CN120095226A

CN120095226A - Synchronous feeding device and method for continuous processing circular saw machine

Info

Publication number: CN120095226A
Application number: CN202510592822.1A
Authority: CN
Inventors: 秦海
Original assignee: Jingyu Special Steel Dalian Co ltd
Current assignee: Jingyu Special Steel Dalian Co ltd
Priority date: 2025-05-09
Filing date: 2025-05-09
Publication date: 2025-06-06
Anticipated expiration: 2045-05-09
Also published as: CN120095226B

Abstract

The invention discloses a synchronous feeding device and method of a continuous processing type circular sawing machine, and relates to the technical field of circular sawing. The automatic feeding device comprises a machine body, wherein a circular saw mechanism is arranged at the rear of the left side bottom of an inner cavity of the machine body, two underframes are fixed at the left side and the right side of the bottom of the inner cavity of the machine body, the two underframes are connected with a feeding frame in a sliding manner through rollers, a toothed ring is fixed at the right outer side of the feeding frame, the outer end of the toothed ring is connected with a fluted disc in a meshed manner, the fluted disc is arranged at the bottom of the inner cavity of the machine body through a first motor, a plurality of discharging grooves are transversely formed in the inner side of the feeding frame in a penetrating manner, the underfeeding is completed by arranging the underframes, the feeding frame, the fluted disc and a fixing assembly in a matching manner, and the feeding frame, the adjusting assembly, the second motor and the rollers are matched, so that the accurate pushing of the blanking size of the base material is synchronously performed when the feeding of the alternate feeding is completed.

Description

Synchronous feeding device and method for continuous processing type circular sawing machine

Technical Field

The invention relates to the technical field of circular saw cutting, in particular to a synchronous feeding device and method of a continuous processing type circular saw machine.

Background

The synchronous feeding device of the continuous processing type circular sawing machine is an automatic device designed for improving cutting efficiency, precision and safety. The circular saw is mainly used for ensuring that materials enter the circular saw for cutting at constant speed and direction in the continuous processing process of materials such as wood, plastics, metal and the like.

However, in the actual use process, the feeding device of the existing circular sawing machine is mainly used for carrying out direct pushing feeding by adopting a conveying frame to match with a conveying roller, a conveying belt, an air cylinder and a telescopic rod, after the circular sawing machine is cut, a stabilizing mechanism of a base material needs to be loosened, then accurate pushing of a blanking size is carried out, and after the pushing is finished, clamping of the stabilizing mechanism is carried out, in this process, a large amount of time is required to be consumed for opening and closing, positioning and linkage of the stabilizing mechanism of the base material and the pushing device, so that the existing synchronous feeding device is inconvenient to optimize feeding time by adopting an alternate feeding mode of a plurality of base materials, and meanwhile, the feeding accuracy is kept.

Disclosure of Invention

The invention aims to provide a synchronous feeding device of a continuous processing type circular sawing machine and a method thereof, which are used for solving the problem that the prior synchronous feeding device is inconvenient to optimize feeding time through an alternating feeding mode of a plurality of base materials and simultaneously maintain feeding accuracy.

The synchronous feeding device comprises a machine body, a circular saw mechanism is arranged behind the bottom of the left side of an inner cavity of the machine body, two underframes are fixedly arranged on the left side and the right side of the bottom of the inner cavity of the machine body and are connected with a feeding frame in a sliding mode through rollers, a toothed ring is fixedly arranged on the right outer side of the feeding frame, a fluted disc is connected with the outer end of the toothed ring in a meshed mode, the fluted disc is arranged at the bottom of the inner cavity of the machine body through a first motor, a plurality of discharging grooves are transversely formed in the inner side of the feeding frame in a penetrating mode, a plurality of mounting grooves are formed in the inner side of the discharging grooves, a supporting strip is connected to the inner side of the mounting grooves in a sliding mode through a first electric push rod, two first grooves and second grooves are formed in the outer side of the feeding frame in the circumferential direction, fixing frames are respectively arranged above the first grooves and the second grooves, the fixing frames are arranged at the bottom of the inner cavity, the fixing frames are connected with the supporting strips through fixing components and the base material, the lower portions of the fluted disc are connected with the bottom of the machine body through rollers, and the bottom of the machine body is connected with a base through a sliding component in a sliding mode.

Preferably, a plurality of discharging grooves which are transversely communicated with the inner side of the feeding frame are formed at equal angles, and the forming angles of the mounting grooves correspond to the forming angles of the discharging grooves.

Preferably, the two fixing frames are mirror image, and the positions of the two fixing frames and the transverse positions of the two first grooves and the second grooves correspond.

Preferably, the fixed subassembly includes a hydraulic tank, a hydraulic tank installs the vertical position of centering in the mount upper end, a hydraulic tank inner chamber top is through spring sliding connection No. one cock body, no. one cock body lower extreme is inconsistent with the substrate, a hydraulic tank inner chamber is through hose connection No. two hydraulic tanks, no. two hydraulic tanks are installed the vertical position of centering in the mount upper end, no. two hydraulic tank inner chamber bottoms are through spring connection No. two cock bodies, the fixed subassembly is used for the adaptability of substrate to press from both sides tightly.

Preferably, the first hydraulic tank corresponds to the first groove at the mounting position of the fixing frame, and the second hydraulic tank corresponds to the second groove at the mounting position of the fixing frame.

Preferably, the first plug body and the second plug body move oppositely, the first plug body and the supporting strip move relatively, and the lower end of the first plug body is designed to be of a spherical structure.

Preferably, the adjusting part comprises a third hydraulic tank and a bottom plate, the third hydraulic tank is arranged at the bottom of the inner cavity of the machine body, the third hydraulic tank is connected with a third plug body in a sliding manner through a spring, the top end of the third plug body is connected with an adjusting block in a sliding manner, the adjusting block is arranged at the outer side of the right section of the feeding frame, the third hydraulic tank is connected with two fourth hydraulic tanks through hoses, the fourth hydraulic tank is arranged at the bottom of the inner cavity of the machine body, the top of the fourth hydraulic tank is connected with a fourth plug body through a spring, the top of the fourth plug body is connected with an inner partition plate of the sliding base, the inner lower end of the sliding base is sleeved on the outer side of the fourth hydraulic tank in a sliding manner, the bottom of the fourth hydraulic tank is provided with a pressure sensor, the bottom plate is arranged at the bottom of the inner cavity of the machine body in a groove, and a fixing rod is arranged in a limiting sliding manner in the groove at the top of the bottom plate, and a contact sensor is arranged at the top of the fixing rod.

Preferably, a plurality of adjusting blocks are installed at equal angles on the outer side of the right section of the feeding frame, the installation angles of the adjusting blocks correspond to the opening angles of the material discharging grooves, the installation positions of the fourth hydraulic box correspond to the opening positions of the second grooves, and the installation positions of the bottom plate correspond to the position of the installation groove formed in the lowest side face of the left side face of the feeding frame.

Preferably, the method comprises the steps of:

S1, firstly placing a base material into an installation groove, and then starting a first motor to adjust the position of a feeding frame to finish the material loading and placing of the base material in the installation groove with different angles;

s2, precisely pushing the blanking size of the base material in the mounting groove through the matching of the adjusting component, the sliding base, the second motor and the roller;

And S3, starting the first electric push rod to push the supporting strip to be matched with the fixing assembly, fixing the base material which is completely discharged and pushed in the mounting groove, and starting the circular saw mechanism to complete discharging.

Compared with the prior art, the invention has the beneficial effects that:

According to the invention, through the cooperation of the feeding frame, the toothed ring and the fluted disc, the mounting grooves with different angles in the feeding frame are subjected to position alternate rotation adjustment when the first motor is started, alternate feeding is completed, when the substrate mounting groove with the blanking size is completed to be rotationally adjusted to the twelve o' clock position on the left side of the feeding frame, the positions of the substrates on the supporting strip are synchronously adjusted through the first electric push rod, the substrates are fixed through cooperation of the fixing assembly, then the circular saw mechanism is matched for completing blanking, the flow of the existing feeding device is optimized through alternate feeding, and the blanking speed is improved;

According to the invention, through the cooperation of the feeding frame, the toothed ring and the fluted disc, the position of the mounting grooves with different angles in the feeding frame is alternately rotated and adjusted when the first motor is started, so that alternate feeding is completed, when the rotation of the base material in the mounting groove at the rear position of the feeding frame is adjusted to the position of six o' clock at the left side of the feeding frame, the position of the sliding base is adjusted by the cooperation of the adjusting component, so that the roller is abutted against the base material, the base material is enabled to move leftwards to the position corresponding to the blanking size through the second motor, accurate pushing of the blanking size is completed, and then the position of the base material pushing position is changed through an alternate feeding basis, so that the position adjustment of the base material pushing is carried out while blanking is carried out, the blanking speed is improved, sufficient adjustment time is provided for accurate pushing, and the accuracy of pushing is maintained.

Drawings

FIG. 1 is a schematic diagram of the internal structure of the invention on the front left side;

FIG. 2 is a schematic diagram of the overall structure of the present invention;

FIG. 3 is a schematic diagram of the internal structure of the front view of the present invention;

FIG. 4 is a schematic view of the rear interior side structure of the present invention;

FIG. 5 is a schematic cross-sectional view of the chassis, feeder frame and securing assembly of the present invention;

FIG. 6 is a right-hand structural schematic diagram of the feeding frame of the present invention;

FIG. 7 is a schematic diagram of a left-hand structure of a feeder frame according to the present invention;

FIG. 8 is a schematic view of the split structure of the feeding rack, the underframe, the fluted disc and the fixing rack of the invention;

FIG. 9 is a schematic view of a fastening assembly according to the present invention;

FIG. 10 is a schematic view of the structure of the adjusting assembly of the present invention.

In the drawing, 1, a machine body, 2, a circular saw mechanism, 3, a bottom frame, 4, a feeding frame, 5, a toothed ring, 6, a fluted disc, 7, a first motor, 8, a discharging groove, 9, a mounting groove, 10, a first electric push rod, 11, a supporting strip, 12, a fixing frame, 13, a fixing component, 131, a first hydraulic box, 132, a first plug body, 133, a second hydraulic box, 134, a second plug body, 14, a first groove, 15, a second groove, 16, an adjusting component, 161, a third hydraulic box, 162, a third plug body, 163, an adjusting block, 164, a fourth hydraulic box, 165, a fourth plug body, 166, a pressure sensor, 167, a contact sensor, 168, a fixing rod, 169, a bottom plate, 17, a sliding base, 18, a second motor, 19 and a roller.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Embodiment one: referring to fig. 1 to 9, the present invention provides a technical solution: the synchronous feeding device of the continuous processing type circular sawing machine comprises a machine body 1, a circular sawing mechanism 2 is arranged at the rear of the bottom of the left side of the inner cavity of the machine body 1, two underframes 3 are fixed at the left side and the right side of the bottom of the inner cavity of the machine body 1, the two underframes 3 are slidably connected with a feeding frame 4 through rollers, a toothed ring 5 is fixed at the right outer side of the feeding frame 4, a fluted disc 6 is connected with the outer end of the toothed ring 5 in a meshed manner, the fluted disc 6 is arranged at the bottom of the inner cavity of the machine body 1 through a motor 7, a plurality of discharge grooves 8 are transversely arranged on the inner side of the feeding frame 4 in a penetrating manner, a plurality of mounting grooves 9 are arranged on the inner side of the discharge grooves 8, the plurality of discharge grooves 8 are arranged at equal angles, the arrangement angles of the mounting grooves 9 correspond to the arrangement angles of the discharge grooves 8, the inner sides of the plurality of the mounting grooves 9 are slidably connected with a supporting bar 11 through an electric push rod 10, the feeding frame 4 is circumferentially provided with two first grooves 14 and two second grooves 15, the two second grooves 15 are arranged between the two first grooves 14, the upper parts of the first grooves 14 and the second grooves 15 are respectively provided with a fixed frame 12, the two fixed frames 12 are arranged in a mirror image mode, the positions of the two fixed frames 12 and the transverse positions of the two first grooves 14 and the second grooves 15 correspond to each other, the fixed frames 12 are arranged at the bottom of an inner cavity of the machine body 1, the fixed frames 12 are connected with the supporting strip 11 through a fixed component 13 and a base material, the fixed component 13 comprises a first hydraulic tank 131, the first hydraulic tank 131 is arranged at the upper end of the fixed frame 12 in the longitudinally central position, the top of the inner cavity of the first hydraulic tank 131 is connected with a first plug 132 through a spring in a sliding mode, the lower end of the first plug 132 is in contact with the base material, the inner cavity of the first hydraulic tank 131 is connected with a second hydraulic tank 133 through a hose, the second hydraulic tank 133 is installed at the upper end of the fixing frame 12 in the middle longitudinally, the first hydraulic tank 131 corresponds to the first groove 14 in the installation position of the fixing frame 12, the second hydraulic tank 133 corresponds to the second groove 15 in the installation position of the fixing frame 12, the bottom of the inner cavity of the second hydraulic tank 133 is connected with a second plug 134 through a spring, the first plug 132 and the second plug 134 move oppositely, the first plug 132 and the supporting strip 11 move relatively, the lower end of the first plug 132 is designed into a spherical structure, the fixing component 13 is used for adaptively clamping a base material, sliding bases 17 are arranged below the two second grooves 15, the sliding bases 17 are connected with the bottom of the inner cavity of the machine body 1 through adjusting components 16, and the sliding bases 17 are rotationally connected with rollers 19 through second motors 18; when the feeding device is used, according to the actual feeding size, the position of the fixing rod 168 is adjusted in the bottom plate 169, the contact sensor 167 is enabled to be adjusted to the position corresponding to the feeding size, then the base material is placed in the mounting groove 9 at the rear position of the feeding frame 4, then the control system starts the first motor 7 to drive the fluted disc 6 and the fluted disc 6 to rotate, drives the feeding frame 4 to rotate on the bottom frame 3, the mounting groove 9 at the rear position of the base material is enabled to rotate to the six-o' clock position at the left side of the feeding frame 4, then the operation of placing the base material in the mounting groove 9 at the rear position is repeated until the base material is placed in the plurality of mounting grooves 9 alternately, when the rotation of the base material mounting groove 9 with the feeding size is adjusted, the position adjustment of the base material on the backing bar 11 is synchronously carried out through the first electric push rod 10, the base material fixing is completed by matching the fixing assembly 13, and then the feeding mechanism 2 is completed.

Embodiment two: on the basis of the first embodiment, please refer to fig. 1-10, which comprises a machine body 1, a circular saw mechanism 2 is installed behind the bottom of the left side of the inner cavity of the machine body 1, two underframes 3 are fixed on the left side and the right side of the bottom of the inner cavity of the machine body 1, the two underframes 3 are slidably connected with a feeding frame 4 through rollers, a toothed ring 5 is fixed on the right outer side of the feeding frame 4, a fluted disc 6 is meshed and connected with the outer end of the toothed ring 5, the fluted disc 6 is installed on the bottom of the inner cavity of the machine body 1 through a motor 7, a plurality of discharge grooves 8 are transversely and transversely penetrated on the inner side of the feeding frame 4, a plurality of mounting grooves 9 are formed on the inner side of the discharge grooves 8, a supporting strip 11 is slidably connected on the inner side of the plurality of the mounting grooves 9 through a push rod 10, two first grooves 14 and second grooves 15 are circumferentially formed on the outer side of the feeding frame 4, two second grooves 15 are formed between the two first grooves 14, a fixing frame 12 is arranged above the first grooves 14 and the second grooves 15, the fixing frame 12 is arranged at the bottom of the inner cavity of the machine body 1, the fixing frame 12 is connected with the supporting strip 11 through the fixing component 13 and the base material, the sliding base 17 is arranged below the two second grooves 15, the sliding base 17 is connected with the bottom of the inner cavity of the machine body 1 through the adjusting component 16, the adjusting component 16 comprises a No. three hydraulic box 161 and a bottom plate 169, the No. three hydraulic box 161 is arranged at the bottom of the inner cavity of the machine body 1, the bottom of the inner cavity of the No. three hydraulic box 161 is connected with a No. three plug 162 through a spring in a sliding manner, the top end of the No. three plug 162 is connected with an adjusting block 163 in a sliding manner, the adjusting block 163 is arranged at the outer side of the right section of the feeding frame 4, the inner cavity of the No. three hydraulic box 161 is connected with two No. four hydraulic boxes 164 through hoses, the No. four hydraulic boxes 164 are arranged at the bottom of the inner cavity of the No. four hydraulic boxes 164, the top of the No. four hydraulic boxes 165 is connected with a baffle plate at the inner side of the sliding base 17 through a spring, the lower end of the inner side of the sliding base 17 is slidably sleeved on the outer side of a fourth hydraulic tank 164, a pressure sensor 166 is installed at the bottom of the inner cavity of the fourth hydraulic tank 164, a bottom plate 169 is installed at the bottom of the inner cavity of the machine body 1, a plurality of adjusting blocks 163 are installed at the outer side of the right section of the feeding frame 4 at equal angles, the installation angles of the adjusting blocks 163 correspond to the opening angles of the discharging grooves 8, the installation position of the fourth hydraulic tank 164 corresponds to the opening positions of the second grooves 15, the installation position of the bottom plate 169 corresponds to the position of the mounting groove 9 formed at the lowest side surface of the left side of the feeding frame 4, a fixed rod 168 is arranged in the groove at the top of the bottom plate 169 in a limiting sliding manner, a contact sensor 167 is installed at the top of the fixed rod 168, and the sliding base 17 is rotationally connected with rollers 19 through a second motor 18; in use, according to the actual blanking size, the position of the fixing rod 168 is adjusted in the bottom plate 169, so that the contact sensor 167 is adjusted to the corresponding blanking size position, then the base material is placed in the mounting groove 9 at the rear position of the feeding frame 4, then the control system starts the first motor 7 to drive the fluted disc 6 and the fluted disc 6 to rotate, and drives the feeding frame 4 to rotate on the bottom frame 3, so that the mounting groove 9 at the rear position of the base material is rotated to the six o 'clock position at the left side of the feeding frame 4, then the operation of placing the base material in the mounting groove 9 at the rear position is repeated until the base material is placed in the plurality of mounting grooves 9 alternately, when the rotation of the base material in the mounting groove 9 at the rear position of the feeding frame 4 is adjusted to the six o' clock position at the left side of the feeding frame 4, the oil in the third hydraulic tank 161 is extruded into the two fourth hydraulic tanks 164 through the three plugs 162 which are abutted against the descending, the fourth plugs 165 in the fourth hydraulic tank 164 are upwardly moved, and the sliding base 17 is abutted against the fourth plugs 165 in the second groove 15 to move up to the corresponding position, the roller 19 inside the sliding base 17 is abutted against the base material and is abutted against the base material to move up to the height of the corresponding position, and meanwhile, after the pressure sensor 166 detects the pressure of the corresponding position in the fourth hydraulic tank 164, the information is sent to the control system, the control system opens the second motor 18 to drive the roller 19 to rotate, and the base material on the roller 19 is enabled to move leftwards to the position corresponding to the blanking size through the second motor 18.

Referring to fig. 1 to 10, based on the second embodiment, the method includes the following steps:

s1, firstly placing a base material into an installation groove 9, and starting a first motor 7 to adjust the position of a feeding frame 4 to finish the material loading placement of the base material in the installation groove 9 with different angles;

S2, accurately pushing the blanking size of the base material in the mounting groove 9 through the matching of the adjusting component 16, the sliding base 17, the second motor 18 and the roller 19;

and S3, starting the first electric push rod 10 to push the supporting strip 11 to be matched with the fixing assembly 13, fixing the base material which is completely discharged and pushed in the mounting groove 9, and starting the circular saw mechanism 2 to complete discharging.

When the synchronous feeding device of the continuous processing type circular sawing machine is used, firstly, an operator adjusts the position of a fixing rod 168 in a bottom plate 169 according to the actual blanking size, so that a contact sensor 167 is adjusted to the position corresponding to the blanking size, then a substrate is placed in a mounting groove 9 at the rear position of a feeding frame 4, then a control system starts a first motor 7 to drive a fluted disc 6 and the fluted disc 6 to rotate, drives the feeding frame 4 to rotate on a bottom frame 3, so that the mounting groove 9 at the rear position of the substrate is rotated to the six-o' clock position at the left side of the feeding frame 4, and then the operation of placing the substrate in the mounting groove 9 at the rear position is repeated until the substrates are alternately placed in the plurality of mounting grooves 9;

In the above, when the first mounting groove 9 for placing the substrate rotates to the six o 'clock position on the left side of the feeding frame 4, the adjusting block 163 corresponding to the six o' clock position on the outer side of the right section of the feeding frame 4 is abutted against the three o 'clock body 162, and reaches the maximum abutting position after the mounting groove 9 for placing the substrate rotates to the six o' clock position on the left side of the feeding frame 4, in this process, the oil in the three hydraulic tanks 161 is extruded into the two four hydraulic tanks 164 through the three o 'clock bodies 162 abutted against the lower moving, so that the four o' clock body 165 in the four hydraulic tanks 164 moves upwards and abuts against the sliding base 17 to the corresponding position in the second groove 15, so that the roller 19 on the inner side of the sliding base 17 abuts against the substrate and moves up to the corresponding position, and simultaneously, after the pressure sensor 166 detects the pressure in the corresponding position in the four hydraulic tanks 164, the control system sends information to the control system, and the control system opens the second motor 18 to drive the roller 19 to rotate, and drives the substrate to move leftwards in the mounting groove 9, and when the left end of the substrate moves to the sensor 167 to the position sensor 167, and the sensor 18 contacts the position in the second groove 4 receives the position, and the information is closed, and the information is sent to the control system 167 is adjusted to the position of the left side of the substrate;

In the above, when the first mounting groove 9 for placing the substrate rotates to the twelve o ' clock position on the left side of the feeding frame 4, the substrate on the inner side of the mounting groove 9 rolls the adjustment position automatically in the mounting groove 9, and slides to the upper end of the supporting strip 11 after the mounting groove 9 rotates to the twelve o ' clock position on the left side of the feeding frame 4, meanwhile, the substrate can collide with the first stopper 132 in the process of adjusting the position in the mounting groove 9, so that the first stopper 132 moves upwards in the first hydraulic tank 131, and the oil with the diameter corresponding to the substrate in the first hydraulic tank 131 is extruded into the second hydraulic tank 133, so that the second stopper 134 moves downwards to the corresponding position, then after the substrate rolls to the supporting strip 11, the control system starts the twelve o ' clock position first electric push rod 10 to move upwards in the mounting groove 9, and synchronously drives the substrate to collide with the first stopper 132 through the supporting strip 11, the first stopper 132 is collided with the second hydraulic tank 131, so that the oil in the first hydraulic tank 131 continuously flows into the second hydraulic tank, the second stopper 134 moves downwards, the second stopper 134 moves synchronously, the second stopper 134 is matched with the first stopper 134, and the diameter is fixed to the substrate in the second hydraulic tank is fixed, and the circle center of the circle is fixed, the circle center of the substrate is fixed, and the circle center of the substrate is cut, and the circle diameter of the substrate is fixed, and the circle center of the substrate is fixed, and the circle center of the circle is fixed, the diameter is 2, and the substrate is fixed, and the diameter is fixed.

In the description of the present invention, unless otherwise indicated, the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", etc., refer to the orientation or positional relationship as indicated on the drawings, which are well known to those skilled in the art, merely for convenience of description and simplification of the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and therefore should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. In the description of the present invention, unless explicitly stated and limited otherwise, the terms "connected" and "connected" are to be construed broadly, and for example, they may be fixedly connected, detachably connected, or integrally connected, mechanically connected, electrically connected, or indirectly connected through an intermediate medium. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

Although the present invention has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present invention.

Claims

1. A synchronous feeding device of a continuous processing type circular sawing machine is characterized by comprising a machine body (1), a circular sawing mechanism (2) is arranged behind the left bottom of an inner cavity of the machine body (1), two underframes (3) are fixed on the left side and the right side of the bottom of the inner cavity of the machine body (1), two underframes (3) are slidably connected with a feeding frame (4) through rollers, a toothed ring (5) is fixed on the right outer side of the feeding frame (4), a fluted disc (6) is connected with the outer end of the toothed ring (5) in a meshed mode, the fluted disc (6) is arranged at the bottom of the inner cavity of the machine body (1) through a motor (7), a plurality of discharge grooves (8) are transversely formed in the inner side of the feeding frame (4), a plurality of mounting grooves (9) are formed in the inner side of the discharge grooves (8) through a first electric push rod (10), two first grooves (14) and second grooves (15) are formed in the outer side of the feeding frame (4) in the circumferential direction, two second grooves (14) are formed in the circumferential direction, a plurality of mounting grooves (12) are formed in the first grooves (14) and the second grooves (15) are formed in the bottom of the first grooves (12) and the second grooves (12), the fixing frame (12) is connected with the supporting strip (11) through the fixing component (13) and the base material, sliding bases (17) are arranged below the two second grooves (15), the sliding bases (17) are connected with the bottom of an inner cavity of the machine body (1) through the adjusting component (16), and the sliding bases (17) are rotationally connected with rollers (19) through a second motor (18).

2. The synchronous feeding device of the continuous processing type circular sawing machine of claim 1, wherein a plurality of discharging grooves (8) which are transversely communicated with the inner side of the feeding frame (4) are formed at equal angles, and the forming angle of the mounting groove (9) corresponds to the forming angle of the discharging grooves (8).

3. The synchronous feeding device of a continuous processing type circular sawing machine according to claim 2 wherein the two fixing frames (12) are arranged in a mirror image mode, and the positions of the two fixing frames (12) and the positions of the two first grooves (14) correspond to the transverse positions of the second grooves (15).

4. The synchronous feeding device of the continuous processing type circular sawing machine of claim 3, wherein the fixing component (13) comprises a first hydraulic tank (131), the first hydraulic tank (131) is installed at the upper end longitudinal centering position of the fixing frame (12), a first plug body (132) is slidably connected to the top of an inner cavity of the first hydraulic tank (131) through a spring, the lower end of the first plug body (132) is in contact with a base material, a second hydraulic tank (133) is connected to the inner cavity of the first hydraulic tank (131) through a hose, the second hydraulic tank (133) is installed at the upper end longitudinal centering position of the fixing frame (12), a second plug body (134) is connected to the bottom of the inner cavity of the second hydraulic tank (133) through a spring, and the fixing component (13) is used for adaptively clamping the base material.

5. The synchronous feeding device of the continuous processing type circular sawing machine of claim 4, wherein the first hydraulic tank (131) corresponds to the opening position of the first groove (14) at the installation position of the fixing frame (12), and the second hydraulic tank (133) corresponds to the opening position of the second groove (15) at the installation position of the fixing frame (12).

6. The synchronous feeding device of the continuous processing type circular sawing machine of claim 5, wherein the first plug body (132) and the second plug body (134) move oppositely, the first plug body (132) and the supporting strip (11) move relatively, and the lower end of the first plug body (132) is designed to be of a spherical structure.

7. The synchronous feeding device of the continuous processing type circular sawing machine of claim 6, wherein the adjusting assembly (16) comprises a No. three hydraulic tank (161) and a bottom plate (169), the No. three hydraulic tank (161) is installed at the bottom of the inner cavity of the machine body (1), the bottom of the inner cavity of the No. three hydraulic tank (161) is slidably connected with a No. three plug body (162) through a spring, the top end of the No. three plug body (162) is slidably connected with an adjusting block (163), the adjusting block (163) is installed on the outer side of the right section of the feeding frame (4), the inner cavity of the No. three hydraulic tank (161) is connected with two No. four hydraulic tanks (164) through a hose, the No. four hydraulic tanks (164) are installed at the bottom of the inner cavity of the machine body (1), the top of the No. four hydraulic tanks (164) is connected with a No. four plug body (165) through a spring, the top of the No. four plug body (165) is slidably sleeved on the outer side of the No. four hydraulic tanks (164) through a sliding base (17), the bottom of the No. four hydraulic tanks (166) is installed on the inner cavity (168), and the bottom plate (168) is fixedly connected with the bottom plate (168) through a bottom plate.

8. The synchronous feeding device of the continuous processing type circular sawing machine of claim 7, wherein a plurality of adjusting blocks (163) are arranged on the outer side of the right section of the feeding frame (4) at equal angles, the installation angles of the adjusting blocks (163) correspond to the opening angles of the discharging groove (8), the installation position of the fourth hydraulic tank (164) corresponds to the opening position of the second groove (15), and the installation position of the bottom plate (169) corresponds to the position of the installation groove (9) formed in the lowest part of the left side surface of the feeding frame (4).

9. The synchronous feeding method of the continuous processing type circular sawing machine, which is applicable to the synchronous feeding device of the continuous processing type circular sawing machine as claimed in claim 8, is characterized in that the method comprises the following steps:

s1, firstly placing a base material into an installation groove (9), and starting a first motor (7) to adjust the position of a feeding frame (4) to finish the feeding placement of the base material in the installation groove (9) with different angles;

s2, precisely pushing the blanking size of the base material in the mounting groove (9) through the matching of the adjusting component (16), the sliding base (17), the second motor (18) and the roller (19);

s3, starting a first electric push rod (10) to push the supporting strip (11) to be matched with the fixing assembly (13), fixing the base material which is completely discharged and pushed in the mounting groove (9), and starting the circular saw mechanism (2) to complete discharging.