CN220278440U - Radial sawing device - Google Patents

Abstract

The utility model discloses a radial sawing device which comprises a material preparation mechanism, a conveying mechanism, a pushing mechanism, a material pressing mechanism, a sawing mechanism and a machine body, wherein the material preparation mechanism, the conveying mechanism, the pushing mechanism, the material pressing mechanism and the sawing mechanism are respectively connected with the machine body; the material preparation mechanism comprises a movable material storage part, and the material storage part is used for storing materials; the conveying mechanism is used for taking out materials from the storage part and conveying the materials to the pushing mechanism; the pushing mechanism is used for applying acting force to the material to move to the sawing mechanism; the material pressing mechanism is used for pressing materials during sawing; the sawing mechanism comprises more than one movable sawing tool.

Description

Radial sawing device

Technical Field

The utility model relates to the field of sawing and processing of materials such as bamboo, sectional materials, steel, PVC (polyvinyl chloride), pipelines and the like, in particular to a radial sawing device.

Background

The existing sawing machine is basically a single-piece saw or a plurality of single-piece saws which are mutually independent to be placed. A single sawing machine can only process one material at a time, and has low productivity and low efficiency. For example, when sawing bamboo, it is usually necessary to cut the bamboo into sections of about 1.2 m each, then send the 1.2 m sections into sawing machine, and cut the bamboo into required bamboo tubes according to the need, and the length of the bamboo tube is generally between 20 and 200 mm. That is to say, a section of bamboo is 1.2 m long, and if a bamboo tube with the length of 100mm is sawn without considering saw seams, a saw 12 knife is needed to saw theoretically, and after all the 12 knives are sawn, the next bamboo section can be sent.

Disclosure of Invention

The utility model aims to solve the problem that a plurality of materials cannot be sawed at the same time.

The utility model provides a radial sawing device for the technical problems.

The technical scheme of the utility model is as follows:

a radial sawing device comprises a material preparation mechanism, a conveying mechanism, a pushing mechanism, a material pressing mechanism, a sawing mechanism and a machine body, wherein the material preparation mechanism, the conveying mechanism, the pushing mechanism, the material pressing mechanism and the sawing mechanism are respectively connected with the machine body;

the material preparation mechanism comprises a movable material storage part, and the material storage part is used for storing materials;

the conveying mechanism is used for taking out materials from the storage part and conveying the materials to the pushing mechanism;

the pushing mechanism is used for applying acting force to the material to move to the sawing mechanism;

the material pressing mechanism is used for pressing materials during sawing;

the sawing mechanism comprises more than one movable sawing tool.

Preferably, the feeding device further comprises an alignment part and a feeding part, wherein the feeding part is arranged at the inlet of the material preparation mechanism and is used for moving materials from the alignment part to the material storage part, the alignment part is arranged at two sides of the feeding part, and the alignment part is used for positioning the materials.

Preferably, the storage part comprises a storage rack and a storage rack moving part, wherein the storage rack is fixedly connected with the storage rack moving part, and the storage rack moving part is used for carrying the storage rack to do reciprocating or circulating motion.

Preferably, the conveying mechanism comprises a lifting mechanism and a conveying frame, wherein the conveying frame is fixedly connected with the lifting mechanism, and the conveying frame is arranged on the outer side of the material storage frame.

Preferably, the pressing mechanism comprises a pressing plate, a pressing transmission piece and a pressing driving part, wherein the pressing driving part is connected with the pressing transmission piece, and the pressing transmission piece is connected with the pressing plate.

Preferably, the sawing mechanism further comprises a cutter moving member for reciprocating movement with the cutter driving member and a cutter driving member for rotating movement with the sawing cutter.

Preferably, the device further comprises a rotatable material bearing mechanism, wherein the material bearing mechanism is arranged at the bottom of the pushing mechanism.

Preferably, the alignment part comprises a baffle and an alignment driving piece, the baffle is fixedly connected with the alignment driving piece, and a groove matched with the material is formed in the baffle.

Preferably, the pressing transmission piece is movably connected with the machine body, the pressing driving part and the pressing plate respectively, and the distance between the joint of the pressing transmission piece and the pressing driving part and the joint of the pressing transmission piece and the machine body is smaller than the distance between the joint of the pressing transmission piece and the pressing plate and the joint of the pressing transmission piece and the machine body.

Preferably, the material bearing mechanism comprises a front plate, a middle plate and a rear plate which are mutually spaced, wherein a gap between the front plate and the middle plate allows the pushing mechanism to pass through, and a gap between the rear plate and the middle plate allows the pushing mechanism to pass through.

Compared with the prior art, the utility model has the following advantages and effects:

1. automatic material conveying and sawing are realized, and labor is saved.

2. Feeding and sawing work separately, feeding is completed while sawing, and production takt is improved.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the utility model, and that other drawings can be obtained according to these drawings without inventive faculty for a person skilled in the art.

Fig. 1 is a schematic diagram of example 1.

Fig. 2 is a front view of fig. 1.

Fig. 3 is a side view of fig. 1.

Fig. 4 is a schematic view of the alignment member of fig. 1.

Fig. 5 is a schematic view of the feed preparation mechanism of fig. 1.

Fig. 6 is a schematic view of the conveyor mechanism of fig. 1.

Fig. 7 is a schematic view of the ejector mechanism of fig. 1.

Fig. 8 is a schematic view of the pressing mechanism of fig. 1.

Fig. 9 is a schematic view of the sawing mechanism of fig. 1.

Fig. 10 is a schematic view of the material receiving mechanism of fig. 1.

FIG. 11 is a schematic view of the collection mechanism of FIG. 1

Description of the drawings:

1-a machine body; 2-material; 3-alignment means; 4-feeding parts; 5-a material preparation mechanism;

6-a conveying mechanism; 7-a pushing mechanism; 8-a material pressing mechanism; 9-sawing mechanism; 10-a material bearing mechanism;

11-a collection mechanism; 31-a baffle; 32-aligning the driving member; 33-pair of flush stations; 34-aligning the grooves;

51-a storage rack; 52-a rack moving part; 61-lifting mechanisms; 62-a carriage;

71-pushing the driving member; 72-pushing plate; 73-pushing the buffer;

81-a material pressing plate; 82-pressing a transmission piece; 83-a pressing driving piece;

84-driving piece hinge rod; 85-a platen fixing plate; 86-guide post;

91-knife driving member; 92-tool mover; 93-cutter driving member; 94-sawing a cutter;

101-a front plate; 102-a middle plate; 103-a back plate; 104-a material-bearing driving piece;

111-a collecting plate; 112-an aggregate table.

Detailed Description

The present utility model will be described in further detail with reference to the following examples, which are illustrative of the present utility model and are not intended to limit the present utility model thereto.

Example 1: the utility model provides a radial saw cuts device, includes material preparation mechanism, conveying mechanism, pushing away mechanism, swager constructs, saw cuts mechanism and organism, and material preparation mechanism, conveying mechanism, pushing away mechanism, swager construct, saw cut the mechanism and all connect the organism respectively, and the connected mode adopts can not dismantle connection (for example welding, bonding) or can dismantle connection (for example bolt, riveting, articulated), and the organism can adopt current saw cuts machine structure and can carry out corresponding transformation as required. The material preparation mechanism comprises a movable material storage part, wherein the material storage part is used for storing materials, and adopts a structure capable of conveying the materials, for example, a chain, a belt, clamping jaws and the like are driven by a motor or a linear module. The conveying mechanism is used for taking out materials from the storage part and conveying the materials to the pushing mechanism, and adopts a structure capable of conveying the materials, for example, a cylinder or a motor or a linear module is adopted to drive a clamping jaw, a bracket and the like. The pushing mechanism is used for applying acting force to the material to move to the sawing mechanism, and the pushing mechanism adopts a structure capable of applying pressure to the material, for example, a flat plate, a convex block, an arc plate and the like driven by an air cylinder or a motor or a linear module are adopted. The material pressing mechanism is used for pressing materials during sawing, and adopts a structure capable of applying pressure to the materials, for example, a flat plate, a convex block, an arc plate and the like driven by an air cylinder or a motor or a linear module are adopted. The sawing mechanism comprises more than one movable sawing cutter, and the sawing cutters are selected according to requirements, for example, a saw blade driven by an air cylinder or a motor or a linear module is adopted. Preferably, the device further comprises an alignment part and a feeding part, wherein the feeding part is arranged at the inlet of the material preparation mechanism and is used for moving materials from the alignment part to the material storage part, for example, a flat plate, a convex block, an arc plate and the like driven by an air cylinder or a motor or a linear module are adopted. The alignment parts are arranged on two sides of the feeding part and used for positioning materials, such as flat plates, convex blocks, arc plates and the like driven by an air cylinder or a motor or a linear module. The material preparation mechanism can be arranged at any position of the machine body, and preferably, in order to reduce the occupied area, the material preparation mechanism is arranged at the middle part or the bottom of the machine body. The conveying mechanism can be arranged below or on two sides or above the material preparation mechanism. The pushing mechanism is arranged above or obliquely above the material preparation mechanism. Preferably, the pressing mechanism, the sawing mechanism and the pushing mechanism are arranged at the upper part of the machine body. Preferably, the rotary type material loading device further comprises a rotatable material loading mechanism, the rotary type material loading mechanism adopts a conventional structure, for example, the rotary type material loading mechanism rotates through a rotating shaft, and the material loading mechanism is arranged below the pushing mechanism and is used for loading materials conveyed by the conveying mechanism. Preferably, the sawing machine further comprises a collecting mechanism, wherein the collecting mechanism is positioned below or behind the sawing mechanism and is used for collecting sawed materials.

In a preferred embodiment, as shown in fig. 1 to 3, the alignment member 3 includes a baffle 31, an alignment driving member 32 and an alignment platform 33, the alignment driving member 33 is an air cylinder, the alignment driving member 33 is fixed at both sides of the alignment platform 33, an output end of the alignment driving member 33 is connected to the baffle 31, and the baffle 31 is connected to the alignment platform 33 through a guide rail. The feeding member 4 is a cylinder, the cylinder body is fixed on the alignment platform 33, and a cylinder push rod can pass through a gap on the alignment platform 33. The alignment platform 33 may be integrally formed with the body 1 or may be independent of each other as shown in fig. 1. Preferably, the alignment platform 33 is a plane or an inclined plane as shown in fig. 4, the baffle 3 is a flat plate or a turnover plate as shown in fig. 4, the turnover plate enlarges the inlet area, the feeding is convenient, the baffle 3 is provided with an alignment groove 34, the diameter of the alignment groove 34 is larger than or equal to that of the material, the material can be coarsely positioned in the alignment groove 34, and the alignment is convenient.

In a preferred embodiment, as shown in fig. 5, the stock preparation mechanism 5 includes a stock shelf 51 and a shelf moving part 52, the shelf moving part 52 including a shelf chain and a motor for powering the chain. Preferably, two rack chains are provided in parallel for smooth transport of the material. The storage racks 51 are mounted on the rack chains, and the storage racks 51 may span two rack chains, i.e., one storage rack 51 connects two rack chains at the same time, or may be mounted on only one rack chain, in any number (e.g., 4, 8, 10) of storage racks 51. The magazine 51 may take the shape of a "V" as shown in fig. 5, or may take the shape of a "V".

In a preferred embodiment, shown in fig. 6 as a single sided conveyor mechanism, the conveyor mechanism 6 includes a lift mechanism 61 and a carriage 62. The lifting mechanism 61 adopts a cylinder, the cylinder body is arranged on the machine body 1, and the conveying frame 62 is arranged on a cylinder push rod. The carriage 62 is V-shaped and is provided on both sides of the magazine 51.

In a preferred embodiment, as shown in fig. 7, the ejector mechanism 7 includes an ejector drive member 71 and an ejector plate 72. The pushing driving piece 71 comprises a motor and a chain, the motor is arranged on the machine body 1, and the output end of the motor is connected with the chain through a chain wheel. The chain is fixedly connected to the push plate 72, for example, the chain is welded to the push plate 72 as one body. The pushing mechanism 71 may further be provided with a pushing buffer member 73, where the pushing buffer member 73 includes a spring, a guide pillar, and a buffer plate, the buffer plate is movably connected to the guide pillar, the guide pillar is fixedly connected to the pushing plate 72, and the spring is sleeved outside the guide pillar and is disposed between the buffer plate and the pushing plate 72.

In a preferred embodiment, as shown in fig. 8, the press mechanism 8 includes a press plate including a press plate 81, a transmission member hinge lever 84, and a press plate fixing plate 85, a press transmission member 82, and a press driving member 83. The material pressing driving part 83 adopts a cylinder, the cylinder body is arranged on the machine body 1, and a cylinder push rod is hinged with one end of the material pressing driving part 82. The pressing transmission piece 82 is hinged with the machine body 1 at a position close to the cylinder push rod, and one end of the pressing transmission piece 82, which is far away from the cylinder push rod, is hinged with the transmission piece hinge rod 84. In order to ensure that the pressing plate 81 moves in a directional manner, the transmission member hinge rod 84 is hinged with the pressing plate fixing plate 85, the pressing plate fixing plate 85 is connected with the pressing plate 81 through the guide post, and the guide post 86 is sleeved in the machine body 81. The platen 81 is V-shaped.

In a preferred embodiment, as shown in fig. 9, the sawing mechanism 9 comprises a saw blade 94, a tool drive 91 and a tool mover 92. The cutter moving member 92 includes a motor and a cutter driving member 93, the cutter driving member 93 includes a crank link and a slider, one end of the crank link is movably connected to the motor through a bearing in an eccentric manner, the other end of the crank link is movably connected to the slider through a bearing, the slider is mounted on a slider guide rail, and the slider guide rail is mounted on the machine body 1. The cutter driving member 91 adopts a motor, the motor is arranged on the sliding block, and the output end of the motor is connected with the saw cutter 94.

In a preferred embodiment, as shown in fig. 10, the carrier mechanism 10 includes a carrier drive 104 and a carrier plate. The material-bearing driving part 104 comprises a motor and a rotating shaft, the motor is arranged on the machine body 1, the output end of the motor is connected with the rotating shaft, and the rotating shaft is connected with the machine body 1 through a bearing. The bearing plates are mounted on the rotating shaft, one or more bearing plates can be mounted below each pushing mechanism, as shown in fig. 10, 2 bearing plates are mounted below each pushing mechanism, the rotation directions of the 2 bearing plates are opposite, one bearing plate rotates anticlockwise, one bearing plate rotates clockwise, and the rotation angle is preferably 40-90 degrees. The carrier plate comprises a front plate 101, a middle plate 102 and a rear plate 103 which are spaced from each other, wherein a gap between the front plate 101 and the middle plate 102 allows the pushing mechanism to pass through, and a gap between the rear plate 103 and the middle plate 102 allows the pushing mechanism to pass through.

In a preferred embodiment, as shown in fig. 11, a collection mechanism is located below the saw blade 94, the collection mechanism including a collection plate 111 and a collection table 112. The collecting plates 111 are installed at both sides of the collecting table 112, and the collecting table 112 adopts a conveyor belt.

In a preferred embodiment, as shown in fig. 1 to 11, the alignment member 3 includes a baffle 31, an alignment driving member 32 and an alignment platform 33, the alignment driving member 33 is an air cylinder, the alignment driving member 33 is fixed at both sides of the alignment platform 33, an output end of the alignment driving member 33 is connected to the baffle 31, and the baffle 31 is connected to the alignment platform 33 through a guide rail. The feeding member 4 is a cylinder, the cylinder body is fixed on the alignment platform 33, and a cylinder push rod can pass through a gap on the alignment platform 33. The alignment platform 33 may be integrally formed with the body 1 or may be independent of each other as shown in fig. 1. Preferably, the alignment platform 33 is a plane or an inclined plane as shown in fig. 4, the baffle 3 is a flat plate or a turnover plate as shown in fig. 4, the turnover plate enlarges the inlet area, the feeding is convenient, the baffle 3 is provided with an alignment groove 34, the diameter of the alignment groove 34 is larger than or equal to that of the material, the material can be coarsely positioned in the alignment groove 34, and the alignment is convenient. The stock preparation mechanism 5 includes a stock shelf 51 and a stock shelf moving part 52, and the stock shelf moving part 52 includes a stock shelf chain and a motor that powers the chain. Preferably, two rack chains are provided in parallel for smooth transport of the material. The storage racks 51 are mounted on the rack chains, and the storage racks 51 may span two rack chains, i.e., one storage rack 51 connects two rack chains at the same time, or may be mounted on only one rack chain, in any number (e.g., 4, 8, 10) of storage racks 51. The magazine 51 may take the shape of a "V" as shown in fig. 5, or may take the shape of a "V". The conveying mechanism 6 includes a lifting mechanism 61 and a conveying frame 62. The lifting mechanism 61 adopts a cylinder, the cylinder body is arranged on the machine body 1, and the conveying frame 62 is arranged on a cylinder push rod. The carriage 62 is V-shaped and is provided on both sides of the magazine 51. The pushing mechanism 7 includes a pushing drive member 71 and a pushing plate 72. The pushing driving piece 71 comprises a motor and a chain, the motor is arranged on the machine body 1, and the output end of the motor is connected with the chain through a chain wheel. The chain is fixedly connected to the push plate 72, for example, the chain is welded to the push plate 72 as one body. The pushing mechanism 71 may further be provided with a pushing buffer member 73, where the pushing buffer member 73 includes a spring, a guide pillar, and a buffer plate, the buffer plate is movably connected to the guide pillar, the guide pillar is fixedly connected to the pushing plate 72, and the spring is sleeved outside the guide pillar and is disposed between the buffer plate and the pushing plate 72. The pressing mechanism 8 comprises a pressing plate, a pressing transmission member 82 and a pressing driving member 83, and the pressing plate comprises a pressing plate 81, a transmission member hinge rod 84 and a pressing plate fixing plate 85. The material pressing driving part 83 adopts a cylinder, the cylinder body is arranged on the machine body 1, and a cylinder push rod is hinged with one end of the material pressing driving part 82. The pressing transmission piece 82 is hinged with the machine body 1 at a position close to the cylinder push rod, and one end of the pressing transmission piece 82, which is far away from the cylinder push rod, is hinged with the transmission piece hinge rod 84. In order to ensure that the pressing plate 81 moves in a directional manner, the transmission member hinge rod 84 is hinged with the pressing plate fixing plate 85, the pressing plate fixing plate 85 is connected with the pressing plate 81 through the guide post, and the guide post 86 is sleeved in the machine body 81. The platen 81 is V-shaped. The sawing mechanism 9 comprises a saw blade 94, a blade drive 91 and a blade mover 92. The cutter moving member 92 includes a motor and a cutter driving member 93, the cutter driving member 93 includes a crank link and a slider, one end of the crank link is movably connected to the motor through a bearing in an eccentric manner, the other end of the crank link is movably connected to the slider through a bearing, the slider is mounted on a slider guide rail, and the slider guide rail is mounted on the machine body 1. The cutter driving member 91 adopts a motor, the motor is arranged on the sliding block, and the output end of the motor is connected with the saw cutter 94. The carrying mechanism 10 comprises a carrying drive 104 and a carrying plate. The material-bearing driving part 104 comprises a motor and a rotating shaft, the motor is arranged on the machine body 1, the output end of the motor is connected with the rotating shaft, and the rotating shaft is connected with the machine body 1 through a bearing. The bearing plates are mounted on the rotating shaft, one or more bearing plates can be mounted below each pushing mechanism, as shown in fig. 10, 2 bearing plates are mounted below each pushing mechanism, the rotation directions of the 2 bearing plates are opposite, one bearing plate rotates anticlockwise, one bearing plate rotates clockwise, and the rotation angle is preferably 40-90 degrees. The carrier plate comprises a front plate 101, a middle plate 102 and a rear plate 103 which are spaced from each other, wherein a gap between the front plate 101 and the middle plate 102 allows the pushing mechanism to pass through, and a gap between the rear plate 103 and the middle plate 102 allows the pushing mechanism to pass through. Located below the saw blade 94 is a collection mechanism that includes a collection plate 111 and a collection table 112. The collecting plates 111 are installed at both sides of the collecting table 112, and the collecting table 112 adopts a conveyor belt.

The working principle is as follows: comprises a feeding process, a conveying process, a pushing process and a sawing process.

Feeding: the material is transported by the transport of the preceding process, for example a piece of bamboo is transported to the alignment station 33. The bamboo segments on the alignment table 33 fall into the alignment grooves 34, and the baffles 31 arranged on two sides are positioned and extruded to realize single-side alignment, for example, left side alignment, that is, the right side baffles move to the left side baffles to realize left side alignment. After alignment, the feeding part 4 is lifted, the bamboo segments are jacked into the rear storage rack 51, the material can be stably contained in the 'V' -shaped design of the storage rack 51, and after the material enters the storage rack 51, the storage rack 51 containing the material is driven by the storage rack moving part 52 to move until the next empty storage rack 51 moves to the rear of the alignment table 33, namely, the initial position of the previous storage rack 51. The feeding process of one bamboo section is adopted, and the next bamboo section is fed according to the feeding process, so that continuous work can be realized.

And (3) conveying: as shown in fig. 1 to 3, there are 16 racks 51, which are divided into an upper working area and a lower preparation area. When the upper working area is full of the material, namely 8 bamboo segments are fed continuously, the feeding is stopped. At this time, the lifting mechanism 61 drives the conveying frame 62 to lift, and when the conveying frame 62 contacts the bamboo sections, the bamboo sections are separated from the material storage frame 51, and the conveying frame 62 accommodates the bamboo sections. At this time, the carrier plate is in a vertical state, i.e., the front plate 101, the middle plate 102, and the rear plate 103 are all vertical. After the carriage 62 rises through the front plate 101, the middle plate 102 and the rear plate 103, the carriage 62 stops rising, the carrier plate starts rotating, and after rotating to a specified angle, for example 80 degrees, the carriage 62 descends to move to the home position, and the material on the carriage 62 falls onto the carrier plate. When the carriage 62 returns to its original position, feeding is resumed and the above process is repeated.

Pushing: after the material falls on the bearing plate, the material pressing mechanism 8 can be used for pressing the material and then the pushing mechanism 7 can be used for pushing the material, or the pushing mechanism 7 can be used for pushing the material to a specified position and then the material pressing mechanism 8 can be used for pressing the material, and preferably, the pushing mechanism 7 is used for pushing the material to the specified position and then the material pressing mechanism 8 can be used for pressing the material. The pushing plate 72 pushes the material to the sawing mechanism 9 under the driving of the pushing driving piece 71, and the chain transmission can realize the quantitative length of the feeding of the bamboo segments, so that the length of the bamboo tube needing sawing is determined. When the bamboo section is pushed to a specified position, the position is set to be 3-5cm away from the saw cutter, the pressing driving part 83 works, and as the distance between the joint of the pressing transmission piece 82 and the pressing driving part 83 and the joint of the pressing transmission piece 82 and the machine body 1 is smaller than the distance between the joint of the pressing transmission piece 82 and the transmission piece hinging rod 84 and the joint of the pressing transmission piece 82 and the machine body 1, namely, the lever principle is adopted, the long arm is driven through the short arm, so that the time required by the pressing stroke can be saved, and the work efficiency is improved. The purpose of pressing is to compress tightly the bamboo section and then saw the section, can not cause the bamboo section to saw cut the in-process motion like this, otherwise the bamboo section has the motion can lead to saw cut the bamboo section length inaccuracy to the bamboo section is beated and is bumped the tooth of saw bit and cause the sword that collapses (also called to collapse the tooth), very easily causes the saw bit to damage like this.

Sawing: when the cutter moving member 92 is driven, the output disc drives a crank-link mechanism, and the link rod can drive the cutter driving member 91 and the sawing cutter 94 to reciprocate up and down, so that the whole action of sawing the bamboo tube is finished in a beat mode. After sawing, the bamboo tube enters the collecting table 112, and finished products are collected through the collecting table 112. After all the bamboo tubes enter the material collecting table 112, the bearing plate rotates back to the original position, and the conveying mechanism can convey the next batch of materials, so that continuous work is realized.

In addition, the specific embodiments described in the present specification may differ in terms of parts, shapes of components, names, and the like. All equivalent or simple changes of the structure, characteristics and principle according to the inventive concept are included in the protection scope of the present utility model. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions in a similar manner without departing from the scope of the utility model as defined in the accompanying claims.

Claims (10)

1. The radial sawing device is characterized by comprising a material preparation mechanism, a conveying mechanism, a pushing mechanism, a material pressing mechanism, a sawing mechanism and a machine body, wherein the material preparation mechanism, the conveying mechanism, the pushing mechanism, the material pressing mechanism and the sawing mechanism are respectively connected with the machine body;

the material preparation mechanism comprises a movable material storage part, and the material storage part is used for storing materials;

the conveying mechanism is used for taking out materials from the storage part and conveying the materials to the pushing mechanism;

the pushing mechanism is used for applying acting force to the material to move to the sawing mechanism;

the material pressing mechanism is used for pressing materials during sawing;

the sawing mechanism comprises more than one movable sawing tool.

2. The radial sawing device as claimed in claim 1, further comprising an alignment member and a feeding member, the feeding member being arranged at the inlet of the stock preparation mechanism, the feeding member being for moving material from the alignment member to the stock storage member, the alignment member being arranged on both sides of the feeding member, the alignment member being for positioning of the material.

3. The radial sawing device according to claim 1, wherein the storage means comprise a storage rack and a rack moving means, the storage rack being fixedly connected to the rack moving means for carrying the storage rack in a reciprocating or cyclic motion.

4. The radial sawing device according to claim 1, wherein the conveying mechanism comprises a lifting mechanism and a conveying frame, wherein the conveying frame is fixedly connected with the lifting mechanism, and the conveying frame is arranged outside the material storage frame.

5. The radial sawing device of claim 1, wherein the press mechanism comprises a platen, a press drive and a press drive, the press drive being connected to the press drive and the press drive being connected to the platen.

6. The radial sawing device according to claim 1, wherein the sawing mechanism further comprises a tool moving member for reciprocating movement with a tool driving member for rotating movement with a sawing tool and a tool driving member.

7. The radial sawing device of claim 1, further comprising a rotatable carrier mechanism disposed at the bottom of the pushing mechanism.

8. A radial sawing device according to claim 2 wherein the alignment means comprises a baffle plate and an alignment drive, the baffle plate being fixedly connected to the alignment drive, the baffle plate being provided with a recess for cooperation with the material.

9. The radial sawing device according to claim 5 wherein the press transmission member is movably connected to the housing, the press driving member and the pressing plate, respectively, and a distance between a junction of the press transmission member and the press driving member and a junction of the press transmission member and the housing is smaller than a distance between a junction of the press transmission member and the pressing plate and a junction of the press transmission member and the housing.

10. The radial sawing device according to claim 7 wherein said carrier comprises a front plate, a middle plate and a rear plate spaced apart from each other, the gap between the front plate and the middle plate allowing the pushing mechanism to pass through, the gap between the rear plate and the middle plate allowing the pushing mechanism to pass through.