CN116569743B - Double-strong feeding suspension box - Google Patents

Abstract

The invention relates to the technical field of suspension boxes, in particular to a double-strong feeding suspension box which comprises a double-strong feeding assembly and a suspension box assembly, wherein the double-strong feeding assembly comprises side wall plates arranged on two sides, a double-strong feeding roller and a bottom roller are rotatably arranged between the two side wall plates, the double-strong feeding roller at least comprises a first strong feeding roller and a second strong feeding roller, the suspension box assembly is used for providing power input for the bottom roller, and the bottom roller provides rigid support for the suspension box assembly. The double-strong feeding structure is composed of the first strong feeding roller and the second strong feeding roller, the double-strong feeding roller is matched with the bottom roller up and down, the bottom roller can prevent strong feeding from winding grass, grass strips can enter the space of the compression chamber more smoothly, and the probability of stuffy vehicles caused by accumulation during strong feeding of the grass strips is reduced; meanwhile, the power source of the bottom roller comes from the suspension box assembly, and the suspension box assembly has lower failure rate compared with the chain transmission; the suspension box shell is supported by the plurality of roll shafts, no special fixing holes are formed between the suspension box shell and the side wall plate, and the installation structure of the suspension box assembly is simplified, so that the installation is more convenient.

Description

Double-strong feeding suspension box

Technical Field

The invention relates to the technical field of suspension boxes, in particular to a double-strong feeding suspension box.

Background

Most of other types in the market are forced feeding and some are semi-forced feeding. The grass remover is provided for preventing the grass from being wound in the forced feeding process, so that the situation of vehicle distress caused by blockage of the forage in the forced feeding process is avoided.

The grass remover needs power source input, a chain transmission mode is adopted in the prior art, the requirement on chains among a plurality of axles is high, the noise of the chains is high, the transmission stability of the chains is poor, and the pitch is increased to cause falling after the hinges of the chains are worn, so that the invention aims to provide the double-strong feeding suspension box.

Disclosure of Invention

The invention aims to solve the defects in the background technology by providing a double-strong feeding suspension box.

The technical scheme adopted by the invention is as follows:

the utility model provides a suspension case is fed to two forces, including two strong feeding assembly and suspension case assembly, two strong feeding assembly is including setting up the side wall board in both sides, two rotate between the side wall board and install two strong feeding roller and backing roll, wherein, two strong feeding roller include at least first strong feeding roller and the strong feeding roller of second, just first strong feeding roller is half forced feeding structure with the strong feeding roller of second, two strong feeding roller are connected through suspension case assembly transmission with the backing roll, wherein:

the suspension box assembly is arranged on the side wall of the side wall plate and used for providing power input for the bottom roller, and the bottom roller provides rigid support for the suspension box assembly;

the number of the bottom rollers is three, the three bottom rollers are adjacent to form an arc, and the arc of the arc is from high to low along the feeding direction;

the circumference outer wall of the first strong feeding roller is provided with a plurality of feeding plates, the feeding plates bend towards the first strong feeding roller in the circle center direction, and the bending angle is an obtuse angle;

the circumferential outer wall of the second strong feeding roller is provided with a plurality of feeding teeth, the feeding teeth are reverse hook-shaped towards the center direction of the second strong feeding roller, the feeding teeth and the feeding plates are arranged in a staggered manner, and the width of the feeding plates is larger than that of the feeding teeth;

the circumference outer wall interval of backing roll is equipped with a plurality of plectrums, be circumference equidistant ground upwards protruding on the plectrum and form a plurality of arc lugs, the radian of arc lug towards backing roll rotation direction one side is greater than the radian of its opposite side.

As a preferred technical scheme of the invention: the suspension box assembly at least comprises a shell, a transmission cavity is formed in the shell, a plurality of through holes communicated with the transmission cavity are formed in the side wall of the shell in a penetrating mode, a transmission wheel set is installed in the through holes in a rotating mode, the transmission wheel set comprises an output wheel set and an input wheel used for driving the output wheel set to rotate, an input shaft is fixedly installed in the input wheel, and the output wheel set is tightly attached to the input wheel.

As a preferred technical scheme of the invention: the input shaft is fixedly provided with an input chain wheel, the input chain wheel is located outside the shell, the side wall of the shell is located above the input chain wheel and fixedly provided with a supporting plate, the side wall of the supporting plate is provided with an adjusting groove in a penetrating mode, and the adjusting groove is internally provided with a tensioning wheel in a sliding mode.

As a preferred technical scheme of the invention: the first strong feeding roller and the second strong feeding roller are fixedly provided with strong feeding input shafts, one end of each strong feeding input shaft is fixedly provided with a strong feeding chain wheel, a first input chain is arranged between the two strong feeding chain wheels in a transmission mode, and the first input chain is used for driving the two strong feeding input shafts to synchronously transmit.

As a preferred technical scheme of the invention: one of them the fixed output sprocket that is provided with in forced feeding sprocket one side, output sprocket is located just above the input sprocket, just install the second input chain between output sprocket and the input sprocket, the second input chain is used for realizing output sprocket and input sprocket synchronous rotation.

As a preferred technical scheme of the invention: the side wall plate side wall is penetrated and is provided with a plurality of shaft holes, a return-stopping rod is fixedly arranged between the side wall plates, the return-stopping rod is positioned on one side of the first forced feeding roller, a supporting rod is fixedly arranged between the side wall plates, and the supporting rod is positioned below the bottom roller.

As a preferred technical scheme of the invention: the bottom roller comprises a roller and a roller shaft in the center of the roller, and the roller shaft is rotatably arranged in shaft holes on two sides.

As a preferred technical scheme of the invention: the side wall of the suspension box assembly is fixedly provided with an end cover at the edge of the through hole, two ends of the transmission wheel set are rotatably arranged in the end cover, and the transmission wheel set is positioned in the transmission cavity.

As a preferred technical scheme of the invention: the side wall of the transmission wheel set is provided with a fixing hole in a penetrating mode, one end of the roll shaft penetrates through the shaft hole and extends to the outer side of the side wall plate, and the extending end of the roll shaft penetrates through and is fixedly installed in the fixing hole.

As a preferred technical scheme of the invention: the tensioning wheel is located on one side of the second input chain, and the tensioning wheel is tightly attached to the second input chain.

Compared with the prior art, the invention has the beneficial effects that:

the double-strong-feeding suspension box provided by the invention adopts a double-strong-feeding structure consisting of the first strong-feeding roller and the second strong-feeding roller, and meanwhile, the double-strong-feeding roller is matched with the bottom roller up and down, the bottom roller can prevent strong-feeding grass from winding, so that grass strips can more smoothly enter the space of the compression chamber, and the probability of stuffy vehicles caused by accumulation during strong-feeding of the grass strips is reduced; meanwhile, the power source of the bottom roller comes from the suspension box assembly, and the suspension box assembly has lower failure rate compared with the chain transmission; the suspension box shell is supported by the plurality of roll shafts, no special fixing holes are formed between the suspension box shell and the side wall plate, and the installation structure of the suspension box assembly is simplified, so that the installation is more convenient.

Drawings

FIG. 1 is a schematic view of the overall structure of a preferred embodiment of the present invention;

FIG. 2 is a schematic view of a side wall panel connection structure according to a preferred embodiment of the present invention;

FIG. 3 is a schematic view of a portion of a side wall panel according to a preferred embodiment of the present invention;

FIG. 4 is a second schematic view of a partial structure of a side wall panel according to the preferred embodiment of the present invention;

FIG. 5 is a schematic view of a suspension tank assembly according to a preferred embodiment of the present invention;

FIG. 6 is a schematic view of a driving wheel set mounting structure in a preferred embodiment of the present invention;

FIG. 7 is a schematic view of a housing structure in a preferred embodiment of the present invention;

FIG. 8 is a schematic view showing the internal structure of the housing in the preferred embodiment of the present invention;

FIG. 9 is a schematic view of the structure of the strong feed roller in the preferred embodiment of the invention;

FIG. 10 is a schematic view of the construction of a bottom roll in accordance with a preferred embodiment of the present invention;

FIG. 11 is a schematic plan view showing the structure of a roll shaft in a preferred embodiment of the present invention;

FIG. 12 is a schematic view of a feeding plate structure according to a preferred embodiment of the present invention;

fig. 13 is a schematic view of the structure of the feeding teeth in the preferred embodiment of the present invention.

The meaning of each label in the figure is:

1. a side wall panel; 101. a shaft hole;

2. double strong feeding rollers;

201. a first forced feed roller; 2011. a forced feeding input shaft; 2012. an output sprocket; 2013. a first input chain; 2014. a second input chain; 2015. a feeding plate;

202. a second forced feed roller; 2021. a strong feeding chain wheel; 2022. feeding teeth;

3. a bottom roller; 301. a roll shaft; 302. a roller; 304. a pulling piece;

4. a suspension tank assembly;

401. a housing; 4011. a through hole; 4012. an end cap;

402. a support plate; 4021. an adjustment tank; 4022. a tensioning wheel;

403. an input shaft; 4031. an input sprocket;

404. a transmission wheel set; 4041. an input wheel; 4042. a first output wheel; 4043. a second output wheel; 4044. a third output wheel; 4045. a steering wheel;

5. a return prevention rod; 501. and (5) supporting the rod.

Description of the embodiments

It should be noted that, under the condition of no conflict, the embodiments of the present embodiments and features in the embodiments may be combined with each other, and the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and obviously, the described embodiments are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-13, the present embodiment is aimed at providing a double-strong-feeding suspension box, including a double-strong-feeding assembly and a suspension box assembly 4, wherein the double-strong-feeding assembly includes side wall plates 1 disposed at two sides, meanwhile, a plurality of shaft holes 101 are formed through the side walls of the side wall plates 1, a return-stopping rod 5 is fixedly installed between the two side wall plates 1, the return-stopping rod 5 is located at one side of a first strong-feeding roller 201, the return-stopping rod 5 is used for preventing the first strong-feeding roller 201 from taking fodder out, meanwhile, the return-stopping rod 5 also plays a role of fixedly supporting between the two side wall plates 1, a supporting rod 501 is fixedly installed between the two side wall plates 1, the supporting rod 501 is located below a bottom roller 3, and the supporting rod 501 is used for increasing stability between the two side wall plates 1;

the double-strong feeding roller 2 and the bottom roller 3 are rotatably arranged between the two side wall plates 1, wherein the double-strong feeding roller 2 at least comprises a first strong feeding roller 201 and a second strong feeding roller 202, the first strong feeding roller 201 and the second strong feeding roller 202 are of a half-forced feeding structure, preferably, the first strong feeding roller 201 and the second strong feeding roller 202 are of tooth-shaped structure design, the tooth inclination directions of the first strong feeding roller 201 and the tooth inclination directions of the second strong feeding roller 202 are the same, the first strong feeding roller 201 and the second strong feeding roller 202 are used for forcedly feeding forage into a compression chamber space, and as the bottom roller 3 and the double-strong feeding roller 2 are opposite in rotation direction, when the double-strong feeding roller 2 at the top rotates anticlockwise, the bottoms of the first strong feeding roller 201 and the second strong feeding roller 202 are in contact with forage and forcedly feed the forage into the compression chamber space, and as the upper part of the roller 302 is in contact with the forage, the bottom roller 3 at the bottom rotates clockwise synchronously, the roller 302 can continuously push the accumulated forage into the compression chamber, and the accumulated forage is prevented from being compressed when the bottom roller 3 and the double-strong feeding roller 2 forcedly feeds the forage into the compression chamber together, and the accumulated forage is prevented from being compressed; the number of the bottom rollers 3 is three, the three bottom rollers 3 are adjacent to form an arc, and the arc of the arc is from high to low along the feeding direction, so that an arc slope from high to low can be formed, the forage can be fed more smoothly, and grass winding can not be blocked; the bottom roller 3 includes a roller 302 and a roller shaft 301 at the center of the roller 302, the roller shaft 301 being rotatably installed in the shaft holes 101 at both sides. The circumference outer wall interval of backing roll 3 is equipped with a plurality of plectrums 304, is circumference equidistant upwards protruding on the plectrum 304 and forms a plurality of arc lugs, and the radian of arc lug towards backing roll 3 rotation direction one side is greater than the radian of its opposite side, and wherein, the plectrum 304 is evenly equidistant to be installed at roller 302 outer wall. The forage is continuously stirred in the rotating process of the bottom roller 3 through one end with large radian, so that a continuous boosting is formed for the forage in the walking process.

A plurality of feeding plates 2015 are arranged on the circumferential outer wall of the first strong feeding roller 201, the feeding plates 2015 bend towards the center direction of the circle of the first strong feeding roller 201, and the bending angle is an obtuse angle; the circumferential outer wall of the second strong feeding roller 202 is provided with a plurality of feeding teeth 2022, and the feeding teeth 2022 are reverse hook-shaped towards the center direction of the second strong feeding roller 202; the feed teeth 2022 are interleaved with the feed plate 2015. The width of the feeding plate 2015 is greater than the width of the feeding teeth 2022, wherein the feeding plate 2015 in a plate shape can stir finely crushed forage like a shovel in the rotation process of the first strong feeding roller 201, the feeding teeth 2022 in a reverse hook shape can hook slender forage like a hook in the rotation process of the second strong feeding roller 202, and under the interval arrangement of the feeding plate 2015 and the feeding teeth, the forage in various sizes can be fed rapidly. Further, since the double-strong feeding roller 2 is in transmission connection with the bottom roller 3 through the suspension box assembly 4, the suspension box assembly 4 is arranged on the side wall plate 1, the suspension box assembly 4 is used for providing power input for the bottom roller 3, the power source of the bottom roller 3 is close to the suspension box assembly 4, and compared with the chain transmission failure rate of the suspension box assembly 4, the suspension box assembly 4 is lower, more reliable, low in noise, stable in transmission and capable of reducing maintenance.

The suspension box assembly 4 at least comprises a shell 401, a transmission cavity is arranged in the shell 401, a plurality of through holes 4011 communicated with the transmission cavity are formed in the side wall of the shell 401 in a penetrating manner, a transmission wheel set 404 is rotatably installed in the through holes 4011, the transmission wheel set 404 comprises an output wheel set and an input wheel 4041 for driving the output wheel set to rotate, an input shaft 403 is fixedly installed in the input wheel 4041, the output wheel set is tightly attached to the input wheel 4041, the output wheel set is driven to rotate by the input wheel 4041, and an output sprocket 2012 is in transmission connection with the input sprocket 4031 through a second input chain 2014, so that the rotation direction of the forced feeding input shaft 2011 is the same as that of the roll shaft 301;

the output wheel set comprises a first output wheel 4042, a second output wheel 4043 and a third output wheel 4044, wherein a steering wheel 4045 is rotatably arranged between the second output wheel 4043 and the third output wheel 4044, the second output wheel 4043 and the third output wheel 4044 are tightly attached to the steering wheel 4045, the first output wheel 4042 and the second output wheel 4043 are tightly attached to the input wheel 4041, the input wheel 4041 rotatably drives the first output wheel 4042 and the second output wheel 4043 on two sides to rotate, when the second output wheel 4043 rotates, the second output wheel 4043 drives the steering wheel 4045 to rotate and drives the third output wheel 4044 to rotate, so that the first output wheel 4042, the second output wheel 4043 and the third output wheel 4044 realize the same-direction rotation, the second output wheel 4043 drives the middle roll shaft 301 to rotate, the first output wheel 4042 and the third output wheel 4044 respectively drive the two sides to rotate, the suspension box assembly is driven by the input wheel 4041 to rotate, and the input wheel 4041 is tightly attached to the output wheel set, and the failure rate is lower than that of the input wheel set 4041 is directly driven by the input wheel set.

In order to provide power input for the suspension assembly 4, an input sprocket 4031 is fixedly mounted on the input shaft 403, the input sprocket 4031 is located outside the housing 401, an output sprocket 2012 is fixedly arranged on one side of one strong feed sprocket 2021, the output sprocket 2012 is located right above the input sprocket 4031, a second input chain 2014 is mounted between the output sprocket 2012 and the input sprocket 4031, the second input chain 2014 is used for realizing synchronous rotation of the output sprocket 2012 and the input sprocket 4031, the output sprocket 2012 transmits power to the input sprocket 4031 through the second input chain 2014, the rotating input sprocket 4031 provides power input for the suspension assembly 4, and the input sprocket 4031 rotates and drives the transmission wheel set 404 to rotate.

The casing 401 lateral wall is located input sprocket 4031 top fixed mounting has backup pad 402, and adjustment tank 4021 has been seted up in the backup pad 402 lateral wall running through, and slidable mounting has a tight pulley 4022 that rises in adjustment tank 4021, and as shown in fig. 3, tight pulley 4022 that rises is located second input chain 2014 one side, and tight pulley 4022 that rises closely laminates with second input chain 2014, and further, tight pulley 4022 lateral wall rotation installs the screw rod, and screw rod slidable mounting is in adjustment tank 4021, and screw rod epaxial screw thread installs the nut, through tightening the nut, can fix the screw rod axle in adjustment tank 4021 optional position, but tight pulley 4022's the tight degree of rising of second input chain 2014 of position adjustable through adjusting the screw rod.

In order to meet the requirement that the first strong feeding roller 201 and the second strong feeding roller 202 synchronously rotate, strong feeding input shafts 2011 are fixedly arranged on the first strong feeding roller 201 and the second strong feeding roller 202, strong feeding chain wheels 2021 are fixedly arranged at one ends of the two strong feeding input shafts 2011, a first input chain 2013 is arranged between the two strong feeding chain wheels 2021 in a transmission mode, the first input chain 2013 is used for driving the two strong feeding input shafts 2011 to synchronously drive, one end of the first input chain 2013 is arranged on a power source in a transmission mode, the first input chain 2013 is driven to rotate through the power source, a motor can be preferably used as the power source, a power wheel is fixedly arranged on an output shaft of the motor, the power wheel is in transmission connection with the strong feeding chain wheels 2021 through the first input chain 2013, and then the two strong feeding input shafts 2011 are driven to rotate, and synchronous rotation of the first strong feeding roller 201 and the second strong feeding roller 202 is achieved.

In order to meet the requirement of rotation of the transmission wheel set 404 in the transmission cavity, an end cover 4012 is fixedly arranged on the side wall of the suspension box assembly 4 at the edge of the through hole 4011, two ends of the transmission wheel set 404 are rotatably arranged in the end cover 4012, and the transmission wheel set 404 is positioned in the transmission cavity; the two sides of the driving wheel set 404 are fixedly provided with shaft sleeves, the side walls of the end covers 4012 are provided with shaft sleeve holes, the shaft sleeves on the two sides are rotatably arranged in the shaft sleeve holes, preferably, ball bearings are fixedly arranged in the shaft sleeve holes, the outer rings of the ball bearings are fixedly arranged on the inner walls of the shaft sleeve holes, and the shaft sleeves are fixedly arranged on the inner rings of the ball bearings. Further, in order to meet the requirement that the roller 301 is fixedly installed in the driving wheel set 404, and the roller 301 and the driving wheel set 404 rotate synchronously, the bottom roller 3 provides rigid support for the suspension box assembly 4, therefore, fixing holes are formed in the side wall of the driving wheel set 404 in a penetrating manner, one end of the roller 301 penetrates through the shaft hole 101 and extends to the outer side of the side wall plate 1, the extending end of the roller 301 penetrates through and is fixedly installed in the fixing holes, and similarly, one end of the input shaft 403 is inserted into and is fixedly installed in the through hole of one of the driving wheel sets 404; because roller 301 inserts and fixed mounting in drive wheelset 404, and casing 401 and sidewall board 1 lateral wall do not have special fixed orifices, only provide the support for casing 401 by roller 301, and then simplify suspension box assembly 4 overall structure, make suspension box assembly 4 installation more convenient, and preferably, casing 401 adopts panel beating punching press or panel beating welding, and whole weight is lighter than traditional casting case shell to the quality is more stable.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (1)

1. The utility model provides a suspension case is fed to two strong, includes two strong feeding assemblies, suspension case assembly (4), its characterized in that are installed to two strong feeding assembly one side: the double strong feeding assembly comprises side wall boards (1) arranged on two sides, double strong feeding rollers (2) and bottom rollers (3) are rotatably arranged between the two side wall boards (1), wherein each double strong feeding roller (2) at least comprises a first strong feeding roller (201) and a second strong feeding roller (202), the first strong feeding roller (201) and the second strong feeding roller (202) are of a semi-forced feeding structure, and the double strong feeding rollers (2) are in transmission connection with the bottom rollers (3) through a suspension box assembly (4), wherein:

the suspension box assembly (4) is arranged on the side wall of the side wall plate (1), the suspension box assembly (4) is used for providing power input for the bottom roller (3), and the bottom roller (3) provides rigid support for the suspension box assembly (4);

the number of the bottom rollers (3) is three, the three bottom rollers (3) are adjacent to form an arc, and the arc of the arc is from high to low along the feeding direction;

a plurality of feeding plates (2015) are arranged on the circumferential outer wall of the first strong feeding roller (201), the feeding plates (2015) bend towards the first strong feeding roller (201) in the circle center direction, and the bending angle is an obtuse angle;

the circumference outer wall of the second strong feeding roller (202) is provided with a plurality of feeding teeth (2022), the feeding teeth (2022) are in a reverse hook shape facing the circle center direction of the second strong feeding roller (202), the feeding teeth (2022) and a feeding plate (2015) are arranged in a staggered manner, and the width of the feeding plate (2015) is larger than that of the feeding teeth (2022);

a plurality of poking sheets (304) are arranged on the circumferential outer wall of the bottom roller (3) at intervals, the poking sheets (304) are circumferentially and equidistantly upwards protruded to form a plurality of arc-shaped protruding sheets, and the radian of one side of each arc-shaped protruding sheet, which faces the rotation direction of the bottom roller (3), is larger than that of the other side of each arc-shaped protruding sheet;

the suspension box assembly (4) at least comprises a shell (401), a transmission cavity is formed in the shell (401), a plurality of through holes (4011) communicated with the transmission cavity are formed in the side wall of the shell (401) in a penetrating mode, a transmission wheel set (404) is rotatably installed in the through holes (4011), the transmission wheel set (404) comprises an output wheel set and an input wheel (4041) used for driving the output wheel set to rotate, an input shaft (403) is fixedly installed in the input wheel (4041), and the output wheel set is tightly attached to the input wheel (4041); the side walls of the side wall plates (1) are provided with a plurality of shaft holes (101) in a penetrating mode, a return-stopping rod (5) is fixedly arranged between the two side wall plates (1), the return-stopping rod (5) is located on one side of the first forced feeding roller (201), a supporting rod (501) is fixedly arranged between the two side wall plates (1), and the supporting rod (501) is located below the bottom roller (3); the bottom roller (3) comprises a roller (302) and a roller shaft (301) at the center of the roller (302), wherein the roller shaft (301) is rotatably arranged in shaft holes (101) at two sides; an end cover (4012) is fixedly arranged at the edge of the through hole (4011) on the side wall of the suspension box assembly (4), two ends of the transmission wheel set (404) are rotatably arranged in the end cover (4012), and the transmission wheel set (404) is positioned in the transmission cavity; the roll shaft (301) is inserted into and fixedly arranged in the transmission wheel set (404), and the shell (401) and the side wall of the side wall plate (1) do not have special fixing holes, and only the roll shaft (301) provides support for the shell (401);

an input chain wheel (4031) is fixedly arranged on the input shaft (403), the input chain wheel (4031) is positioned on the outer side of the shell (401), a supporting plate (402) is fixedly arranged on the side wall of the shell (401) above the input chain wheel (4031), an adjusting groove (4021) is formed in the side wall of the supporting plate (402) in a penetrating mode, and a tensioning wheel (4022) is slidably arranged in the adjusting groove (4021);

the first strong feeding roller (201) and the second strong feeding roller (202) are fixedly provided with strong feeding input shafts (2011), one ends of the two strong feeding input shafts (2011) are fixedly provided with strong feeding chain wheels (2021), a first input chain (2013) is arranged between the two strong feeding chain wheels (2021) in a transmission mode, and the first input chain (2013) is used for driving the two strong feeding input shafts (2011) to synchronously transmit;

one side of the strong feeding chain wheel (2021) is fixedly provided with an output chain wheel (2012), the output chain wheel (2012) is positioned right above the input chain wheel (4031), a second input chain (2014) is arranged between the output chain wheel (2012) and the input chain wheel (4031), and the second input chain (2014) is used for realizing synchronous rotation of the output chain wheel (2012) and the input chain wheel (4031);

the side walls of the output wheel sets are provided with fixing holes in a penetrating mode, one end of the roll shaft (301) penetrates through the shaft hole (101) and extends to the outer side of the side wall plate (1), and the extending end of the roll shaft (301) penetrates through and is fixedly installed in the fixing holes;

the tensioning wheel (4022) is located on one side of the second input chain (2014), and the tensioning wheel (4022) is tightly attached to the second input chain (2014).