CN210589725U - Log processing and material manufacturing controller - Google Patents

Abstract

A log processing and timber manufacturing controller relates to the technical field of timber processing machinery. The electric control cabinet mainly comprises a cabinet body, a control interface and an electric control panel arranged in the cabinet body; the control interface comprises a first position sensor, a second position sensor, a third position sensor, a transmission motor, an electric saw motor, a second hydraulic cylinder, a third hydraulic cylinder and a signal input and control output port of the first hydraulic cylinder; on the material manufacturing platform, the first position sensor is arranged at the position of the clamping mechanism, and the second position sensor and the third position sensor are arranged at the positions of the throwing mechanism at intervals. The utility model discloses a carry, saw cut and throw's integration, reduced workman's intensity of labour, improved operating efficiency and operation rate of accuracy, be convenient for transport and utilize, realize the target of rational utilization lumber. Meanwhile, the resource loss can be greatly reduced, and the outturn percentage of the logs and the economic benefit of resources are improved.

Description

Log processing and material manufacturing controller

Technical Field

The utility model relates to a wood processing machinery technical field specifically is a log processing lumber making controller.

Background

The wood processing industry has become one of the manufacturing industries with fast development speed and good prospect in China, and the growth speed of the wood processing industry greatly exceeds the average level of the whole manufacturing industry. The annual rate of production of the 2001-2010 wood processing industry is increased by 25 percent, and the annual rate of increase of sales income is 26 percent. In 2010, the industry realized total industrial value of 6744.25 billion yuan, which accounts for nearly 2% of the weight of GDP. The wood has the advantages of light weight, high strength-weight ratio, good elasticity, impact-resistant texture, rich and beautiful color, easy processing and the like, is listed as an important raw material from ancient times to present, and occupies a very important position in national economy due to low energy consumption, less pollution and resource reproducibility in the wood industry.

However, most of the forest trees in the forest area of China are mainly on hills and hills where the traffic and transportation network is difficult to form, and the production labor intensity of felling, sawing, transportation and the like is high, and the labor cost is high. The flat ground can be processed by conventional machinery in steps, while the mountain land only depends on manpower and animal power, the high-efficiency and low-cost development of the forestry is restricted by the increase of labor cost and the shortage of labor, and the improvement of the mechanization level of processing and production of the forest land is urgent.

The log processing and shaping machine disclosed by the Chinese patent CN 207027743U is designed and developed by the inventor team of the application, and realizes the integration of conveying, sawing and throwing. However, no control system is designed in this patent application, and the object of the invention is based on this.

SUMMERY OF THE UTILITY MODEL

To the above-mentioned technical problem that exists at present, the utility model provides a can realize ligneous transport, saw cut and throw log processing make timber controller of intelligent control integration.

In order to realize the above purpose, the utility model discloses the technical scheme who adopts is:

a log processing and material-making controller is arranged on a material-making platform of a log processing and material-making machine, and the log processing and material-making machine mainly comprises a frame, wheels, a chain wheel transmission mechanism, two groups of clamping mechanisms, a saw cutting mechanism, a throwing mechanism and rollers; the two groups of clamping mechanisms are arranged in the middle of the frame, the saw cutting mechanism is fixed between the two groups of clamping mechanisms, and the throwing mechanisms are distributed in the rear half part of the frame; the roller driven by the transmission motor to operate supports the processed raw wood strips and enables the processed raw wood strips to move in the horizontal direction to realize feeding and feeding, the raw wood strips are clamped by the clamping mechanism and cut by the cutting mechanism, and the cut raw wood strips are thrown down by the throwing mechanism;

the clamping mechanism consists of a second hydraulic cylinder, a supporting plate, a supporting seat, a clamping plate, a first guide shaft sleeve and a first guide shaft; the two supporting plates are respectively arranged on the frame through a supporting seat, an upper first guide shaft and a lower first guide shaft are arranged between the two supporting plates, the two clamping plates are respectively arranged on the first guide shafts through two first guide shaft sleeves, the clamping plates are controlled to stretch and retract through a second hydraulic cylinder fixed on the supporting plates, the moving direction of the clamping plates is consistent with the length direction of the first guide shafts and is vertical to the conveying direction of the original strips, and the fixed clamping and releasing functions of the original strips are completed through the reciprocating motion of the second hydraulic cylinder;

the sawing and cutting mechanism consists of a third hydraulic cylinder, a support frame, a second guide shaft sleeve, a second guide shaft, a fixed sleeve, an electric saw motor and a supporting plate; the sawing and cutting mechanism is fixed on the rack, the up-and-down movement function of the electric saw is realized through the telescopic movement of the third hydraulic cylinder, and the electric saw is driven by the electric saw motor to work so as to complete the sawing and cutting of the raw strips; the support frame is fixed on the frame, two fixed sleeves which are arranged up and down are fixed on the support frame, a second guide shaft is arranged between the two fixed sleeves, a second guide shaft sleeve connected with the supporting plate can be arranged on the second guide shaft to slide, the upper part of the supporting plate is connected with a third hydraulic cylinder, and an electric saw motor which are arranged above an original strip are arranged on the supporting plate; the sawing and cutting of the original strip are realized through the reciprocating motion of the third hydraulic cylinder and the rotary motion of the electric saw;

the throwing mechanism consists of a throwing plate, an upper bracket, a lower bracket and a first hydraulic cylinder; one end of a V-shaped throwing plate is hinged with an upper bracket fixed on the frame, and the other end of the V-shaped throwing plate is connected with a first hydraulic cylinder; the first hydraulic cylinder is fixed on the frame through the lower bracket; after the sawn logs are conveyed to the throwing indicating position, the first hydraulic cylinder drives the throwing plate to be upwards supported, and the logs slide downwards to the appointed area along the throwing plate;

the log processing and timber manufacturing controller mainly comprises a cabinet body, a control interface and an electric control board arranged in the cabinet body; the control interface comprises a first position sensor, a second position sensor, a third position sensor, a transmission motor, an electric saw motor, a second hydraulic cylinder, a third hydraulic cylinder and a signal input and control output port of the first hydraulic cylinder; on the material manufacturing platform, a first position sensor is arranged at the position of the clamping mechanism, and a second position sensor and a third position sensor are arranged at the positions of the throwing mechanism at intervals;

when the original strip to be manufactured is conveyed to pass through the first position sensor through the transmission motor, the second hydraulic cylinder and the third hydraulic cylinder respectively contract to enable the original strip to pass between the two clamping plates of the clamping mechanism; when the end part of the original strip continues to run to the position of the second position sensor, the transmission motor is closed, and the original strip does not travel any more; at the moment, the second hydraulic cylinder and the third hydraulic cylinder respectively extend out, so that the original strip is clamped by the two clamping plates of the clamping mechanism, and meanwhile, sawing is realized through the electric saw of the sawing mechanism; after the sawing is finished, the clamping mechanism loosens the original strip through the work of the second hydraulic cylinder, and the electric saw is separated from the original strip through the work of the third hydraulic cylinder; the transmission motor is started again, the original strip continues to move towards one side of the throwing mechanism through the rollers, when the end part of the cut original strip continues to move to the position of the third position sensor, the transmission motor is closed, the original strip does not move any more, and the cut original strip is separated from the material making platform through the working of the throwing plate of the throwing mechanism; the second hydraulic cylinder and the third hydraulic cylinder extend out respectively, so that the original strip of the part to be sawn is clamped by the two clamping plates of the clamping mechanism, and the electric saw of the sawing mechanism is used for sawing the original strip.

As the preferred technical scheme of the log processing and material manufacturing controller of the utility model, the electrical components of the electrical control panel comprise a microprocessor CPU (AT128-8AI), a digital signal acquisition circuit, an operational amplifier circuit, a clock circuit, a storage circuit, a communication circuit, a motor drive circuit, a hydraulic cylinder drive circuit and a power supply circuit connected with a power supply interface; the 220V commercial power is rectified by the switching power supply to output 24V-0.5A voltage-stabilized direct current power supply which supplies electric energy to each electric element; the position signals input by each position sensor of the self-control interface are connected with the input end of a digital signal acquisition circuit, and the output end of the digital signal acquisition circuit is connected with a microprocessor CPU (AT128-8AI) through an operational amplifier circuit connected in series; the clock circuit, the storage circuit and the communication circuit are connected in parallel and then connected to a microprocessor CPU (AT128-8AI), the touch liquid crystal display screen is connected to the output end of the microprocessor CPU (AT128-8AI), the manual operation button is connected to the input end of the microprocessor CPU (AT128-8AI), and output signals processed by the microprocessor CPU (AT128-8AI) control the opening and closing of each motor and the expansion and contraction of each hydraulic cylinder through a motor driving circuit and a hydraulic cylinder driving circuit respectively.

As the utility model discloses the preferred technical scheme of log processing lumber making controller, touch liquid crystal display sets up on cabinet body front side board, and manual operation button totally 4 buttons are arranged in the front side board and are located touch liquid crystal display below, and power source is in cabinet body bottom surface left side, and control interface is on cabinet body bottom surface right side.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses a carry, saw cut and throw's integration, reduced workman's intensity of labour, improved operating efficiency and operation rate of accuracy, be convenient for transport and utilize, realize the target of rational utilization lumber. Meanwhile, the resource loss can be greatly reduced, and the outturn percentage of the logs and the economic benefit of resources are improved.

Drawings

The present invention will be described in further detail with reference to the following examples and accompanying drawings.

Figure 1 is a front view of a log processing and building machine;

figure 2 is a top view of a log processing and building machine;

figure 3 is a side view of a log processing and building machine;

FIG. 4 is a schematic structural view of the clamping mechanism;

FIG. 5 is a schematic structural view of the saw mechanism;

FIG. 6 is a schematic diagram of the construction of the slinger mechanism;

FIG. 7 is a schematic view of the roller construction;

FIG. 8 is a schematic structural view of the sprocket drive mechanism;

figure 9 is a schematic view of the profile structure of the log processing and timber manufacturing controller;

figure 10 is a schematic diagram of the electrical connections of the log processing build controller and the placement of the components on the build platform;

figure 11 is an electrical schematic of a log processing and lumber controller.

In the figure, a machine frame 1, a wheel 2, a double-row chain wheel 3, a chain 4, a roller 5, a throwing mechanism 6, a clamping mechanism 7, a saw cutting mechanism 8, a raw strip 9, a second guide shaft sleeve 10, a transmission motor 11, a bearing seat 12, a clamping plate 13, a first guide shaft 14, a first guide shaft sleeve 15, an electric saw 16, a second guide shaft 17, a supporting frame 18, a lower bracket 19, a throwing plate 20, a first hydraulic cylinder 21, a chain wheel transmission mechanism 22, a salient point 23, a second hydraulic cylinder 24, a third hydraulic cylinder 25, a supporting seat 26, a supporting plate 27, a fixing sleeve 28, a rib 29, a supporting plate 30, an upper bracket 31, a conical roller 32, a cabinet body 33, a touch liquid crystal display 34, a manual operation button 35, a power supply interface 36, a control interface 37, a material manufacturing platform 38, a third position sensor 39, a second position sensor 40, a first position sensor 41, a digital signal acquisition circuit 42 and an operational release circuit 43, a microprocessor CPU (AT128-8AI)44, a clock circuit 45, a storage circuit 46, a communication circuit 47, a power supply circuit 48, an electric saw motor 49, a motor drive circuit 50 and a hydraulic cylinder drive circuit 51.

Detailed Description

Referring to fig. 1-3, a log processing and making machine is mainly composed of a frame 1, wheels 2, a sprocket transmission mechanism 22, two sets of clamping mechanisms 7, a sawing and cutting mechanism 8, a throwing mechanism 6 and rollers 5. Two groups of clamping mechanisms 7 are arranged in the middle of the frame 1, a saw cutting mechanism 8 is fixed between the two groups of clamping mechanisms 7, and the throwing mechanisms 6 are distributed in the rear half part of the frame 1. The roller 5 supports the processed raw wood 9 and enables the raw wood to move in the horizontal direction to realize feeding and feeding, then the raw wood is clamped by the clamping mechanism 7 and is sawn and processed by the sawing mechanism 8, and the sawn raw wood is thrown down by the throwing mechanism 6.

Referring to fig. 7, in order to realize the function of feeding the raw strips longitudinally, a roller 5 and a sprocket transmission mechanism 22 are arranged on the frame 1 and driven by a transmission motor 11 fixed below the frame. The rollers 5 are distributed uniformly in parallel along the longitudinal direction of the frame (i.e. the feeding direction of the raw strip), each group of rollers 5 has the same structure, each group is a pair of coaxially connected tapered rollers 32 with small taper ends opposite, the raw strip 9 is arranged in a V-shaped groove formed by the rollers 5, and the rollers 5 are driven to feed materials by rotation.

The surface of the conical roller 32 is provided with a plurality of groups of ribs 29, the ribs 29 are provided with salient points 23, and the salient points 23 are distributed along the generatrix direction of the conical surface of the conical roller 32 and are in a pointed cone shape. The salient points are in contact with the surface of the original strip, so that friction is increased, and the original strip conveying efficiency is improved.

Each group of rollers 5 is fixed on the frame 1 through a bearing seat 12, and the running of the rollers 5 is realized by driving a chain wheel transmission mechanism 22 through a transmission motor 11. Referring to fig. 8, the sprocket gear 22 is disposed at the shaft end of each set of rollers 5 and is composed of the chain 4 and the double sprocket 3 connected to the rollers 5, and the double sprocket 3 is disposed parallel to the shaft end plane of the rollers 5. The adjacent rollers 5 are driven by chains, the transmission motor 11 is fixed at the lower end of the rack 1, and all the rollers 5 rotate by the operation of the transmission motor 11.

Referring to fig. 4, the clamping mechanism 7 is a mechanism for clamping and fixing the original strip, and is located in the middle of the frame 1. The clamping mechanism 7 is composed of a second hydraulic cylinder 24, a support plate 30, a support base 26, a clamping plate 13, a first guide shaft sleeve 15 and a first guide shaft 14.

Two supporting plates 30 are respectively installed on the frame 1 through a supporting seat 26, an upper first guide shaft 14 and a lower first guide shaft 14 are installed between the two supporting plates 30, two clamping plates 13 are respectively installed on the first guide shafts 14 through two first guide shaft sleeves 15, the clamping plates 13 are controlled to stretch and retract through second hydraulic cylinders 24 fixed on the supporting plates 30, the moving direction of the clamping plates 13 is consistent with the length direction of the first guide shafts 14 and is perpendicular to the conveying direction of the original strips 9, and the fixed clamping and releasing functions of the original strips are completed through the reciprocating motion of the second hydraulic cylinders 24.

Referring to fig. 5, the cutting mechanism 8 is a mechanism for cutting the raw strip, is located in the middle of the two sets of clamping mechanisms 7, and is composed of a third hydraulic cylinder 25, a support frame 18, a second guide shaft sleeve 10, a second guide shaft 17, a fixed sleeve 28, an electric saw 16, an electric saw motor 27, and a supporting plate 27. The saw cutting mechanism 8 is fixed on the frame 1, the up-and-down movement function of the electric saw 16 is realized through the telescopic movement of the third hydraulic cylinder 25, and the electric saw motor 49 drives the electric saw 16 to work so as to complete the saw cutting of the raw strip 9.

The support frame 18 is fixed on the frame 1, two fixing sleeves 28 which are arranged up and down are fixed on the support frame 18, a second guide shaft 17 is installed between the two fixing sleeves 28, a second guide shaft sleeve 10 connected with the supporting plate 27 can be arranged on the second guide shaft 17 to slide, the upper part of the supporting plate 27 is connected with a third hydraulic cylinder 25, and the electric saw 16 and the electric saw motor 49 which are arranged above the original strip are installed on the supporting plate 27. The saw cutting of the log is realized by the reciprocating motion of the third hydraulic cylinder 25 and the rotary motion of the electric saw 16.

Referring to fig. 6, the throwing mechanism 6 is a mechanism for throwing the sawn logs, and is composed of two or more sets, and is located at different positions of the rear portion of the machine frame. The device consists of a throwing plate 20, an upper bracket 31, a lower bracket 19 and a first hydraulic cylinder 21. One end of the throwing plate 20 in the shape of a V is hinged with an upper bracket 31 fixed on the frame 1, and the other end is connected with a first hydraulic cylinder 21. The first hydraulic cylinder 21 is fixed to the frame 1 by the lower bracket 19.

When the sawn logs are conveyed to the throwing designated position, the transmission motor 11 stops running, the first hydraulic cylinder 21 drives the throwing plate 20 to lift upwards, the logs slide downwards to the designated area along the throwing plate 20, the first hydraulic cylinder 21 resets, and the throwing is finished.

In order to better realize the matching of the control system of the log making machine, the utility model provides a log processing and making controller, please refer to fig. 9, which mainly comprises a cabinet body 33, a touch liquid crystal display 34, a manual operation button 35, a power interface 36, a control interface 37 and an electric control panel arranged in the cabinet body 33. Wherein, the touch liquid crystal display 34 is arranged on the front panel of the cabinet body 33. The manual operation buttons 35 are 4 buttons, are arranged on the front panel and are positioned below the touch liquid crystal display screen 34, the power supply interface 36 is arranged on the left side of the bottom surface of the cabinet body 33, and the control interface 37 is arranged on the right side of the bottom surface of the cabinet body 33.

The control interface 37 includes signal input and control output ports of a first position sensor 41, a second position sensor 40, a third position sensor 39, the transmission motor 11, the electric saw motor 49, the second hydraulic cylinder 24, the third hydraulic cylinder 25, and the first hydraulic cylinder 21. In order to better show the schematic diagram of the electrical connection relationship of the log processing and shaping controller and the layout diagram of the position relationship of each component on the shaping platform, please refer to fig. 10, on the shaping platform 38, the first position sensor 41 is disposed at the position of the holding mechanism 7, and the second and third position sensors are disposed at intervals at the position of the throwing mechanism 6.

When the log to be manufactured is conveyed by the transmission motor 11 to pass through the first position sensor 41, the second hydraulic cylinder 24 and the third hydraulic cylinder 25 are respectively contracted to enable the log to pass between the two clamping plates 13 of the clamping mechanism 7. When the end of the log continues to travel to the position of the second position sensor 40, the drive motor 11 is turned off and the log no longer travels. At this time, the second hydraulic cylinder 24 and the third hydraulic cylinder 25 are extended respectively, so that the original strip is clamped by the two clamping plates 13 of the clamping mechanism 7, and the electric saw 16 of the sawing mechanism 8 performs sawing. When the saw is cut, the clamping mechanism 7 releases the original strip through the operation of the second hydraulic cylinder 24, and the electric saw 16 is separated from the original strip through the operation of the third hydraulic cylinder 25.

Then, the transmission motor 11 is started again, the raw strip (including the cut part and the part to be sawn) continues to advance to one side of the throwing mechanism 6 through the roller 5, when the end part of the cut raw strip continues to move to the position of the third position sensor 39, the transmission motor 11 is turned off, the raw strip does not advance any more, and the cut raw strip is separated from the material making platform 38 through the throwing plate 20 of the throwing mechanism 6. Meanwhile, the second hydraulic cylinder 24 and the third hydraulic cylinder 25 respectively extend out, so that the original strip of the part to be sawn is clamped by the two clamping plates 13 of the clamping mechanism 7, and the electric saw 16 of the sawing mechanism 8 is used for sawing the original strip. And after sawing, continuously performing the steps to reciprocate until the original strip is completely sawn.

Referring to fig. 11, the electrical components of the electrical control board include a microprocessor CPU (AT128-8AI)44, a digital signal acquisition circuit 42, an operational amplifier circuit 43, a clock circuit 45, a storage circuit 46, a communication circuit 47, a motor driving circuit 50, a hydraulic cylinder driving circuit 51, and a power supply circuit 48 connected to the power supply interface 36. The 220V commercial power is rectified by the switch power supply to output 24V-0.5A stabilized DC power supply which supplies electric energy to each electric element.

The position signals input from the position sensors of the control interface 37 are connected to the input end of the digital signal acquisition circuit 42, and the output end of the digital signal acquisition circuit 42 is connected to the microprocessor CPU (AT128-8AI)44 through the operational amplifier circuit 43 connected in series. The clock circuit 45, the storage circuit 46 and the communication circuit 47 are connected in parallel and then connected to the microprocessor CPU (AT128-8AI)44, the touch liquid crystal display 34 is connected to the output end of the microprocessor CPU (AT128-8AI)44, the manual operation button 35 is connected to the input end of the microprocessor CPU (AT128-8AI)44, and the output signals processed by the microprocessor CPU (AT128-8AI)44 control the opening and closing of each motor and the expansion and contraction of each hydraulic cylinder through the motor driving circuit 50 and the hydraulic cylinder driving circuit 51 respectively.

The foregoing is merely exemplary and illustrative of the principles of the present invention, and various modifications, additions and substitutions as may be made to the specific embodiments described herein by those skilled in the art are intended without departing from the spirit and scope of the invention as defined in the accompanying claims.

Claims (3)

1. A log processing and material-making controller is arranged on a material-making platform of a log processing and material-making machine, and the log processing and material-making machine mainly comprises a frame, wheels, a chain wheel transmission mechanism, two groups of clamping mechanisms, a saw cutting mechanism, a throwing mechanism and rollers; the two groups of clamping mechanisms are arranged in the middle of the frame, the saw cutting mechanism is fixed between the two groups of clamping mechanisms, and the throwing mechanisms are distributed in the rear half part of the frame; the roller driven by the transmission motor to operate supports the processed raw wood strips and enables the processed raw wood strips to move in the horizontal direction to realize feeding and feeding, the raw wood strips are clamped by the clamping mechanism and cut by the cutting mechanism, and the cut raw wood strips are thrown down by the throwing mechanism;

the clamping mechanism consists of a second hydraulic cylinder, a supporting plate, a supporting seat, a clamping plate, a first guide shaft sleeve and a first guide shaft; the two supporting plates are respectively arranged on the frame through a supporting seat, an upper first guide shaft and a lower first guide shaft are arranged between the two supporting plates, the two clamping plates are respectively arranged on the first guide shafts through two first guide shaft sleeves, the clamping plates are controlled to stretch and retract through a second hydraulic cylinder fixed on the supporting plates, the moving direction of the clamping plates is consistent with the length direction of the first guide shafts and is vertical to the conveying direction of the original strips, and the fixed clamping and releasing functions of the original strips are completed through the reciprocating motion of the second hydraulic cylinder;

the sawing and cutting mechanism consists of a third hydraulic cylinder, a support frame, a second guide shaft sleeve, a second guide shaft, a fixed sleeve, an electric saw motor and a supporting plate; the sawing and cutting mechanism is fixed on the rack, the up-and-down movement function of the electric saw is realized through the telescopic movement of the third hydraulic cylinder, and the electric saw is driven by the electric saw motor to work so as to complete the sawing and cutting of the raw strips; the support frame is fixed on the frame, two fixed sleeves which are arranged up and down are fixed on the support frame, a second guide shaft is arranged between the two fixed sleeves, a second guide shaft sleeve connected with the supporting plate can be arranged on the second guide shaft to slide, the upper part of the supporting plate is connected with a third hydraulic cylinder, and an electric saw motor which are arranged above an original strip are arranged on the supporting plate; the sawing and cutting of the original strip are realized through the reciprocating motion of the third hydraulic cylinder and the rotary motion of the electric saw;

the throwing mechanism consists of a throwing plate, an upper bracket, a lower bracket and a first hydraulic cylinder; one end of a V-shaped throwing plate is hinged with an upper bracket fixed on the frame, and the other end of the V-shaped throwing plate is connected with a first hydraulic cylinder; the first hydraulic cylinder is fixed on the frame through the lower bracket; after the sawn logs are conveyed to the throwing indicating position, the first hydraulic cylinder drives the throwing plate to be upwards supported, and the logs slide downwards to the appointed area along the throwing plate;

the controller is characterized by mainly comprising a cabinet body, a control interface and an electric control board arranged in the cabinet body; the control interface comprises a first position sensor, a second position sensor, a third position sensor, a transmission motor, an electric saw motor, a second hydraulic cylinder, a third hydraulic cylinder and a signal input and control output port of the first hydraulic cylinder; on the material manufacturing platform, a first position sensor is arranged at the position of the clamping mechanism, and a second position sensor and a third position sensor are arranged at the positions of the throwing mechanism at intervals;

when the original strip to be manufactured is conveyed to pass through the first position sensor through the transmission motor, the second hydraulic cylinder and the third hydraulic cylinder respectively contract to enable the original strip to pass between the two clamping plates of the clamping mechanism; when the end part of the original strip continues to run to the position of the second position sensor, the transmission motor is closed, and the original strip does not travel any more; at the moment, the second hydraulic cylinder and the third hydraulic cylinder respectively extend out, so that the original strip is clamped by the two clamping plates of the clamping mechanism, and meanwhile, sawing is realized through the electric saw of the sawing mechanism; after the sawing is finished, the clamping mechanism loosens the original strip through the work of the second hydraulic cylinder, and the electric saw is separated from the original strip through the work of the third hydraulic cylinder; the transmission motor is started again, the original strip continues to move towards one side of the throwing mechanism through the rollers, when the end part of the cut original strip continues to move to the position of the third position sensor, the transmission motor is closed, the original strip does not move any more, and the cut original strip is separated from the material making platform through the working of the throwing plate of the throwing mechanism; the second hydraulic cylinder and the third hydraulic cylinder extend out respectively, so that the original strip of the part to be sawn is clamped by the two clamping plates of the clamping mechanism, and the electric saw of the sawing mechanism is used for sawing the original strip.

2. The log processing and lumber making controller of claim 1, wherein the electrical components of the electrical control board comprise a microprocessor CPU (AT128-8AI), a digital signal acquisition circuit, an operational amplifier circuit, a clock circuit, a memory circuit, a communication circuit, a motor drive circuit, a hydraulic cylinder drive circuit, and a power supply circuit connected to a power interface; the 220V commercial power is rectified by the switching power supply to output 24V-0.5A voltage-stabilized direct current power supply which supplies electric energy to each electric element; the position signals input by each position sensor of the self-control interface are connected with the input end of a digital signal acquisition circuit, and the output end of the digital signal acquisition circuit is connected with a microprocessor CPU (AT128-8AI) through an operational amplifier circuit connected in series; the clock circuit, the storage circuit and the communication circuit are connected in parallel and then connected to a microprocessor CPU (AT128-8AI), the touch liquid crystal display screen is connected to the output end of the microprocessor CPU (AT128-8AI), the manual operation button is connected to the input end of the microprocessor CPU (AT128-8AI), and output signals processed by the microprocessor CPU (AT128-8AI) control the opening and closing of each motor and the expansion and contraction of each hydraulic cylinder through a motor driving circuit and a hydraulic cylinder driving circuit respectively.

3. The log processing and timber manufacturing controller according to claim 2, wherein the touch liquid crystal display is arranged on the front panel of the cabinet body, the manual operation buttons are 4 buttons which are arranged on the front panel and are positioned below the touch liquid crystal display, the power supply interface is arranged on the left side of the bottom surface of the cabinet body, and the control interface is arranged on the right side of the bottom surface of the cabinet body.

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