CN114346734B

CN114346734B - Cutting device for metal material processing

Info

Publication number: CN114346734B
Application number: CN202210003316.0A
Authority: CN
Inventors: 高猛
Original assignee: Jiangsu Kaile Metal Technology Co ltd
Current assignee: Jiangsu Kaile Metal Technology Co ltd
Priority date: 2022-01-04
Filing date: 2022-01-04
Publication date: 2023-03-31
Anticipated expiration: 2042-01-04
Also published as: CN114346734A

Abstract

The invention provides a cutting device for metal material processing, which relates to the technical field of metal material processing and comprises metal cutting equipment and a limiting base, wherein the metal cutting equipment is arranged in the limiting base and comprises a servo motor shell, a cutting blade, an extending handle, a balance supporting rod, a butt joint framework, a primary regulating and controlling device and a sliding framework, and one end of the servo motor shell is connected in the cutting blade. The metal cutting equipment disclosed by the invention has the advantages that the mode of combining the butt joint framework and the primary regulation and control device is adopted, so that the whole cutting equipment can be freely regulated according to the use requirement, the steering range can be close to one hundred eighty degrees, the steering range is larger compared with that of a common cutting machine, and meanwhile, the mode of connecting the butt joint framework and the primary regulation and control device has the function of steering in a large range, the stability of the whole structure is still kept, and the fixing by an operator is facilitated.

Description

Cutting device for metal material processing

Technical Field

The invention relates to the technical field of metal material processing, in particular to a cutting device for metal material processing.

Background

With the development of the modern machining industry, the requirements on the cutting quality and precision are continuously improved, and the requirements on improving the production efficiency, reducing the production cost and having a high-intelligent automatic cutting function are also improved.

However, in the prior art, the existing metal cutting is usually completed by using large-scale cutting equipment and small-scale grinding equipment together, wherein the large-scale cutting equipment mainly completes the decomposition of materials, and the grinding equipment completes the subsequent processing, so that the mode needs to continuously replace operating tools for operators, the thought of the operators is easily disturbed by long-time use, the operators are easily distracted by frequent replacement of the operating tools, and certain limitation exists.

Disclosure of Invention

The invention aims to solve the defects in the prior art, the metal cutting equipment adopts a mode of combining a butt joint framework and a primary regulation and control device for use, so that the whole cutting equipment can be freely adjusted according to the use requirement, the steering range can be close to one hundred eighty degrees, the steering range is larger compared with a common cutting machine, and meanwhile, the butt joint framework and the primary regulation and control device are connected in a mode of having a large-range steering function, the stability of the whole structure is still kept, and the operation personnel can conveniently fix the metal cutting equipment.

In order to achieve the purpose, the invention adopts the following technical scheme: the utility model provides a cutting device is used in metal material processing, includes metal cutting equipment and restriction base, the inside at the restriction base is installed to metal cutting equipment, metal cutting equipment includes servo motor shell, cutting blade, extends handle, balanced branch, butt joint framework, elementary regulation and control device and slip framework, the inside at the cutting blade is connected to the one end of servo motor shell, the inside at the servo motor shell is connected to the one end of extending the handle, balanced branch installs the other end at the servo motor shell, the ground step at the servo motor shell is installed to the butt joint framework, the top at elementary regulation and control device is installed to the butt joint framework, the both sides at elementary regulation and control device are installed to the slip framework.

As a preferred embodiment, the docking framework includes a receiving docking box and a limiting screw, one end of the limiting screw is connected to the inside of the receiving docking box, a docking through hole is formed in the receiving docking box, a positioning groove is formed at the joint of the docking through hole and the receiving docking box, and the positioning groove and the limiting screw are located on the same straight line.

The beneficial effect of adopting the further scheme is that: make whole cutting equipment can freely adjust according to the user demand, turn to the scope and can approach to one hundred eighty degrees, compare in ordinary cutting machine, turn to the scope bigger.

As a preferred embodiment, elementary regulation and control device includes main load-bearing platform, main load-bearing platform's top is provided with the grafting flat board, the through-hole has been seted up to the dull and stereotyped inside of grafting, main load-bearing platform's both sides all are provided with the support bull stick, the both ends of supporting the bull stick all are provided with the connection pivot, main load-bearing platform's bottom is provided with the accent to the piece, the inside of transferring to the piece is provided with main pivot, be provided with hexagon angle block on the outer wall of main pivot.

The beneficial effect of adopting the above further scheme is: the cutting of the flat plate material can be completed from the longitudinal direction, and the grinding of some metal parts can be completed in the transverse direction.

As a preferred embodiment, a switching groove is formed in the main bearing platform, a limiting path is arranged on the inner wall of the switching groove, a bearing panel is arranged at a port of the limiting path, and a central port is arranged in the bearing panel.

The beneficial effect of adopting the further scheme is that: whole metal cutting equipment can freely adjust according to the user demand, when possessing and turning to the function on a large scale, has still kept overall structure's stability, makes things convenient for operating personnel to fix.

As a preferred embodiment, the sliding framework comprises a storage shell, a rotating connecting belt, a positioning shaft rod and a flat panel, the rotating connecting belt is installed inside the storage shell, the positioning shaft rod is installed at two ends of the rotating connecting belt, the flat panel is installed at the central part of the rotating connecting belt, and one end of the positioning shaft rod and one end of the flat panel are both connected to the inner wall of the storage shell.

The beneficial effect of adopting the above further scheme is: what change when the operation is the position of cutting equipment, and the mode that need not again through manual handling changes the position of metal material to the degree of difficulty of cutting metal material has been reduced.

As a preferred embodiment, the top of the insertion plate is connected inside the docking through hole, and one end of the limiting screw penetrates through the insertion plate and is connected inside the positioning groove.

The beneficial effect of adopting the above further scheme is: in the actual operation process, two operation modes can be selected according to different types of cutting targets.

As a preferred embodiment, the supporting rotation rod is connected with the housing case through a connecting rotation shaft, the other supporting rotation rod is connected with the limiting path through a connecting rotation shaft, and the other side of the rotating connection belt is connected inside the limiting base.

The beneficial effect of adopting the above further scheme is: the effect similar to a crawler belt is achieved, and therefore the whole metal cutting equipment is driven to complete the position adjustment through the storage shell.

Compared with the prior art, the invention has the advantages and positive effects that,

1. according to the metal cutting equipment, the butt joint framework and the primary regulation and control device are combined for use, so that the whole cutting equipment can be freely adjusted according to use requirements, the steering range can be close to one hundred and eighty degrees, the steering range is larger compared with a common cutting machine, the stability of the whole structure is still kept while the large-range steering function is achieved due to the connection mode of the butt joint framework and the primary regulation and control device, an operator can conveniently fix the metal cutting equipment, the cutting of flat plate materials can be longitudinally completed, polishing of some metal parts can be horizontally completed, different cutting operations can be completed on different metal materials by the metal cutting equipment, and the integral practicability is higher compared with a traditional cutting machine or a traditional grinding machine.

2. According to the metal cutting machine, the primary regulation and control device is connected with the sliding framework through the supporting rotating rod and used for matching with steering of metal cutting equipment, the sliding framework is connected inside the limiting base, two operation modes can be selected according to different cutting target types in the actual operation process, one mode is that the primary regulation and control device can be taken down from the limiting base and used through the extending holding rods and the balance supporting rods at two ends, the cutting equipment can be conveniently taken by an operator at any time, compared with the cutting machine with a single handle, the safety performance of the cutting machine is changed, the probability of contacting a cutting blade can be effectively reduced when the cutting equipment is taken, the other mode is that the metal cutting equipment moves on the limiting base, the position of the cutting equipment is changed during operation, the position of the metal material does not need to be changed in a manual carrying mode, and therefore the difficulty of cutting the metal material is reduced.

Drawings

Fig. 1 is a perspective view of a cutting apparatus for processing a metal material according to the present invention;

FIG. 2 is a schematic structural diagram of a metal cutting apparatus of a cutting device for processing metal materials according to the present invention;

FIG. 3 is a schematic structural diagram of a docking structure of a cutting apparatus for processing a metal material according to the present invention;

FIG. 4 is a schematic structural diagram of a primary regulating and controlling device of a cutting device for processing a metal material according to the present invention;

FIG. 5 is a schematic structural view of a main carrying platform in a primary regulating device of a cutting device for processing metal materials according to the present invention;

fig. 6 is a schematic structural view of a sliding frame of a cutting device for processing a metal material according to the present invention.

Illustration of the drawings:

1. a metal cutting device; 2. a restraint base;

11. a servo motor housing; 12. a cutting insert; 13. an extended grip; 14. a balance strut; 15. a docking architecture; 16. a primary regulation device; 17. a sliding framework;

151. receiving a butt joint box body; 152. a restraining screw; 153. butting the through holes; 154. a positioning groove;

161. a main load-bearing platform; 162. inserting a flat plate; 163. supporting the rotating rod; 164. connecting the rotating shaft; 165. a direction adjusting block; 166. a main rotating shaft; 167. a hexagonal corner block;

1611. a transfer groove; 1612. limiting the path; 1613. receiving a panel; 1614. a central port;

171. a housing; 172. rotating the connecting belt; 173. positioning the shaft lever; 174. and (6) flattening the panel.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Example 1

As shown in fig. 1-2, the present invention provides a technical solution: the utility model provides a cutting device is used in metal material processing, including metal cutting equipment 1 and restriction base 2, metal cutting equipment 1 is installed in the inside of restriction base 2, metal cutting equipment 1 includes servo motor shell 11, cutting blade 12, extend handle 13, balanced branch 14, butt joint framework 15, elementary regulation and control device 16 and slip framework 17, the inside at cutting blade 12 is connected to the one end of servo motor shell 11, the inside at servo motor shell 11 is connected to the one end that extends handle 13, balanced branch 14 is installed at the other end of servo motor shell 11, butt joint framework 15 is installed at the ground step of servo motor shell 11, butt joint framework 15 is installed at the top of elementary regulation and control device 16, slip framework 17 is installed in the both sides of elementary regulation and control device 16.

In this embodiment, the cutting blade 12 in the metal cutting device 1 is mainly driven by a servo motor, the servo motor is disposed inside the servo motor housing 11, the extension handle 13 and the balance rod 14 are respectively located at the front end and the rear end of the servo motor housing 11, and are used as additional force application points, in the actual operation process, the primary regulation and control device 16 can drive the whole metal cutting device 1 to rotate, the butt joint framework 15 keeps the whole structure in a stable state in the rotation process, and the sliding framework 17 can drive the whole metal cutting device 1 to move along the limiting base 2, so that the device is compared with a traditional cutting machine, the practicability is better, and the requirements of different types of processing operations can be met.

Example 2

As shown in fig. 2 and 3, the docking structure 15 includes a receiving docking box 151 and a limiting screw 152, one end of the limiting screw 152 is connected to the receiving docking box 151, a docking through hole 153 is formed in the receiving docking box 151, a positioning groove 154 is formed at a junction of the docking through hole 153 and the receiving docking box 151, and the positioning groove 154 and the limiting screw 152 are located on the same straight line.

In this embodiment, the limiting screw 152 gradually enters the inside of the containing and docking box 151 by rotating, the docking through hole 153 is used for positioning the primary regulation and control device 16 to be located at the central part of the whole device, so that the device has two different operation modes, one mode is that the metal cutting device 1 can be taken down from the limiting base 2 for use, the other mode is that the metal cutting device 1 is installed on the limiting base 2 for use in a moving manner, and the positioning groove 154 plays a role of fixing the limiting screw 152 when the metal cutting device 1 is installed, so that an operator can conveniently fix the limiting screw 152.

Example 3

As shown in fig. 1, 2, 4 and 6, the primary regulation and control device 16 includes a main bearing platform 161, a plugging flat plate 162 is disposed on the top of the main bearing platform 161, a through hole is formed in the plugging flat plate 162, support rotating rods 163 are disposed on both sides of the main bearing platform 161, connection rotating shafts 164 are disposed on both ends of each support rotating rod 163, a direction adjusting block 165 is disposed on the bottom of the main bearing platform 161, a main rotating shaft 166 is disposed in the direction adjusting block 165, a hexagonal corner dividing block 167 is disposed on the outer wall of the main rotating shaft 166, a switching groove 1611 is formed in the main bearing platform 161, a limiting path 1612 is disposed on the inner wall of the switching groove 1611, a receiving panel 1613 is disposed at a port of the limiting path 1612, a central port 1614 is disposed in the receiving panel 1613, the top of the plugging flat plate 162 is connected in the docking through hole 153, and one end of the limiting screw 152 penetrates through the plugging flat plate 162 and is connected in the positioning groove 154.

In the present embodiment, when the primary control device 16 is installed, the plugging plate 162 is first inserted into the docking through hole 153, then the limiting screw 152 penetrates through the plugging plate 162 and is connected into the receiving docking box 151 to complete fixation, then the main rotating shaft 166 is rotated, the main rotating shaft 166 divides the entire rotating angle into six sixty-degree small ranges through the hexagonal angle-dividing block 167, so that angle fixation is facilitated, when the main bearing platform 161 rotates, the connecting rotating shaft 164 moves along the limiting path 1612, and the connecting rotating shaft 164 rotates synchronously in cooperation with the supporting rotating rod 163, when the connecting rotating shaft 164 moves to the receiving panel 1613, the maximum rotating angle is reached, the central port 1614 completes docking with the connecting rotating shaft 164, at this time, the entire metal cutting apparatus 1 cannot rotate further, the entire metal cutting apparatus 1 can be freely adjusted according to the use requirements, the rotating range can approach to one hundred eighty degrees, compared with a common cutting machine, the rotating range is larger, the cutting of the flat plate material can be completed longitudinally, and the grinding of some metal parts can be completed transversely, compared with a conventional cutting machine or a grinding machine, and the entire cutting machine has higher practicability.

Example 4

As shown in fig. 1, 2 and 5, the sliding framework 17 includes a receiving housing 171, a rotation connecting band 172, a positioning shaft 173 and a leveling plate 174, the rotation connecting band 172 is installed inside the receiving housing 171, the positioning shaft 173 is installed at both ends of the rotation connecting band 172, the leveling plate 174 is installed at the center of the rotation connecting band 172, one end of the positioning shaft 173 and one end of the leveling plate 174 are both connected to the inner wall of the receiving housing 171, a supporting rotating rod 163 is connected to the receiving housing 171 through a connecting rotating shaft 164, the other supporting rotating rod 163 is connected to a limiting path 1612 through a connecting rotating shaft 164, and the other side of the rotation connecting band 172 is connected to the inside of the limiting base 2.

In this embodiment, the sliding framework 17 mainly comprises a rotating connecting band 172, a positioning shaft 173 and a flat panel 174, the flat panel 174 primarily determines the overall range and shape of the flat panel, the positioning shaft 173 determines the position of the end of the rotating connecting band 172, the rotating connecting band 172 starts to rotate around the positioning shaft 173 and the flat panel 174 during use, and the effect similar to that of a crawler belt is achieved, so that the whole metal cutting device 1 is driven by the storage shell 171 to complete the position adjustment, the position of the metal cutting device 1 is changed in this way, and the position of the metal material does not need to be changed in a manual carrying way, and the difficulty in cutting the metal material is reduced.

The working principle is as follows:

as shown in fig. 1-6, the cutting blade 12 of the metal cutting device 1 is mainly driven by a servo motor disposed inside the servo motor housing 11, the extending handle 13 and the balance rod 14 are respectively disposed at the front and rear ends of the servo motor housing 11, and are used as additional force application points, during the actual operation process, the primary control device 16 can drive the whole metal cutting device 1 to rotate, the docking structure 15 keeps the whole structure in a stable state during the rotation process, the sliding structure 17 can drive the whole metal cutting device 1 to move along the restriction base 2, so as to meet the requirements of different types of processing operations, the device has two different operation modes, one is to take the metal cutting device 1 off from the restriction base 2 for use, another way is that the metal cutting device 1 is mounted on the limiting base 2 for moving use, when the primary regulation and control device 16 is mounted, the insertion flat plate 162 is inserted into the docking through hole 153, then the limiting screw 152 penetrates through the insertion flat plate 162 and is connected into the receiving and docking box 151 to complete fixation, then the main rotating shaft 166 is rotated, the whole rotating angle is divided into six sixty-degree small ranges by the hexagonal angle-dividing block 167 by the main rotating shaft 166, the connecting rotating shaft 164 moves along the limiting path 1612 when the main bearing platform 161 rotates, the connecting rotating shaft 164 is matched with the supporting rotating rod 163 to rotate synchronously, when the connecting rotating shaft 164 moves to the bearing panel 1613, the maximum rotating angle is reached, the central port 1614 completes docking with the connecting rotating shaft 164, at this time, the whole metal cutting device 1 cannot perform further angular rotation, the rotating range can approach to one hundred eighty degrees, the sliding framework 17 mainly comprises a rotating connecting band 172, a positioning shaft 173 and a flat panel 174, the flat panel 174 primarily determines the whole range and shape of the rotating connecting band, the positioning shaft 173 determines the position of the end opening of the rotating connecting band 172, and when the sliding framework is used, the rotating connecting band 172 starts to rotate around the positioning shaft 173 and the flat panel 174 to achieve the effect similar to a crawler, so that the whole metal cutting equipment 1 is driven by the accommodating shell 171 to complete the position adjustment.

The above description is only a preferred embodiment of the present invention, and not intended to limit the present invention in other forms, and any person skilled in the art may apply the above modifications or changes to the equivalent embodiments with equivalent changes, without departing from the technical spirit of the present invention, and any simple modification, equivalent change and change made to the above embodiments according to the technical spirit of the present invention still belong to the protection scope of the technical spirit of the present invention.

Claims

1. The utility model provides a cutting device for metal material processing, includes metal cutting equipment (1) and restriction base (2), the inside at restriction base (2) is installed in metal cutting equipment (1), its characterized in that: the metal cutting equipment (1) comprises a servo motor shell (11), a cutting blade (12), an extension handle (13), a balance support rod (14), a butt joint framework (15), a primary regulation and control device (16) and a sliding framework (17), wherein one end of the servo motor shell (11) is connected to the inside of the cutting blade (12), one end of the extension handle (13) is connected to the inside of the servo motor shell (11), the balance support rod (14) is installed at the other end of the servo motor shell (11), the butt joint framework (15) is installed at the bottom of the servo motor shell (11), the butt joint framework (15) is installed at the top of the primary regulation and control device (16), and the sliding framework (17) is installed on two sides of the primary regulation and control device (16);

the butt joint framework (15) comprises a receiving butt joint box body (151) and a limiting screw rod (152), one end of the limiting screw rod (152) is connected to the inside of the receiving butt joint box body (151), a butt joint through hole (153) is formed in the receiving butt joint box body (151), a positioning groove (154) is formed in the joint of the butt joint through hole (153) and the receiving butt joint box body (151), and the positioning groove (154) and the limiting screw rod (152) are located on the same straight line;

the primary regulation and control device (16) comprises a main bearing platform (161), an inserting flat plate (162) is arranged at the top of the main bearing platform (161), a through hole is formed in the inserting flat plate (162), supporting rotating rods (163) are arranged on two sides of the main bearing platform (161), connecting rotating shafts (164) are arranged at two ends of each supporting rotating rod (163), a direction adjusting block (165) is arranged at the bottom of the main bearing platform (161), a main rotating shaft (166) is arranged in the direction adjusting block (165), and a hexagonal angle dividing block (167) is arranged on the outer wall of the main rotating shaft (166);

a switching groove (1611) is formed in the main bearing platform (161), a limiting path (1612) is arranged on the inner wall of the switching groove (1611), a bearing panel (1613) is arranged at a port of the limiting path (1612), and a central port (1614) is formed in the bearing panel (1613);

the sliding framework (17) comprises a storage shell (171), a rotary connecting belt (172), positioning shaft rods (173) and a flat panel (174), wherein the rotary connecting belt (172) is installed inside the storage shell (171), the positioning shaft rods (173) are installed at two ends of the rotary connecting belt (172), the flat panel (174) is installed at the central part of the rotary connecting belt (172), and one ends of the positioning shaft rods (173) and the flat panel (174) are connected to the inner wall of the storage shell (171);

the top of the inserting flat plate (162) is connected to the inside of the butt joint through hole (153), and one end of the limiting screw rod (152) penetrates through the inserting flat plate (162) and is connected to the inside of the positioning groove (154);

the supporting rotating rod (163) is connected with the containing shell (171) through a connecting rotating shaft (164), the other end of the supporting rotating rod (163) is connected with a limiting path (1612) through the connecting rotating shaft (164), and the other side of the rotating connecting belt (172) is connected inside the limiting base (2);

the metal cutting equipment (1) can be freely adjusted according to use requirements, the turning range can approach to one hundred and eighty degrees, and the metal cutting equipment can cut flat plate materials longitudinally and finish grinding of some metal parts transversely.