阅读说明：本技术 挂面高速切断整理机 (High-speed cutting and finishing machine for fine dried noodles ) 是由 屈凌波 孙智聪 付俊辉 王志山 徐雪萌 陈洁 任春鸣 于 2021-07-30 设计创作，主要内容包括：挂面高速切断整理机,包括机架、夹面装置、切面装置和整理装置,夹面装置沿左右方向安装在机架的中部,切面装置和整理装置均沿左右方向安装在机架的上侧,整理装置位于切面装置的后侧,整杆挂面自上而下通过切面装置和整理装置之间并下到夹面装置处,夹面装置夹紧整杆挂面的下侧部,整理装置抵压在整杆挂面的后侧,切面装置沿左右方向切断整杆挂面。本发明将整杆挂面自上而下送到夹面装置的上方,夹面装置能够对整杆挂面的下侧部夹紧,保证每次挂面切断整齐、定量、效率高。(The high-speed cutting and arranging machine for the fine dried noodles comprises a rack, a noodle clamping device, a noodle cutting device and an arranging device, wherein the noodle clamping device is installed at the middle part of the rack in the left-right direction, the noodle cutting device and the arranging device are installed at the upper side of the rack in the left-right direction, the arranging device is located at the rear side of the noodle cutting device, the whole rod fine dried noodles pass through the space between the noodle cutting device and the arranging device from top to bottom and reach the noodle clamping device, the lower side part of the whole rod fine dried noodles is clamped by the noodle clamping device, the arranging device is pressed at the rear side of the whole rod fine dried noodles, and the whole rod fine dried noodles are cut off by the noodle cutting device in the left-right direction. According to the noodle clamping device, the whole fine dried noodles are fed above the noodle clamping device from top to bottom, and the noodle clamping device can clamp the lower side of the whole fine dried noodles, so that the fine dried noodles are guaranteed to be cut neatly, quantitatively and efficiently each time.)

1. The high-speed cutting and finishing machine for fine dried noodles is characterized in that: the noodle cutting device is arranged at the middle part of the rack in the left-right direction, the noodle cutting device and the arranging device are arranged on the upper side of the rack in the left-right direction, the arranging device is positioned at the rear side of the noodle cutting device, the whole rod fine dried noodles pass through the space between the noodle cutting device and the arranging device from top to bottom and reach the noodle clamping device from top to bottom, the lower side part of the whole rod fine dried noodles is clamped by the noodle clamping device, the arranging device is pressed against the rear side of the whole rod fine dried noodles, and the whole rod fine dried noodles are cut off by the noodle cutting device in the left-right direction.

2. The high-speed cutting and finishing machine for fine dried noodles according to claim 1, characterized in that: the surface clamping device comprises a first speed reducing motor, a mandrel, two inner pressing plates, a tubular shaft and a second speed reducing motor, wherein the power shaft of the first speed reducing motor, the mandrel, the power shaft of the second speed reducing motor and the tubular shaft are horizontally arranged along the left-right direction, the first speed reducing motor is fixedly arranged in the middle of the left side of the rack, first vertical supports are connected to the left side and the right side of the middle of the rack, the outer circumference of the mandrel is of a hexagonal prism structure, optical axes are integrally formed at the left end and the right end of the mandrel, the outer diameter of each optical axis is smaller than the diameter of an inscribed circle in the cross section of the mandrel, the optical axes at the left side and the right side are respectively rotatably arranged at the tops of the two first vertical supports through an outer spherical ball bearing with a suspension type seat, the right end of the power shaft of the first speed reducing motor is coaxially connected with the left end of the optical axis through a coupler, the length directions of the two inner pressing plates are both arranged along the axial direction of the mandrel, and the planes at 60-degree included angle pass through the central line of the mandrel, the inner side edges of the two inner pressing plates are fixedly connected with two adjacent side surfaces of the mandrel through a plurality of screws respectively and are in contact with the adjacent side surfaces of the mandrel in a fitting manner, a second speed reducing motor is fixedly installed at the left lower side of the middle part of the frame, the inner diameter of the tube shaft is larger than the diameter of a circle circumscribing the cross section of the mandrel, the tube shaft is rotatably sleeved outside the mandrel, the length of the tube shaft is larger than that of the mandrel, a rectangular notch is axially formed in the tube wall of the tube shaft, the length of the rectangular notch is equal to that of the mandrel, the central angle of the rectangular notch on the cross section of the tube shaft is 120 degrees, the two inner pressing plates penetrate through the rectangular notch and extend out of the tube shaft, an outer pressing plate is welded on the outer tube wall of the tube shaft along two straight edges of the rectangular notch, the planes of the two outer pressing plates form an included angle of 120 degrees and penetrate through the central line of the tube shaft, rubber pads are fixedly bonded on the adjacent side surfaces of the adjacent inner pressing plates and the outer pressing plate, and a rotating disc sleeved outside the optical axis on the left side edge of the tube shaft is welded on the left side, the left sides of two outer press plates are welded on the right side surface of the rotating disc, the right end part of the outer circumference of the left optical axis is rotatably provided with a clamping surface driven wheel, the right side surface of the clamping surface driven wheel is in contact with the left side surface of the rotating disc in a fitting manner, the clamping surface driven wheel and the rotating disc are fixedly connected together through a plurality of bolts, deep groove ball bearings are respectively arranged between the inner circle of the central hole of the clamping surface driven wheel and the right end part outer circle of the left optical axis and between the inner circle of the right end part of the tubular shaft and the left end part outer circle of the optical axis on the right side, sleeves are sleeved on the two optical axes, the left end and the right end of the left sleeve respectively press the right end surface of the inner ring of the left deep groove ball bearing with the suspension type seat and the left end surface of the inner ring of the left deep groove ball bearing on the left side, and the left end of the right sleeve respectively press the right end of the inner ring of the right deep groove ball bearing on the right side and the left end surface of the inner ring of the outer ball bearing with the suspension type seat, the second gear motor is fixedly installed on the lower left side of the middle of the rack, a power shaft of the second gear motor is horizontally arranged along the left-right direction, a clamping face driving wheel located right below the clamping face driven wheel is fixedly installed at the end of the power shaft of the second gear motor, and the clamping face driven wheel and the clamping face driving wheel are in transmission connection through a transmission belt.

3. The high-speed noodle cutting and finishing machine according to claim 1 or 2, characterized in that: the tangent plane device comprises a movable frame plate, a high-speed cutting motor, a rotary cutter and a left-right reciprocating mechanism, wherein a guide support plate arranged along the left-right direction is fixedly connected between the upper part of the left side and the upper part of the right side of the frame, the plane where the guide support plate is located is vertically arranged, a first guide rail horizontally arranged along the left-right direction and positioned at the rear side of the guide support plate is fixedly connected between the upper part of the left side and the upper part of the right side of the frame, a second guide rail horizontally arranged along the left-right direction and positioned below the guide support plate is fixedly connected between the upper part of the left side and the upper part of the right side of the frame, the movable frame plate is vertically arranged between the guide support plate and the first guide rail along the left-right direction and positioned above the second guide rail, two first grooved pulleys spaced left and right are rotatably arranged at the upper part of the front side surface and the middle part of the movable frame plate, two second grooved pulleys spaced left and right are rotatably arranged at the upper part of the rear side surface of the movable frame plate, the lower side of the movable frame plate is fixedly connected with two wheel frames which are spaced from each other left and right, each wheel frame is rotatably provided with two third grooved wheels which are spaced from each other front and back, a second guide rail passes through the space between the corresponding two third grooved wheels which are spaced from each other front and back, the central shafts of the first grooved wheels and the second grooved wheels are horizontally arranged along the front and back direction, the central shafts of the third grooved wheels are vertically arranged, the lower side grooves of the two first grooved wheels on the upper side are matched and clamped on the upper side edge of the guide support plate, the two first grooved wheels on the upper side are in rolling contact with the upper side edge of the guide support plate, the upper side grooves of the two first grooved wheels on the lower side are matched and clamped on the lower side edge of the guide support plate, the lower side grooves of the two second grooved wheels are matched and clamped on the upper side edge of the first guide rail, the two second grooved wheels are in rolling contact with the upper side edge of the first guide rail, and the rear side grooves of the two third grooved wheels on the front side are matched and clamped on the front side edge of the second guide rail, the two third grooved wheels on the front side are in rolling contact with the front side edge of the second guide rail, the front side wheel grooves of the two third grooved wheels on the rear side are matched and clamped on the rear side edge of the second guide rail, the two third grooved wheels on the rear side are in rolling contact with the rear side edge of the second guide rail, the high-speed cutting motor is vertically and fixedly installed on the rear side surface of the movable frame plate, a power shaft of the high-speed cutting motor is located at the bottom of the high-speed cutting motor and lower than the second guide rail, the rotary cutter is fixedly installed at the lower end of the power shaft of the high-speed cutting motor, the left and right reciprocating mechanism is installed on the upper side of the rack and located on the front side of the guide support plate, and the left and right reciprocating mechanism drives the movable frame plate to reciprocate left and right along the guide support plate, the first guide rail and the second guide rail.

4. The high-speed cutting and finishing machine for fine dried noodles according to claim 3, characterized in that: the left and right reciprocating mechanism comprises a synchronous belt speed reducing motor, a synchronous belt driving wheel and a synchronous belt driven wheel, a second vertical support positioned on the front side of the guide support plate is connected with the front side part of the upper side of the rack, the synchronous belt speed reducing motor is fixedly arranged on the right side of the top of the second vertical support, the synchronous belt driving wheel is fixedly arranged at the rear end of a power shaft of the synchronous belt speed reducing motor, the synchronous belt driven wheel is rotatably arranged between the left rear side of the top of the second vertical support and the rack, the power shaft of the synchronous belt speed reducing motor, a central shaft of the synchronous belt driving wheel and a central shaft of the synchronous belt driven wheel are horizontally arranged along the front and rear direction, the synchronous belt driving wheel and the synchronous belt driven wheel are connected through a tool rest synchronous belt in a transmission way, a horizontally arranged tool rest connecting plate is fixedly connected in the middle part of the front side surface of the movable frame plate through a plurality of bolts, and the front side part of the tool rest connecting plate extends forwards to the upper half pair of the tool rest synchronous belt, the synchronous belt clamping plate located right below the tool rest connecting plate is arranged below the upper half of the tool rest synchronous belt, the tool rest connecting plate and the synchronous belt clamping plate are fixedly connected through a plurality of bolts, and the tool rest connecting plate and the synchronous belt clamping plate clamp the upper half of the synchronous belt.

5. The high-speed cutting and finishing machine for fine dried noodles according to claim 4, characterized in that: the arranging device comprises an air cylinder, a C-shaped connecting plate, an angle steel and a cutter groove structure, wherein a third vertical support positioned at the rear side of the dough slicing device is fixedly connected to the middle part of the rear upper side of the rack, the air cylinder is horizontally and fixedly arranged at the top of the third vertical support along the front-rear direction, the C-shaped connecting plate is arranged at the lower part of the rear side of the high-speed cutting motor along the left-right direction, the open side of the C-shaped connecting plate is arranged upwards, the upper part of a left side plate and the upper part of a right side plate of the C-shaped connecting plate are both fixedly connected with rotating shafts through a plurality of bolts, the rotating shafts are horizontally arranged along the left-right direction, the rotating shafts on the left side are rotatably arranged at the upper side of the middle part of the left side of the rack, the rotating shafts on the right side are rotatably arranged at the upper side of the right side of the rack, the angle steel is horizontally arranged at the rear side of the C-shaped connecting plate along the left-right direction, the right angle steel is positioned at the rear lower side of the angle steel, the upper side plate of the angle steel corresponds to the lower side plate of the C-shaped connecting plate in the front-rear direction and is fixedly connected with the lower side of the C-type connecting plate through a plurality of bolts, the upper side plate front side of angle steel and the lower side plate trailing flank laminating contact of C type connecting plate, sword groove structure fixed mounting just with rotary cutter height at the lower side plate downside middle part of angle steel, articulated between the piston rod front end of cylinder and the upper side plate trailing flank middle part of angle steel have the arm-tie.

6. The high-speed cutting and finishing machine for fine dried noodles according to claim 4, characterized in that: the sword groove structure includes the upper plate, medium plate and hypoplastron, the upper plate, medium plate and hypoplastron are all along left right direction level setting and from top to bottom interval setting under the lower curb plate of angle steel, the upper plate, medium plate and hypoplastron fold and press together and through the lower curb plate downside of a plurality of bolt fixed connection at the angle steel, the size of upper plate and hypoplastron in front and back direction equals and is greater than the size of medium plate in front and back direction, the upper plate, the back side of medium plate and hypoplastron flushes from top to bottom, the upper plate, the preceding lateral part of medium plate and hypoplastron encloses into the left side, the equal open card sword groove in right side and front side, the matching of the back side sword edge of rotary cutter is embedded into card sword groove.

7. A high-speed noodle cutting and finishing machine according to any one of claims 1 to 6, characterized in that: the lower side of the frame is provided with a conveying belt which is positioned right below the surface clamping device along the front-back direction.

Technical Field

The invention relates to the technical field of fine dried noodle packaging machinery, in particular to a fine dried noodle high-speed cutting and finishing machine.

Background

With the development of society and the continuous improvement of consumption level, people have higher requirements on food. The dried noodles are used as the traditional staple food in China and are one of the largest flour products in production and consumption in China, the requirements of all links in the process of processing the dried noodles are new, and the research and development of more intelligent and efficient mechanical equipment are urgent.

The cutting of the fine dried noodles is an important link of fine dried noodle production, and an efficient and accurate cutting device plays a vital role in packaging the fine dried noodles. The manual cutting mode is low in efficiency, the contact time between people and the fine dried noodles is prolonged, and great risks are generated for the safety of food. Most of the cutting machines adopt horizontal cutting, the dried noodles are dried and then advance in a vertical mode in the transportation process, the dried noodles need to be laid down in a horizontal mode, the time of midway conversion is prolonged, the dried noodles are laid horizontally, the dried noodles are not neat and attractive due to uneven stress, and the dried noodles are greatly wasted.

Disclosure of Invention

The invention aims to provide a high-speed fine dried noodle cutting and arranging machine, which is used for feeding whole fine dried noodles to the upper part of a noodle clamping device from top to bottom, wherein the noodle clamping device can clamp the lower side part of the whole fine dried noodles, and ensures that the fine dried noodles are cut orderly, quantitatively and efficiently each time.

In order to achieve the purpose, the invention adopts the following technical scheme:

the high-speed cutting and arranging machine for the fine dried noodles comprises a rack, a noodle clamping device, a noodle cutting device and an arranging device, wherein the noodle clamping device is installed at the middle part of the rack in the left-right direction, the noodle cutting device and the arranging device are installed at the upper side of the rack in the left-right direction, the arranging device is located at the rear side of the noodle cutting device, the whole rod fine dried noodles pass through the space between the noodle cutting device and the arranging device from top to bottom and reach the noodle clamping device, the lower side part of the whole rod fine dried noodles is clamped by the noodle clamping device, the arranging device is pressed at the rear side of the whole rod fine dried noodles, and the whole rod fine dried noodles are cut off by the noodle cutting device in the left-right direction.

The surface clamping device comprises a first speed reducing motor, a mandrel, two inner pressing plates, a tubular shaft and a second speed reducing motor, wherein the power shaft of the first speed reducing motor, the mandrel, the power shaft of the second speed reducing motor and the tubular shaft are horizontally arranged along the left-right direction, the first speed reducing motor is fixedly arranged in the middle of the left side of the rack, first vertical supports are connected to the left side and the right side of the middle of the rack, the outer circumference of the mandrel is of a hexagonal prism structure, optical axes are integrally formed at the left end and the right end of the mandrel, the outer diameter of each optical axis is smaller than the diameter of an inscribed circle in the cross section of the mandrel, the optical axes at the left side and the right side are respectively rotatably arranged at the tops of the two first vertical supports through an outer spherical ball bearing with a suspension type seat, the right end of the power shaft of the first speed reducing motor is coaxially connected with the left end of the optical axis through a coupler, the length directions of the two inner pressing plates are both arranged along the axial direction of the mandrel, and the planes at 60-degree included angle pass through the central line of the mandrel, the inner side edges of the two inner pressing plates are fixedly connected with two adjacent side surfaces of the mandrel through a plurality of screws respectively and are in contact with the adjacent side surfaces of the mandrel in a fitting manner, a second speed reducing motor is fixedly installed at the left lower side of the middle part of the frame, the inner diameter of the tube shaft is larger than the diameter of a circle circumscribing the cross section of the mandrel, the tube shaft is rotatably sleeved outside the mandrel, the length of the tube shaft is larger than that of the mandrel, a rectangular notch is axially formed in the tube wall of the tube shaft, the length of the rectangular notch is equal to that of the mandrel, the central angle of the rectangular notch on the section of the tube shaft is 120 degrees, the two inner pressing plates penetrate through the rectangular notch and extend out of the tube shaft, an outer pressing plate is welded on the outer tube wall of the tube shaft along two straight edges of the rectangular notch, the planes of the two outer pressing plates of the tube shaft form an included angle of 120 degrees and penetrate through the central line of the tube shaft, and rubber pads are fixedly bonded on the adjacent side surfaces of the adjacent inner pressing plates and the outer pressing plates, the left end edge of the hollow shaft is welded with a rotating disc sleeved outside the left optical axis, the left sides of the two outer pressing plates are welded on the right side face of the rotating disc, the right end part of the outer circumference of the left optical axis is rotatably provided with a clamping face driven wheel, the right side face of the clamping face driven wheel is in contact with the left side face of the rotating disc in a fitting manner, the clamping face driven wheel and the rotating disc are fixedly connected together through a plurality of bolts, deep groove ball bearings are respectively arranged between the inner circle of the center hole of the clamping face driven wheel and the outer circle of the right end part of the left optical axis and between the inner circle of the right end part of the hollow shaft and the outer circle of the left end part of the optical axis on the right side, sleeves are sleeved on the two optical axes, the left end and the right end of the left sleeve respectively press the right end face of the inner ring of the ball bearing with the suspension type seat outer spherical surface and the left end face of the inner ring of the ball bearing with the suspension type seat on the left side, and the left end face of the sleeve on the right sleeve respectively press the inner ring of the deep groove ball bearing on the right side The second speed reducing motor is fixedly installed on the lower left side of the middle of the rack, a power shaft of the second speed reducing motor is horizontally arranged along the left-right direction, a clamping face driving wheel located right below the clamping face driven wheel is fixedly installed at the end of the power shaft of the second speed reducing motor, and the clamping face driven wheel and the clamping face driving wheel are in transmission connection through a transmission belt.

The tangent plane device comprises a movable frame plate, a high-speed cutting motor, a rotary cutter and a left-right reciprocating mechanism, wherein a guide support plate arranged along the left-right direction is fixedly connected between the upper part of the left side and the upper part of the right side of the frame, the plane where the guide support plate is located is vertically arranged, a first guide rail horizontally arranged along the left-right direction and positioned at the rear side of the guide support plate is fixedly connected between the upper part of the left side and the upper part of the right side of the frame, a second guide rail horizontally arranged along the left-right direction and positioned below the guide support plate is fixedly connected between the upper part of the left side and the upper part of the right side of the frame, the movable frame plate is vertically arranged between the guide support plate and the first guide rail along the left-right direction and positioned above the second guide rail, two first grooved pulleys spaced left and right are rotatably arranged at the upper part of the front side surface and the middle part of the movable frame plate, two second grooved pulleys spaced left and right are rotatably arranged at the upper part of the rear side surface of the movable frame plate, the lower side of the movable frame plate is fixedly connected with two wheel frames which are spaced from each other left and right, each wheel frame is rotatably provided with two third grooved wheels which are spaced from each other front and back, a second guide rail passes through the space between the corresponding two third grooved wheels which are spaced from each other front and back, the central shafts of the first grooved wheels and the second grooved wheels are horizontally arranged along the front and back direction, the central shafts of the third grooved wheels are vertically arranged, the lower side grooves of the two first grooved wheels on the upper side are matched and clamped on the upper side edge of the guide support plate, the two first grooved wheels on the upper side are in rolling contact with the upper side edge of the guide support plate, the upper side grooves of the two first grooved wheels on the lower side are matched and clamped on the lower side edge of the guide support plate, the lower side grooves of the two second grooved wheels are matched and clamped on the upper side edge of the first guide rail, the two second grooved wheels are in rolling contact with the upper side edge of the first guide rail, and the rear side grooves of the two third grooved wheels on the front side are matched and clamped on the front side edge of the second guide rail, the two third grooved wheels on the front side are in rolling contact with the front side edge of the second guide rail, the front side wheel grooves of the two third grooved wheels on the rear side are matched and clamped on the rear side edge of the second guide rail, the two third grooved wheels on the rear side are in rolling contact with the rear side edge of the second guide rail, the high-speed cutting motor is vertically and fixedly installed on the rear side surface of the movable frame plate, a power shaft of the high-speed cutting motor is located at the bottom of the high-speed cutting motor and lower than the second guide rail, the rotary cutter is fixedly installed at the lower end of the power shaft of the high-speed cutting motor, the left and right reciprocating mechanism is installed on the upper side of the rack and located on the front side of the guide support plate, and the left and right reciprocating mechanism drives the movable frame plate to reciprocate left and right along the guide support plate, the first guide rail and the second guide rail.

The left and right reciprocating mechanism comprises a synchronous belt speed reducing motor, a synchronous belt driving wheel and a synchronous belt driven wheel, a second vertical support positioned on the front side of the guide support plate is connected with the front side part of the upper side of the rack, the synchronous belt speed reducing motor is fixedly arranged on the right side of the top of the second vertical support, the synchronous belt driving wheel is fixedly arranged at the rear end of a power shaft of the synchronous belt speed reducing motor, the synchronous belt driven wheel is rotatably arranged between the left rear side of the top of the second vertical support and the rack, the power shaft of the synchronous belt speed reducing motor, a central shaft of the synchronous belt driving wheel and a central shaft of the synchronous belt driven wheel are horizontally arranged along the front and rear direction, the synchronous belt driving wheel and the synchronous belt driven wheel are connected through a tool rest synchronous belt in a transmission way, a horizontally arranged tool rest connecting plate is fixedly connected in the middle part of the front side surface of the movable frame plate through a plurality of bolts, and the front side part of the tool rest connecting plate extends forwards to the upper half pair of the tool rest synchronous belt, the synchronous belt clamping plate located right below the tool rest connecting plate is arranged below the upper half of the tool rest synchronous belt, the tool rest connecting plate and the synchronous belt clamping plate are fixedly connected through a plurality of bolts, and the tool rest connecting plate and the synchronous belt clamping plate clamp the upper half of the synchronous belt.

The arranging device comprises an air cylinder, a C-shaped connecting plate, an angle steel and a cutter groove structure, wherein a third vertical support positioned at the rear side of the dough slicing device is fixedly connected to the middle part of the rear upper side of the rack, the air cylinder is horizontally and fixedly arranged at the top of the third vertical support along the front-rear direction, the C-shaped connecting plate is arranged at the lower part of the rear side of the high-speed cutting motor along the left-right direction, the open side of the C-shaped connecting plate is arranged upwards, the upper part of a left side plate and the upper part of a right side plate of the C-shaped connecting plate are both fixedly connected with rotating shafts through a plurality of bolts, the rotating shafts are horizontally arranged along the left-right direction, the rotating shafts on the left side are rotatably arranged at the upper side of the middle part of the left side of the rack, the rotating shafts on the right side are rotatably arranged at the upper side of the right side of the rack, the angle steel is horizontally arranged at the rear side of the C-shaped connecting plate along the left-right direction, the right angle steel is positioned at the rear lower side of the angle steel, the upper side plate of the angle steel corresponds to the lower side plate of the C-shaped connecting plate in the front-rear direction and is fixedly connected with the lower side of the C-type connecting plate through a plurality of bolts, the upper side plate front side of angle steel and the lower side plate trailing flank laminating contact of C type connecting plate, sword groove structure fixed mounting just with rotary cutter height at the lower side plate downside middle part of angle steel, articulated between the piston rod front end of cylinder and the upper side plate trailing flank middle part of angle steel have the arm-tie.

The sword groove structure includes the upper plate, medium plate and hypoplastron, the upper plate, medium plate and hypoplastron are all along left right direction level setting and from top to bottom interval setting under the lower curb plate of angle steel, the upper plate, medium plate and hypoplastron fold and press together and through the lower curb plate downside of a plurality of bolt fixed connection at the angle steel, the size of upper plate and hypoplastron in front and back direction equals and is greater than the size of medium plate in front and back direction, the upper plate, the back side of medium plate and hypoplastron flushes from top to bottom, the upper plate, the preceding lateral part of medium plate and hypoplastron encloses into the left side, the equal open card sword groove in right side and front side, the matching of the back side sword edge of rotary cutter is embedded into card sword groove.

The lower side of the frame is provided with a conveying belt which is positioned right below the surface clamping device along the front-back direction.

Compared with the prior art, the invention has outstanding substantive characteristics and remarkable progress, and specifically, the working principle of the invention is as follows: firstly, the whole rod fine dried noodles are downwards sent to the upper part of a noodle clamping device from top to bottom, initially, a rectangular notch of a pipe shaft faces to the front upper side, one outer pressing plate is positioned on the upper side of the pipe shaft and is vertically arranged, the other outer pressing plate is positioned on the front lower side of the pipe shaft, two inner pressing plates are positioned between the two outer pressing plates, the upper inner pressing plate is obliquely arranged and forms an included angle with the upper outer pressing plate, the lower inner pressing plate is obliquely arranged and is in compression joint with the front outer pressing plate, the lower side part of the whole rod fine dried noodles is downwards moved to a position between the upper outer pressing plate and the upper inner pressing plate and is flush with the lower side edge of the upper outer pressing plate, the whole rod fine dried noodles are parallel to and in contact with the front side surface of the upper outer pressing plate, then a first speed reducing motor is started, a power shaft of the first speed reducing motor drives a mandrel to rotate anticlockwise by a certain angle, the mandrel drives the two inner pressing plates to rotate anticlockwise by a certain angle so that the upper inner pressing plate rotates to a vertical state, an included angle is formed between the inner pressing plate at the lower side and the outer pressing plate at the front side, the rubber pads on the adjacent side surfaces of the outer pressing plate at the upper side and the inner pressing plate at the upper side are attached and pressed to clamp the lower side part of the whole rod fine dried noodles, the length of the fine dried noodles at the clamping part is one third of the quantitative cutting length of the fine dried noodles, so that the upper side and the lower side of the whole rod fine dried noodles are clamped and in a tensioning fixed state, the first speed reducing motor stops rotating, the clamping face work is completed, then the cylinder is controlled to move, a piston rod of the cylinder extends forwards, the front end of the piston rod of the cylinder drives a C-shaped connecting plate to rotate from back to front through a pulling plate to be vertical, the front side edges of the upper plate and the lower plate are in pressing contact with the rear side of the whole rod fine dried noodles, the fine dried noodles are arranged, a cutter clamping groove formed by the front side parts of the upper plate, the middle plate and the lower plate is as high as a rotary cutter, then a synchronous belt speed reducing motor is started, a power shaft of the synchronous belt reducing motor drives a driving wheel to rotate, the synchronous belt driving wheel drives the synchronous belt driven wheel to rotate through the tool rest synchronous belt, the tool rest synchronous belt drives the movable frame plate to move from right to left through the tool rest connecting plate, the first guide rail and the second guide rail, the movable frame plate drives the high-speed cutting motor to move from right to left to the left of the rack, the high-speed cutting motor is started simultaneously, a power shaft of the high-speed cutting motor drives the rotary cutter to rotate at high speed, the rear side cutter edge of the rotary cutter is matched and embedded into the cutter clamping groove and moves from right to left in the cutter clamping groove, the rotary cutter cuts the whole rod fine dried noodles, the whole rod fine dried noodles are cut orderly from right to left, due to the action of the upper plate and the lower plate, the phenomenon that the fine dried noodles are greatly deviated in the front and back direction in the cutting process is avoided, after the whole rod fine dried noodles are cut, the piston rod of the control cylinder retracts backwards, and the piston rod of the cylinder pulls the C-shaped connecting plate to rotate from front to back upwards through the pull plate, keeping the upper plate and the lower plate away from the whole rod fine dried noodles, finally starting a first speed reducing motor and a second speed reducing motor simultaneously, driving a mandrel to rotate anticlockwise for a certain angle by the first speed reducing motor, driving two inner pressing plates to rotate anticlockwise by the mandrel, driving a clamp face driving wheel to rotate anticlockwise by a power shaft of the second speed reducing motor, driving a clamp face driven wheel to rotate anticlockwise by the clamp face driving wheel through a transmission belt, driving a tube shaft to rotate anticlockwise for a certain angle by the clamp face driven wheel through a rotating disc, driving two outer pressing plates to rotate anticlockwise by the tube shaft, the angular speeds of the tube shaft and the mandrel are the same, synchronously rotating the inner pressing plates and the outer pressing plates at the same speed, clamping a certain amount of cut fine dried noodles by the outer pressing plates at the upper side and the inner pressing plates at the upper side, rotating a rectangular notch of the tube shaft to the rear upper side, rotating the outer pressing plates at the front side to the upper side of the tube shaft and to the vertical state, and rotating the outer pressing plates at the upper side and the rear lower side of the tube shaft, the fine dried noodles are in a front-high rear-low inclined state, then the power shaft of the first speed reduction motor is controlled to rotate clockwise, the mandrel drives the two inner pressing plates to rotate clockwise, the inner pressing plate on the lower rear side is separated from the outer pressing plate on the lower rear side at the moment, the fine dried noodles are loosened and fall down onto the conveyer belt under the action of self weight, the conveyer belt conveys a certain amount of cut fine dried noodles, and thus, the fine dried noodles are clamped, sorted and cut off at one time;

then, at the same time, the whole rod fine dried noodles are continuously sent downwards to the upper part of the noodle clamping device, so that the lower side part of the whole rod fine dried noodles moves downwards to a position between the upper outer pressing plate and the upper inner pressing plate and is flush with the lower side edge of the upper outer pressing plate, the whole rod fine dried noodles are parallel to and contacted with the front side surface of the upper outer pressing plate, the mandrel drives the upper inner pressing plate to rotate clockwise to a vertical state, an included angle is formed between the rear lower inner pressing plate and the rear outer pressing plate, rubber pads on the adjacent sides of the upper outer pressing plate and the upper inner pressing plate are attached and pressed to clamp the lower side part of the whole rod fine dried noodles, the length of the fine dried noodles at the clamping part is one third of the quantitative cutting length of the fine dried noodles, so that the upper side and the lower side of the whole rod fine dried noodles are clamped and are in a tensioning fixed state, the first speed reducing motor stops rotating, the work of the clamping surface is finished, then, the cylinder is controlled to move, so that the piston rod of the cylinder extends forwards, the front end of a piston rod of the cylinder drives a C-shaped connecting plate to rotate from back to top to front and downwards to be vertical through a pulling plate, the front side edges of an upper plate and a lower plate are in pressing contact with the rear side of the whole rod fine dried noodles, the fine dried noodles are arranged, a cutter clamping groove formed by the front side parts of the upper plate, a middle plate and the lower plate is as high as a rotary cutter, then a synchronous belt speed reducing motor is started, a power shaft of the synchronous belt speed reducing motor drives a synchronous belt driving wheel to rotate, the synchronous belt driving wheel drives a synchronous belt driven wheel to rotate through a cutter frame synchronous belt, the cutter frame synchronous belt drives a moving frame plate to move from left to right along a guide supporting plate, a first guide rail and a second guide rail through the cutter frame connecting plate, the moving frame plate drives a high-speed cutting motor to move from left to right to the right side of a rack, the high-speed cutting motor is started, the power shaft of the high-speed cutting motor drives the rotary cutter to rotate at high speed, the rear cutter edge is matched with and embedded into the cutter clamping groove and moves from left to right in the cutter groove, the rotary cutter cuts the whole rod fine dried noodles, the whole rod fine dried noodles are cut off orderly from left to right, due to the action of the upper plate and the lower plate, the phenomenon that the fine dried noodles are greatly deviated in the front and back directions in the cutting process is avoided, after the whole rod fine dried noodles are cut off, the piston rod of the control cylinder contracts backwards, the piston rod of the cylinder pulls the C-shaped connecting plate through the pull plate to rotate from front to back and up, so that the upper plate and the lower plate are far away from the whole rod fine dried noodles, finally, the first speed reducing motor and the second speed reducing motor are simultaneously started, the first speed reducing motor drives the mandrel to rotate clockwise for a certain angle, the mandrel drives the two inner press plates to rotate clockwise, the power shaft of the second speed reducing motor drives the clamp driving wheel to rotate clockwise, the clamp driving wheel drives the clamp driven wheel to rotate clockwise for a certain angle through the rotating disc, and the tube shaft drives the two outer press plates to rotate clockwise, the angular speeds of the tubular shaft and the mandrel are the same, the inner pressing plate and the outer pressing plate rotate at the same speed synchronously, the outer pressing plate on the upper side and the inner pressing plate on the upper side clamp a certain amount of cut fine dried noodles and rotate clockwise by a certain angle, the rectangular notch of the tubular shaft rotates to the upper front side, the outer pressing plate on the lower rear side rotates to the upper side of the tubular shaft and is in a vertical state, the outer pressing plate on the upper side and the inner pressing plate on the upper side rotate to the lower front side of the tubular shaft, so that the fine dried noodles are in a low front and high rear inclined state, then the power shaft of the first speed reducing motor is controlled to rotate anticlockwise, the mandrel drives the two inner pressing plates to rotate anticlockwise, the inner pressing plate on the lower front side and the outer pressing plate on the lower front side are separated at the moment, the fine dried noodles are loosened and fall down onto the conveying belt under the action of self weight, the conveying belt conveys a certain amount of cut fine dried noodles, and the fine dried noodles are clamped, sorted and cut;

the above operations are repeated, the reciprocating noodle clamping, finishing and cutting-off work is realized, and the efficiency is high.

According to the noodle clamping device, the whole fine dried noodles are fed above the noodle clamping device from top to bottom, and the noodle clamping device can clamp the lower side of the whole fine dried noodles, so that the fine dried noodles are guaranteed to be cut neatly, quantitatively and efficiently each time.

Drawings

Fig. 1 is a front view of the present invention.

Fig. 2 is a left side view of the present invention.

Fig. 3 is a top view of the present invention.

Fig. 4 is a schematic structural view of the clamping face device of the invention.

Figure 5 is an exploded schematic view of a sandwich face device of the present invention.

FIG. 6 is a first schematic structural diagram of a cutting device according to the present invention.

FIG. 7 is a second schematic structural view of the cutting device of the present invention.

Fig. 8 is a partially enlarged view of a portion a in fig. 1.

Fig. 9 is a partially enlarged view of fig. 2 at B.

Detailed Description

The embodiments of the present invention are further described below with reference to the drawings.

As shown in fig. 1-9, the high-speed cutting and arranging machine for fine dried noodles comprises a rack 1, a noodle clamping device, a noodle cutting device and an arranging device, wherein the noodle clamping device is installed in the middle of the rack 1 along the left-right direction, the noodle cutting device and the arranging device are both installed on the upper side of the rack 1 along the left-right direction, the arranging device is located on the rear side of the noodle cutting device, the whole rod of fine dried noodles pass through the space between the noodle cutting device and the arranging device from top to bottom and reach the noodle clamping device, the lower side of the whole rod of fine dried noodles is clamped by the noodle clamping device, the arranging device is pressed on the rear side of the whole rod of fine dried noodles, and the noodle cutting device cuts the whole rod of fine dried noodles along the left-right direction.

The surface clamping device comprises a first speed reducing motor 2, a mandrel 3, two inner pressing plates 4, a tubular shaft 5 and a second speed reducing motor 6, wherein a power shaft of the first speed reducing motor 2, the mandrel 3, a power shaft of the second speed reducing motor 6 and the tubular shaft 5 are horizontally arranged along the left-right direction, the first speed reducing motor 2 is fixedly arranged in the middle of the left side of a rack 1, the left side and the right side of the middle of the rack 1 are respectively connected with a first vertical support 7, the outer circumference of the mandrel 3 is of a hexagonal prism structure, optical axes 8 are integrally formed at the left end and the right end of the mandrel 3, the outer diameter of each optical axis 8 is smaller than the diameter of an inscribed circle in the cross section of the mandrel 3, the optical axes 8 at the left side and the right side are respectively rotatably arranged at the tops of the two first vertical supports 7 through an outer spherical ball bearing 9 with a suspension type seat, the right end of the power shaft of the first speed reducing motor 2 is coaxially connected with the left end of the optical axis 8 through a coupling 10 in a transmission manner, the length directions of the two inner pressing plates 4 are all arranged along the axial direction of the mandrel 3, the planes of the two inner pressing plates 4 form an included angle of 60 degrees and pass through the central line of the mandrel 3, the inner side edges of the two inner pressing plates 4 are respectively fixedly connected with two adjacent side surfaces of the mandrel 3 through a plurality of screws and are in contact with the adjacent side surfaces, the second speed reducing motor 6 is fixedly arranged at the left lower side of the middle part of the frame 1, the inner diameter of the tubular shaft 5 is larger than the diameter of a circumscribed circle of the section of the mandrel 3, the tubular shaft 5 is rotatably sleeved outside the mandrel 3, the length of the tubular shaft 5 is larger than that of the mandrel 3, a rectangular notch 11 is axially arranged on the wall of the tubular shaft 5, the length of the rectangular notch 11 is the same as that of the mandrel 3, the central angle of the rectangular notch 11 on the section of the tubular shaft 5 is 120 degrees, the two inner pressing plates 4 pass through the rectangular notch 11 and extend out of the tubular shaft 5, and an outer pipe wall of the tubular shaft 5 is welded with an outer pressing plate 43 along two straight edges of the rectangular notch 11, the plane of the two outer pressing plates 43 forms an included angle of 120 degrees and penetrates through the central line of the tubular shaft 5, rubber pads 12 are fixedly bonded on the adjacent side faces of the adjacent inner pressing plate 4 and the outer pressing plate 43, a rotating disc 13 sleeved outside the left optical axis 8 is welded on the left end edge of the tubular shaft 5, the left side edges of the two outer pressing plates 43 are welded on the right side face of the rotating disc 13, a clamping face driven wheel 14 is rotatably mounted at the right end part of the outer circumference of the left optical axis 8, the right side face of the clamping face driven wheel 14 is in contact with the left side face of the rotating disc 13 in a fit manner, the clamping face driven wheel 14 and the rotating disc 13 are fixedly connected together through a plurality of bolts, deep groove ball bearings 15 are mounted between the inner circle of the center hole of the clamping face driven wheel 14 and the outer circle of the right end part of the left optical axis 8 and between the inner circle of the right end part of the tubular shaft 5 and the outer circle of the left end part of the optical axis 8 on the right side, sleeves 16 are sleeved on the two optical axes 8, the left end and the right end of the left sleeve 16 respectively press against the right end face of the inner ring of the left insert bearing 9 with the suspension type seat and the left end face of the inner ring of the left deep groove ball bearing 15, the left end and the right end of the right sleeve 16 respectively press against the right end face of the inner ring of the right deep groove ball bearing 15 on the right side and the left end face of the inner ring of the right insert bearing 9 with the suspension type seat, the second speed reducing motor 6 is fixedly arranged at the left lower side of the middle of the rack 1, a power shaft of the second speed reducing motor 6 is horizontally arranged along the left and right directions, a clamping face driving wheel positioned under the clamping face driven wheel 14 is fixedly arranged at the end part of the power shaft of the second speed reducing motor 6, and the clamping face driven wheel 14 and the clamping face driving wheel are in transmission connection through a transmission belt 17.

The section cutting device comprises a movable frame plate 18, a high-speed cutting motor 19, a rotary cutter 20 and a left-right reciprocating mechanism, wherein a guide support plate 21 arranged along the left-right direction is fixedly connected between the upper part of the left side and the upper part of the right side of a frame 1, the plane where the guide support plate 21 is located is vertically arranged, a first guide rail 22 which is horizontally arranged along the left-right direction and is positioned at the rear side of the guide support plate 21 is fixedly connected between the upper part of the left side and the upper part of the right side of the frame 1, a second guide rail 23 which is horizontally arranged along the left-right direction and is positioned below the guide support plate 21 is fixedly connected between the upper part of the left side and the upper part of the right side of the frame 1, the movable frame plate 18 is vertically arranged between the guide support plate 21 and the first guide rail 22 along the left-right direction and is positioned above the second guide rail 23, two first grooved pulleys 24 which are spaced left-right are rotatably arranged on the upper part of the front side and the middle part of the movable frame plate 18, two second grooved pulleys 25 which are spaced left-right, two wheel frames 44 spaced left and right are fixedly connected to the lower side of the movable frame plate 18, each wheel frame 44 is rotatably provided with two third grooved wheels 26 spaced front and back, the second guide rail 23 passes through between the corresponding two third grooved wheels 26 spaced front and back, the central axes of the first grooved wheels 24 and the second grooved wheels 25 are horizontally arranged along the front and back direction, the central axis of the third grooved wheels 26 is vertically arranged, the lower side wheel grooves of the two first grooved wheels 24 on the upper side are matched and clamped on the upper side of the guide support plate 21, the two first grooved wheels 24 on the upper side are in rolling contact with the upper side of the guide support plate 21, the upper side wheel grooves of the two first grooved wheels 24 on the lower side are matched and clamped on the lower side of the guide support plate 21, the two first grooved wheels 24 on the lower side are in rolling contact with the lower side of the guide support plate 21, the lower side wheel grooves of the two second grooved wheels 25 are matched and clamped on the upper side of the first guide rail 22, the two second grooved wheels 25 are in rolling contact with the upper side of the first guide rail 22, the rear wheel grooves of the two third grooved wheels 26 at the front side are matched and clamped at the front side of the second guide rail 23, the two third grooved wheels 26 at the front side are in rolling contact with the front side of the second guide rail 23, the front wheel grooves of the two third grooved wheels 26 at the rear side are matched and clamped at the rear side of the second guide rail 23, the two third grooved wheels 26 at the rear side are in rolling contact with the rear side of the second guide rail 23, the high-speed cutting motor 19 is vertically and fixedly arranged at the rear side of the movable frame plate 18, the power shaft of the high-speed cutting motor 19 is positioned at the bottom of the high-speed cutting motor 19 and is lower than the second guide rail 23, the rotary cutter 20 is fixedly arranged at the lower end of the power shaft of the high-speed cutting motor 19, the left-right reciprocating mechanism is arranged at the upper side of the rack 1 and is positioned at the front side of the guide support plate 21, the left-right reciprocating mechanism drives the movable frame plate 18 along the guide support plate 21, the first guide rail 22 and the second guide rail 23 reciprocate right and left.

The left and right reciprocating mechanism comprises a synchronous belt speed reducing motor 27, a synchronous belt driving wheel and a synchronous belt driven wheel 28, the front side part of the upper side of the rack 1 is connected with a second vertical support 29 positioned at the front side of the guide support plate 21, the synchronous belt speed reducing motor 27 is fixedly arranged at the right side of the top of the second vertical support 29, the synchronous belt driving wheel is fixedly arranged at the rear end of a power shaft of the synchronous belt speed reducing motor 27, the synchronous belt driven wheel 28 is rotatably arranged between the left rear side of the top of the second vertical support 29 and the rack 1, the power shaft of the synchronous belt speed reducing motor 27 and a central shaft of the synchronous belt driven wheel 28 are horizontally arranged along the front and rear direction, the synchronous belt driving wheel and the synchronous belt driven wheel 28 are in transmission connection through a cutter frame synchronous belt 30, the middle part of the front side surface of the movable rack plate 18 is fixedly connected with a horizontally arranged cutter frame connecting plate 31 through a plurality of bolts, the front side part of the cutter frame connecting plate 31 extends forwards to the upper half pair of the cutter frame synchronous belt 30, the upper half of the tool rest synchronous belt 30 is provided with a synchronous belt clamping plate 32 under the tool rest connecting plate 31, the tool rest connecting plate 31 and the synchronous belt clamping plate 32 are fixedly connected through a plurality of bolts, and the tool rest connecting plate 31 and the synchronous belt clamping plate 32 clamp the upper half of the synchronous belt.

Finishing device includes cylinder 33, C type connecting plate 34, angle steel 35 and sword groove structure, the back upside middle part fixedly connected with of frame 1 is located the third vertical support 36 of tangent plane device rear side, cylinder 33 is along the top of fore-and-aft direction horizontal fixed mounting at third vertical support 36, C type connecting plate 34 sets up the rear side lower part at high-speed cutting motor 19 along the left and right sides direction, the uncovered side of C type connecting plate 34 sets up upwards, left side upper portion and right side upper portion of C type connecting plate 34 all are through a plurality of bolt fixedly connected with pivot 37, pivot 37 sets up along the left and right sides direction level, left pivot 37 rotates and installs the left side middle part upside at frame 1, pivot 37 on right side rotates and installs the right side middle part upside at frame 1, angle steel 35 sets up the rear side at C type connecting plate 34 along the left and right sides direction level, angle steel 35's right angle is located angle steel 35's back downside, angle steel 35's the upside board corresponds and through a plurality of bolt fixedly connected with C type connecting plate 34's downside front and back through a plurality of bolt fixedly connected And the front side surface of the upper side plate of the angle steel 35 is in contact with the rear side surface of the lower side plate of the C-shaped connecting plate 34 in a fitting manner, the cutter groove structure is fixedly arranged in the middle of the lower side surface of the angle steel 35 and is as high as the rotary cutter 20, and a pull plate 42 is hinged between the front end of a piston rod of the air cylinder 33 and the middle of the rear side surface of the upper side plate of the angle steel 35.

The cutter groove structure comprises an upper plate 38, a middle plate 39 and a lower plate 40, wherein the upper plate 38, the middle plate 39 and the lower plate 40 are horizontally arranged along the left-right direction and are arranged under the lower side plate of the angle steel 35 at intervals from top to bottom, the upper plate 38, the middle plate 39 and the lower plate 40 are laminated together and fixedly connected to the lower side plate of the angle steel 35 through a plurality of bolts, the sizes of the upper plate 38 and the lower plate 40 in the front-back direction are equal and larger than the size of the middle plate 39 in the front-back direction, the rear side edges of the upper plate 38, the middle plate 39 and the lower plate 40 are aligned up and down, the front side portions of the upper plate 38, the middle plate 39 and the lower plate 40 enclose a cutter clamping groove 41 with openings in the left side, the right side and the front side, and the rear cutter edge of the rotary cutter 20 is matched and embedded into the cutter clamping groove 41.

A conveyor belt (not shown) is arranged on the lower side of the frame 1 along the front-back direction and is positioned right below the surface clamping device.

The working principle of the invention is as follows: firstly, the whole rod fine dried noodles are downwards sent to the upper part of the noodle clamping device from top to bottom, initially, the rectangular notch 11 of the tubular shaft 5 faces to the front upper side, one outer pressing plate 43 is positioned on the upper side of the tubular shaft 5 and is vertically arranged, the other outer pressing plate 43 is positioned on the front lower side of the tubular shaft 5, the two inner pressing plates 4 are positioned between the two outer pressing plates 43, the inner pressing plate 4 on the upper side is obliquely arranged and forms an included angle with the outer pressing plate 43 on the upper side, the inner pressing plate 4 on the lower side is obliquely arranged and is in pressure joint with the outer pressing plate 43 on the front side, so that the lower side part of the whole rod fine dried noodles moves downwards to a position between the outer pressing plate 43 on the upper side and the inner pressing plate 4 on the upper side and is flush with the lower side edge of the outer pressing plate 43 on the upper side, the whole rod fine dried noodles are parallel and in contact with the front side surface of the outer pressing plate 43 on the upper side, then the first speed reducing motor 2 is started, the power shaft of the first speed reducing motor 2 drives the mandrel 3 to rotate anticlockwise for a certain angle, the mandrel 3 drives the two inner pressing plates 4 to rotate anticlockwise for a certain angle so that the inner pressing plate 4 on the upper side is rotated to be in a vertical state, an included angle is formed between the inner pressing plate 4 on the lower side and the outer pressing plate 43 on the front side, the outer pressing plate 43 on the upper side and the rubber pad 12 on the adjacent side of the inner pressing plate 4 on the upper side are attached and pressed to clamp the lower side of the whole rod dried noodle, the length of the dried noodle at the clamping part is one third of the quantitative cutting length of the dried noodle, so that the upper side and the lower side of the whole rod dried noodle are clamped and are in a tensioning and fixing state, the first speed reducing motor 2 stops rotating, the noodle clamping work is completed, then the air cylinder 33 is controlled to act, the piston rod of the air cylinder 33 extends forwards, the front end of the piston rod of the air cylinder 33 drives the C-shaped connecting plate 34 to rotate forwards and downwards from the back to be vertical through the pulling plate 42, so that the front side edges of the upper plate 38 and the lower plate 40 are in pressing contact with the rear side of the whole rod to finish the dried noodle, a cutter clamping groove 41 defined by the front side parts of the upper plate 38, the middle plate 39 and the lower plate 40 is as high as the rotary cutter 20, then a synchronous belt speed reducing motor 27 is started, a power shaft of the synchronous belt speed reducing motor 27 drives a synchronous belt driving wheel to rotate, the synchronous belt driving wheel drives a synchronous belt driven wheel 28 to rotate through a cutter frame synchronous belt 30, the cutter frame synchronous belt 30 drives a movable frame plate 18 to move from right to left along a guide support plate 21, a first guide rail 22 and a second guide rail 23 through a cutter frame connecting plate 31, the movable frame plate 18 drives a high-speed cutting motor 19 to move from right to left to the left side of the rack 1, simultaneously a high-speed cutting motor 19 is started, the power shaft of the high-speed cutting motor 19 drives the rotary cutter 20 to rotate at high speed, the rear cutter edge of the rotary cutter 20 is matched and embedded into the cutter clamping groove 41 and moves from right to left in the cutter clamping groove 41, the rotary cutter 20 cuts the whole rod hanging surface to cut off the whole rod dried noodles regularly from right to left, due to the action of the upper plate 38 and the lower plate 40, large offset in the front and back directions in the fine dried noodle cutting process is avoided, after the whole rod fine dried noodle is cut off, the piston rod of the cylinder 33 is controlled to contract backwards, the piston rod of the cylinder 33 pulls the C-shaped connecting plate 34 to rotate from front to back and upwards through the pulling plate 42, so that the upper plate 38 and the lower plate 40 are far away from the whole rod fine dried noodle, finally, the first speed reducing motor 2 and the second speed reducing motor 6 are simultaneously started, the first speed reducing motor 2 drives the mandrel 3 to rotate anticlockwise for a certain angle, the mandrel 3 drives the two inner pressing plates 4 to rotate anticlockwise, the power shaft of the second speed reducing motor 6 drives the clamp driving wheel to rotate anticlockwise, the clamp driving wheel drives the clamp driven wheel 14 to rotate anticlockwise through the transmission belt 17, the clamp driven wheel 14 drives the tube shaft 5 to rotate anticlockwise for a certain angle through the rotating disc 13, and the tube shaft 5 drives the two outer pressing plates 43 to rotate anticlockwise, the angular speed of the tubular shaft 5 is the same as that of the mandrel 3, the inner pressing plate 4 and the outer pressing plate 43 synchronously rotate at the same speed, the outer pressing plate 43 on the upper side and the inner pressing plate 4 on the upper side clamp a certain amount of cut fine dried noodles and rotate anticlockwise by a certain angle, the rectangular notch 11 of the tubular shaft 5 rotates to face the rear upper side, the outer pressing plate 43 on the front side rotates to the upper side of the tubular shaft 5 and is in a vertical state, the outer pressing plate 43 on the upper side and the inner pressing plate 4 on the upper side rotate to the rear lower side of the tubular shaft 5, so that the fine dried noodles are in a front-high rear-low inclined state, then the power shaft of the first speed reducing motor 2 is controlled to rotate clockwise, the mandrel 3 drives the two inner pressing plates 4 to rotate clockwise, the inner pressing plate 4 on the rear lower side and the outer pressing plate 43 on the rear lower side are separated at the moment, the fine dried noodles are loosened and fall down onto the conveying belt under the action of self weight, the fine dried noodles, the certain amount of cut fine dried noodles are conveyed away, and the fine dried noodles are clamped once fine dried noodles are finished, Sorting and cutting off;

meanwhile, the whole rod fine dried noodles are continuously sent downwards to the upper part of the noodle clamping device, so that the lower side part of the whole rod fine dried noodles moves downwards to a position between the upper outer pressing plate 43 and the upper inner pressing plate 4 and is flush with the lower side edge of the upper outer pressing plate 43, the whole rod fine dried noodles are parallel to and contact with the front side surface of the upper outer pressing plate 43, the mandrel 3 drives the upper inner pressing plate 4 to rotate clockwise to be in a vertical state, an included angle is formed between the rear lower inner pressing plate 4 and the rear outer pressing plate 43, the upper outer pressing plate 43 and the rubber pad 12 on the adjacent side surface of the upper inner pressing plate 4 are attached and pressed to clamp the lower side part of the whole rod fine dried noodles, the length of the fine dried noodles at the clamping part is one third of the quantitative cutting length of the fine dried noodles, therefore, the upper side and the lower side of the whole rod fine dried noodles are clamped and are in a tensioning fixed state, the first speed reducing motor 2 stops rotating, the work of the clamping face is finished, and then the air cylinder 33 is controlled to act, the piston rod of the cylinder 33 extends forwards, the front end of the piston rod of the cylinder 33 drives the C-shaped connecting plate 34 to rotate from back to top to front and down to be vertical through the pulling plate 42, the front side edges of the upper plate 38 and the lower plate 40 are in pressing contact with the rear side of the whole rod fine dried noodle to finish the fine dried noodle, a cutter clamping groove 41 defined by the front side parts of the upper plate 38, the middle plate 39 and the lower plate 40 is as high as the rotary cutter 20, then the synchronous belt speed reducing motor 27 is started, the power shaft of the synchronous belt speed reducing motor 27 drives the synchronous belt driving wheel to rotate, the synchronous belt driving wheel drives the synchronous belt driven wheel 28 to rotate through the cutter frame synchronous belt 30, the cutter frame synchronous belt 30 drives the movable frame plate 18 to move from left to right along the guide supporting plate 21, the first guide rail 22 and the second guide rail 23 through the cutter frame connecting plate 31, the movable frame plate 18 drives the high-speed cutting motor 19 to move from left to right to the right side of the rack 1, and simultaneously starts the high-speed cutting motor 19, the power shaft of the high-speed cutting motor 19 drives the rotary cutter 20 to rotate at a high speed, the rear cutter edge of the rotary cutter 20 is embedded into the cutter clamping groove 41 in a matching manner and moves from left to right in the cutter clamping groove 41, the rotary cutter 20 cuts the whole rod fine dried noodles to cut off the whole rod fine dried noodles regularly from left to right, due to the action of the upper plate 38 and the lower plate 40, the large deviation in the front and back directions in the fine dried noodle cutting process is avoided, after the whole rod fine dried noodles are cut off, the piston rod of the cylinder 33 is controlled to contract backwards, the piston rod of the cylinder 33 pulls the C-shaped connecting plate 34 through the pull plate 42 to rotate from front to back and upwards, so that the upper plate 38 and the lower plate 40 are far away from the whole rod fine dried noodles, finally, the first speed reducing motor 2 and the second speed reducing motor 6 are simultaneously started, the first speed reducing motor 2 drives the mandrel 3 to rotate clockwise for a certain angle, the mandrel 3 drives the two inner pressing plates 4 to rotate clockwise, the power shaft of the second speed reducing motor 6 drives the noodle clamping driving wheel to rotate clockwise, the clamp face driving wheel drives the clamp face driven wheel 14 to rotate clockwise through the transmission belt 17, the clamp face driven wheel 14 drives the tubular shaft 5 to rotate clockwise for a certain angle through the rotating disc 13, the tubular shaft 5 drives the two outer pressing plates 43 to rotate clockwise, the angular speeds of the tubular shaft 5 and the mandrel 3 are the same, the inner pressing plates 4 and the outer pressing plates 43 synchronously rotate at the same speed, the outer pressing plates 43 on the upper side and the inner pressing plates 4 on the upper side clamp a certain amount of cut fine dried noodles to rotate clockwise for a certain angle, the rectangular notch 11 of the tubular shaft 5 rotates to face the front upper side, the outer pressing plates 43 on the rear lower side rotate to the upper side of the tubular shaft 5 and are in a vertical state, the outer pressing plates 43 on the upper side and the inner pressing plates 4 on the upper side rotate to the front lower side of the tubular shaft 5, so that the fine dried noodles are in a low-front-high-back inclined state, then the power shaft of the first speed reducing motor 2 is controlled to rotate anticlockwise, the mandrel 3 drives the two inner pressing plates 4 to rotate anticlockwise, the inner pressing plate 4 at the front lower side is separated from the outer pressing plate 43 at the front lower side, the fine dried noodles are loosened and fall down onto the conveyer belt under the action of self weight, and the conveyer belt carries away a certain amount of cut fine dried noodles, so that the fine dried noodles are clamped, sorted and cut off at another time;

repeating the above operations to realize reciprocating noodle clamping, finishing and cutting.

The above embodiments are merely to illustrate rather than to limit the technical solutions of the present invention, and although the present invention has been described in detail with reference to the above embodiments, those of ordinary skill in the art should understand that; modifications and equivalents may be made thereto without departing from the spirit and scope of the invention and it is intended to cover in the claims the invention as defined in the appended claims.