CN202943894U - Straw dehydration device - Google Patents

Abstract

The utility model relates to a straw dehydration device. The straw dehydration device comprises a support, an upper extruding wheel, a lower extruding wheel, a plurality of pressure springs, a liquid collecting component, a driving component and a dynamic component. Bearings of the upper extruding wheel are fixed on fixing rods. Two ends of the fixing rods are respectively arranged in longitudinal grooves of the support and the two ends of the fixing rods move up and down in the longitudinal grooves. Bearings of the lower extruding wheel are respectively fixed on the support. A plurality of through holes are formed in an extruding face. The plurality of pressure springs are arranged on the two sides of the upper extruding wheel. The upper end of each extruding spring is fixed on the support. The lower ends of each pressure spring are fixed on the fixing rods, wherein the fixing rods are located on the located sides of the springs. When the pressure springs are pressed tightly, the pressure springs drive the fixing rods to move up and down in the grooves. The liquid collecting component is connected on a region of a middle shaft of the lower extruding wheel in a hung mode, wherein the region of a middle shaft of the lower extruding wheel is located in the exterior of the lower extruding wheel. The driving component can drive the upper extruding wheel and the lower extruding wheel to contrarotate under the action of the dynamic component. The straw dehydration device enables straws to be used as fuel in a short time and juice of the straws is collected effectively.

Description

The stalk dewater unit

Technical field

The utility model relates to dehydration technique, particularly relates to a kind of stalk dewater unit.

Background technology

Stalk is ripe crops cauline leaf part general name.Straw is often referred to corn, potato class, cotton, sugar grass, wheat, paddy rice, sugarcane and other crops remainder after the results seed.

Existing stalk such as maize straw etc. can be reused, and are used as fuel as stalk.Yet the stalk after grain harvest can contain a large amount of moisture (being juice) usually, can include moisture more than 50% as maize straw and sweet sorghum stalk etc., thereby make stalk can not be used as immediately fuel.Generally, stalk can through after the natural drying phase of four or five months, just can be used as fuel.

The inventor finds in realizing the utility model process: it is long that existing stalk becomes time cycle of fuel, and need to take suitable place during natural drying.In addition, contain the nutriments such as sugar, amino acid in the juice of stalk, not being used is exactly a kind of wasting of resources in fact.

Because the problem that above-mentioned existing stalk recycling exists, the inventor is based on being engaged in this type of product design manufacturing abundant practical experience and professional knowledge for many years, and the utilization of cooperation scientific principle, positive research and innovation in addition, to founding a kind of stalk dewater unit of new structure, can overcome the problem that existing stalk recycling exists, make it have more practicality.Through continuous research and design, and through after repeatedly studying sample and improvement, finally create the utility model that has practical value.

The utility model content

The purpose of this utility model is, overcome the defective that existing stalk recycling exists, and a kind of stalk dewater unit of new structure is provided, technical problem to be solved is, make stalk can be used as at short notice fuel, and can effectively collect the juice in stalk.

The purpose of this utility model and solve its technical problem and can adopt following technical scheme to realize.

A kind of stalk dewater unit according to the utility model proposes mainly comprises: support, upper squeegee roller, lower squeegee roller, a n compression spring, liquid collection spare, driving member and force piece, and n is not less than 2 even number; The bottom bracket axle of described upper squeegee roller is provided with two bearings, and upward two bearings of squeegee roller are individually fixed on fixed bar, and the two ends of described fixed bar all are arranged in the cannelure of support, and the two ends of described fixed bar can move up and down in described groove; Described lower squeegee roller is arranged at the below of described upper squeegee roller, and the center line of described upper squeegee roller is parallel with the center line of described lower squeegee roller, and the plane of two center line formation is vertical with horizontal plane; The bottom bracket axle of described lower squeegee roller is provided with two bearings, and two bearings of squeegee roller are individually fixed on described support down, are provided with a plurality of through holes on the compressive plane of described lower squeegee roller; N/2 compression spring is arranged at a side of squeegee roller, another n/2 compression spring is arranged at the opposite side of squeegee roller, the upper end of described each compression spring all is fixed on described support, the lower end of described compression spring all is fixed on the described fixed bar of its place side, and described compression spring drives described fixed bar and moves up in described groove when compacted; Described fixed bar described groove bottom the time, the compressive plane of described upper squeegee roller bottom and the interval between the top of the compressive plane of described lower squeegee roller be not less than 0.3 centimetre, and described fixed bar is when the top of described groove, the compressive plane of described upper squeegee roller bottom and the interval between the top of the compressive plane of described lower squeegee roller be not more than 3 centimetres; Described liquid collection spare is articulated on the section of squeegee roller inside under being positioned at of axis of described lower squeegee roller; Described driving member and upper squeegee roller, lower squeegee roller and force piece are connected respectively, and described driving member drive the rotation of described upper squeegee roller and lower squeegee roller, and the direction of rotation of described upper squeegee roller and lower squeegee roller is opposite under the effect of described force piece.

Aforesaid stalk dewater unit, wherein said device also comprises: be fixed in feeding platform and discharging platform on described support.

Aforesaid stalk dewater unit, the charging face of wherein said feeding platform be lower than 1 centimetre of the top of the compressive plane of described lower squeegee roller, described discharging platform go out charge level lower than 10 centimetres of the tops of the compressive plane of described lower squeegee roller.

Aforesaid stalk dewater unit, wherein said support bottom is provided with at least three wheels.

Aforesaid stalk dewater unit, wherein said upper squeegee roller and/or lower squeegee roller comprise: wheel carrier and a plurality of strip steel plate, described a plurality of strip steel plates mutually splice and are fixed on wheel carrier, form compressive plane.

Aforesaid stalk dewater unit, the compressive plane of the compressive plane of wherein said upper squeegee roller and lower squeegee roller has many grooves along central axis direction, and described through hole is arranged in the groove of described lower squeegee roller.

Aforesaid stalk dewater unit, wherein said through hole are oblique through hole, and described oblique through hole is in the top that is positioned at described lower squeegee roller or bottom the time, and tiltedly the angle of through hole and vertical plane is the 30-60 degree.

Aforesaid stalk dewater unit, wherein said liquid collection spare has liquid discharge tube, and described liquid discharge tube stretches out from an end face of described lower squeegee roller.

Aforesaid stalk dewater unit, wherein said device also comprises: handle, described handle are arranged in the support place and described fixed bar of fixation pressure spring, and the rotation of described handle drives described compression spring and stretches/contract.

Aforesaid stalk dewater unit, an end face of wherein said upper squeegee roller and an end face of lower squeegee roller are provided with cylindrical boss, and the diameter of described boss is less than the diameter of described upper squeegee roller and lower squeegee roller; Described driving member comprises two driving belts, and wherein, driving belt is set on the power wheel of the boss of described upper squeegee roller and described force piece, and another feed belt is set on the power wheel of the boss of described lower squeegee roller and described force piece.

by technique scheme, stalk dewater unit of the present utility model has following advantages and beneficial effect at least: the utility model is by arranging upper squeegee roller and lower squeegee roller, and squeegee roller and lower squeegee roller are counter-rotated under the effect of force piece and driving member, like this, most of juice in stalk can flow out under the squeezing action of upper squeegee roller and lower squeegee roller, and flow in liquid collection spare by the through hole on lower squeegee roller, thereby the utility model not only can make stalk be used as fuel (as three to five days) within the short as far as possible time, and can collect juice in stalk, this juice (as the juice in maize straw or sweet sorghum stalk etc.) can be used for the application such as sugaring, the utility model arranges compression spring by the both sides at upper squeegee roller, makes the squeegee roller can be the moving up and down of the effect of compression spring, thereby can avoid stalk to be jammed in phenomenon between the squeegee roller of up and down in extrusion process, final stalk dewater unit of the present utility model has shortened greatly stalk and has become the time cycle of fuel, and has saved stalk airing place and the phenomenon of having avoided the juice resource in the stalk to be wasted.

In sum, the utility model has significant progress technically, and has significantly positive technique effect, becomes a new and innovative, progressive, practical new design.

Above-mentioned explanation is only the general introduction of technical solutions of the utility model, for can clearer understanding technological means of the present utility model, and can be implemented according to the content of specification, and for above and other purpose of the present utility model, feature and advantage can be become apparent, below especially exemplified by preferred embodiment, and the cooperation accompanying drawing, be described in detail as follows.

Description of drawings

Fig. 1 is the three-dimensional simplified schematic diagram of stalk dewater unit of the present utility model;

Fig. 2 is that sketch is looked on the left side of stalk dewater unit of the present utility model;

Fig. 3 is that sketch is looked on the right side of stalk dewater unit of the present utility model.

The specific embodiment

Be to reach technological means and the effect that predetermined utility model purpose is taked for further setting forth the utility model, below in conjunction with accompanying drawing and preferred embodiment, to according to its specific embodiment of stalk dewater unit, structure, feature and the effect thereof that the utility model proposes, be described in detail as follows.

Stalk dewater unit of the present utility model as Figure 1-3.

In Fig. 1-3, the stalk dewater unit mainly comprises: support 1, upper squeegee roller 2, lower squeegee roller 3,4 compression springs 4, liquid collection spare 5, driving member 6 and force pieces 7.In addition, this device also comprises: feeding platform 8, discharging platform 9 and handle 11.The below illustrates one by one to each parts of this device.

Support 1 is mainly used in fixing upper squeegee roller 2, lower squeegee roller 3,4 parts such as compression spring 4, feeding platform 8 and discharging platform 9.This support 1 can arrange many crossbeams and longeron in the particular locations of fixing each parts according to actual needs, to facilitate the fixing of each parts.

The bottom of the support 1 shown in Fig. 1-3 is provided with four wheels, thereby makes support 1 become movable supporting frame.Need to prove, in actual applications, the quantity of wheel also can be for 3 or more than 4, and in addition, support 1 also can not arrange wheel.

The agent structure of upper squeegee roller 2 is cylindrical, and is fixed on support 1 by two fixed bars and 4 compression springs.The axis of upper squeegee roller 2 connects upper squeegee roller 2 left and right both ends of the surface.The two ends of the axis of upper squeegee roller 2 all are arranged with bearing (clearly not illustrating in Fig. 1-3), these two bearings all are fixed on fixed bar, and the two ends of these two fixed bars all are arranged in the groove longitudinally of support 1 (as being fixed in groove on longeron), and the two ends of each fixed bar all can move up and down in groove, thereby the integral position of squeegee roller 2 can be changed in certain limit (as the length range of groove) up and down.

On the compressive plane of upper squeegee roller 2 (being cylindrical curved surface), many grooves can be set, thereby can facilitate charging and the discharging of stalk.This groove can arrange along the centerline direction (being central axis direction) of upper squeegee roller 2, and namely each groove is parallel with the center line of upper squeegee roller 2 on its length direction.Certainly, this groove also can adopt other modes to arrange, as spiral type groove etc.

An object lesson of upper squeegee roller 2 is, upper squeegee roller 2 mainly comprises: a upper wheel carrier and a plurality of strip steel plate, the shape of upper wheel carrier and size can limit basic configuration and the size of squeegee roller 2, a plurality of strip steel plates mutually splice and are fixed on wheel carrier (as being fixed on upper wheel carrier with welding or the mode such as be spirally connected), thereby all strip steel plates are by being spliced to form the compressive plane of upper squeegee roller 2.In addition, each strip steel plate can make between adjacent strip steel plate by connecting method in mutual splicing and form groove.In formation, the strip steel plate of squeegee roller 2 can be 1 cm thick, 5 centimetres wide, the steel plate of 70-80 centimeter length.Above-mentioned groove can be 0.5 centimetre of dark and 0.5 centimetre of wide groove.

In addition, two of upper squeegee roller 2 end faces all can be the end face that seals fully.

Lower squeegee roller 3 is arranged at the below of squeegee roller 2, the center line of the center line of upper squeegee roller 2 and lower squeegee roller 3 is parallel to each other, and the center line (being axis) of upper squeegee roller 2 is perpendicular with common plane and the horizontal plane that forms of the center line (being axis) of lower squeegee roller 3.

The agent structure of lower squeegee roller 3 is cylindrical, and is fixed on support 1 by its axis.The axis of lower squeegee roller 3 connects lower squeegee roller 3 left and right both ends of the surface.The two ends of the axis of lower squeegee roller 3 all are arranged with bearing (clearly not illustrating in Fig. 1-3), and these two bearings all are fixed on support 1, as are fixed on the crossbeam or longeron of support 1.The integral position of lower squeegee roller 3 can not change as upper squeegee roller 2.

On the compressive plane of lower squeegee roller 3 (being cylindrical curved surface), many grooves can be set, this groove can be along center line (being axis) the direction setting of lower squeegee roller 3, and namely each groove is parallel at the center line of its length direction up and down squeegee roller 3.Certainly, this groove also can adopt other modes to arrange, as spiral type groove etc.

Be provided with a plurality of through holes 10 on the compressive plane of lower squeegee roller 3.Pass through in through hole 10 influent collecting means 5 for ease of liquid, through hole 10 can be oblique through hole, and each through hole 10 all can be arranged in the groove of lower compressive plane, as shown in Figure 1, be provided with a plurality of through holes 10 in each groove of lower squeegee roller 3, thereby be formed with many exhausting holes on lower compressive plane.

With respect to vertical plane, tiltedly through hole in the top that is positioned at lower squeegee roller 3 or bottom the time its angle of inclination can be 30-60 degree (as 45 degree).A concrete example, if through hole is positioned on a strip steel plate, on the strip steel plate of horizontal positioned, the angle of inclination of oblique through hole is the 30-60 degree.

tiltedly the incline direction of through hole is relevant with the direction of rotation of lower squeegee roller 3, concrete, the liquid that stalk is flowed out by 3 extruding of upper squeegee roller 2 and lower squeegee roller can first flow in the groove of the top of lower squeegee roller 3, but, liquid in the inflow groove through hole in groove 10 immediately flow in liquid collection spare 5, but need certain flowing time, yet, lower squeegee roller 3 is along a direction rotation continual, through above-mentioned flowing time the time, lower squeegee roller 3 has rotated again certain angle, at this moment, collection has the oblique through hole in the groove of liquid preferably substantially parallel with vertical plane, thereby liquid can flow in liquid collection spare 5 by oblique through hole under action of gravitation fast.

An object lesson of lower squeegee roller 3 is, lower squeegee roller 3 mainly comprises: a lower wheel carrier and a plurality of strip steel plate, the shape of lower wheel carrier and size can limit basic configuration and the size of lower squeegee roller 3, a plurality of strip steel plates mutually splice and are fixed on lower wheel carrier (as being fixed on lower wheel carrier with welding or the mode such as be spirally connected), thereby all strip steel plates are by being spliced to form the compressive plane of time squeegee roller 3.In addition, each strip steel plate can make between adjacent strip steel plate by connecting method in mutual splicing and form groove.The strip steel plate that forms lower squeegee roller 3 can be 1 cm thick, 5 centimetres wide, the steel plate of 70-80 centimeter length.Above-mentioned groove can be 0.5 centimetre of dark and 0.5 centimetre of wide groove.

In addition, an end face of lower squeegee roller 3 can be the end face of sealing, and so that boss to be set, and another end face is nonocclusive end face, stretches out from lower squeegee roller 3 with the liquid discharge tube that facilitates liquid collection spare 5.

The end face diameter of the end face diameter of upper squeegee roller 2 and lower squeegee roller 3 can be identical, and the cylinder height of the body shape of the cylinder height of the body shape of upper squeegee roller 2 and lower squeegee roller 3 can be identical.

Spacing between upper squeegee roller 2 and lower squeegee roller 3 hour, the fixed bar that is connected with upper squeegee roller 2 should be at groove bottom, at this moment, the compressive plane of upper squeegee roller 2 bottom and the interval between the top of the compressive plane of lower squeegee roller 3 be not less than 0.3 centimetre; When the spacing between upper squeegee roller 2 and lower squeegee roller 3 is maximum, this fixed bar should be in the top of groove, at this moment, the compressive plane of upper squeegee roller 2 bottom and the interval between the top of the compressive plane of lower squeegee roller 3 be not more than 3 centimetres, preferably, can be not more than 2 centimetres.

2 compression springs 4 in 4 compression springs 4 are arranged at 2 one end face sides of squeegee roller, another 2 compression springs 4 are arranged at squeegee roller 2 another end face sides, the upper end of 4 compression springs 4 all is fixed on support 1 (in Fig. 1, be fixed on a crossbeam of support 1), the lower end of 4 compression springs 4 all is fixed on the fixed bar of its place side, and compression spring 4 is when compacted, can drive fixed bar moves up in groove, move upward to drive upper squeegee roller 2, compression spring 4 is when being relaxed, can drive fixed bar moves down in groove, move downward to drive upper squeegee roller 2, thereby can regulate by compression spring 4 upper squeegee roller 2 compressive plane bottom and the gap size between the top of the compressive plane of lower squeegee roller 3, like this, the phenomenon that causes squeegee roller 2 or lower squeegee roller 3 to be stuck in the time of can avoiding the stalk that is extruded to pile up and stop the rotation.

Although in Fig. 1, the two ends of upper squeegee roller 2 are provided with 4 compression springs 4 altogether,, in actual applications, can also use the compression spring 4 of greater number or smaller amounts, the quantity of compression spring 4 should be and is not less than 2 even number, and is identical with the quantity of the compression spring 4 that guarantees two ends.

The concrete model of compression spring 4 should be determined with reference to the actual weight of upper squeegee roller 2, a concrete example, and can select the maximum capacity amount is the compression spring of 200 kilograms of left and right.

Liquid collection spare 5 is articulated on the section of squeegee roller 3 inside under being positioned at of axis of lower squeegee roller 3.Liquid collection spare 5 can be funnel, also can be for containing the container of liquid.When liquid collection spare 5 is funnel, the mouth of pipe of the liquid discharge tube of liquid collection spare 5 can stretch out from an end face of lower squeegee roller 3, the liquid discharge tube that stretches out can be fixed on support 1, and can be provided with container below the mouth of pipe, to contain the liquid that squeezes out from stalk.

Driving member 6 is connected with force piece with upper squeegee roller 2, lower squeegee roller 3 and is connected respectively, driving member 6 under the effect of force piece 7, squeegee roller 2 and 3 rotations of lower squeegee roller in drive, and the direction of rotation of upper squeegee roller 2 and lower squeegee roller 3 is opposite.Under the drive of driving member 6, the rotary speed of upper squeegee roller 2 and lower squeegee roller 3 can be 30-60 rice per minute.

Above-mentioned driving member 6 can be two driving belts, as shown in Figure 1.In this case, an end face of upper squeegee roller 2 and an end face of lower squeegee roller 3 are provided with cylindrical boss, the diameter of the boss of upper squeegee roller 2 should be less than the diameter of upper squeegee roller 2, the diameter of the boss of lower squeegee roller 3 should be less than the diameter of lower squeegee roller 3, and two boss preferably are arranged at the same side of squeegee roller 2 and lower squeegee roller 3.Wherein, article one, driving belt is set on the power wheel of the boss of squeegee roller 2 and force piece 7, and another driving belt is set on the power wheel of the boss of lower squeegee roller 3 and force piece 7, the rotation of power wheel drives upper squeegee roller 2 by driving belt and lower squeegee roller 3 counter-rotates mutually, as shown in Figures 2 and 3.

Force piece 7 can comprise motor, power wheel and belt etc.A concrete example, force piece 7 should guarantee that the rotary speed of squeegee roller 2 and lower squeegee roller 3 is 30-60 rice per minute and at the uniform velocity rotation.

Feeding platform 8 is fixed on support 1, and the charging face of feeding platform 8 can be lower than the top of the compressive plane of lower squeegee roller 3, as low 1 centimetre.Feeding platform 8 can comprise belt conveyer.

Discharging platform 9 is fixed on support 1, and the charge level that goes out of discharging platform 9 can be lower than the top of the compressive plane of lower squeegee roller 3, as low 10 centimetres.Discharging platform 9 also can comprise belt conveyer.

Handle 11 is used for the compressive state of manual setting compression spring 4, thereby regulates the interval between upper squeegee roller 2 and lower squeegee roller 3, as adjusts upper squeegee roller 2 and lower squeegee roller 3 is in not duty gap between the two of lower time.

Handle 11 is arranged in the support place and fixed bar of fixation pressure spring 4, as being provided with external screw thread on handle 11, be provided with reverse internal thread on support place and fixed bar, the rotation of handle 11 changes the spacing at the support place of fixed bar and fixation pressure spring 4, thereby drives compression spring 4 elongations or shorten.

the above is only preferred embodiment of the present utility model, be not that the utility model is done any pro forma restriction, although the utility model discloses as above with preferred embodiment, yet be not to limit the utility model, any those skilled in the art are not within breaking away from the technical solutions of the utility model scope, when the technology contents that can utilize above-mentioned announcement is made a little change or is modified to the equivalent embodiment of equivalent variations, in every case be the content that does not break away from technical solutions of the utility model, any simple modification that foundation technical spirit of the present utility model is done above embodiment, equivalent variations and modification, all still belong in the scope of technical solutions of the utility model.

Claims (10)

1. a stalk dewater unit, is characterized in that, comprising: support, upper squeegee roller, lower squeegee roller, a n compression spring, liquid collection spare, driving member and force piece, and n is not less than 2 even number;

The bottom bracket axle of described upper squeegee roller is provided with two bearings, and upward two bearings of squeegee roller are individually fixed on fixed bar, and the two ends of described fixed bar all are arranged in the cannelure of support, and the two ends of described fixed bar can move up and down in described groove;

Described lower squeegee roller is arranged at the below of described upper squeegee roller, and the center line of described upper squeegee roller is parallel with the center line of described lower squeegee roller, and the plane of two center line formation is vertical with horizontal plane;

The bottom bracket axle of described lower squeegee roller is provided with two bearings, and two bearings of squeegee roller are individually fixed on described support down, are provided with a plurality of through holes on the compressive plane of described lower squeegee roller;

N/2 compression spring is arranged at a side of squeegee roller, another n/2 compression spring is arranged at the opposite side of squeegee roller, the upper end of described each compression spring all is fixed on described support, the lower end of described compression spring all is fixed on the described fixed bar of its place side, and described compression spring drives described fixed bar and moves up in described groove when compacted;

Described fixed bar described groove bottom the time, the compressive plane of described upper squeegee roller bottom and the interval between the top of the compressive plane of described lower squeegee roller be not less than 0.3 centimetre, and described fixed bar is when the top of described groove, the compressive plane of described upper squeegee roller bottom and the interval between the top of the compressive plane of described lower squeegee roller be not more than 3 centimetres;

Described liquid collection spare is articulated on the section of squeegee roller inside under being positioned at of axis of described lower squeegee roller;

Described driving member and described upper squeegee roller, lower squeegee roller and force piece are connected respectively, and described driving member drive the rotation of described upper squeegee roller and lower squeegee roller, and the direction of rotation of described upper squeegee roller and lower squeegee roller is opposite under the effect of described force piece.

2. device according to claim 1, is characterized in that, described device also comprises: be fixed in feeding platform and discharging platform on described support.

3. device according to claim 2, is characterized in that, the charging face of described feeding platform is lower than 1 centimetre of the top of the compressive plane of described lower squeegee roller, described discharging platform go out charge level lower than 10 centimetres of the tops of the compressive plane of described lower squeegee roller.

4. device according to claim 1, is characterized in that, described support bottom is provided with at least three wheels.

5. device according to claim 1, is characterized in that, described upper squeegee roller and/or lower squeegee roller comprise: wheel carrier and a plurality of strip steel plate, described a plurality of strip steel plates mutually splice and are fixed on described wheel carrier, form compressive plane.

6. device according to claim 1, is characterized in that, the compressive plane of the compressive plane of described upper squeegee roller and lower squeegee roller has many grooves along central axis direction, and described through hole is arranged in the groove of described lower squeegee roller.

7. the described device of arbitrary claim according to claim 1 to 6, is characterized in that, described through hole is oblique through hole, and described oblique through hole is in the top that is positioned at described lower squeegee roller or bottom the time, and tiltedly the angle of through hole and vertical plane is the 30-60 degree.

8. the described device of arbitrary claim according to claim 1 to 6, is characterized in that, described liquid collection spare has liquid discharge tube, and described liquid discharge tube stretches out from an end face of described lower squeegee roller.

9. the described device of arbitrary claim according to claim 1 to 6, it is characterized in that, described device also comprises: handle, described handle are arranged in the support place and described fixed bar of fixation pressure spring, and the rotation of described handle drives described compression spring and stretches/contract.

10. the described device of arbitrary claim according to claim 1 to 6 is characterized in that:

An end face of described upper squeegee roller and an end face of lower squeegee roller are provided with cylindrical boss, and the diameter of described boss is less than the diameter of described upper squeegee roller and lower squeegee roller;

Described driving member comprises two driving belts, and wherein, driving belt is set on the power wheel of the boss of described upper squeegee roller and described force piece, and another feed belt is set on the power wheel of the boss of described lower squeegee roller and described force piece.

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