CN211664232U - Erect feeding conveyer width adjustment mechanism - Google Patents

Abstract

The utility model relates to an erect feeding conveyer width adjustment mechanism, including the return pulley subassembly, left side wheel subassembly and right side wheel subassembly, the return pulley subassembly is used for supporting and conveying the feeding, left side wheel subassembly and right side wheel subassembly respectively with the feeding contact of homonymy, it removes to drive the feeding through the wheel body rotation, the upper end and the last fly leaf of left side wheel subassembly or right side wheel subassembly are connected, the lower extreme is connected with lower movable plate, upward be provided with screw rod assembly on fly leaf and the lower movable plate, screw rod assembly passes through bevel gear drive assembly and is connected with the actuating shaft, the actuating shaft rotates, thereby it removes the feeding in order to adapt to different width to the direction that is close to or keeps away from the feeding simultaneously to go up fly leaf and lower movable plate. The utility model discloses a quick synchro-control of width just can be realized to the drive shaft between left side wheel subassembly and the right side wheel subassembly, is convenient for change the material of different thickness.

Description

Erect feeding conveyer width adjustment mechanism

Technical Field

The utility model relates to a material cleaning equipment technical field especially relates to a erect feeding conveyer width adjustment mechanism.

Background

The material need wash and air-dry before processing or after using, traditional cleaning method is that artifical handheld shower nozzle washes the processing to the material surface, the unclean condition of washing can appear in such washing mode, the cleaning performance is not good, and excessive extravagant manpower and materials, can't satisfy user's result of use, in order to solve this problem, material belt cleaning device has appeared on the market, the feeding conveys through transport mechanism and washs and air-dry processing in washing district and air-dry district, transport mechanism generally includes the bottom wheelset, left side wheelset and right side wheelset, plate material is at the bottom wheelset, through the directional removal of frictional force that wheel body rotation and material surface produced between left side wheelset and the right side wheelset.

Usually wash the material in the cleaning zone, cleaning zone bottom is provided with the drain pipe, the material conveys the dry district of wind after wasing again and weathers, because cleaning equipment is that one section is divided, put together, ponding is only in cleaning zone's bottom, and the limit on the dust on the material comes from the product, the effect of washing the dust in the position of washing can not reach 100%, it is more firm a bit, the bits on the edge of deciding, do not wash at the washing section, under the condition of the high wind pressure of rear end, will probably blow down that is not too firm, will fly upward along with the wind flow.

The width between left side wheelset and the right side wheelset of current cleaning equipment is fixed, can not adapt to the material of different thickness, perhaps can carry out width control, but adjustment mechanism is complicated loaded down with trivial details, consuming time and wasting force.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an erect feeding conveyer width adjustment mechanism, the technical problem of its solution is that the width between current cleaning equipment's left side wheelset and the right side wheelset is fixed, can not adapt to the material of different thickness, perhaps can carry out width control, but adjustment mechanism is complicated loaded down with trivial details, consuming time power.

In order to solve the technical problem existing in the above, the utility model discloses a following scheme:

a width adjusting mechanism for vertical feeding conveying device, comprising a bottom wheel component (1), a left side wheel component (2) and a right side wheel component (3), wherein the bottom wheel component (1) is arranged between the left side wheel component (2) and the right side wheel component (3) and is contacted with the lower side surface of a feeding material (4) for supporting and conveying the feeding material (4), the left side wheel component (2) and the right side wheel component (3) are respectively contacted with the feeding material (4) at the same side, and the feeding material (4) is driven to move through the rotation of a wheel body, and the width adjusting mechanism is characterized in that: the upper end of the left side wheel assembly (2) or the right side wheel assembly (3) is connected with an upper movable plate (5), the lower end of the left side wheel assembly is connected with a lower movable plate (6), the upper movable plate (5) and the lower movable plate (6) are provided with screw rod assemblies, the screw rod assemblies are connected with a driving shaft (12) through bevel gear transmission assemblies and drive the driving shaft (12) to rotate, so that the upper movable plate (5) and the lower movable plate (6) move towards the direction close to or far away from the feeding material (4) at the same time, and the distance between the left side wheel assembly (2) and the right side wheel assembly (3) is changed to adapt to the feeding material (4) with different widths.

Furthermore, the screw assembly comprises an upper screw assembly, a lower screw assembly and a linkage assembly, the upper screw assembly is used for driving the upper movable plate (5) to move, the lower screw assembly is used for driving the lower movable plate (6) to move, and the linkage assembly is used for connecting the upper screw assembly and the lower screw assembly and enabling the upper screw assembly and the lower screw assembly to be linked.

Further, the upper screw assembly comprises an upper screw (7), the axial direction of the upper screw (7) is perpendicular to the moving direction of the feeding material (4), an upper connecting plate (8) perpendicular to the upper movable plate (5) is arranged on the upper movable plate (5), a threaded hole matched with the upper screw (7) is formed in the upper connecting plate (8), and the upper screw (7) rotates to drive the upper movable plate (5) to horizontally move along the axial direction of the upper screw (7);

the lower screw assembly comprises a lower screw (9), the axial direction of the lower screw (9) is perpendicular to the moving direction of the feeding material (4), a lower connecting plate (10) perpendicular to the lower movable plate (6) is arranged on the lower movable plate (6), a threaded hole matched with the lower screw (9) is formed in the lower connecting plate (10), and the lower screw (9) rotates to drive the lower movable plate (6) to horizontally move along the axial direction of the lower screw (9).

Further, the linkage assembly comprises a transmission rod (11), the upper end of the transmission rod (11) is connected with the upper screw rod (7) through an upper bevel gear set, the lower end of the transmission rod (11) is connected with the lower screw rod (9) through a lower bevel gear set, and the upper bevel gear set comprises a first upper bevel gear sleeved at the upper end of the transmission rod (11) and a second upper bevel gear sleeved on the upper screw rod (7); the lower bevel gear set comprises a first lower bevel gear sleeved at the lower end of the transmission rod (11) and a second lower bevel gear sleeved on the lower screw rod (9).

Furthermore, the axial direction of the driving shaft (12) is perpendicular to the axial direction of the upper screw (7) and the lower screw (9), and the bevel gear transmission assembly comprises a third bevel gear sleeved on the upper screw (7) or the lower screw (9) and a fourth bevel gear sleeved on the driving shaft (12) and matched with the third bevel gear.

Furthermore, the screw assemblies and the bevel gear transmission assemblies are two groups, one ends of the two groups of screw assemblies are respectively connected with two end parts of the driving shaft (12) through the bevel gear transmission assemblies, and the other ends of the two groups of screw assemblies are respectively connected with two end parts of the upper movable plate (5) and the lower movable plate (6) along the length direction.

Further, left side wheel subassembly (2) with right side wheel subassembly (3) constitute by the gyro wheel conveying axle of a plurality of vertical settings, be provided with a plurality of gyro wheels on the gyro wheel conveying axle, left side wheel subassembly (2) or the epaxial end of gyro wheel conveying of right side wheel subassembly (3) all with go up fly leaf (5) and connect, it is in to go up fly leaf (5) setting erect on feeding conveyer's the roof, seted up on the roof and supplied gyro wheel conveying axle passes and follows go up the long slot hole of fly leaf (5) reciprocating motion.

Further, at least one supporting plate (13) for fixing the driving shaft (12) and a supporting table (14) for fixing the screw assembly are arranged on the top plate or the bottom plate of the vertical feeding conveying device.

Further, the drive shaft (12) is driven by a drive shaft motor (15) or manually.

Further, erect feeding conveyer and include washing district and air-dry district, the bottom in air-dry district be provided with intercommunication water pipe (19) that the washing district communicates make the water of washing district bottom can pass through intercommunication water pipe (19) flow in the air-dry district just keeps the water level to keep level, thereby avoids remaining piece in the air-dry district flies upward in the air-dry district, leads to polluting the product.

This erect feeding conveyer width adjustment mechanism has following beneficial effect:

(1) the utility model discloses erect feeding conveyer width adjustment mechanism and just can realize the quick synchro-control of width between left side wheel subassembly and the right side wheel subassembly through the drive shaft, be convenient for change the material of different thickness.

(2) The utility model discloses erect feeding conveyer's washing district bottom and air-dry district bottom and lead to the pipe intercommunication for there is ponding bottom the air-dry district, thereby avoids the interior dust of air-dry district to fly upward.

Drawings

FIG. 1: an overall schematic view of a vertical feed cleaning apparatus;

FIG. 2: the invention discloses a schematic diagram of a width adjusting mechanism of a vertical feeding conveying device;

FIG. 3: the invention is a schematic view of a bottom wheel of a vertical feeding and conveying device;

FIG. 4: the invention discloses a schematic view of an upper screw component of a width adjusting mechanism of a vertical feeding conveying device;

FIG. 5: the invention is a schematic bottom view of a vertical feeding cleaning device;

FIG. 6: the present invention is a schematic representation of a set of bevel gears.

Description of reference numerals:

1-a bottom wheel assembly; 2-left side wheel assembly; 3-right side wheel assembly; 4, feeding; 5, an upper movable plate; 6, a movable plate is lowered; 7, screwing up a screw; 8, an upper connecting plate; 9-lower screw rod; 10-lower connecting plate; 11-a transmission rod; 12-a drive shaft; 13-a support plate; 14-a support table; 15-driving a shaft motor; 16-a drive shaft; 17-driving shaft motor; 18-a bottom wheel; 19-communicating water pipe.

Detailed Description

The invention is further described below with reference to fig. 1 to 6:

as shown in figure 1, the vertical feeding cleaning equipment comprises a cleaning area and an air drying area, plate-shaped feeding 4 sequentially passes through the cleaning area and the air drying area through a vertical feeding conveying device in a vertical state, the feeding 4 is washed in the cleaning area and then conveyed to the air drying area to be dried, a spraying device used for spraying water is arranged at the top of the cleaning area, and a blowing device used for blowing air is arranged at the top of the air drying area.

As shown in fig. 5, the bottom of the air drying area and the bottom of the cleaning area are both provided with water receiving tanks, the bottom of the air drying area and the water receiving tank at the bottom of the cleaning area are communicated through a communication water pipe 19, so that water at the bottom of the cleaning area can flow into the bottom of the air drying area through the communication water pipe 19 and the water level is kept level, thereby preventing residual debris in the air drying area from flying upward in the air drying area, and causing pollution to products, a drain pipe for draining is further arranged on the communication water pipe 19, a valve for opening or closing a water outlet of the drain pipe is arranged on the drain pipe, the water outlet of the drain pipe is connected with an inlet of a filtering device, an outlet of the filtering device is connected with a spraying device at the top of the cleaning area, sewage discharged from the water outlet of the drain pipe is filtered by the filtering device and then flows into the spraying device for recycling.

Erect feeding cleaning equipment's feeding entrance and still be provided with feeding detection device for size information such as height and width of detecting feeding 4 erects feeding cleaning equipment and still includes controlling means, controlling means is used for receiving feeding 4's that detection device gathered height and width information and handles and judge and erect feeding conveyer's conveying regional size and feeding 4's height and width phase-match to and control size adjusting device and filter equipment.

As shown in fig. 1 and 3, the vertical feeding conveying device comprises a bottom wheel assembly 1, a left side wheel assembly 2 and a right side wheel assembly 3, wherein the bottom wheel assembly 1 is composed of a plurality of roller conveying shafts which are horizontally arranged and are orderly arranged, rollers, namely bottom wheels 18, are arranged on the roller conveying shafts, the plurality of bottom wheels 18 are arranged along the moving direction of a feeding material 4, the bottom wheels 18 are in contact with the lower side surface of the feeding material 4 and are used for supporting and conveying the feeding material 4, the bottom wheels 18 are oblique wheels, the outer side surface of the bottom wheels 18 along the circumferential direction comprises an oblique plane with a conical left side and a plane with an annular right side, so that the contact area between the lower side surface of the feeding material 4 and the bottom wheels 18 is reduced, the feeding material 4 is prevented from being scratched and polluted by the bottom wheels, only one side edge of the lower end of the feeding material 4 is in contact with the bottom wheels 18; left side wheel subassembly 2 and right side wheel subassembly 3 constitute by a plurality of vertical settings and neatly arranged's gyro wheel conveying axle, are provided with the gyro wheel on the gyro wheel conveying axle, and the gyro wheel on the left side wheel subassembly 2 contacts with the left surface of feeding 4, and the gyro wheel on the right side wheel subassembly 2 contacts with the right flank of feeding 4, and the gyro wheel rotates and drives feeding 4 and remove, and the gyro wheel on left side wheel subassembly 2 and the right side wheel subassembly 3 is made by soft material.

As shown in fig. 2 and 4, the upper end of each roller conveying shaft of the left side wheel assembly 2 is connected with a driving shaft 16 through a group of bevel gears, the driving shaft 16 is arranged on the upper side surface of a top plate for erecting feeding cleaning equipment, the axial direction of the driving shaft 16 is consistent with the conveying direction of feeding materials 4, the driving shaft 16 is driven by a driving shaft motor 17 arranged on the top plate, so as to drive the left side wheel assembly 2 to synchronously rotate, the group of bevel gears comprises two bevel gears, one bevel gear is sleeved at the upper end of the roller conveying shaft, the other bevel gear is sleeved on the driving shaft 16, and the two bevel gears are matched to enable the driving shaft 16 horizontally arranged to rotate to drive the roller.

The left side wheel subassembly 2 is connected with width adjustment mechanism, width adjustment mechanism includes fly leaf 5, lower fly leaf 6, drive shaft 12, screw rod subassembly and bevel gear transmission subassembly, it is mobilizable to go up fly leaf 5 and sets up on the roof side, lower fly leaf 6 mobilizable setting is on erectting feeding cleaning equipment's bottom plate side of going up, go up all set up on fly leaf 5 and the lower fly leaf 6 with the gyro wheel conveying axle matched with shaft hole of left side wheel subassembly 2, the upper end of the gyro wheel conveying axle of left side wheel subassembly 2 is inserted and is established in the shaft hole of last fly leaf 5, the lower extreme is inserted and is established in the shaft hole of lower fly leaf 6, set up on the roof and supply gyro wheel conveying axle to pass and along with the long slot hole of last fly leaf 5.

A driving shaft motor 15 is arranged on the top plate, the driving shaft motor 15 is connected with a driving shaft 12 and is used for driving the driving shaft 12 to rotate, the driving shaft 12 is arranged in parallel with a driving shaft 16, three supporting plates 13 used for supporting the driving shaft 12 are arranged on the top plate, two groups of screw rod assemblies are respectively arranged on the upper movable plate 5 and the lower movable plate 6, each group of screw rod assemblies is connected with the driving shaft 12 through a bevel gear transmission assembly,

the screw rod assembly comprises an upper screw rod assembly, a lower screw rod assembly and a linkage assembly, the upper screw rod assembly is used for driving the upper movable plate 5 to move, the lower screw rod assembly is used for driving the lower movable plate 6 to move, and the linkage assembly is used for connecting the upper screw rod assembly and the lower screw rod assembly and enabling the upper screw rod assembly and the lower screw rod assembly to be linked.

The upper screw assembly comprises an upper screw 7, the axial direction of the upper screw 7 is perpendicular to the moving direction of the feeding material 4, an upper connecting plate 8 perpendicular to the upper movable plate 5 is arranged on the upper movable plate 5, a threaded hole matched with the upper screw 7 is formed in the upper connecting plate 8, and the upper screw 7 rotates to drive the upper movable plate 5 to move left and right along the axial direction of the upper screw 7; the lower screw assembly comprises a lower screw 9, the axial direction of the lower screw 9 is perpendicular to the moving direction of the feeding 4, a lower connecting plate 10 perpendicular to the lower movable plate 6 is arranged on the lower movable plate 6, a threaded hole matched with the lower screw 9 is formed in the lower connecting plate 10, the lower screw 9 rotates to drive the lower movable plate 6 to move left and right along the axial direction of the lower screw 9, the upper screw 7 is arranged on the top plate through a supporting table 14, the lower screw 9 is arranged on the bottom plate through a supporting assembly, the linkage assembly comprises a transmission rod 11, the upper end of the transmission rod 11 is connected with the upper screw 7 through an upper bevel gear set, the lower end of the transmission rod 11 is connected with the lower screw 9 through the lower bevel gear set, and the upper bevel gear set comprises a first upper bevel gear sleeved at the upper end of the transmission; the lower bevel gear set comprises a first lower bevel gear sleeved at the lower end of the transmission rod 11 and a second lower bevel gear sleeved on the lower screw rod 9; the bevel gear transmission component comprises a third bevel gear sleeved on the upper screw 7 or the lower screw 9 and a fourth bevel gear sleeved on the driving shaft 12 and matched with the third bevel gear.

One ends of the two screw assemblies are respectively connected with two end parts of the driving shaft 12 through bevel gear transmission assemblies, and the other ends of the two screw assemblies are respectively connected with two end parts of the upper movable plate 5 and the lower movable plate 6 along the length direction.

The drive shaft 12 rotates so that the upper movable plate 5 and the lower movable plate 6 move simultaneously in a direction toward or away from the feed material 4 to change the distance between the left side wheel assembly 2 and the right side wheel assembly 3 to accommodate feed materials 4 of different widths.

Similarly, the width adjusting mechanism may also be connected to the right side wheel assembly 3, or the width adjusting mechanism may be two sets, respectively connected to the left side wheel assembly 2 and the right side wheel assembly 3.

A feed delivery method comprising the steps of:

step one, collecting height and width information of a feeding material 4 through a detection device;

secondly, the detection device sends the height and width information of the feeding 4 to the control device, and the control device processes the height and width information of the feeding 4 and judges whether the size of a conveying area of the vertical feeding conveying device meets the size requirement for the feeding 4 to pass through;

step three, when the width and the height of the conveying area both meet the size requirement for the feeding 4 to pass through, the feeding 4 directly enters the conveying area for conveying; when the width dimension of the conveying area is not matched with the width dimension of the feeding material 4, the control device controls the width adjusting device to work, and the width adjusting device drives the left side wheel assembly 2 to move leftwards or rightwards, so that the width of the feeding material 4 is adapted; when the height dimension of the conveying area is not matched with the height dimension of the feeding material 4, the control device controls the height adjusting device to work, the height adjusting device drives the bottom wheel assembly of the vertical feeding conveying device to move upwards or downwards so as to adapt to the height of the feeding material 4, and then the feeding material 4 enters the conveying area to be conveyed;

step four, the feeding 4 is conveyed to a cleaning area through a vertical feeding conveying device to be washed, meanwhile, a valve at the water outlet of a drain pipe is closed, and water at the bottom of the cleaning area flows into the bottom of an air drying area through a communicating water pipe 19 to prevent chips in the air drying area from flying to pollute products; when the water at the bottom of the air drying area reaches a preset height, the control device controls the valve to be opened, the water at the bottom of the cleaning area and the air drying area flows into the filtering device through the drain pipe, and flows into the water spraying device of the cleaning area for cyclic utilization after being filtered by the filtering device;

and step five, conveying the fed material 4 to an air drying area for air drying through a vertical feeding conveying device.

The method can also directly judge the height and the width of the feeding material 4 through human eyes, judge whether the height and the width of the conveying area of the vertical feeding conveying device are matched with the size of the feeding material 4, and then adjust the height and the width of the conveying area of the vertical feeding conveying device, wherein the height and the width can be adjusted in no sequence, for example, the height of the conveying area is adjusted first and then the width is adjusted, or the width is adjusted first and then the height is adjusted, or the height and the width are adjusted simultaneously.

The working process of the width adjusting mechanism is as follows:

when the feeding 4 with large thickness needs to be replaced, the driving shaft motor 15 is started to drive the driving shaft 12 to rotate, or the driving shaft 12 is manually driven to rotate, the fourth bevel gear on the driving shaft 12 rotates to drive the third bevel gear to rotate, the third bevel gear drives the two upper screw rods 7 to rotate, the upper movable plate 5 moves leftwards, and the upper end of the roller conveying shaft of the left side wheel assembly 2 is driven to move leftwards;

meanwhile, a second upper bevel gear sleeved on the upper screw 7 and the upper screw 7 synchronously rotate to drive the first upper bevel gear to rotate, drive the transmission rod 11 to rotate, drive a first lower bevel gear at the lower end of the transmission rod 11 to rotate, so that a second lower bevel gear sleeved on the lower screw 9 rotates to drive the lower screw 9 to rotate, and the lower movable plate 6 moves leftwards to drive the lower end of a roller transmission shaft of the left side wheel assembly 2 to move leftwards, thereby changing the distance between the left side wheel assembly 2 and the right side wheel assembly 3 to adapt to the thickness of the feeding material 4;

similarly, when it is necessary to replace the feeding material 4 having a small thickness, the driving shaft 12 is driven in reverse to rotate, so that the distance between the left and right side wheel assemblies 2 and 3 is reduced.

When carrying out washing operation to feeding 4, close the valve that communicates water pipe 19 delivery port department for the bottom in air-dry district keeps the same level with the water level of wasing the district bottom, thereby avoids remaining piece in the air-dry district to fly upward in air-dry district, leads to polluting the product.

The invention is described above with reference to the accompanying drawings, it is obvious that the implementation of the invention is not limited in the above manner, and it is within the scope of the invention to adopt various modifications of the inventive method concept and solution, or to apply the inventive concept and solution directly to other applications without modification.

Claims (10)

1. A width adjusting mechanism for vertical feeding conveying device, comprising a bottom wheel component (1), a left side wheel component (2) and a right side wheel component (3), wherein the bottom wheel component (1) is arranged between the left side wheel component (2) and the right side wheel component (3) and is contacted with the lower side surface of a feeding material (4) for supporting and conveying the feeding material (4), the left side wheel component (2) and the right side wheel component (3) are respectively contacted with the feeding material (4) at the same side, and the feeding material (4) is driven to move through the rotation of a wheel body, and the width adjusting mechanism is characterized in that: the upper end of the left side wheel assembly (2) or the right side wheel assembly (3) is connected with an upper movable plate (5), the lower end of the left side wheel assembly is connected with a lower movable plate (6), the upper movable plate (5) and the lower movable plate (6) are provided with screw rod assemblies, the screw rod assemblies are connected with a driving shaft (12) through bevel gear transmission assemblies and drive the driving shaft (12) to rotate, so that the upper movable plate (5) and the lower movable plate (6) move towards the direction close to or far away from the feeding material (4) at the same time, and the distance between the left side wheel assembly (2) and the right side wheel assembly (3) is changed to adapt to the feeding material (4) with different widths.

2. The upright feed conveyor width adjustment mechanism of claim 1, wherein: the screw rod assembly comprises an upper screw rod assembly, a lower screw rod assembly and a linkage assembly, the upper screw rod assembly is used for driving the upper movable plate (5) to move, the lower screw rod assembly is used for driving the lower movable plate (6) to move, and the linkage assembly is used for connecting the upper screw rod assembly and the lower screw rod assembly and enabling the upper screw rod assembly and the lower screw rod assembly to be linked.

3. The upright feed conveyor width adjustment mechanism of claim 2, wherein: the upper screw assembly comprises an upper screw (7), the axial direction of the upper screw (7) is perpendicular to the moving direction of the feeding material (4), an upper connecting plate (8) perpendicular to the upper movable plate (5) is arranged on the upper movable plate (5), a threaded hole matched with the upper screw (7) is formed in the upper connecting plate (8), and the upper screw (7) rotates to drive the upper movable plate (5) to horizontally move along the axial direction of the upper screw (7);

the lower screw assembly comprises a lower screw (9), the axial direction of the lower screw (9) is perpendicular to the moving direction of the feeding material (4), a lower connecting plate (10) perpendicular to the lower movable plate (6) is arranged on the lower movable plate (6), a threaded hole matched with the lower screw (9) is formed in the lower connecting plate (10), and the lower screw (9) rotates to drive the lower movable plate (6) to horizontally move along the axial direction of the lower screw (9).

4. The upright feed conveyor width adjustment mechanism of claim 3, wherein: the linkage assembly comprises a transmission rod (11), the upper end of the transmission rod (11) is connected with the upper screw rod (7) through an upper bevel gear set, the lower end of the transmission rod (11) is connected with the lower screw rod (9) through a lower bevel gear set, and the upper bevel gear set comprises a first upper bevel gear sleeved at the upper end of the transmission rod (11) and a second upper bevel gear sleeved on the upper screw rod (7); the lower bevel gear set comprises a first lower bevel gear sleeved at the lower end of the transmission rod (11) and a second lower bevel gear sleeved on the lower screw rod (9).

5. The upright feed conveyor width adjustment mechanism of claim 4, wherein: the axial direction of the driving shaft (12) is perpendicular to the axial direction of the upper screw (7) and the lower screw (9), and the bevel gear transmission assembly comprises a third bevel gear sleeved on the upper screw (7) or the lower screw (9) and a fourth bevel gear sleeved on the driving shaft (12) and matched with the third bevel gear.

6. The upright feed conveyor width adjustment mechanism of claim 1, wherein: the screw rod assemblies and the bevel gear transmission assemblies are two groups, one ends of the two groups of screw rod assemblies are respectively connected with two end parts of the driving shaft (12) through the bevel gear transmission assemblies, and the other ends of the two groups of screw rod assemblies are respectively connected with two end parts of the upper movable plate (5) and the lower movable plate (6) along the length direction.

7. The upright feed conveyor width adjustment mechanism of any one of claims 1-6, wherein: the left side wheel subassembly (2) with right side wheel subassembly (3) comprise by the gyro wheel conveying axle of a plurality of vertical settings, be provided with a plurality of gyro wheels on the gyro wheel conveying axle, left side wheel subassembly (2) or the epaxial end of gyro wheel conveying of right side wheel subassembly (3) all with go up fly leaf (5) and connect, it sets up to go up fly leaf (5) erect on feeding conveyer's the roof, seted up on the roof and supplied the gyro wheel conveying axle passes and follows go up fly leaf (5) reciprocating motion's slotted hole.

8. The upright feed conveyor width adjustment mechanism of claim 1, wherein: at least one supporting plate (13) for fixing the driving shaft (12) and a supporting table (14) for fixing the screw assembly are arranged on the top plate or the bottom plate of the vertical feeding conveying device.

9. The upright feed conveyor width adjustment mechanism of claim 1, wherein: the drive shaft (12) is driven by a drive shaft motor (15) or manually.

10. The upright feed conveyor width adjustment mechanism of claim 1, wherein: erect feeding conveyer and include washing district and air-dry district, the bottom in air-dry district be provided with intercommunication water pipe (19) that the washing district communicates for the water of washing district bottom can flow in through intercommunication water pipe (19) the air-dry district just keeps the water level to keep level, thereby avoids remaining piece in the air-dry district flies upward in the air-dry district, leads to polluting the product.

Images