CN220922555U - Oil storage cotton cutting machine - Google Patents

Abstract

The utility model relates to the technical field of oil storage cotton production, in particular to an oil storage cotton cutting machine, which comprises a feeding device and a cutting device, wherein the feeding device is used for conveying the oil storage cotton to the cutting device, the cutting device comprises a first reciprocating movement mechanism, a cutting mechanism is arranged on the first reciprocating movement mechanism, the first reciprocating movement mechanism is used for driving the cutting mechanism to reciprocate, and the reciprocating strokes of the cutting mechanism are all used for cutting the oil storage cotton. According to the utility model, the feeding device and the cutting device are arranged, so that the cutting process can be continuously carried out without idle stroke return, invalid waiting time is reduced, and the production efficiency is improved.

Description

Oil storage cotton cutting machine

Technical Field

The utility model relates to the technical field of oil storage cotton production, in particular to an oil storage cotton cutting machine.

Background

The atomizer includes an oil storage assembly for storing an atomized liquid and an atomizing assembly for atomizing the atomized liquid. When the atomizer works, atomized liquid flows into an atomization cavity of the atomization assembly from the oil storage assembly, a battery of the atomization assembly supplies power to the heating wire, and the atomized liquid is atomized into mist by heating of the atomization assembly. In order to improve the atomizing efficiency of the heating wire, atomized liquid is generally uniformly stored around the heating wire. The prior atomizer uniformly stores atomized liquid in columnar cotton around the electric heating wire, and the columnar cotton is generally called as oil storage cotton.

The prior oil storage cotton cutting device generally adopts a band saw to cut the sections, and the band saw feeds to one side of the oil storage cotton and reciprocates up and down at the same time, so that the oil storage cotton is cut off, and after the cutting process is finished, the band saw returns to feed the materials, and then the materials are cut. The return process is an idle stroke, cutting is not performed, and the cutting efficiency is low.

The above disadvantages are to be improved.

Disclosure of utility model

The utility model provides an oil storage cotton cutting machine, which aims to solve or relieve the problem that the existing oil storage cotton cutting machine is low in cutting efficiency when cutting is performed in a single stroke.

The technical scheme of the utility model is as follows:

The utility model provides a cotton guillootine of oil storage, includes feeding device and cutting device, feeding device is used for to cutting device shifts the cotton of oil storage, cutting device includes a reciprocating motion mechanism, be provided with the section mechanism of cutting on the first reciprocating motion mechanism, a reciprocating motion mechanism is used for driving section mechanism reciprocating motion, section mechanism reciprocating travel all is used for cutting the cotton of oil storage.

Further, the section cutting mechanism comprises a first rotary driving mechanism, a first cutter is vertically arranged on the first rotary driving mechanism, and the first rotary driving mechanism is used for driving the first cutter to rotationally cut the oil storage cotton.

Further, the first reciprocating mechanism is further provided with a cutting mechanism, the cutting mechanism comprises a second rotary driving mechanism, a second cutting knife is horizontally arranged on the second rotary driving mechanism, and the second rotary driving mechanism drives the second cutting knife to be used for opening the end part of the oil storage cotton. Through setting up incision mechanism, can be according to the product shape of difference, realize the customization to the cotton of oil storage and tailor, promote the flexibility and the adaptability of technology.

Further, the first rotary driving mechanism and the second driving mechanism are motors, and a servo motor is generally adopted.

Further, set up high adjustment mechanism between the first reciprocating motion mechanism with the incision mechanism, high adjustment mechanism includes a pair of thick stick, sliding connection has the slider on the thick stick, the slider with the incision mechanism is connected, be provided with the lead screw between the thick stick, the lead screw with slider threaded connection, the one end of lead screw is provided with the adjustment actuating mechanism. Through the arrangement of the height adjusting mechanism, the height of the cutting mechanism can be flexibly adjusted according to different products or process requirements so as to realize accurate cutting operation.

Further, the adjusting driving mechanism is a manual driving mechanism or an electric driving mechanism, the manual driving mechanism can be a hand wheel or a crank, and the electric driving mechanism is a motor.

Further, one side of the sliding block is provided with a locking mechanism, the locking mechanism comprises a locking screw rod in threaded connection with the sliding block, one end of the locking screw rod is propped against the screw rod, and the other end of the locking screw rod is provided with a handle.

Further, the first cutting knife and the second cutting knife are circular knives, and semicircular protective covers are respectively arranged on the outer sides of the first cutting knife and the second cutting knife. Operators can be effectively protected, and the safety of equipment is improved.

Further, the feeding device comprises a second reciprocating mechanism, a first clamping mechanism is arranged on the second reciprocating mechanism, the first clamping mechanism comprises a lower clamping plate connected with the second reciprocating mechanism, an upper clamping plate movably connected with the second reciprocating mechanism, and a lifting driving device is arranged between the upper clamping plate and the second reciprocating mechanism.

Further, the first reciprocating mechanism and the second reciprocating mechanism are linear motors.

Further, the lower clamping plate is provided with a first guide plate inclined downwards at one side of the feeding, and the upper clamping plate is provided with a second guide plate inclined upwards at one side of the feeding.

Further, a first folding mechanism is arranged on the second reciprocating mechanism, the first folding mechanism comprises two first horizontal telescopic driving mechanisms which are oppositely arranged, and a first folding push plate which is in sliding connection with the lower clamping plate is arranged on the first horizontal telescopic driving mechanism. The first folding mechanism is arranged on the second reciprocating mechanism, so that materials can be tidied, the positions of the materials can be adjusted, smooth feeding and tidy materials are ensured, and cutting is convenient.

Further, feeding device one side is provided with cutting positioner, cutting positioner includes second fixture, second fixture includes the carrier plate, the carrier plate top is provided with the clamp plate, the carrier plate with also be provided with lift drive between the clamp plate, the carrier plate with be provided with the cutting on the clamp plate respectively and keep away the position groove, be provided with the locating plate on the carrier plate, be provided with the guiding hole on the locating plate. The cutting and positioning device ensures the stability and accurate positioning of the oil storage cotton, so that the cutting operation can be performed more accurately.

Further, the locating plate is provided with the intercommunication at feeding one end the semicircle orifice of guiding hole, be provided with the locating splint on the clamp plate, be provided with the semicircle orifice on the locating splint, semicircle orifice on the locating plate with the cooperation of locating splint upper semicircle orifice presss from both sides tight oil storage cotton.

Further, a second folding mechanism is arranged on the carrier plate and comprises two second horizontal telescopic driving mechanisms which are oppositely arranged, and a second folding push plate which is in sliding connection with the carrier plate is arranged on the second horizontal telescopic driving mechanism.

Further, the first horizontal telescopic driving mechanism and the second horizontal telescopic driving mechanism are air cylinders.

Further, the pressing plate is provided with a third guide plate inclined upwards at one side of the feeding material.

The second draws in the push pedal in the one end of feeding to keeping away from the cotton one side slope of oil storage, the second draws in the push pedal in the one end of ejection of compact and is provided with the incision and keeps away the position groove.

Further, a transition plate is arranged between the first clamping mechanism and the second clamping mechanism.

The utility model according to the scheme has the beneficial effects that;

1. According to the utility model, the feeding device and the cutting device are arranged, so that the cutting process can be continuously carried out without idle stroke return, invalid waiting time is reduced, and the production efficiency is improved.

2. Compared with reciprocating cutting, the rotary cutting device has the advantages that the rotary cutting is convenient to improve the rotating speed and the cutting speed, the incision is smoother, the cutting quality is better, and the cutting efficiency is higher.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the embodiments or the description of the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of a front perspective view structure according to the present utility model;

FIG. 2 is a schematic view of a front perspective view structure according to the present utility model;

FIG. 3 is a schematic view of the rear perspective structure of the present utility model;

FIG. 4 is an exploded view of the structure of the first clamping mechanism of the present utility model;

FIG. 5 is a schematic view of a second folding mechanism according to the present utility model;

FIG. 6 is an enlarged view of the structure of FIG. 1 at A;

FIG. 7 is an enlarged view of the structure at B in FIG. 2;

FIG. 8 is an enlarged view of the structure of FIG. 3 at C;

Fig. 9 is an end-face-open oil storage cotton.

Wherein, each reference sign in the figure: 100. a feeding device; 101. a second reciprocating mechanism; 102. a first clamping mechanism; 1021. a lower clamping plate; 1022. an upper clamping plate; 1023. a lifting driving device; 1024. a first guide plate; 1025. a second guide plate; 103. a first folding mechanism; 1031. a first horizontal telescopic driving mechanism; 1032. a first folding push plate; 200. a cutting device; 201. a first reciprocating mechanism; 202. a sectioning mechanism; 2021. a first rotary drive mechanism; 2022. a first cutter; 203. a cutting mechanism; 2031. a second rotary drive mechanism; 2032. a second cutter; 204. a height adjusting mechanism; 2041. a light bar; 2042. a slide block; 2043. a screw rod; 2044. adjusting the driving mechanism; 205. a locking mechanism; 2051. a screw; 2052. a handle; 206. a semicircular protective cover; 300. a cutting positioning device; 301. a second clamping mechanism; 3011. a carrier plate; 3012. a pressing plate; 3013. cutting the clearance groove; 3014. a positioning plate; 3015. a guide hole; 3016. positioning clamping plates; 3017. a third guide plate; 3018. a transition plate; 302. a second folding mechanism; 3021. a second horizontal telescopic driving mechanism; 3022. a second folding push plate; 3023. a notch clearance groove; 400. and (5) oil storage cotton.

Detailed Description

In order to make the technical problems, technical schemes and beneficial effects to be solved more clear, the utility model is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

It will be understood that when an element is referred to as being "mounted" or "disposed" or "connected" to another element, it can be directly or indirectly on the other element. The directions or positions indicated by the terms "upper", "lower", "left", "right", "front", "rear", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. are directions or positions based on the drawings, and are merely for convenience of description and are not to be construed as limiting the present technical solution. The terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features. The meaning of "multiple" is two or more, unless explicitly defined otherwise. The meaning of "a number" is one or more than one, unless specifically defined otherwise.

As shown in fig. 1 to 3, an oil storage cotton cutting machine according to an embodiment of the present utility model includes a feeding device 100 and a cutting device 200, wherein the feeding device 100 is used for transferring the oil storage cotton 400 to the cutting device 200, the cutting device 200 includes a first reciprocating mechanism 201, a cutting mechanism 202 is disposed on the first reciprocating mechanism 201, the first reciprocating mechanism 201 is used for driving the cutting mechanism 202 to reciprocate, and reciprocating strokes of the cutting mechanism 202 are all used for cutting the oil storage cotton 400.

When the embodiment works, firstly, the oil storage cotton 400 is placed on the feeding device 100, the feeding device 100 gradually transfers the oil storage cotton 400 to the cutting device 200, the cutting mechanism 202 is started and moves from one side of the oil storage cotton 400 to the other side under the drive of the first reciprocating mechanism 201, the cutting mechanism 202 cuts off the oil storage cotton 400 in the moving process, then the feeding device 100 feeds the cutting device 200, the first reciprocating mechanism 201 drives the cutting mechanism 202 to move reversely, and the cutting mechanism 202 cuts off the newly transferred oil storage cotton 400 in the reversely moving process. The first reciprocating motion drives the cutting mechanism 202 to reciprocate, and the cutting mechanism 202 performs cutting on the oil storage cotton 400 in a reciprocating stroke until the cutting is completed in cooperation with the feeding device 100 for feeding.

In the embodiment, the cutting process is continuously performed, so that idle stroke return does not exist, invalid waiting time is reduced, and production efficiency is improved.

As shown in fig. 1 to 3, the cutting mechanism 202 includes a first rotary driving mechanism 2021, a first cutting knife 2022 is vertically disposed on the first rotary driving mechanism 2021, and the first rotary driving mechanism 2021 is used for driving the first cutting knife 2022 to rotationally cut the oil storage cotton 400.

When the cutting mechanism 202 in this embodiment works, the first rotation driving mechanism 2021 is started to drive the first cutting knife 2022 to rotate, and the edge of the first cutting knife 2022 is fed along the radial direction of the cotton wool 400 to gradually cut off the cotton wool 400. The cutting mechanism 202 may cut oil storage cotton 400 with a circular cross section, or may cut oil storage cotton 400 with a non-circular cross section, such as oil storage cotton 400 with an elliptical cross section, oil storage cotton 400 with a rectangular cross section, and the like. Compared with a reciprocating cutter, the rotary cutter is convenient to increase the rotating speed, so that the cutting speed is convenient to increase, the cut is smoother, the cutting quality is better, and the cutting efficiency is higher.

As shown in fig. 1 to 3, the first reciprocating mechanism 201 is further provided with a cutting mechanism 203, the cutting mechanism 203 includes a second rotary driving mechanism 2031, a second cutter 2032 is horizontally provided on the second rotary driving mechanism 2031, and the second rotary driving mechanism 2031 drives the second cutter 2032 to open at the end of the oil storage cotton 400.

The cutting mechanism 203 in this embodiment also reciprocates along with the first reciprocating mechanism 201, and when the end face of the oil storage cotton 400 is opened, the second rotary driving mechanism 2031 is started, the second rotary driving mechanism 2031 drives the second cutter 2032 to rotate, the second cutter 2032 is scratched from the end face of the oil storage cotton 400, and the end face of the oil storage cotton 400 is opened. Both strokes of the cutting mechanism 203 can open the oil storage cotton 400, and the cutting mechanism can synchronously cut the oil storage cotton.

In this embodiment, by providing the incision mechanism 203, customized cutting of the oil storage cotton 400 can be realized according to different product shapes, as shown in fig. 9, so as to improve flexibility and adaptability of the process.

As shown in fig. 6, the first rotary drive mechanism 2021 and the second rotary drive mechanism 2031 are motors, and a servo motor is employed in this embodiment. A servomotor is a motor that provides precise positioning and control, and is typically comprised of a motor, an encoder, and a controller. The motor can receive the input control signal and feed back with the encoder to realize accurate position control and motion control, so that the accuracy and stability of the cutting process can be improved, and the requirements of the cutting mechanism 202 and the cutting mechanism 203 on motion control are met.

As shown in fig. 7, a height adjusting mechanism 204 is disposed between the first reciprocating mechanism 201 and the notch mechanism 203, the height adjusting mechanism 204 includes a pair of levers 2041, a slider 2042 is slidably connected to the levers 2041, the slider 2042 is connected to the notch mechanism 203, a screw rod 2043 is disposed between the levers 2041, the screw rod 2043 is in threaded connection with the slider 2042, an adjusting driving mechanism 2044 is disposed at one end of the screw rod 2043, the adjusting driving mechanism 2044 is a manual driving mechanism or an electric driving mechanism, the manual driving mechanism can be a hand wheel or a crank, and the electric driving mechanism is a motor.

One side of the sliding block 2042 is provided with a locking mechanism 205, the locking mechanism 205 comprises a locking screw 2051 in threaded connection with the sliding block 2042, one end of the locking screw 2051 is abutted against the screw 2051, and the other end of the locking screw 2051 is provided with a handle 2052.

In use, the present embodiment first determines the height of the slitting mechanism 203 based on product or process requirements and if a manual drive mechanism is used, the operator can rotate the handle 2052 to cause the adjustment drive mechanism 2044 to begin operation. In the case of an electric drive mechanism, the operation is performed by starting the motor. The adjusting driving mechanism 2044 drives the screw rod 2043 to rotate, and the threaded connection of the screw rod 2043 enables the sliding block 2042 to slide up and down along the feed rod 2041, so that the height of the cutting mechanism 203 is changed. When the desired height position is reached, the locking screw 2051 is held against the lever 2041 by manually operating the handle 2052 of the locking screw 2051, securing the slide 2042 in the selected position, ensuring that the adjusted height remains stable.

By setting the height adjusting mechanism 204 in this embodiment, the height of the cutting mechanism 203 can be flexibly adjusted according to different products or process requirements, so as to realize accurate cutting operation.

As shown in fig. 6, the first cutting knife 2022 and the second cutting knife 2032 are circular knives, and semicircular shields 206 are provided on the outer sides of the first cutting knife 2022 and the second cutting knife 2032, respectively.

The semicircular protective cover 206 in this embodiment can effectively protect operators, and when the cutter moves, the protective cover can wrap the inactive part of the blade, so that the risk of the operators contacting the blade is reduced. In addition, the protective cover can prevent the cutting knife from being interfered by the outside in the cutting process, such as sundries entering a cutting area or vibration in the cutting process, and ensures that the movement track of the cutting knife is stable, thereby improving the cutting quality. The provision of the semi-circular shield 206 also facilitates maintenance, and when cleaning of the cutting area or replacement of the blade is required, the operator can easily open or remove the shield without having to move the entire cutting mechanism.

As shown in fig. 2 to 4, the feeding device 100 includes a second reciprocating mechanism 101, a first clamping mechanism 102 is provided on the second reciprocating mechanism 101, the first clamping mechanism 102 includes a lower clamping plate 1021 connected to the second reciprocating mechanism 101, an upper clamping plate 1022 movably connected to the second reciprocating mechanism 101, and a lifting driving device 1023 is provided between the upper clamping plate 1022 and the second reciprocating mechanism 101.

In operation, the upper plate 1022 and the lower plate 1021 of the first clamping mechanism 102 are initially opened, and the oil-stored cotton material is placed between the upper plate 1022 and the lower plate 1021, and the lifting driving device 1023 drives the upper plate 1022 to move downward, so that the upper plate 1022 and the lower plate 1021 clamp the oil-stored cotton material, and then the second reciprocating mechanism 101 sends the oil-stored cotton material to the cutting device 200 for cutting. During cutting, the lifting driving device 1023 drives the upper clamping plate 1022 to move upwards to loosen the oil storage cotton raw material, the second reciprocating mechanism 101 drives the upper clamping plate 1022 and the lower clamping plate 1021 to return to the initial positions, then the oil storage cotton raw material is clamped, feeding is performed after the front end cutting is completed, the fact that all the reciprocating strokes of the cutting mechanism have the oil storage cotton raw material to cut is guaranteed, and cutting efficiency is guaranteed. The lift driving device 1023 is generally an air cylinder, and has the advantages of sensitive motion and quick response.

As shown in fig. 8, the lower clamping plate 1021 is provided with a first guide plate 1024 inclined downward at the feeding side, and the upper clamping plate 1022 is provided with a second guide plate 1025 inclined upward at the feeding side.

The second reciprocating mechanism 101 is provided with a first folding mechanism 103, the first folding mechanism 103 comprises two oppositely arranged first horizontal telescopic driving mechanisms 1031, and the first horizontal telescopic driving mechanisms 1031 are provided with a first folding push plate 1032 which is in sliding connection with the lower clamping plate 1021.

This embodiment can make the opening bigger through being provided with the first deflector 1024 of downward sloping and the second deflector 1025 of upward sloping, makes things convenient for the feeding to provide better guiding effect, ensure that the material smoothly gets into the centre gripping region.

In addition, the second reciprocating mechanism 101 is provided with the first folding mechanism 103, and the first horizontal telescopic driving mechanism 1031 controls the first folding push plate 1032 to move in the horizontal direction, so that the first folding push plate 1032 is driven to move leftwards or rightwards, the materials are sorted and the positions of the materials are adjusted, smooth feeding and tidy materials are ensured, and accordingly cutting is facilitated.

As shown in fig. 2 to 4, a cutting positioning device 300 is disposed on one side of the feeding device 100, the cutting positioning device 300 includes a second clamping mechanism 301, the second clamping mechanism 301 includes a carrier plate 3011, a pressing plate 3012 is disposed above the carrier plate 3011, a lifting driving device 1023 is also disposed between the carrier plate 3011 and the pressing plate 3012, cutting avoidance grooves 3013 are respectively disposed on the carrier plate 3011 and the pressing plate 3012, a positioning plate 3014 is disposed on the carrier plate 3011, and guide holes 3015 are disposed on the positioning plate 3014.

In operation, the feeding device 100 first transfers the oil storage cotton raw material to the cutting and positioning device 300. Each cotton wool stock passes through a corresponding pilot hole 3015 to ensure that they are positioned correctly. Then, the second clamping mechanism 301 starts to work, and the lifting driving device 1023 enables the carrier plate 3011 and the pressing plate 3012 to clamp and fix the oil storage cotton raw material, so that stability of the oil storage cotton raw material in a cutting process is ensured. The cut clearance grooves 3013 on the carrier plate 3011 and the press plate 3012 ensure that the first cutting blade 2022 can pass smoothly without contacting the carrier plate 3011 and the press plate 3012.

The cutting and positioning device 300 in this embodiment ensures the stability and accurate positioning of the oil storage cotton raw material, so that the cutting operation can be performed more accurately.

As shown in fig. 4, a semicircular hole communicated with a guide hole 3015 is formed in one feeding end of the positioning plate 3014, a positioning clamping plate 3016 is arranged on the pressing plate 3012, a semicircular hole is formed in the positioning clamping plate 3016, and the semicircular hole in the positioning plate 3014 is matched with the semicircular hole in the positioning clamping plate 3016 to clamp the oil storage cotton raw material.

When the embodiment works, when the oil storage cotton raw material passes through the positioning hole, the lifting driving device 1023 between the carrier plate 3011 and the pressing plate 3012 drives the pressing plate 3012 to move downwards, the pressing plate 3012 drives the positioning clamping plate 3016 to move downwards, and the semicircular holes on the positioning plate 3014 are matched with the semicircular holes on the positioning clamping plate 3016 to clamp the oil storage cotton raw material. Ensure the position of the oil storage cotton raw material in the cutting process, and ensure the cutting operation to be more stable and efficient.

As shown in fig. 4 and 5, a second folding mechanism 302 is disposed on the carrier 3011, the second folding mechanism 302 includes two second horizontal telescopic driving mechanisms 3021 disposed opposite to each other, and a second folding push plate 3022 slidably connected to the carrier 3011 is disposed on the second horizontal telescopic driving mechanism 3021.

On the feed side, the press plate 3012 is provided with a third guide plate 3017 which is inclined upwards. The second furling push plate 3022 inclines to the side far away from the oil storage cotton raw material at one end of the feeding, and a notch avoidance groove 3023 is formed in one end of the discharging of the second furling push plate 3022.

A transition plate 3018 is provided between the first clamping mechanism 102 and the second clamping mechanism 301.

In this embodiment, when the oil storage cotton raw material enters the second clamping mechanism 301 during operation, the third guide plate 3017 is inclined upwards, and the second folding push plate 3022 is inclined towards the side far away from the oil storage cotton raw material, so that the feeding port at the second clamping mechanism 301 is enlarged, and feeding is conveniently and smoothly performed at the second clamping mechanism 301, so that the oil storage cotton raw material smoothly enters the cutting device 200 and is positioned. The second folding push plate 3022 on the second horizontal telescopic driving mechanism 3021 is slidably connected with the carrier plate 3011, and the position of the oil storage cotton raw material is changed in a telescopic manner, so that the oil storage cotton raw material is tidied, and feeding, positioning and cutting of the oil storage cotton raw material are facilitated. The notch clearance groove 3023 can keep away the second cutter 2032, so as to ensure that the second cutter 2032 can normally perform the notch on the oil storage cotton 400. At the same time, a transition plate 3018 is provided between the first clamping mechanism 102 and the second clamping mechanism 301 to ensure smooth feeding.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (10)

1. The utility model provides a cotton guillootine of oil storage, its characterized in that includes feeding device and cutting device, feeding device is used for to cutting device shifts the cotton of oil storage, cutting device includes a reciprocating motion mechanism, be provided with the section mechanism on the first reciprocating motion mechanism, a reciprocating motion mechanism is used for driving section mechanism reciprocating motion, section mechanism reciprocating travel all is used for cutting the cotton of oil storage.

2. The cotton cutting machine of claim 1, wherein the cutting mechanism comprises a first rotary driving mechanism, a first cutter is vertically arranged on the first rotary driving mechanism, and the first rotary driving mechanism is used for driving the first cutter to rotationally cut the cotton.

3. The cotton cutting machine of claim 2, wherein the first reciprocating mechanism is further provided with a cutting mechanism, the cutting mechanism comprises a second rotary driving mechanism, the second rotary driving mechanism is horizontally provided with a second cutting knife, and the second rotary driving mechanism drives the second cutting knife to be used for opening at the end of the cotton.

4. The oil storage cotton cutting machine according to claim 3, wherein the first cutting knife and the second cutting knife are circular knives, and semicircular protective covers are respectively arranged on the outer sides of the first cutting knife and the second cutting knife.

5. The cotton guillootine of oil storage of claim 3, wherein a height adjustment mechanism is disposed between the first reciprocating mechanism and the slitting mechanism, the height adjustment mechanism includes a pair of bars, a slider is slidably connected to the bars, the slider is connected to the slitting mechanism, a screw is disposed between the bars, the screw is in threaded connection with the slider, and an adjustment driving mechanism is disposed at one end of the screw.

6. The cotton cutting machine as claimed in any one of claims 1 to 5, wherein the feeding device comprises a second reciprocating mechanism, a first clamping mechanism is arranged on the second reciprocating mechanism, the first clamping mechanism comprises a lower clamping plate connected with the second reciprocating mechanism, an upper clamping plate movably connected with the second reciprocating mechanism, and a lifting driving device is arranged between the upper clamping plate and the second reciprocating mechanism.

7. The cotton guillootine of claim 6, wherein the second reciprocating mechanism is provided with a first folding mechanism, the first folding mechanism includes two first horizontal telescopic driving mechanisms disposed opposite to each other, and the first horizontal telescopic driving mechanism is provided with a first folding push plate slidingly connected with the lower clamping plate.

8. The cotton guillootine of storage of claim 1, wherein, feeding device one side is provided with cutting positioner, cutting positioner includes second fixture, second fixture includes the carrier plate, the carrier plate top is provided with the clamp plate, the carrier plate with also be provided with lift drive arrangement between the clamp plate, the carrier plate with be provided with the cutting on the clamp plate respectively and keep away the position groove, be provided with the locating plate on the carrier plate, be provided with the guiding hole on the locating plate.

9. The oil storage cotton cutting machine according to claim 8, wherein the positioning plate is provided with a semicircular hole communicated with the guide hole at one feeding end, the pressing plate is provided with a positioning clamping plate, the positioning clamping plate is provided with a semicircular hole, and the semicircular hole on the positioning plate is matched with the semicircular hole on the positioning clamping plate to clamp the oil storage cotton.

10. The cotton guillootine of claim 8, wherein a second folding mechanism is disposed on the carrier plate, the second folding mechanism includes two second horizontal telescopic driving mechanisms disposed opposite to each other, and a second folding push plate slidably connected to the carrier plate is disposed on the second horizontal telescopic driving mechanism.