CN113635060B

CN113635060B - Panel beating equipment groove cutting equipment for panel board

Info

Publication number: CN113635060B
Application number: CN202111196091.7A
Authority: CN
Inventors: 朱钦楠
Original assignee: Jiangsu Sesame Tools Co Ltd
Current assignee: Jiangsu Sesame Tools Co Ltd
Priority date: 2021-10-14
Filing date: 2021-10-14
Publication date: 2021-12-17
Anticipated expiration: 2041-10-14
Also published as: CN113635060A

Abstract

The invention discloses sheet metal assembling groove cutting equipment for an instrument panel, which belongs to the field of sheet metal machining and comprises a base plate, wherein a grooving motor is arranged on one side of an upright post, a sliding short pipe matched with the upright post is arranged on the side wall of the grooving motor, a cutting disc is arranged at the output end of the grooving motor, a side vertical plate is arranged on one side of the upright post, a collision wheel disc is arranged at the top end of the side vertical plate, a driving assembly is arranged on one side of the collision wheel disc, four protruding blocks are arranged on the outer side of the collision wheel disc, the protruding lengths of the four protruding blocks are different, slope surfaces are arranged on two sides of the protruding blocks, the extension lines of the slope surfaces do not penetrate through the circle center of the collision wheel disc, arc surfaces are arranged on the outer sides of the four protruding blocks, the diameters of the arc surfaces are different, and a feeding assembly is arranged on one side of the base plate. The protruding block pushes the cutting motor downwards through the pressure wheel disc, the downward pushing depths of the cutting motors are different, and the effect of forming grooves with different depths is achieved.

Description

Panel beating equipment groove cutting equipment for panel board

Technical Field

The invention relates to the field of sheet metal machining, in particular to sheet metal assembly groove cutting equipment for an instrument panel.

Background

Along with the development of industrial technology, the modern sheet metal manufacturing technology is more and more perfect, an instrument panel is mainly manufactured by a sheet metal, a groove needs to be formed in the sheet metal and a groove needs to be extruded in the manufacturing process of the instrument panel, the sheet metal is grooved by equipment, the grooving depth of each time of processing of a grooving mechanism is the same, if grooves with different depths need to be formed in the edge of the sheet metal, a cutting machine needs to be positioned for many times, the operation is very complicated, and the working efficiency is low;

the panel beating still need be cut into a monoblock panel beating one in the feed, still uses the panel beating cutter when cutting the panel beating, can leave tiny fold turn-ups in the fracture department of panel beating when the panel beating cutter operates, and this kind of tiny fold turn-ups can bring inconvenience to later processing, and the turn-ups of fold still scrapes other panel beating surfaces easily, influences the quality of panel beating.

Disclosure of Invention

The invention aims to overcome the defects of the prior art, and provides a sheet metal assembly groove cutting device for an instrument panel, when the device is used, a pressing strip at the output end of a pressing cylinder extends to abut against a sheet metal, so that the sheet metal slides along a carrying guide rail along with an object stage, a carrying motor in a carrying assembly drives a transmission belt to run through two transmission rollers, the transmission belt drives the object stage to slide, the object stage reaches a designated work position and is fixed, a gear plate is driven to rotate by a speed reducing motor through a speed reducing gear, the gear plate and an abutting wheel plate rotate simultaneously, a bulge block on the side wall of the abutting wheel plate can extrude a pressure wheel plate, a grooving motor and the pressure wheel plate move downwards for a small distance together, a cutting plate at the output end of the grooving motor can cut into the sheet metal to perform grooving operation, then the object stage moves for one work position to stop, the downward propelling amplitude of the grooving motor is different by the four convex blocks, so that the depths of grooves in the metal plate are different, and the grooves with different depths are cut in the metal plate

The effect of (1).

In order to solve the above problems, the present invention provides the following technical solutions: a sheet metal assembly groove cutting device for an instrument panel comprises a base plate, wherein two carrying guide rails are fixedly mounted at the top end of the base plate, carrying slide blocks are sleeved on the carrying guide rails, a carrying assembly is arranged at the top end of each carrying slide block, a stand column is further arranged at the top end of the base plate, a groove cutting motor is arranged on one side of the stand column, a sliding short tube matched with the stand column is arranged on the side wall of the groove cutting motor, a cutting disc is arranged at the output end of the groove cutting motor, a pressure wheel disc is arranged on the other side of the sliding short tube, a reset assembly is arranged below the sliding short tube, a side vertical plate is arranged on one side of the stand column, a collision wheel disc is arranged at the top end of the side vertical plate, a driving assembly is arranged on one side of the collision wheel disc, four protruding blocks are arranged on the outer side of the collision wheel disc, and the extending lengths of the four protruding blocks are different, the two sides of the protruding blocks are provided with slope surfaces, extension lines of the slope surfaces do not penetrate through the circle center of the abutting wheel disc, arc surfaces are arranged on the outer sides of the four protruding blocks, the diameters of the arc surfaces are different, and the feeding assembly is arranged on one side of the base plate.

Furthermore, the carrying assembly comprises an objective table, the objective table is fixedly connected with two carrying sliding blocks, a press-fit air cylinder is arranged above the objective table and is connected with the top surface of the objective table through a fixing column, a certain included angle is formed between the press-fit air cylinder and the objective table, and a press-fit air cylinder is arranged at the output end of the objective table

The cross section of the pressing strip is a right triangle, and one side of the objective table is also provided with a rubber block.

Furthermore, the rubber piece is provided with five altogether, and five rubber piece I-shaped are arranged, and form the cutting clearance between per two rubber pieces, each one side of rubber piece is provided with the flange, flange and rubber piece mutually perpendicular, the below of objective table is provided with transmission assembly.

Further, the transmission assembly comprises two side wall shaft bases, the side wall shaft bases are fixedly connected with the side walls at two ends of the base platform plate, a transmission roller is arranged on one side of each side wall shaft base and is rotatably connected with the side wall shaft bases, the transmission rollers are connected through a transmission belt, the bottom surfaces of the object stages of the transmission belts are connected through a connecting block, one transmission roller is arranged at the output end of the carrying motor, and the carrying motor is arranged at the output end of the carrying motor

Fixed on the side wall of one of the side wall shaft seats.

Further, the driving component comprises a gear disc, the gear disc is connected with the conflict wheel disc through a round rod, the round rod between the gear disc and the conflict wheel disc penetrates through the top end of the side vertical plate, a reduction gear is arranged on one side of the gear disc, the reduction gear is meshed with the gear disc, the gear disc is arranged on the output end of the reduction motor,

the speed reducing motor is fixedly connected with the side wall of the side vertical plate.

Furthermore, the reset assembly comprises a movable flanging and a fixed flanging, the movable flanging is fixed on two sides of the sliding short pipe, the fixed flanging is fixed on two sides of the upright post, and the movable flanging and the fixed flanging are connected through a reset spring.

Further, the feed subassembly includes the feeder table, and the top of feeder table is provided with six feed axle beds, and per two feed axle beds form a set of, and the centre of every group feed axle bed is provided with the power wheel, and the both ends of power wheel are provided with the round bar of interlude in the inboard of feed axle bed, and the power wheel diameter that is located three power wheel intermediate position is less than lays in the power wheel diameter of its both sides, the inboard interlude of feeder table has three driven voller, is provided with on the feeder table with driven voller assorted cylinder cavity, the diameter of driven voller is greater than the thickness of feeder table, and the end of power wheel is provided with the linkage gear, three linkage gear intermeshing, and one of them power wheel is installed on the output of feeding motor, and the feeding motor is fixed on the lateral wall of feed axle bed.

Further, be provided with the elasticity pole on the feed axle bed, and the both sides of feed axle bed be provided with elasticity pole assorted interlude mouth, the top of elasticity pole is provided with the extrusion turn-ups, the outside cover of elasticity pole is equipped with the extrusion spring, the bottom and the feed axle bed of extrusion spring are connected, the top and the extrusion turn-ups of extrusion spring are connected, one side of feeder table is provided with the cutting component.

Further, the cutting assembly comprises a cutting frame, the cutting frame is fixedly connected with the top surfaces of the two ends and the feeding table

And the top end of the cutting frame is fixedly provided with an electric push rod, the output end of the electric push rod is provided with a lifting frame, the two ends of the lifting frame are provided with saw discs, the saw discs are connected through a wire saw, one of the saw discs is arranged at the output end of a saw motor, and the saw motor is fixed at the other side of the lifting frame.

Further, the crane and the horizontal line form a certain included angle, and the bottom end of the crane is also provided with an avoiding opening.

The invention has the beneficial effects that:

when the device is used, a press strip at the output end of a press cylinder extends to abut against a metal plate, then the metal plate slides along a carrying guide rail along with an object carrying table, a carrying motor in a carrying assembly drives a transmission belt to run through two transmission rollers at the moment, the transmission belt drives the object carrying table to slide, when the object carrying table reaches a specified station, a gear wheel is driven to rotate by a speed reducing motor through a reduction gear, the gear wheel and an abutting wheel disc rotate simultaneously, a convex block on the side wall of the abutting wheel disc can extrude a pressure wheel disc, a grooving motor and the pressure wheel disc move downwards for a small distance together, a cutting disc at the output end of the grooving motor can cut into the metal plate to implement grooving operation, then the object carrying table moves one station to stop, the downward propelling amplitudes of the grooving motor are different by the four convex blocks, and further the grooving depth on the metal plate is different, the effect of cutting different degree of depth fluting on the panel beating has been realized.

Secondly, when a square sheet metal is placed on the rubber block, the pressing strip at the output end of the pressing air cylinder extends out to abut against the top surface of the sheet metal, the other surface of the pressing strip contacts with the flange, the cutting disc penetrates through the cutting gap of the rubber block, if the sheet metal with different thicknesses needs to be locked, fixing columns with different types are replaced,

the effect of convenient locking is realized.

Thirdly, the whole sheet metal is plugged between the driven roller and the power wheel on the top of the feeding table, then one of the power wheels is driven by a feeding motor to rotate, the three power wheels apply pressure downwards through an extrusion spring, the sheet metal can be pushed forwards, before the sheet metal is pushed forwards, the objective table slides to one end, close to the feeding assembly, of the base plate, when the sheet metal is inserted into the rubber block, the pressing strip locks the sheet metal, then an electric push rod drives a lifting frame to fall down, meanwhile, the sawing motor drives a wire saw to operate through two saw discs, the wire saw can cut into the sheet metal to implement cutting operation, and the effect of automatically separating the sheet metal is achieved.

Drawings

Fig. 1 is a schematic front view of a sheet metal assembly groove cutting device for an instrument panel.

Fig. 2 is a schematic diagram of a side view of a sheet metal assembly groove cutting apparatus for an instrument panel.

Fig. 3 is a schematic view of an objective table of the sheet metal assembly groove cutting device for the instrument panel.

Fig. 4 is a schematic view of a second viewing angle of a stage of the sheet metal assembly groove cutting device for the instrument panel.

Fig. 5 is a schematic diagram of an interference wheel disk of the sheet metal assembly groove cutting device for the instrument panel.

Fig. 6 is a schematic diagram of a grooving motor of the sheet metal assembly groove cutting device for the instrument panel.

Fig. 7 is a schematic diagram of a feeding assembly of the sheet metal assembly groove cutting device for the instrument panel.

Fig. 8 is a schematic diagram of a blanking mechanism of the sheet metal assembly groove cutting device for the instrument panel.

Description of reference numerals:

the device comprises a base plate 1, a carrying guide rail 2, a carrying slide block 3, an object stage 4, a rubber block 401, a flange 402, a pressing cylinder 5, a fixed column 501, a pressing strip 502, a side vertical plate 6, an abutting wheel disc 7, a convex block 701, an arc surface 702, a slope surface 703, a gear disc 8, a reduction gear 801, a reduction motor 802, a side wall shaft seat 9, a transmission roller 10, a transmission belt 11, a carrying motor 12, a feeding assembly 13, a feeding table 1301, a driven roller 1302, a feeding shaft seat 1303, an elastic rod 1304, an extrusion flanging 1305, an extrusion spring 1306, a power wheel 1307, a linkage gear 1308, a feeding motor 1309, an upright post 14, a grooving motor 1401, a cutting disc 1402 and a sliding short pipe 1403, pressure rim 1404, movable flange 1405, fixed flange 1406, return spring 1407, cutting frame 15, electric putter 1501, crane 1502, dodge opening 1503, saw material motor 1504, saw

Disc 1505, wiresaw 1506.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the description of the present invention, it is to be understood that the terms "longitudinal", "transverse", "upper", "lower", and "upper", "lower", respectively,

The terms "front," "back," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like, as used herein, refer to an orientation or positional relationship relative to one another as shown in the drawings, which is meant only to facilitate describing the invention, and do not indicate or imply that the referenced devices or elements must be in a particular orientation, constructed and operated in a particular orientation, and therefore should not be construed as limiting the invention.

Referring to fig. 1, 2, 3, 4, 5, 6, 7, 8, the cutting device for the sheet metal assembly slot for instrument panels comprises a base plate 1, two carrying rails 2 are fixedly installed at the top end of the base plate 1, a carrying slider 3 is sleeved on the carrying rails 2, a carrying component is arranged at the top end of the carrying slider 3, an upright post 14 is further arranged at the top end of the base plate 1, a slot cutting motor 1401 is arranged at one side of the upright post 14, a sliding short tube 1403 matched with the upright post 14 is arranged on the side wall of the slot cutting motor 1401, a cutting disc 1402 is arranged at the output end of the slot cutting motor 1401, a pressure wheel disc 1404 is arranged at the other side of the sliding short tube 1403, a reset component is arranged below the sliding short tube 1403, the side vertical plate 6 is arranged on one side of the upright post 14, the top end of the side vertical plate 6 is provided with a collision wheel disc 7, one side of the collision wheel disc 7 is provided with a driving component, the outer side of the collision wheel disc 7 is provided with four convex blocks 701, the extending lengths of the four convex blocks 701 are different, both sides of each convex block 701 are provided with slope surfaces 703, the extension lines of the slope surfaces 703 do not penetrate through the circle center of the collision wheel disc 7, the outer sides of the four convex blocks 701 are provided with arc surfaces 702, the diameters of the arc surfaces 702 are different, one side of the base plate 1 is provided with a feeding component 13, when the carrying component and the sheet metal to be processed reach a specified station, the driving component drives the collision wheel disc 7 to rotate, the convex blocks 701 on the side wall of the collision wheel disc 7 can extrude the pressure wheel disc 1404, the grooving motor 1401 and the pressure wheel disc 1404 move downwards for a short distance together, the cutting disc 1402 at the output end of the grooving motor 1401 can cut into a metal plate to perform grooving operation, then the carrying assembly moves to a station to stop, the downward propelling amplitudes of the grooving motor are different by the four protruding blocks 701, the grooving depth of the metal plate is different, and the effect of cutting four grooves with different depths on the metal plate is achieved.

The carrying assembly comprises an object stage 4, the object stage 4 is fixedly connected with two carrying sliding blocks 3, and the carrying assembly

The top of thing platform 4 is provided with pressfitting cylinder 5, and pressfitting cylinder 5 is connected through the top surface of fixed column 501 with objective table 4, form certain contained angle between pressfitting cylinder 5 and the objective table 4, the output end of objective table 4 is provided with pressfitting strip 502, and the cross section of pressfitting strip 502 is right angled triangle, one side of objective table 4 still is provided with rubber block 401, and when the cubic panel beating of side was put on rubber block 401, the pressfitting strip 502 of pressfitting cylinder 5 output end stretched out and goes to contradict at the top surface of panel beating, if the panel beating of different thickness of needs locking, just changed the fixed column 501 of different models, realized the effect of convenient locking.

The rubber blocks 401 are provided with five rubber blocks, the five rubber blocks 401 are arranged in a straight line, a cutting gap is formed between every two rubber blocks 401, one side of each rubber block 401 is provided with a flange 402, the flanges 402 and the rubber blocks 401 are perpendicular to each other, a transmission assembly is arranged below the objective table 4, when the press-fit strip 502 falls down, the other side of the press-fit strip 502 can contact the flanges, and the cutting disc 1402 penetrates through the cutting gap of the rubber blocks 401, so that the effect of avoiding the cutting space is achieved.

The transmission assembly comprises two side wall shaft seats 9, the two side wall shaft seats 9 are fixedly connected with the side walls at two ends of the base platform plate 1, one side of each side wall shaft seat 9 is provided with a transmission roller 10, the transmission rollers 10 are rotationally connected with the side wall shaft seats 9, the transmission rollers 10 are connected through a transmission belt 11, the bottom surfaces of the object stages 4 of the transmission belts 11 are connected through a connecting block, one transmission roller 10 is arranged at the output end of a carrying motor 12, the carrying motor 12 is fixed on the side wall of one side wall shaft seat 9, the carrying motor 12 drives the transmission belt 11 to run through the two transmission rollers 10, the transmission belt 11 drives the object stages 4 to slide far along a carrying guide rail 2, and the object stages 4 stop when reaching a designated station, realize lifting for the carrying assembly

The effect of positioning power is provided.

Drive assembly includes toothed disc 8, be connected through the round bar between toothed disc 8 and the conflict rim plate 7, the round bar between toothed disc 8 and the conflict rim plate 7 passes the top of side riser 6, and one side-mounting of toothed disc 8 has reduction gear 801,

reduction gear

801 and 8 intermeshing of toothed disc, and toothed disc 8 installs on gear motor 802's output, and gear motor 802 and the lateral wall fixed connection of side riser 6, and reduction motor 802 provides

Reduction gear 801 drives the toothed disc 8 rotatory, and reduction gear 801 has the effect of speed reduction to toothed disc 8, has increased toothed disc 8's moment of torsion, has realized providing rotary power's effect for conflict rim plate 7.

The reset assembly comprises a movable flange 1405 and a fixed flange 1406, the movable flange 1405 is fixed on two sides of the sliding short pipe 1403, the fixed flange 1406 is fixed on two sides of the upright post 14, the movable flange 1405 and the fixed flange 1406 are connected through a reset spring 1407, after the grooving motor 1401 moves downwards to cut sheet metal, the interference wheel disc 7 continues to rotate until the pressure wheel disc 1404 passes over the raised block 701, and the sliding short pipe 1403 is arranged on the sliding short pipe 1403

The initial position is restored by the upward movement of the return spring 1407.

The feeding assembly 13 comprises a feeding table 1301, six feeding shaft seats 1303 are arranged at the top end of the feeding table 1301, every two feeding shaft seats 1303 form a group, a power wheel 1307 is arranged in the middle of each group of feeding shaft seats 1303, round rods penetrating through the inner sides of the feeding shaft seats 1303 are arranged at two ends of the power wheel 1307, the diameter of the power wheel 1307 positioned in the middle of the three power wheels 1307 is smaller than that of the power wheels 1307 arranged on two sides of the power wheel, three driven rollers 1302 are penetrated through the inner side of the feeding table 1301, cylindrical cavities matched with the driven rollers 1302 are arranged on the feeding table 1301, the diameter of the driven rollers 1302 is larger than the thickness of the feeding table 1301, linkage gears 1308 are arranged at the ends of the power wheels 1307, the three linkage gears 1308 are mutually meshed, one power wheel 1307 is arranged at the output end of a feeding motor 1309, the feeding motor 1309 is fixed on the side wall of the feeding shaft seat 1303, a whole sheet metal is inserted between the driven roller 1302 and the power wheel 1307 at the top end of the feeding platform 1301, then the feeding motor 1309 drives one of the power wheels 1307 to rotate, the sheet metal can be pushed forward, before the sheet metal is pushed forward, the objective table 4 slides to one end of the base plate 1 close to the feeding component 13,

after the metal plate is inserted into the rubber block 401, the pressing strip 502 locks the metal plate.

Be provided with elastic rod 1304 on feed axle seat 1303, and the both sides of feed axle seat 1303 be provided with elastic rod 1304 assorted interlude mouth, the top of elastic rod 1304 is provided with extrusion turn-ups 1305, the outside cover of elastic rod 1304 is equipped with extrusion spring 1306, the bottom and the feed axle seat 1303 of extrusion spring 1306 are connected, the top and the extrusion turn-ups 1305 of extrusion spring 1306 are connected, one side of feed table 1301 is established and is established

A cutting assembly is arranged, and three power wheels 1307 apply pressure downwards through an extrusion spring 1306, so that the effect of locking the side wall of the metal plate is achieved.

The cutting assembly comprises a cutting frame 15, the cutting frame 15 and two ends of the cutting frame are fixedly connected with the top surface of a feeding table 1301, an electric push rod 1501 is fixedly installed at the top end of the cutting frame 15, a lifting frame 1502 is installed at the output end of the electric push rod 1501, saw discs 1505 are arranged at the two ends of the lifting frame 1502, the saw discs 1505 are connected through a wire saw 1506, one saw disc 1505 is installed at the output end of a saw motor 1504, the saw motor 1504 is fixed at the other side of the lifting frame 1502, the electric push rod 1501 drives the lifting frame 1502 to fall down, meanwhile, the saw motor 1504 drives the wire saw 1506 to run through the two saw discs 1505, the wire saw 1506 can cut into a metal plate to perform cutting operation, the effect of automatically separating the metal plate is achieved, and the wire saw 1506 can not leave bending flanging during cutting, the cut flanging folds are rolled and flattened by an extruding mechanism.

The crane 1502 forms certain contained angle with the water flat line, and the bottom of crane 1502 still is provided with dodges the opening 1503, and when crane 1502 whereabouts, pending panel beating can stretch into dodge the opening 1503, dodges the opening 1503 and provides the space of complete cutting for the panel beating.

Finally, when the carrying assembly and the metal plate to be processed reach the designated station and are settled, the driving assembly drives the abutting wheel disc 7 to rotate, the convex blocks 701 on the side wall of the abutting wheel disc 7 can extrude the pressure wheel disc 1404, the grooving motor 1401 and the pressure wheel disc 1404 move downwards for a short distance, the cutting disc 1402 at the output end of the grooving motor 1401 can cut into the metal plate to carry out grooving operation, then the carrying assembly moves one station to stop, the downward propelling amplitudes of the grooving motors by the four convex blocks 701 are different, further, the grooving depths on the metal plate are different, the effect of cutting four grooves with different depths on the metal plate is realized, when the square metal plate is placed on the rubber block 401, the pressing strip 502 at the output end of the pressing air cylinder 5 extends to abut against the top surface of the metal plate, if the metal plates with different thicknesses need to be locked, the fixing columns 501 with different types are replaced, the effect of convenient and quick locking is realized, and when the pressing strip 502 falls down, the other surface of the pressing strip 502 can contact with the flange

On, the cutting disc 1402 passes through the cutting gap of the rubber block 401, so as to realize the effect of avoiding the cutting space, the carrying motor 12 drives the transmission belt 11 to operate through the two transmission rollers 10, the transmission belt 11 drives the object carrying platform 4 to slide along the carrying guide rail 2 far away, and the object carrying platform 4 stops when reaching the designated station, so as to realize the effect of providing positioning power for the carrying assembly, the reduction motor 802 provides the reduction gear 801 to drive the gear disc 8 to rotate, the reduction gear 801 has the effect of reducing the speed of the gear disc 8, so as to increase the torque of the gear disc 8, so as to realize the effect of providing rotating power for the conflict wheel disc 7, after the grooving motor 1401 moves downwards to cut the metal plate, the conflict wheel disc 7 continues to rotate until the pressure wheel disc 1404 passes over the convex block 701, the sliding short pipe 1403 moves upwards through a reset spring 1407 to be restored to the initial position, a whole sheet metal is inserted between a driven roller 1302 and a power wheel 1307 at the top end of a feeding platform 1301, then a feeding motor 1309 drives one power wheel 1307 to rotate, the sheet metal is pushed forwards, before the sheet metal is pushed forwards, an object stage 4 slides to one end, close to a feeding assembly 13, of a base plate 1, after the sheet metal is inserted on a rubber block 401, a pressing strip 502 locks the sheet metal, the three power wheels 1307 apply pressure downwards through a squeezing spring 1306, the effect of locking the side wall of the sheet metal is achieved, an electric push rod 1501 drives a lifting frame 1502 to fall down, meanwhile, a sawing motor 1504 drives a wire saw 1506 to run through two saw discs, and the wire saw 1506 cuts into the sheet metal to perform cutting operation, realized the effect of autosegregation panel beating, coping saw 1506 cutting can not leave the turn-ups of bending for tailorring, cuts out the turn-ups fold that cuts the stay and still need roll with extrusion mechanism and level, and when crane 1502 whereabouts, pending panel beating can stretch into dodge in the opening 1503, dodge the opening 1503 and provide the effect of cutting completely for the panel beating

A space.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any minor modifications, equivalent changes and modifications made to the above embodiment according to the technical spirit of the present invention are within the technical scope of the present invention.

Claims

1. The utility model provides a panel beating equipment groove cutting equipment for panel board which characterized in that: the device comprises a base plate (1), wherein two carrying guide rails (2) are fixedly mounted at the top end of the base plate (1), a carrying sliding block (3) is sleeved on each carrying guide rail (2), a carrying assembly is arranged at the top end of each carrying sliding block (3), an upright post (14) is further arranged at the top end of the base plate (1), a grooving motor (1401) is arranged on one side of each upright post (14), a sliding short tube (1403) matched with each upright post (14) is arranged on the side wall of each grooving motor (1401), a cutting disc (1402) is arranged at the output end of each grooving motor (1), a pressure wheel disc (1404) is arranged on the other side of each sliding short tube (1403), a reset assembly is arranged below each sliding short tube (1403), a side vertical plate (6) is arranged on one side of each upright post (14), a wheel disc (7) is arranged at the top end of each side vertical plate (6), and a driving assembly is arranged on one side of each abutting wheel disc (7), the outer side of the conflict wheel disc (7) is provided with four protruding blocks (701), the length of the four protruding blocks (701) is different from each other, the two sides of each protruding block (701) are provided with slope surfaces (703), the extension lines of the slope surfaces (703) do not penetrate through the circle center of the conflict wheel disc (7), the outer side of each protruding block (701) is provided with an arc surface (702), the diameter of each arc surface (702) is different from each other, and one side of the base plate (1) is provided with a feeding assembly (13).

2. The sheet metal assembly groove cutting equipment for the instrument panel according to claim 1, characterized in that: the carrying assembly comprises an object stage (4), the object stage (4) is fixedly connected with two carrying sliding blocks (3), a pressing air cylinder (5) is arranged above the object stage (4), the pressing air cylinder (5) is connected with the top surface of the object stage (4) through a fixing column (501), a certain included angle is formed between the pressing air cylinder (5) and the object stage (4), a pressing strip (502) is arranged at the output end of the object stage (4), the cross section of the pressing strip (502) is in a right-angled triangle shape, and a rubber block (401) is further arranged on one side of the object stage (4).

3. The sheet metal assembly groove cutting equipment for the instrument panel according to claim 2, characterized in that: the rubber blocks (401) are provided with five rubber blocks, the five rubber blocks (401) are arranged in a straight line, a cutting gap is formed between every two rubber blocks (401), each rubber block (401) is provided with a flange (402) on one side, the flanges (402) and the rubber blocks (401) are perpendicular to each other, and a transmission assembly is arranged below the object stage (4).

4. The sheet metal assembly groove cutting equipment for the instrument panel according to claim 3, characterized in that: the transmission assembly comprises two side wall shaft bases (9) and is characterized in that the side wall shaft bases (9) are fixedly connected with the side wall at two ends of the base platform plate (1), a transmission roller (10) is arranged on one side of each side wall shaft base (9), the transmission roller (10) is rotatably connected with the side wall shaft bases (9), the transmission rollers (10) are connected through a transmission belt (11), the bottom surfaces of the object carrying platforms (4) of the transmission belt (11) are connected through a connecting block, one transmission roller (10) is arranged on the output end of the carrying motor (12), and the carrying motor (12) is fixed on the side wall of one side wall shaft base (9).

5. The sheet metal assembly groove cutting equipment for the instrument panel according to claim 1, characterized in that: the drive assembly comprises a gear disc (8), the gear disc (8) is connected with the conflict wheel disc (7) through a round bar, the round bar between the gear disc (8) and the conflict wheel disc (7) penetrates through the top end of the side vertical plate (6), a reduction gear (801) is installed on one side of the gear disc (8), the reduction gear (801) is meshed with the gear disc (8), the gear disc (8) is installed at the output end of a reduction motor (802), and the reduction motor (802) is fixedly connected with the side wall of the side vertical plate (6).

6. The sheet metal assembly groove cutting equipment for the instrument panel according to claim 1, characterized in that: the reset assembly comprises a movable flange (1405) and a fixed flange (1406), the movable flange (1405) is fixed on two sides of the sliding short pipe (1403), the fixed flange (1406) is fixed on two sides of the upright post (14), and the movable flange (1405) is connected with the fixed flange (1406) through a reset spring (1407).

7. The sheet metal assembly groove cutting equipment for the instrument panel according to claim 1, characterized in that: the feeding assembly (13) comprises a feeding table (1301), six feeding shaft seats (1303) are arranged at the top end of the feeding table (1301), every two feeding shaft seats (1303) form a group, a power wheel (1307) is arranged in the middle of each group of feeding shaft seats (1303), round rods inserted into the inner sides of the feeding shaft seats (1303) are arranged at two ends of the power wheel (1307), the diameter of the power wheel (1307) positioned in the middle of the three power wheels (1307) is smaller than the diameter of the power wheels (1307) arranged on two sides of the power wheel, three driven wheels (1302) are inserted into the inner side of the feeding table (1301), cylindrical cavities matched with the driven wheels (1302) are arranged on the feeding table (1301), the diameter of the driven wheels (1302) is larger than the thickness of the feeding table (1301), linkage gears (1308) are arranged at the ends of the power wheels (1307), the three linkage gears (1308) are meshed with each other, one power wheel (1307) is arranged at the output end of a feeding motor (1309), the feeding motor (1309) is fixed on the side wall of the feeding shaft seat (1303).

8. The sheet metal assembly groove cutting equipment for the instrument panel according to claim 7, characterized in that: be provided with elastic rod (1304) on feed axle bed (1303), and the both sides of feed axle bed (1303) be provided with elastic rod (1304) assorted socket of wearing, the top of elastic rod (1304) is provided with extrusion turn-ups (1305), the outside cover of elastic rod (1304) is equipped with extrusion spring (1306), the bottom and the feed axle bed (1303) of extrusion spring (1306) are connected, the top and the extrusion turn-ups (1305) of extrusion spring (1306) are connected, one side of feeding platform (1301) is provided with the cutting subassembly.

9. The sheet metal assembly groove cutting equipment for the instrument panel according to claim 8, wherein: the cutting assembly comprises a cutting frame (15), the cutting frame (15) is fixedly connected with the top surfaces of two ends and a feeding table (1301), an electric push rod (1501) is fixedly installed at the top end of the cutting frame (15), a lifting frame (1502) is installed at the output end of the electric push rod (1501), saw discs (1505) are arranged at two ends of the lifting frame (1502), the saw discs (1505) are connected through a wire saw (1506), one saw disc (1505) is installed at the output end of a saw motor (1504), and the saw motor (1504) is fixed to the other side of the lifting frame (1502).

10. The sheet metal assembly groove cutting equipment for the instrument panel according to claim 9, characterized in that: the crane (1502) and the horizontal line form a certain included angle, and the bottom end of the crane (1502) is further provided with an avoiding gap (1503).