CN219684132U - Building pole material is quick cutting device in batches - Google Patents

Abstract

The utility model discloses a building pole batch rapid cutting device, which comprises: the mounting beam is mounted on the cutting machine frame, and the cutting machine frame is provided with at least one group of cutting mechanisms; the rotating shaft is arranged at the left side of the mounting beam and driven by a driving machine; the blanking mechanisms are in two groups and are rotatably arranged at the left end of the rotating shaft, and each blanking mechanism at least comprises two clamping mechanisms which are circumferentially distributed; the feeding mechanism is arranged above the mounting beam and is used for providing raw materials for the blanking mechanism; the material receiving mechanism is arranged below the mounting beam; and when the rod piece is cut, the feeding mechanism is used for continuously providing raw materials for the blanking mechanism, the blanking mechanism is driven by the driving machine to rotate clockwise, and after the rod piece passes through the cutting mechanism, the processed rod piece is temporarily stored by the material receiving mechanism.

Description

Building pole material is quick cutting device in batches

Technical Field

The utility model relates to the technical field of cutting, in particular to a device for rapidly cutting building rods in batches.

Background

Various building bars are often required in a building site, and the lengths of the building bars are all factory standard lengths and are required to be cut according to the required lengths of actual buildings. However, the existing cutting device is not thoroughly fixed in the cutting process, the accuracy of cutting the rod material cannot be guaranteed, waste is often caused, and meanwhile, the speed is low in the cutting process, and the cutting device is not required, so that a person skilled in the art provides a building rod material batch rapid cutting device to solve the problems in the background art.

Disclosure of Invention

In order to achieve the above purpose, the present utility model provides the following technical solutions: comprising the following steps:

a building pole batch quick cutting device comprising: the mounting beam is mounted on the cutting machine frame, and the cutting machine frame is provided with at least one group of cutting mechanisms;

the rotating shaft is arranged at the left side of the mounting beam and driven by a driving machine;

the blanking mechanisms are in two groups and are rotatably arranged at the left end of the rotating shaft, and each blanking mechanism at least comprises two clamping mechanisms which are circumferentially distributed;

the feeding mechanism is arranged above the mounting beam and is used for providing raw materials for the blanking mechanism; and

the receiving mechanism is arranged below the mounting beam;

and when the rod piece is cut, the feeding mechanism is used for continuously providing raw materials for the blanking mechanism, the blanking mechanism is driven by the driving machine to rotate anticlockwise, and after the rod piece passes through the cutting mechanism, the processed rod piece is temporarily stored by the material receiving mechanism.

As a preferred embodiment of the present utility model, the cutting mechanism includes:

the cutting shaft is rotationally connected to the cutting rack through a bearing seat, is driven by a rotating motor to rotate through belt transmission, and is at least coaxially provided with a group of cutting saw blades;

the adjusting mechanism is symmetrically designed and coaxially arranged on two sides of the cutting saw blade, the cutting saw blade is clamped, and the position of the cutting saw blade is adjusted before cutting operation through the operation of the adjusting mechanism.

As a preferred embodiment of the present utility model, the adjusting mechanism includes:

the upper pressing plate is semicircular, the bottom of the upper pressing plate is of a semicircular arc structure, the semicircle is attached to the cutting shaft, and a clamping bolt is arranged above the upper pressing plate;

the lower pressure plate, the lower pressure plate shape is the semicircle, and the top is semicircle arc structure for the semicircle laminating in the cutting shaft, and both ends are provided with clamping bolt respectively about, the upper pressure plate left end with the lower pressure plate left end adopts the rotation to be connected, clamping bolt is regular triangle and distributes.

As a preferred technical scheme of the utility model, the blanking mechanism further comprises:

the mounting plate is round and is coaxially fixed with a worm wheel;

the worm is fixed at the left end of the rotating shaft and is connected with the worm gear in a transmission mode, the rotating shaft and the worm are rotatably arranged in the mounting cylinder and driven by the driving machine, the mounting plate is driven to rotate, and the right end of the mounting cylinder is fixed on the mounting beam.

As a preferred embodiment of the present utility model, the clamping mechanism includes:

the support plate is Y-shaped, two support rods are symmetrically audited, the bottom end of the support plate is fixed on the mounting plate, the top end of the left support plate is hinged to the transmission plate five, the top end of the right support plate is hinged to the transmission plate three, and the center crossing position of the support plate is hinged to the transmission plate one;

the five left ends of the transmission plates are hinged with the top ends of the support plates below the transmission plates by a transmission plate four, and the top ends of the three right sides of the transmission plates are hinged with the top ends of the support plates on the right side of the transmission plate one by a transmission plate two;

one end of the telescopic rod is hinged to the mounting plate, and the other end of the telescopic rod is hinged to four hinge points of the transmission plate I and the transmission plate II;

the length of the partial rods of the first transmission plate, the third transmission plate and the fifth transmission plate positioned inside the supporting plate is the same, the length of the partial rods of the first transmission plate, the third transmission plate and the fifth transmission plate positioned outside the supporting plate is the same, and the length of the fourth transmission plate is the same as that of the second transmission plate;

the three groups of clamping plate mechanisms are respectively distributed at the three left ends of the transmission plate, the top end of the transmission plate and the four right ends of the transmission plate in a regular triangle shape and are driven by the transmission plate through the telescopic rod.

As a preferred embodiment, after the rod piece falls into the clamping mechanism, the telescopic rods are pushed, so that all the telescopic plates are driven to move, the rod piece is righted and clamped by the three clamping plate mechanisms from three directions in a regular triangle, and the accuracy and the clamping stability are improved.

As a preferred technical solution of the present utility model, the clamping plate mechanism includes:

the telescopic plates are fixed on the transmission plate through connecting rods, telescopic movement can be carried out on two sides of the telescopic plates, and the tops of the telescopic plates are provided with ductile materials, so that the contact area is increased;

the auxiliary mechanisms are symmetrically arranged at two ends of the expansion plate.

As a preferred embodiment of the present utility model, the auxiliary mechanism includes:

one end of the spring telescopic rod is hinged to the telescopic plate;

the auxiliary plate is fixed at the top end of the spring telescopic rod, is L-shaped, is hinged to the auxiliary telescopic rod and is driven by the auxiliary telescopic rod, and a plurality of grooves are formed in the plate surface;

and the friction mechanism is arranged in the auxiliary plate groove.

As a preferred embodiment of the present utility model, the friction mechanism includes:

the anti-rotation block is in a right-angle trapezoid shape, the top end of the anti-rotation block is made of a coarse material and is connected with the spring connecting sheet through the torsion spring, an included angle between the anti-rotation block and the spring connecting sheet is forty-five degrees, and the spring connecting sheet is vertically fixed in the auxiliary plate groove.

As a preferred technical solution of the present utility model, the feeding mechanism includes:

and the conveyor belt is used for feeding raw materials into the clamping mechanism in operation.

As a preferred technical solution of the present utility model, the material receiving mechanism includes:

the arc-shaped surface is arranged on the right side of the cutting mechanism, after the cutting work is finished, the clamping mechanism stops clamping, the cut rod piece falls into the receiving bin through the arc-shaped surface, and the receiving bin is fixed on the right side of the cutting machine frame.

Compared with the prior art, the utility model provides a building pole batch rapid cutting device, which has the following beneficial effects:

1. according to the utility model, the structure for fixing and positioning the rods is set as the rotary structure, so that the space occupied by equipment is reduced, and the uppermost clamping assembly is used for cutting the rods by the cutting device while feeding, so that the time is greatly saved, and the cutting efficiency of the rods is increased.

2. According to the clamping device, the stress direction of the rod piece finally points to the axle center of the cross section of the rod piece, so that the clamping stability is improved, the clamping accuracy is further improved, the accuracy is improved in the processing process, and the aim of reducing the rejection rate is fulfilled.

3. According to the utility model, through the adjustment of the telescopic rod and the auxiliary telescopic rod, the clamping degree of the clamping plate mechanism in the clamping device is improved, the clamping plate mechanism is suitable for irregular cambered surfaces on the outer sides of different rod materials, and meanwhile, the rod members are prevented from rotating through the friction mechanism, so that the safety of rod member cutting is improved.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of a cutting structure of the present utility model;

FIG. 3 is an enlarged view of the adjustment mechanism of the present utility model;

FIG. 4 is a schematic diagram of the blanking mechanism of the present utility model;

FIG. 5 is an enlarged view of the holding mechanism of the present utility model;

FIG. 6 is an enlarged view of the clamping plate mechanism of the present utility model;

FIG. 7 is an enlarged view of an accessory mechanism of the present utility model;

FIG. 8 is an enlarged view of the friction mechanism of the present utility model;

in the figure: 1. mounting a beam; 101. a rotating shaft; 102. a driving machine; 2. a cutter frame; 3. a cutting mechanism; 301. a cutting shaft; 302. a bearing seat; 303. a rotating motor; 304. cutting the saw blade; 305. an adjusting mechanism; 3051. an upper press plate; 3052. clamping a bolt; 3053. a lower pressing plate; 102. a driving machine; 4. a blanking mechanism; 401. a mounting plate; 402. a worm wheel; 403. a worm; 404. a mounting cylinder; 5. a holding mechanism; 501. a support plate; 502. a telescopic rod; 503. a first transmission plate; 504. a second transmission plate; 505. a third transmission plate; 506. a transmission plate IV; 507. a transmission plate V; 508. a clamping plate mechanism; 5081. a telescoping plate; 5082. a connecting rod; 5083. a ductile material; 5084. an auxiliary mechanism; 6. a feeding mechanism; 601. a conveyor belt; 7. a material receiving mechanism; 701. an arc surface; 702. a material receiving bin; 801. a spring telescoping rod; 802. an auxiliary plate; 803. an auxiliary telescopic rod; 804. a friction mechanism; 8041. a rotation blocking block; 8042. a torsion spring; 8043. and a spring connecting sheet.

Detailed Description

Referring to fig. 1-8, the present utility model provides a technical solution: a building pole batch quick cutting device comprising:

a mounting beam 1 mounted on a cutter frame 2, said cutter frame 2 having at least one set of cutting mechanisms 3;

a rotating shaft 101 arranged on the left side of the mounting beam and driven by a driving machine 102;

the blanking mechanisms 4 are arranged in two groups, are rotatably arranged at the left end of the rotating shaft 101, and at least comprise two clamping mechanisms 5 which are circumferentially arranged;

the feeding mechanism 6 is arranged above the mounting beam 1 and is used for providing raw materials for the blanking mechanism 4; and

the receiving mechanism 7 is arranged below the mounting beam 1;

and when the rod piece is cut, the feeding mechanism 6 is utilized to continuously provide raw materials for the blanking mechanism 4, the blanking mechanism 4 is driven by the driving machine 102 to rotate anticlockwise, and after the rod piece passes through the cutting mechanism 2, the processed rod piece is temporarily stored by the material collecting mechanism 7.

In a preferred embodiment, the cutting mechanism 3 is matched with the blanking mechanism 4 to cut the rod, and the clamping mechanisms are used for circularly working, so that the time interval in rod cutting is shortened, and the working efficiency is improved.

In this embodiment, the cutting mechanism 3 includes:

the cutting shaft 301 is rotatably connected to the cutting frame 2 by a bearing seat 302, and is driven to rotate by a rotating motor 303 through belt transmission, and at least one group of cutting saw blades 304 are coaxially arranged on the cutting shaft 301;

the adjusting mechanism 305 is symmetrically designed and coaxially installed at both sides of the cutting saw blade 304, and clamps the cutting saw blade 304, and the position of the cutting saw blade 304 is adjusted before the cutting operation by the operation of the adjusting mechanism 305.

As a preferred embodiment, the adjusting mechanism 305 clamps the cutting saw blade 304 from two ends, so that the cutting saw blade 304 and the cutting shaft 301 rotate simultaneously, and before the cutting work starts, a plurality of cutting saw blades 304 can be set according to the length and the number of rod members required, and the rod member raw materials are cut simultaneously, so that the cutting efficiency is improved.

In this embodiment, the adjusting mechanism 305 includes:

the upper pressing plate 3051 is in a semicircular shape, the bottom of the upper pressing plate 3051 is in a semicircular arc structure, so that the semicircle is attached to the cutting shaft 301, and a clamping bolt 3052 is arranged above the upper pressing plate;

the holding down plate 3053, the holding down plate shape is the semicircle, and the top is semicircle arc structure for the semicircle laminating in the cutting shaft, and both ends are provided with clamping bolt respectively about, upper plate 3051 left end with holding down plate 3053 left end adopts the rotation to be connected, clamping bolt 3052 is regular triangle and distributes.

In this embodiment, the discharging mechanism 4 further includes:

a mounting plate 401 which is circular and to which a worm wheel 402 is coaxially fixed;

the worm 403, the worm is fixed in the axis of rotation 101 left end, and with worm wheel 402 transmission links to each other, axis of rotation 101 with worm 403 rotates and sets up in the installation section of thick bamboo 404, is driven by driving machine 102, and then drives installation dish 401 rotates, the installation section of thick bamboo 404 right-hand member is fixed in on the installation roof beam 1.

In this embodiment, the clamping mechanism 5 includes:

the supporting plate 501 is Y-shaped, two supporting rods are symmetrically audited, the bottom end of the supporting plate 501 is fixed on the mounting plate 401, the top end of the left supporting plate is hinged to the transmission plate five 507, the top end of the right supporting plate is hinged to the transmission plate three 505, and the center crossing position of the supporting plate 501 is hinged to the transmission plate one 503;

the left end of the transmission plate five 507 is hinged with the top end of the support plate below the transmission plate one 503 through a transmission plate four 506, and the right top end of the transmission plate three 505 is hinged with the top end of the support plate on the right side of the transmission plate one 503 through a transmission plate two 505;

one end of the telescopic rod 502 is hinged to the mounting plate 401, and the other end of the telescopic rod 502 is hinged to a hinge point of the first 503 transmission plate and a hinge point of the fourth 506 transmission plate;

the length of the partial rods of the first transmission plate 503, the third transmission plate 505 and the fifth transmission plate 507 positioned inside the supporting plate 501 is the same, the length of the partial rods of the first transmission plate 503, the third transmission plate 505 and the fifth transmission plate 507 positioned outside the supporting plate 501 is the same, and the length of the fourth transmission plate 506 is the same as the length of the second transmission plate 504;

the three clamping plate mechanisms 508 are respectively distributed at the left end of the third transmission plate 505, the top end of the first transmission plate 503 and the right end of the fourth transmission plate 506 in a regular triangle shape, and are driven by the telescopic rod 502 through the transmission plates.

As a preferred embodiment, after the rod falls into the clamping mechanism 5, the telescopic rods 502 are pushed, so as to drive each telescopic plate to move, so that the three clamping plate mechanisms 508 align and clamp the rod in three directions with regular triangles, thereby improving accuracy and stability of clamping.

In this embodiment, the clamping plate mechanism 508 includes:

the expansion plate 5081, the expansion plate 5081 is fixed on the transmission plate through a connecting rod 5082, expansion movement can be performed on two sides, and the top is provided with a ductile material 5083, so that the contact area is increased;

the auxiliary mechanisms 5084 are symmetrically arranged at two ends of the expansion plate 5081, and the auxiliary mechanisms are two in number.

In this embodiment, the auxiliary mechanism 5084 includes:

a spring telescopic rod 801, wherein one end of the spring telescopic rod 801 is hinged to the telescopic plate 5081;

an auxiliary plate 802 is fixed at the top end of the spring telescopic rod 801, the auxiliary plate is L-shaped, a plurality of grooves are formed in the plate surface, and the auxiliary plate 802 is hinged to the auxiliary telescopic rod 803 and driven by the auxiliary telescopic rod 803;

a friction mechanism 804, the friction mechanism 804 being mounted in a recess of the auxiliary plate 802.

As a preferred embodiment, after the rod falls into the clamping mechanism 5, the telescopic rod 502 drives the clamping plate mechanism 508 to perform primary clamping, and the rod position is adjusted while clamping, so as to ensure the rod machining precision, and after the primary clamping is completed, the auxiliary plate 802 is pushed by the auxiliary telescopic rod 801 to perform secondary clamping, so that the contact area with the surface of the rod is increased, the pressure of the clamping mechanism 5 on the rod is increased, and the clamping stability is improved.

In this embodiment, the friction mechanism 804 includes:

the anti-rotation block 8041 is in a right-angle trapezoid shape, the top end of the anti-rotation block 8041 is made of a coarse material, the anti-rotation block 8041 is connected with the spring connecting sheet 8042 through the torsion spring 8042, an included angle between the anti-rotation block 8041 and the spring connecting sheet 8042 is forty-five degrees, and the spring connecting sheet 8043 is vertically fixed in the auxiliary plate groove.

As a preferred embodiment, after the expansion plate 5081 clamps and the auxiliary plate 802 clamps for the second time, the friction mechanism 804 is attached to the outer wall of the rod member to be processed, the spring connecting plate 8043 presses down and rotates with the torsion spring 8043, so that the attachment of the clamping device 5 to the rod member is changed from surface contact to point contact, the top surface of the rotation preventing block 8041 contacts with the rod member, friction force is increased, when the rod member is displaced, the spring expansion rod 801 is pulled, thereby driving the friction mechanism 804 to apply force in the opposite direction, preventing the rod member from displacing, and meanwhile, torsion spring deformation applies pressure to the rod member, thereby increasing friction force between the rotation preventing block 8041 and the rod member, improving stability of rod member fixing, preventing the rod member from rotating, the friction mechanism 804 is stressed, driving the auxiliary mechanism 5084 to bear force, further increasing friction force between the expansion plate 5081 and the rod member, further preventing rotation and sliding, and improving clamping stability.

In this embodiment, the feeding mechanism 6 includes:

a conveyor belt 601, in operation, the conveyor belt 601 feeds the stock into the gripping mechanism 5.

In this embodiment, the material receiving mechanism 7 includes:

the arc-shaped surface 701, the arc-shaped surface 701 sets up cutting mechanism 3 right side, after cutting work is accomplished, fixture 5 stops pressing from both sides tightly, and the member that cuts passes through the arc-shaped surface 701 falls into the receipts feed bin 702, receive feed bin 702 is fixed in cutting frame 2 right side.

In specific implementation, the driver 102 is turned on to rotate the blanking mechanism 4, the feeding mechanism 6 is used to continuously provide raw materials for the blanking mechanism 4, the working efficiency is greatly improved through the cyclic work of the blanking mechanism, the raw materials are clamped by the clamping mechanism 5 during the cyclic work, the clamping mechanism 5 is matched with the clamping plate mechanism 508, the stability and accuracy of rod clamping are improved, the rod is fed into the cutting mechanism 2 for cutting through the rotation of the blanking mechanism 4, and the rod cut after cutting is temporarily stored in the material receiving mechanism 7.

The above description is only of the preferred embodiments of the utility model, but the protection scope of the utility model is not limited thereto, and any person skilled in the art who is skilled in the art to which the utility model pertains should make equivalent substitutions or modifications according to the technical solution of the utility model and its inventive concept within the scope of the utility model.

Claims (10)

1. Quick cutting device in batches of building pole material, its characterized in that: comprising the following steps:

a mounting beam (1) mounted on a cutter frame (2), the cutter frame (2) having at least one set of cutting mechanisms (3);

a rotating shaft (101) arranged on the left side of the mounting beam and driven by a driving machine (102);

the blanking mechanisms (4) are in two groups, are rotatably arranged at the left end of the rotating shaft (101), and at least comprise two clamping mechanisms (5) which are circumferentially distributed;

the feeding mechanism (6) is arranged above the mounting beam (1) and is used for providing raw materials for the blanking mechanism (4); and a receiving mechanism (7) arranged below the mounting beam (1);

and when the rod piece is cut, the feeding mechanism (6) is utilized to continuously provide raw materials for the blanking mechanism (4), the blanking mechanism (4) is driven by the driving machine (102) to rotate, and after passing through the cutting mechanism (3), the processed rod piece is temporarily stored by the material receiving mechanism (7).

2. The building pole batch rapid cutting device of claim 1, wherein: the cutting mechanism (3) comprises:

the cutting machine comprises a cutting shaft (301), wherein the cutting shaft (301) is rotationally connected to a cutting machine frame (2) through a bearing seat (302), a rotating motor (303) is driven by a belt to rotate, and at least one group of cutting saw blades (304) are coaxially arranged on the cutting shaft (301);

the adjusting mechanism (305) is symmetrically designed and is coaxially arranged at two sides of the cutting saw blade (304), the cutting saw blade (304) is clamped, and the position of the cutting saw blade (304) is adjusted before cutting operation by the operation of the adjusting mechanism (305).

3. A building pole batch rapid cutting apparatus according to claim 2, wherein: the adjustment mechanism (305) includes:

the upper pressing plate (3051) is semicircular, the bottom of the upper pressing plate (3051) is of a semicircular arc structure, the semicircle is attached to the cutting shaft (301), and a clamping bolt (3052) is arranged above the upper pressing plate;

the lower pressure plate (3053), the lower pressure plate shape is the semicircle, and the top is semicircle arc structure for the semicircle laminating in the cutting shaft, and control both ends and be provided with clamping bolt respectively, upper pressure plate (3051) left end with lower pressure plate (3053) left end adopts the rotation to be connected, clamping bolt (3052) are regular triangle and distribute.

4. The building pole batch rapid cutting device of claim 1, wherein: the blanking mechanism (4) further comprises:

a circular mounting plate (401) coaxially fixed with a worm wheel (402);

the worm (403), the worm is fixed in axis of rotation (101) left end, and with worm wheel (402) transmission links to each other, axis of rotation (101) with worm (403) rotate and set up in installation section of thick bamboo (404), by driving machine (102) drive, and then drive mounting disc (401) rotate installation section of thick bamboo (404) right-hand member is fixed in on installation roof beam (1).

5. A building pole batch rapid cutting apparatus according to claim 1 or claim 4, wherein: the clamping mechanism (5) comprises:

the support plate (501) is Y-shaped, two support rods at the top are mutually symmetrical, the bottom end of the support plate is fixed on the mounting disc (401), the top end of the left support plate is hinged to the transmission plate five (507), the top end of the right support plate is hinged to the transmission plate three (505), and the center crossing position of the support plate (501) is hinged to the transmission plate one (503);

the left end of the transmission plate five (507) is hinged with the top end of the support plate below the transmission plate one (503) through a transmission plate four (506), and the right top end of the transmission plate three (505) is hinged with the top end of the support plate on the right side of the transmission plate one (503) through a transmission plate two (504);

one end of the telescopic rod (502) is hinged to the mounting plate (401), and the other end of the telescopic rod is hinged to one point together with the transmission plate I (503) and the transmission plate IV (506);

the length of partial rods of the first transmission plate (503), the third transmission plate (505) and the fifth transmission plate (507) positioned inside the supporting plate (501) is the same, the length of partial rods of the first transmission plate (503), the third transmission plate (505) and the fifth transmission plate (507) positioned outside the supporting plate (501) is the same, and the length of the second transmission plate (504) is the same as that of the fourth transmission plate (506);

the clamping plate mechanisms (508) are in three groups, are respectively distributed at the left end of the transmission plate III (505), the top end of the transmission plate I (503) and the right end of the transmission plate IV (506) in a regular triangle, and are driven by the telescopic rod (502) through the transmission plate.

6. The building pole batch rapid cutting device of claim 5, wherein: the clamping plate mechanism (508) comprises:

the telescopic plate (5081) is fixed on the transmission plate through a connecting rod (5082), telescopic movement can be carried out on two sides of the telescopic plate, and a ductile material (5083) is arranged at the top of the telescopic plate, so that the contact area is increased;

the auxiliary mechanisms (5084) are arranged in two groups, and are symmetrically arranged at two ends of the expansion plate (5081).

7. The building pole batch rapid cutting device of claim 6, wherein: the auxiliary mechanism (5084) comprises:

a spring telescopic rod (801), wherein one end of the spring telescopic rod (801) is hinged to the telescopic plate (5081);

the auxiliary plate (802) is fixed at the top end of the spring telescopic rod (801), the auxiliary plate is L-shaped, the plate surface is provided with a plurality of grooves, and the auxiliary plate (802) is hinged to the auxiliary telescopic rod (803) and driven by the auxiliary telescopic rod (803);

-a friction mechanism (804), said friction mechanism (804) being mounted in a recess of said auxiliary plate (802).

8. The building pole batch rapid cutting device of claim 7, wherein: the friction mechanism (804) includes:

the anti-rotation block (8041) is right-angle trapezoid, the top end of the anti-rotation block (8041) is made of coarse materials, the anti-rotation block is connected with the spring connecting piece (8043) through the torsion spring (8042), an included angle between the anti-rotation block and the spring connecting piece is forty-five degrees, and the spring connecting piece (8043) is vertically fixed in the auxiliary plate groove.

9. The building pole batch rapid cutting device of claim 1, wherein: the feeding mechanism (6) comprises:

a conveyor belt (601), wherein the conveyor belt (601) is used for feeding raw materials into the clamping mechanism (5) in operation.

10. The building pole batch rapid cutting device of claim 1, wherein: the material receiving mechanism (7) comprises:

arcwall face (701), arcwall face (701) set up cutting mechanism (3) right side, after the cutting work is accomplished, fixture (5) stop pressing from both sides tightly, the member that cuts is passed through arcwall face (701) fall into in receiving feed bin (702), receiving feed bin (702) are fixed in cutting frame (2) right side.