting driver 32 is in transmission connection with the blade 31 through the gear box, the cutting driver 32 drives the blade 31 to rotate, so that the requirement of the blade 31 for cutting the plate is met, and the cutting driver 32 adjusts the rotating speed of the blade 31 according to the cutting requirement through the gear box, so that convenience of the cutting machine is improved; preferably, the first slider guide rail structure 33 adopts a first slider and a first guide rail, the first guide rail is arranged in the cutting channel 21, and then the blade 31, the gear box and the cutting driver 32 are arranged on the first slider, so that the first slider drives the blade 31, the gear box and the cutting driver 32 to move together on the first guide rail in a directional manner, and the directional cutting effect of the cutting assembly 3 can be realized; in other embodiments, a lifting device is arranged at the bottom of the first guide rail, and the lifting device drives the first guide rail to bear the first sliding block to lift, so that the length of the blade 31 penetrating through the cutting gap 22 is changed, and the function that the cutting assembly 3 can accurately cut plates with different thicknesses is met.

In this embodiment, the cutting assembly 3 further includes a first moving driver, the sliding end of the first slider rail structure 33 is a first slider, and the output end of the first moving driver is fixedly connected with the first slider, so that the first moving driver drives the first slider to drive the blade 31 and the cutting driver 32 to move synchronously, thereby realizing the automatic movement of the cutting assembly 3 towards the cutting channel 21, and further realizing the function of automatically cutting the board by the cutting machine.

In this embodiment, the device further includes a compressing assembly 5, where the compressing assembly 5 is disposed on the gantry structure 4, and a working end of the compressing assembly 5 is movably disposed towards a supporting surface of the receiving assembly 2; when the cutting assembly 3 cuts the plate, the working end of the pressing assembly 5 acts on the plate on the bearing assembly 2 to fix the plate, so that the plate is prevented from being easily jacked up by the blade 31 during working, the stability of cutting the plate is improved, and the cutting precision of the cutting machine is improved; preferably, the compacting component 5 adopts a hydraulic cylinder or an air cylinder which is easy to obtain, the hydraulic cylinder or the air cylinder is arranged at the top of the beam 41, and then the working end of the hydraulic cylinder or the air cylinder passes through the beam 41 to move towards the plate on the bearing component 2, so that the compacting function of the compacting component 5 on the plate can be achieved; in order to reduce and compress tightly subassembly 5 and cause panel deformation, be provided with the pressure head at the work end that compresses tightly subassembly 5, the pressure head is dull and stereotyped form to increase the area of contact between compressing tightly subassembly 5 and the panel, and then reduced the pressure that the unit area of panel received, be favorable to improving the security that compresses tightly the subassembly 5 and compress tightly the panel.

In this embodiment, a first clamping assembly 6 is also included; the first clamping assembly 6 comprises a first fixed block 61, a first clamping block 62 and a first clamping driver 63, wherein the first fixed block 61 and the first clamping block 62 are respectively arranged at two sides of the conveying direction of the conveying assembly 1, and the first clamping driver 63 is used for driving the first clamping block 62 to be close to or far from the first fixed block 61; further comprising a second clamping assembly 7; the second clamping assembly 7 comprises a second fixed block, a second clamping block 71 and a second clamping driver 72, the second fixed block and the second clamping block 71 are respectively arranged at two sides of the receiving assembly 2, and the second clamping driver 72 is used for driving the second clamping block 71 to be close to or far from the second fixed block; after the conveying assembly 1 conveys the plate towards the receiving assembly 2, the first clamping block 62 is driven to move towards the first fixing block 61 by the first clamping driver 63, the second clamping block 71 is driven to move towards the second fixing block by the second clamping driver 72, one end of the plate is fixed by the first fixing block 61 and the first clamping block 62, the other end of the plate is fixed by the second fixing block and the second clamping block 71, so that the stability of the plate is improved, the plate is prevented from being displaced, and the cutting precision of the cutting machine to the plate is improved.

In this embodiment, the second fixing block and the second clamping block 71 are provided with a through groove 711 for the working end of the cutting assembly 3 to pass through, the second fixing block and the second clamping block 71 are provided with through grooves 711, and simultaneously the through grooves 711 are aligned with the cutting gaps 22, when the cutting machine cuts to the tail end of the plate, the first clamping assembly 6 and the second clamping assembly 7 can not fix the plate with shorter length at the same time, the second fixing block and the second clamping block 71 fix the plate, so that the blade 31 can pass through the through grooves 711, and further when the blade 31 cuts, the second fixing block and the second clamping block 71 act on the plates at two sides of the blade 31, thereby preventing the plate from displacement and further being helpful for improving the cutting precision of the cutting machine; in order to facilitate the realization of clamping the plate by the second fixing block and the second clamping block 71, the second fixing block and the second clamping block 71 are disposed between the two upright posts 42, and the output end of the second clamping driver 72 passes through one of the upright posts 42 and is in transmission connection with the second clamping block 71, and the second fixing block is fixedly disposed on the other upright post 42 or fixedly disposed on the first receiving plate 23 and the second receiving plate 24.

In this embodiment, the first clamping assembly 6 further includes a second slider guide rail structure 64 and a second movement driver 65, where the first clamping driver 63 and the first fixed block 61 are both fixedly disposed on a second slider (a sliding end of the second slider guide rail structure 64) of the second slider guide rail structure 64, and the second movement driver 65 drives the first fixed block 61 and the first clamping driver 63 to move in a direction along the conveying direction of the conveying assembly 1 through the second slider guide rail structure 64, so that the second slider guide rail structure 64 adopts the second slider and the second guide rail, and the second guide rail extends along the conveying direction of the conveying assembly 1, and then the first fixed block 61 and the first clamping driver 63 are disposed on the second slider, so that the second movement driver 65 drives the second slider to drive the first fixed block 61, the first clamping driver 63 and the first clamping block 62 to move together on the second guide rail, thereby realizing the function of multi-position clamping on the conveying assembly 1 by the second clamping assembly 7, and further enabling the second clamping assembly 7 to cut boards with different lengths accurately satisfying the function of cutting boards 3.

For convenience in processing, the first moving driver and the second moving driver 65 are made to adopt a screw rod module or an air cylinder, when the first moving driver and the second moving driver 65 adopt the screw rod module, a screw rod of the screw rod module is respectively in threaded connection with the first sliding block and the second sliding block, when the screw rod of the screw rod module rotates, the first sliding block and the second sliding block are made to displace under the action of threads, and the first moving driver and the second moving driver 65 can respectively drive the first sliding block and the second sliding block to directionally move.

In this embodiment, the conveying assembly 1 includes a plurality of conveying rollers, and the conveying rollers rotate to drive the plate on the conveying rollers to move, so as to achieve the effect of conveying the plate.

The foregoing description is only of the preferred embodiments of the present utility model, and is not intended to limit the utility model in any way, but any simple modification, equivalent variation and modification of the above embodiments according to the technical principles of the present utility model fall within the scope of the technical solutions of the present utility model.

Claims (10)

1. A novel planer-type cutting machine, its characterized in that: comprises a conveying component (1), a cutting component (3), a bearing component (2) and a gantry structure (4); the cutting assembly (3) is movably arranged at the bottom of the bearing assembly (2), and the gantry structure (4) is arranged above the bearing assembly (2); the receiving component (2) is arranged at the discharge end of the conveying component (1); the bottom of the bearing component (2) is provided with a cutting channel (21) for accommodating the cutting component (3), and the bearing component (2) is provided with a cutting gap (22) for the working end of the cutting component (3) to pass through.

2. The novel gantry cutter of claim 1, wherein: the bearing assembly (2) comprises a first bearing plate (23) and a second bearing plate (24), one end of the first bearing plate (23) and one end of the second bearing plate (24) are oppositely arranged, and the cutting gap (22) is located between the first bearing plate (23) and the second bearing plate (24).

3. The novel gantry cutter of claim 1, wherein: the gantry structure (4) comprises a cross beam (41) and two stand columns (42), the two stand columns (42) are respectively arranged on two sides of the bearing assembly (2), and two ends of the cross beam (41) are respectively fixedly connected with the tops of the two stand columns (42).

4. The novel gantry cutter of claim 1, wherein: the cutting assembly (3) comprises a blade (31), a cutting driver (32) and a first sliding block guide rail structure (33), wherein the blade (31) is in transmission connection with the cutting driver (32), and the first sliding block guide rail structure (33) is arranged in the cutting channel (21) and used for driving the blade (31) and the cutting driver (32) to move directionally.

5. The novel gantry cutter of claim 4, wherein: the cutting assembly (3) further comprises a first movement driver for driving the sliding end of the first slider rail structure (33) to move.

6. The novel gantry cutting machine according to claim 1, further comprising a pressing component (5), wherein the pressing component (5) is arranged on the gantry structure (4), and the working end of the pressing component (5) is movably arranged towards the supporting surface of the bearing component (2).

7. The novel gantry cutter of claim 1, wherein: further comprising a first clamping assembly (6); the first clamping assembly (6) comprises a first fixed block (61), a first clamping block (62) and a first clamping driver (63), wherein the first fixed block (61) and the first clamping block (62) are respectively arranged on two sides of the conveying direction of the conveying assembly (1), and the first clamping driver (63) is used for driving the first clamping block (62) to be close to or far away from the first fixed block (61).

8. The novel gantry cutter of claim 1, wherein: further comprising a second clamping assembly (7); the second clamping assembly (7) comprises a second fixed block, a second clamping block (71) and a second clamping driver (72), the second fixed block and the second clamping block (71) are respectively arranged on two sides of the bearing assembly (2) along the conveying direction of the conveying assembly (1), and the second clamping driver (72) is used for driving the second clamping block (71) to be close to or far away from the second fixed block.

9. The novel gantry cutter of claim 7, wherein: the first clamping assembly (6) further comprises a second slider guide rail structure (64) and a second moving driver (65), and the first clamping driver (63) and the first fixing block (61) are fixedly arranged at the sliding end of the second slider guide rail structure (64).

10. The novel gantry cutter of claim 8, wherein: through grooves (711) for the working ends of the cutting assembly (3) to pass through are formed in the second fixing block and the second clamping block (71).