CN218452673U - Numerical control cutting machine for machining ventilating duct - Google Patents

Abstract

The utility model discloses a numerical control cutting machine of air pipe processing, its structure includes: lathe cleaning device, numerical control cutting machine support arm, lathe grid platform, lathe, control platform, numerical control cutting machine head, beneficial effect: the utility model discloses newly-increased lathe cleaning device, it is rotatory through controlling a communication control starter motor, the axostylus axostyle is rotatory in the motor drive, the swing cleaning head of well axostylus axostyle bottom begins to rotate clean, and swing arm pole is rotatory round the axis pole, it offsets movable fit with the slippery fellow to rotate the ball, make the swing cleaning head of slippery fellow make a round trip to be vertical cleaning motion, at last again by controlling a control numerical control cutting aircraft nose removal, lathe cleaning device also follows numerical control cutting aircraft nose route removal and cleans, the overhead consumptive material cuttings of lathe grid under the effect of vertical and rotatory scrubbing brush again, just easily cleaned, convenient and fast.

Description

Numerical control cutting machine for machining ventilating duct

Technical Field

The utility model relates to a numerical control cutting machine of air pipe processing belongs to air pipe processing technology field.

Background

The ventilating duct is used for ventilating facilities used by industry and residents, and is a facility for reducing the concentration of harmful gases in order to make air circulate, so that the demand of the ventilating duct is more and more, and the numerical control cutting machine of the ventilating duct is continuously developed and researched, and many of the numerical control cutting machines of the ventilating duct adopt plasma cutting.

The plasma cutting of ventilation duct is to utilize plasma to be the gas of heating to high temperature and by high ionization, it will be transferred to the work piece with electric arc power, and the high heat makes the work piece melt and blown off, and this in-process again, the breadcrumbs that can produce the consumptive material more or less have certain temperature, and the breadcrumbs that just produces at first just easily glues and glues on the lathe grid platform, inconvenient clearance.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims at providing a numerical control cutting machine of air pipe processing to under the cutting of solving air pipe plasma again, the consumptive material cuttings of production because have certain temperature, glue easily and glue the problem of gluing on lathe grid platform, inconvenient clearance.

In order to achieve the above purpose, the present invention is realized by the following technical solution: the utility model provides a numerical control cutting machine of air pipe processing, its structure includes, lathe cleaning equipment, numerical control cutting machine support arm, lathe grid platform, lathe, control platform, numerical control cutting machine head, control the platform and locate the lathe right side, the lathe top is located to numerical control cutting machine support arm, and is clearance fit between the same, be equipped with the numerical control cutting machine head on the middle armed lever of numerical control cutting machine support arm, numerical control cutting machine head below is located to lathe grid platform, and both ends are connected with the lathe around the lathe grid platform, lathe cleaning equipment rear end and the cooperation of numerical control cutting machine head left end, lathe cleaning equipment includes: clean structure, motor, casing, fixed plate, fixed knob, anti-skidding buckle, the welding of casing both sides has the fixed plate, fixed knob runs through the fixed plate, and the screw thread that is equipped with on the fixed knob meshes with the screw thread notch that runs through fixed plate department mutually, anti-skidding buckle one end offsets with the casing, and the other end is connected with the fixed knob afterbody, the fixed plate is fixed with the casing through fixed knob and skidding buckle, inside clean structure and the casing were all located to the motor, the motor is fixed in the casing inner wall, the axostylus axostyle of motor bottom is connected with clean structure top, the pivot pole at clean structure top is connected with the casing is inside through the bearing, the casing top is equipped with the hole of ventilating, and rotatory fixed knob, anti-skidding buckle will inwards support numerical control cutting aircraft nose both sides, and then fixed casing, at the operation route through the start-up of controlling a control motor and numerical control cutting aircraft nose, just can make clean structure clean along the route.

The cleaning structure comprises a middle shaft rod, a swinging arm rod, a rotating ball, a sliding head block, a spring, a stabilizing frame, a stabilizing shaft rod, a movable notch, a swinging cleaning head and a rotating cleaning head, wherein the top of the middle shaft rod is connected with a rotating shaft rod at the bottom of a motor, the bottom of the middle shaft rod is connected with the top of the rotating cleaning head, the swinging arm rods are arranged on two sides of the middle shaft rod, the rotating ball is buckled at the bottom of the swinging arm rod in a rotating fit manner, the bottom of the stabilizing frame is connected with the inner wall of a machine shell, the movable notch is formed in the bottom of the stabilizing frame, the left end and the right end of the stabilizing shaft rod are connected with the inner wall of the stabilizing frame, the sliding head block is in a movable fit with the stabilizing frame through the spring and the stabilizing shaft rod, the bottom of the sliding head block penetrates through the movable notch to be connected with the top of the swinging cleaning head, the rotating cleaning head penetrates through the notch formed in the bottom of the machine shell to be matched with a grid table of the machine tool, the rotation of the middle shaft rod drives the rotating cleaning head to rotate the rotating cleaning head to clean left and right through a series of the swinging cleaning head, and the swinging cleaning mode of the swinging cleaning head is consistent with the direction of the grid table of the machine tool, and the cleaning grid table of the machine tool, so that the cleaning head is more sufficient cleaning head.

Preferably, when the swing arm lever swings, the rotating ball is movably matched with the rail notch formed in the side edge of the sliding head block, the arc-shaped rail of the sliding head block is matched with the rotating ball, and the rotating ball can better slide along the rail formed in the side surface of the sliding head block and is better movably matched.

Preferably, one end of the stable shaft rod is connected with the inner wall of the stable frame, the other end of the stable shaft rod is abutted to the contact surface of the sliding head block, the sliding head block is movably matched with the stable shaft rod, and the stable frame and the stable shaft rod are limited and assisted in structure, so that the sliding head block can stably move, and the swinging cleaning head is stably driven to clean.

Preferably, the console is connected with the control module arranged in the motor through signals, and the motor is directly controlled by the console, so that the console is convenient to control.

Advantageous effects

The utility model relates to a numerical control cutting machine of air pipe processing has following effect:

the utility model discloses newly-increased lathe cleaning device, it is rotatory through controlling a communication control starter motor, the axostylus axostyle is rotatory in the motor drive, the swing cleaning head of well axostylus axostyle bottom begins to rotate clean, and swing arm pole is rotatory round the axis pole, it offsets movable fit with the slippery fellow to rotate the ball, make the swing cleaning head of slippery fellow make a round trip to be vertical cleaning motion, at last again by controlling a control numerical control cutting aircraft nose removal, lathe cleaning device also follows numerical control cutting aircraft nose route removal and cleans, the overhead consumptive material cuttings of lathe grid under the effect of vertical and rotatory scrubbing brush again, just easily cleaned, convenient and fast.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is the utility model relates to a numerical control cutting machine's of air pipe processing structure sketch map.

Fig. 2 is a schematic cross-sectional structural view of the machine tool cleaning device of the present invention.

Fig. 3 is a schematic plan view of the machine tool cleaning device of the present invention.

Fig. 4 is a schematic sectional view of the cleaning structure of the present invention.

Fig. 5 is a schematic perspective view of the cleaning structure of the present invention.

Fig. 6 is a schematic top view of the cleaning structure of the present invention.

Fig. 7 is a schematic bottom view of the cleaning structure of the present invention.

In the figure: the machine tool cleaning device comprises a machine tool cleaning device-1, a numerical control cutting machine supporting arm-2, a machine tool grid table-3, a machine tool-4, a control table-5, a numerical control cutting machine head-6, a cleaning structure-11, a motor-12, a machine shell-13, a fixing plate-14, a fixing knob-15, an anti-skidding buckle-16, a middle shaft rod-110, a swinging arm rod-111, a rotating ball-112, a sliding head block-113, a spring-114, a fixing frame-115, a fixing shaft rod-116, a movable notch-117, a swinging cleaning head-118 and a rotating cleaning head-119.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

Referring to fig. 1 to 7, the utility model provides a numerical control cutting machine for processing ventilation duct, which comprises: lathe cleaning device 1, numerical control cutting machine support arm 2, lathe grating platform 3, lathe 4, control platform 5, numerical control cutting machine head 6, control platform 5 and locate 4 right sides of lathe, numerical control cutting machine support arm 2 locates 4 tops of lathe, and be clearance fit between the two, be equipped with numerical control cutting machine head 6 on the middle armed lever of numerical control cutting machine support arm 2, lathe grating platform 3 is located numerical control cutting machine head 6 below, and both ends are connected with lathe 4 around the lathe grating platform 3, 1 rear end of lathe cleaning device cooperates with 6 left ends of numerical control cutting machine head, lathe cleaning device 1 includes: cleaning structure 11, motor 12, casing 13, fixed plate 14, fixed knob 15, anti-skidding buckle 16, casing 13 both sides welding has fixed plate 14, fixed knob 15 runs through fixed plate 14, and the screw thread that is equipped with on the fixed knob 15 meshes with the screw thread notch that runs through fixed plate 14 department mutually, anti-skidding buckle 16 one end offsets with casing 13, and the other end is connected with fixed knob 15 afterbody, fixed plate 14 is fixed with casing 13 through fixed knob 15 and sliding buckle 16, cleaning structure 11 and motor 12 all locate inside casing 13, motor 12 is fixed in casing 13 inner wall, the axostylus axostyle of motor 12 bottom is connected with cleaning structure 11 top, the pivot pole at cleaning structure 11 top is connected with casing 13 inside through the bearing, casing 13 top is equipped with the hole of ventilating, and machine tool cleaning equipment 1 offsets with numerical control cutting aircraft nose 6 both sides through the rotation of fixed knob 15 of fixed plate 14 department, fixes whole machine tool cleaning equipment 1 at casing 13, then starts motor 12 and rotates by platform 5 communication signal start-up cleaning structure 11 at machine tool 3, and can control the clean the route of brush 5 by the control platform.

The cleaning structure 11 is composed of a central shaft rod 110, a swing arm rod 111, a rotating ball 112, a sliding head block 113, a spring 114, a stabilizing frame 115, a stabilizing shaft rod 116, a movable notch 117, a swing cleaning head 118 and a rotating cleaning head 119, wherein the top of the central shaft rod 110 is connected with a rotating shaft rod at the bottom of the motor 12, the bottom of the central shaft rod 110 is connected with the top of the rotating cleaning head 119, the swing arm rods 111 are arranged on two sides of the central shaft rod 110, the rotating ball 112 is fastened at the bottom of the swing arm rods 111 in a rotating fit mode, the bottom of the stabilizing frame 115 is connected with the inner wall of the machine shell 13, the movable notch 117 is arranged at the bottom of the stabilizing frame 115, the left end and the right end of the stabilizing shaft rod 116 are connected with the inner wall of the stabilizing frame 115, the sliding head block 113 is movably matched with the stabilizing frame 115 through the spring 114 and the stabilizing shaft rod 116, the bottom of the sliding head block 113 penetrates through the movable notch 117 to be connected with the top of the swing cleaning head 118, and the rotating cleaning head 119 penetrates through a notch arranged at the bottom of the machine grid table 3. The rotation of the motor 12 drives the middle shaft rod 110 to rotate, so that the rotating cleaning head 119 performs a rotating cleaning motion, meanwhile, the swinging arm rod 111 also rotates around the middle shaft rod 110, when the rotating ball 112 passes through the position of the sliding head block 113, the rotating ball supports against the side edge of the sliding head block 113, the sliding head block 113 is ejected outwards, the sliding head block 113 moves outwards together with the swinging cleaning head 118 at the bottom, when the rotating ball 112 reaches the middle valley position of the sliding head block 113 and continues to move, the spring 114 applies a thrust to push the sliding head block 113 towards the middle shaft rod 110, the sliding head block 113 drives the moving cleaning head 118 to move close to the middle shaft rod 110, and the swinging cleaning head 118 performs a left-right sliding cleaning, and the combination of the rotating cleaning and the left-right sliding cleaning can better clean the grid platform 3 of the machine tool

When swing arm pole 111 swung, the track notch clearance fit that rotation ball 112 and slider piece 113 side were equipped with, when swing arm pole 111 swung, can drive and rotate ball 112 and swing together, the circular arc track that rotation ball 112 was equipped with along slider piece 113 side at this moment rotates, and rotation ball 112 can support slider piece 113, make slider piece 113 outwards move, when the route that rotation ball 112 reached slider piece 113 half continues forward, spring 114 can fall slider piece 113 back, slider piece 113 returns original position, realize the reciprocal cleaning action of swing cleaning head 118.

One end of the stable shaft rod 116 is connected with the inner wall of the stable frame 115, the other end of the stable shaft rod is abutted against the contact surface of the sliding head block 113, the sliding head block 113 is movably matched with the stable shaft rod 116, and the stable frame 115 and the stable shaft rod 116 are structurally stable so that the sliding head block 113 is more stable when moving and is not easy to deviate.

Control platform 5 and motor 12 inside and be equipped with control module and pass through signal connection, motor 12 is direct by controlling platform 5 control, when lathe cleaning device 1 needs to be clean, by controlling platform 5 control numerical control cutting aircraft nose 6 and remove, lathe cleaning device 1 also can follow control numerical control cutting aircraft nose 6 and remove along the trend. The effect of mobile cleaning is achieved.

The bottom of the swinging cleaning head 118 and the rotating cleaning head 119 are provided with hard brushes which are easier to clean.

The specific realization principle is as follows:

when the numerical control cutting machine for machining the ventilation pipeline is used, firstly, the machine tool cleaning device 1 is close to the numerical control cutting machine head 6, the fixing plates 14 are placed on two sides of the numerical control cutting machine head 6, the fixing knobs 15 are screwed, and the anti-skid buckle plates 16 are pressed close to the numerical control cutting.

Claims (6)

1. A numerical control cutting machine for machining a ventilating duct structurally comprises: lathe cleaning device (1), numerical control cutting machine support arm (2), lathe grid platform (3), lathe (4), control platform (5), numerical control cutting machine head (6), its characterized in that:

the control table (5) is arranged on the right side of the machine tool (4), the numerical control cutting machine supporting arm (2) is arranged above the machine tool (4) and is in movable fit with the machine tool, a numerical control cutting machine head (6) is arranged on a middle arm rod of the numerical control cutting machine supporting arm (2), the machine tool grating table (3) is arranged below the numerical control cutting machine head (6), the front end and the rear end of the machine tool grating table (3) are connected with the machine tool (4), and the rear end of the machine tool cleaning equipment (1) is matched with the left end of the numerical control cutting machine head (6);

the machine tool cleaning device (1) comprises: clean structure (11), motor (12), casing (13), fixed plate (14), fixed knob (15), anti-skidding buckle (16), casing (13) both sides welding has fixed plate (14), fixed knob (15) run through fixed plate (14), and the screw thread that is equipped with on fixed knob (15) meshes with the screw thread notch that runs through fixed plate (14) department mutually, anti-skidding buckle (16) one end offsets with casing (13), and the other end is connected with fixed knob (15) afterbody, fixed plate (14) are fixed with casing (13) through fixed knob (15) and hasp board (16), inside casing (13) is all located to clean structure (11) and motor (12), motor (12) are fixed in casing (13) inner wall, the axostylus axostyle of motor (12) bottom is connected with clean structure (11) top, the pivot pole at clean structure (11) top is connected with casing (13) inside through the bearing, casing (13) top is equipped with the hole of ventilating.

2. A numerical control cutting machine for processing ventilation ducts according to claim 1, characterized in that: the cleaning structure (11) consists of a central shaft rod (110), a swing arm rod (111), a rotating ball (112), a sliding head block (113), a spring (114), a stabilizing frame (115), a stabilizing shaft rod (116), a movable notch (117), a swing cleaning head (118) and a rotary cleaning head (119), the top of the middle shaft lever (110) is connected with a rotating shaft lever at the bottom of the motor (12), the bottom of the middle shaft lever (110) is connected with the top of the rotary cleaning head (119), swing arm rods (111) are arranged on two sides of the middle shaft lever (110), the rotating ball (112) is buckled at the bottoms of the swing arm rods (111), and are in running fit with each other, the bottom of the stabilizing frame (115) is connected with the inner wall of the machine shell (13), the movable notch (117) is arranged at the machine shell (13) at the bottom of the stable frame (115), the left end and the right end of the stabilizing shaft lever (116) are connected with the inner wall of the stabilizing frame (115), the sliding head block (113) is movably matched with the stabilizing frame (115) through a spring (114) and a stabilizing shaft lever (116), the bottom of the sliding head block (113) passes through the movable notch (117) and is connected with the top of the swinging cleaning head (118), the rotary cleaning head (119) penetrates through a notch formed in the bottom of the machine shell (13) to be matched with the grid table (3) of the machine tool.

3. A numerical control cutting machine for processing ventilation ducts according to claim 2, characterized in that: when the swing arm rod (111) swings, the rotary ball (112) is movably matched with a track notch arranged on the side edge of the sliding head block (113).

4. A numerical control cutting machine for processing ventilation ducts according to claim 2, characterized in that: one end of the stabilizing shaft lever (116) is connected with the inner wall of the stabilizing frame (115), the other end of the stabilizing shaft lever is propped against the contact surface of the sliding head block (113), and the sliding head block (113) is movably matched with the stabilizing shaft lever (116).

5. A numerical control cutting machine for processing ventilation ducts according to claim 1, characterized in that: the console (5) is connected with the motor (12) through a control module arranged inside the console through signals.

6. A numerical control cutting machine for processing ventilation ducts according to claim 2, characterized in that: the bottoms of the swinging cleaning head (118) and the rotating cleaning head (119) are provided with hard brushes.

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