CN219504275U

CN219504275U - High-speed chamfering machine

Info

Publication number: CN219504275U
Application number: CN202320582854.XU
Authority: CN
Inventors: 杨宇华
Original assignee: Shenzhen Huatai Automation Technology Co ltd
Current assignee: Shenzhen Huatai Automation Technology Co ltd
Priority date: 2023-03-13
Filing date: 2023-03-13
Publication date: 2023-08-11
Anticipated expiration: 2033-03-13

Abstract

The utility model provides a high-speed chamfering machine, which relates to the technical field of chamfering processing and comprises a cleaning assembly and a chamfering assembly, wherein clamping feeding components assembled by bolts are arranged above two ends of the cleaning assembly, the chamfering assembly which is fixedly inserted with the clamping feeding components is connected above the rear side of the cleaning assembly by bolts, and the chamfering assembly comprises a rear plate, a slotting cabin, a sleeving plate, a rear cylinder, a telescopic strip, a rotary sleeve, a swinging block and a pneumatic telescopic rod; according to the utility model, the side plates are matched with the upper sliding bars to control the lifting and opening of the door plate, and as the door plate, the side plates and the rear plate can form a relatively closed space, when the product on the clamping feeding component is chamfered under the common matching of the isolating sleeve, the gearbox, the servo motor, the gear set and the chamfer wheel, the waste can be smoothly input into the cleaning box from the grid cover for maintenance, so that a user can efficiently treat the waste in a recycling way, and the environmental hazard caused by splashing of the waste is avoided.

Description

High-speed chamfering machine

Technical Field

The utility model relates to the technical field of chamfering, in particular to a high-speed chamfering machine.

Background

The chamfering machine is a small-sized precision machine tool which is specially used for manufacturing dies, hardware machines, machine tool manufacturing, hydraulic parts, valve manufacturing, chamfering of textile machines, deburring, milling, planing and other processing modes, adopts a rapid machine chamfering mode as a trend of development of the mechanical industry, overcomes the processing defects of the traditional machines and electric tools, has the advantages of convenience, rapidness and accuracy, and is the best choice for chamfering and cutting of metal objects.

When the existing chamfering machine is used, the processing principle of removing burrs of a product is generally adopted by milling, planing and other processing modes, as disclosed in application number CN202122713128.0, the high-speed composite chamfering machine for aluminum materials comprises a machine body, wherein one side of the machine body is provided with an air pump, and a guide pipe is inserted into the air pump; a spray head is inserted into one side of the outer surface of the machine body, the spray head is communicated with the guide pipe, and a partition board is fixedly connected to the other side of the machine body; however, in the above-mentioned technique, the nozzle is exposed, and a large amount of scrap particles are generated during chamfering process, which is unfavorable for recycling of metal scraps, so the present utility model proposes a high-speed chamfering machine to solve the problems in the prior art.

Disclosure of Invention

In view of the above problems, the utility model provides a high-speed chamfering machine, which mainly utilizes a side plate to be matched with an upper sliding rod for controlling the lifting and opening and closing of a door plate, and because the door plate, the side plate and a rear plate can form a relatively closed space, when a product on a clamping feeding component is subjected to chamfering under the joint matching of a spacer sleeve, a gearbox, a servo motor, a gear set and a chamfer wheel, waste can be smoothly input into a cleaning box from a grid cover for maintenance, so that a user can efficiently treat the waste for recycling, and the environmental hazard caused by splashing of the waste is avoided.

In order to achieve the purpose of the utility model, the utility model is realized by the following technical scheme: the high-speed chamfering machine comprises a cleaning assembly and a chamfering assembly, wherein clamping feeding components assembled by bolts are arranged above two ends of the cleaning assembly, and the chamfering assembly which is fixedly spliced with the clamping feeding components is connected above the rear side of the cleaning assembly by bolts;

the chamfering assembly comprises a rear plate, a slotting cabin, a sleeving plate, a rear cylinder, a telescopic rod, a rotary sleeve, a swinging block, a pneumatic telescopic rod, a spacer sleeve, a gearbox, a servo motor, a gear set and a chamfering wheel, wherein the rear plate is arranged above the rear side of the cleaning assembly, the slotting cabin is arranged on one side of the rear plate, the sleeving plate is arranged at one end of the slotting cabin, the telescopic rod connected with the output end of the rear cylinder is arranged on the inner side of the sleeving plate, the rotary sleeve is arranged at one end of the telescopic rod, the swinging block is arranged at the inner end of the rotary sleeve, the spacer sleeve is connected with the output end of the swinging block through the pneumatic telescopic rod, the gearbox connected with the output end of the servo motor is arranged above the spacer sleeve, the gear set is arranged inside the gearbox, and the output end of the gear set penetrates through the gearbox and the spacer sleeve to be connected with the chamfering wheel.

In a preferred embodiment of the present utility model, the rotary sleeve and the swinging block are connected by an electric damping hinge, and the ratio of the input end to the output end of the gear set is at least two to one.

As a preferred embodiment of the present utility model, the cleaning assembly includes a supporting pad, a supporting plate, a bottom groove, a duct frame, a cleaning box and a grid cover, the supporting pad is provided with the supporting plate on the top side, the bottom groove is provided on the top side of the supporting plate, the duct frame is provided on the top side of the bottom groove, the cleaning box connected in a sleeved mode is provided inside the duct frame, and the grid cover is provided on the inner side above the duct frame.

As a preferred embodiment of the utility model, the clamping feeding component comprises side plates, sliding rods, a door plate, a control panel, a lower supporting strip, a bolt base, a rotary disk, a pneumatic lifting table, an upper supporting strip, a lamp plate, a top base, a top cylinder, a rotary motor and a pressure plate, wherein the side plates are arranged above two sides of the bottom groove, the side plates are in sliding connection with the door plate through the sliding rods, and the control panel is arranged on the front side of the door plate.

As a preferred embodiment of the utility model, a lower supporting strip is arranged on the lower inner side of the side plate, a bolt base is arranged at the inner end of the lower supporting strip, a rotary disk is arranged on the top side of the bolt base, and a pneumatic lifting table is arranged on the top side of the rotary disk.

As a preferred implementation mode of the utility model, an upper supporting strip is arranged on the upper inner side of the side plate, a top base is arranged at the inner end of the upper supporting strip, a lamp panel is arranged on the inner side of the upper supporting strip, a rotating motor connected with the output end of a top cylinder is arranged below the top base, and the output end of the rotating motor is connected with a pressure plate.

The beneficial effects of the utility model are as follows:

according to the utility model, the side plates are matched with the upper sliding bars to control the lifting and opening of the door plate, and as the door plate, the side plates and the rear plate can form a relatively closed space, when the product on the clamping feeding component is chamfered under the common matching of the isolating sleeve, the gearbox, the servo motor, the gear set and the chamfer wheel, the waste can be smoothly input into the cleaning box from the grid cover for maintenance, so that a user can efficiently treat the waste in a recycling way, and the environmental hazard caused by splashing of the waste is avoided.

Drawings

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

FIG. 2 is a schematic bottom perspective view of the present utility model;

FIG. 3 is a schematic view of the internal perspective structure of the present utility model;

FIG. 4 is a schematic perspective view of a clamping feed member of the present utility model;

FIG. 5 is a schematic perspective view of a chamfer assembly of the present utility model;

FIG. 6 is a schematic diagram of a servo motor and gear set according to the present utility model.

Wherein: 1. cleaning the assembly; 101. a support pad; 102. a supporting plate; 103. a bottom groove; 104. a duct frame; 105. cleaning the box; 106. a mesh cover; 2. clamping the feeding component; 201. a side plate; 202. a slide bar; 203. a door panel; 204. a control panel; 205. a lower supporting strip; 206. a bolt base; 207. a rotating disc; 208. a pneumatic lifting table; 209. a supporting strip is arranged; 2010. a lamp panel; 2011. a top base; 2012. a cylinder is arranged at the top; 2013. a rotating electric machine; 2014. a pressure plate; 3. chamfering component; 301. a rear plate; 302. slotting cabin; 303. sleeving a plate; 304. a rear cylinder; 305. a telescoping strip; 306. a rotating sleeve; 307. a swinging block; 308. a pneumatic telescopic rod; 309. a spacer sleeve; 3010. a gearbox; 3011. a servo motor; 3012. a gear set; 3013. chamfering wheel.

Detailed Description

The present utility model will be further described in detail with reference to the following examples, which are only for the purpose of illustrating the utility model and are not to be construed as limiting the scope of the utility model.

According to fig. 1-4, the embodiment provides a high-speed chamfering machine, which comprises a cleaning component 1 and a chamfering component 3, wherein clamping feeding components 2 assembled by bolts are arranged above two ends of the cleaning component 1, and the chamfering component 3 which is fixedly inserted with the clamping feeding components 2 is connected above the rear side of the cleaning component 1 by bolts;

the chamfering assembly 3 comprises a rear plate 301, a slotting cabin 302, a sleeving plate 303, a rear cylinder 304, a telescopic strip 305, a rotary sleeve 306, a swinging block 307, a pneumatic telescopic rod 308, a spacer 309, a gearbox 3010, a servo motor 3011, a gear set 3012 and chamfering wheels 3013, wherein the rear plate 301 is arranged above the rear side of the cleaning assembly 1, the slotting cabin 302 is arranged on one side of the rear plate 301, the sleeving plate 303 is arranged at one end of the slotting cabin 302, the telescopic strip 305 connected with the output end of the rear cylinder 304 is arranged at the inner side of the sleeving plate 303, the rotary sleeve 306 is arranged at one end of the telescopic strip 305, the swinging block 307 is arranged at the inner end of the rotary sleeve 306, one end of the swinging block 307 is connected with the spacer 309 through the output end of the pneumatic telescopic rod 308, the gearbox 3010 connected with the output end of the servo motor 3011 is arranged above the spacer 309, the gear set 3012 is arranged in the gearbox 3010, and the output end of the gear set 3012 penetrates through the gearbox 3010 and the spacer 3013 is connected with the chamfering wheels 309.

An electrically damped hinge connection is provided between the swivel housing 306 and the swinging block 307, with a ratio of at least two to one of the input to the output of the gear set 3012.

In this embodiment, the output power of the post-cylinder 304 is started to drive the output end of the post-cylinder 304 to operate, so that the output end of the post-cylinder 304 drives the telescopic strip 305 to extend, the swinging block 307 can be adjusted to a position suitable for chamfering under the mutual cooperation of the telescopic strip 305 and the rotating sleeve 306, then the output end of the pneumatic telescopic rod 308 drives the isolation sleeve 309 and the chamfering wheel 3013 to operate to a final chamfering position, and then the output power of the servo motor 3011 drives the output end of the servo motor 3011 to drive the gear set 3012 inside the gearbox 3010 to carry out meshing transmission, and the chamfering wheel 3013 on the isolation sleeve 309 is driven to carry out chamfering treatment on a product clamped by the clamping feeding component 2 through the meshing transmission of the gear set 3012.

The cleaning assembly 1 comprises a supporting pad 101, a supporting plate 102, a bottom groove 103, a duct frame 104, a cleaning box 105 and a grid cover 106, wherein the supporting plate 102 is arranged on the top side of the supporting pad 101, the bottom groove 103 is arranged on the top side of the supporting plate 102, the duct frame 104 is arranged on the top side of the bottom groove 103, the cleaning box 105 which is connected in a sleeved mode is arranged in the duct frame 104, and the grid cover 106 is arranged on the upper inner side of the duct frame 104.

In this embodiment, when chamfering wheel 3013 chamfer the product held by holding feeding member 2, a large amount of waste will be produced, and the waste falls into cleaning box 105 through grid cover 106, and when the product is taken down through pneumatic lifting table 208 after opening door panel 203 at the end, cleaning box 105 is operated in a sliding manner, and cleaning box 105 is brought out of the waste to achieve the effect of treatment.

The clamping feeding component 2 comprises a side plate 201, sliding rods 202, a door plate 203, a control panel 204, a lower supporting strip 205, a bolt base 206, a rotating disc 207, a pneumatic lifting table 208, an upper supporting strip 209, a lamp plate 2010, a top base 2011, a top cylinder 2012, a rotating motor 2013 and a pressure plate 2014, wherein the side plate 201 is arranged above two sides of the bottom groove 103, the side plate 201 is in sliding connection with the door plate 203 through the sliding rods 202, and the front side of the door plate 203 is provided with the control panel 204.

In this embodiment, after that, the door 203 is engaged with the slide bar 202 by the handle of the door 203, the door 203 is closed at the front end of the side plate 201, and then the control panel 204 on the door 203 is used to output instructions to chamfer the product using the equipment.

The lower inside of the side plate 201 is provided with a lower supporting strip 205, and the inner end of the lower supporting strip 205 is provided with a bolt base 206, the top side of the bolt base 206 is provided with a rotary disk 207, and the top side of the rotary disk 207 is provided with a pneumatic lifting table 208.

In this embodiment, in use, a product to be chamfered is placed on the top side of the air lift 208, and the product is adjusted to a proper height by the air lift 208, so that the product can be advantageously clamped and rotated by the cooperation between the rotating disk 207 and the air lift 208.

An upper supporting strip 209 is arranged on the upper inner side of the side plate 201, a top base 2011 is arranged at the inner end of the upper supporting strip 209, a lamp panel 2010 is arranged on the inner side of the upper supporting strip 209, a rotating motor 2013 connected with the output end of a top cylinder 2012 is arranged below the top base 2011, and the output end of the rotating motor 2013 is connected with a pressure plate 2014.

In this embodiment, the overhead cylinder 2012 is started to output power to drive the output end of the overhead cylinder 2012 to extend, so that the output end of the overhead cylinder 2012 presses and holds a product under the cooperation of the rotating motor 2013 and the pressure plate 2014, the lamp panel 2010 generates illumination, and then the rotating motor 2013 outputs power to drive the pressure plate 2014 connected with the output end of the rotating motor 2013 to rotate, so that the product rotates according to the real-time condition of chamfering.

The working principle of the high-speed chamfering machine is as follows: when in use, a product to be chamfered is placed on the top side of the pneumatic lifting table 208, the product is adjusted to a proper height through the pneumatic lifting table 208, the product can be clamped and rotated favorably under the mutual cooperation of the rotary disk 207 and the pneumatic lifting table 208, then the output power of the overhead cylinder 2012 is started to drive the output end of the overhead cylinder 2012 to extend, the output end of the overhead cylinder 2012 presses the product under the cooperation of the rotary motor 2013 and the pressure plate 2014, the lamp plate 2010 generates illumination, then the rotary motor 2013 outputs power to drive the pressure plate 2014 connected with the output end of the rotary motor 2013 to rotate, the product rotates according to the real-time condition of chamfering, then the door plate 203 is matched with the upper slide bar 202 through the handle of the door plate 203, the door plate 203 is closed at the front end of the side plate 201, then the control panel 204 on the door plate 203 is used for outputting instructions to chamfer the product, then, the output power of the rear cylinder 304 is started to drive the output end of the rear cylinder 304 to operate, the output end of the rear cylinder 304 drives the telescopic strip 305 to stretch, under the mutual matching of the telescopic strip 305 and the rotary sleeve 306, the swinging block 307 can be adjusted to a position suitable for chamfering, then the output end of the pneumatic telescopic rod 308 drives the isolation sleeve 309 and the chamfering wheel 3013 to operate to a final chamfering position, then the output end of the servo motor 3011 is used for driving the output end of the servo motor 3011 to drive the gear set 3012 in a meshing transmission manner, the chamfering wheel 3013 on the isolation sleeve 309 is driven by the gear set 3012 to chamfer a product clamped by the clamping feeding part 2, when the chamfering wheel 3013 performs chamfering on the product clamped by the clamping feeding part 2, a large amount of waste is generated, and falls into the cleaning box 105 through the grid cover 106, when the door 203 is opened at the end and the product is taken down by the pneumatic lifting table 208 and the waste is cleaned, the cleaning box 105 is slidingly operated, so that the cleaning box 105 brings the waste out, and the effect of treatment is achieved.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a high-speed chamfering machine, includes clearance subassembly (1) and chamfer subassembly (3), its characterized in that: clamping feeding components (2) assembled by bolts are arranged above the two ends of the cleaning component (1), and chamfering components (3) fixedly spliced with the clamping feeding components (2) are connected above the rear side of the cleaning component (1) by bolts;

the chamfering component (3) comprises a rear plate (301), a slotting cabin (302), a sleeving plate (303), a rear cylinder (304), a telescopic strip (305), a rotary sleeve (306), a swinging block (307), a pneumatic telescopic rod (308), a separation sleeve (309), a gearbox (3010), a servo motor (3011), a gear set (3012) and a chamfering wheel (3013), wherein the rear plate (301) is arranged above the rear side of the cleaning component (1), one side of the rear plate (301) is provided with the slotting cabin (302), one end of the slotting cabin (302) is provided with the sleeving plate (303), the inner side of the sleeving plate (303) is provided with the telescopic strip (305) connected with the output end of the rear cylinder (304), one end of the telescopic strip (305) is provided with the rotary sleeve (306), the inner end of the rotary sleeve (306) is provided with the swinging block (307), one end of the swinging block (307) is connected with the separation sleeve (309) through the output end of the pneumatic telescopic rod (308), one end of the motor (309) is provided with the separation sleeve (3010) above the servo motor, the inner end (3010) is connected with the gearbox (3010), the output end of the gear set (3012) penetrates through the gearbox (3010) and is connected with a chamfering wheel (3013) with the isolation sleeve (309).

2. A high speed chamfering machine as defined in claim 1, wherein: the rotary sleeve (306) is connected with the swinging block (307) through an electric damping hinge, and the ratio of the input end to the output end of the gear set (3012) is at least two to one.

3. A high speed chamfering machine as defined in claim 1, wherein: the cleaning assembly (1) comprises a supporting pad (101), a supporting plate (102), a bottom groove (103), a duct frame (104), a cleaning box (105) and a grid cover (106), wherein the supporting plate (102) is arranged on the top side of the supporting pad (101), the bottom groove (103) is arranged on the top side of the supporting plate (102), the duct frame (104) is arranged on the top side of the bottom groove (103), the cleaning box (105) connected in a sleeved mode is arranged inside the duct frame (104), and the grid cover (106) is arranged on the inner side of the upper portion of the duct frame (104).

4. A high speed chamfering machine as defined in claim 3, wherein: the clamping feeding component (2) comprises side plates (201), sliding rods (202), a door plate (203), a control panel (204), a lower supporting strip (205), a bolt base (206), a rotating disc (207), a pneumatic lifting table (208), an upper supporting strip (209), a lamp panel (2010), a top base (2011), a top cylinder (2012), a rotating motor (2013) and a pressure plate (2014), wherein the side plates (201) are arranged above two sides of the bottom groove (103), the side plates (201) are connected with the door plate (203) in a sliding mode through the sliding rods (202), and the control panel (204) is arranged on the front side of the door plate (203).

5. The high-speed chamfering machine according to claim 4, wherein: lower support strip (205) is arranged on the lower inner side of side plate (201), bolt base (206) is arranged at the inner end of lower support strip (205), rotary disc (207) is arranged on the top side of bolt base (206), and pneumatic lifting table (208) is arranged on the top side of rotary disc (207).

6. The high-speed chamfering machine according to claim 4, wherein: the upper inner side of the side plate (201) is provided with an upper supporting strip (209), the inner end of the upper supporting strip (209) is provided with a top base (2011), the inner side of the upper supporting strip (209) is provided with a lamp panel (2010), the lower part of the top base (2011) is provided with a rotating motor (2013) connected with the output end of an overhead cylinder (2012), and the output end of the rotating motor (2013) is connected with a pressure plate (2014).