CN211921367U - A screw conveyer for fertilizer fermentation equipment material loading - Google Patents

Abstract

The utility model discloses a spiral conveyor for feeding organic fertilizer fermentation equipment, which comprises a base plate, an auger conveying mechanism and a height adjusting mechanism; the auger conveying mechanism comprises a conveying pipe, a conveying auger, a material receiving groove and a conveying driving motor; the height adjusting mechanism is arranged between the base plate and the auger conveying mechanism and used for supporting and adjusting the height of the right end of the auger conveying mechanism. The screw conveyor can convey straw powder in the material receiving groove to fermentation equipment for fermentation by using the auger conveying mechanism, manual carrying is not needed, the working efficiency can be ensured, and air pollution in the carrying process can be avoided; by utilizing the matching of the bottom water leakage hole formed in the bottom of the material carrying groove and the water collecting groove, the juice generated by wet materials can be collected, and accumulated liquid is prevented from staying in the material carrying groove; the right end height of the auger conveying mechanism can be adjusted by utilizing the height adjusting mechanism, and the use requirements of various high fermentation equipment are met.

Description

A screw conveyer for fertilizer fermentation equipment material loading

Technical Field

The utility model relates to a screw conveyer, especially a screw conveyer for fertilizer fermentation equipment material loading.

Background

When fertilizer fermentation equipment used, need to throw into the fermentation equipment with powder that agricultural plant discarded object is smashed and heat stirring fermentation in the fermentation equipment, if carry to fermentation equipment through the manual work, cause air pollution moreover easily. Therefore, it is necessary to design a screw conveyor for feeding of organic fertilizer fermentation equipment, which can realize automatic feeding of the fermentation equipment and effectively enhance the working efficiency.

Disclosure of Invention

Utility model purpose: the utility model provides a screw conveyer for fertilizer fermentation equipment material loading, can realize fermentation equipment's automatic feeding, effectively strengthen work efficiency.

The technical scheme is as follows: the utility model relates to a spiral conveyor for feeding organic fertilizer fermentation equipment, which comprises a base plate, an auger conveying mechanism and a height adjusting mechanism;

the auger conveying mechanism comprises a conveying pipe, a conveying auger, a material receiving groove and a conveying driving motor; the left end of the conveying pipe is fixedly arranged on the right side surface of the material receiving groove, and the right end of the conveying pipe is closed; the right end of the conveying auger is rotatably arranged on a right end sealing plate of the conveying pipe; the left end of the conveying auger extends out of the conveying pipe and is rotatably arranged on the inner bottom of the material receiving groove through a rotary support; the conveying driving motor is fixedly arranged at the right end part of the conveying pipe and drives the conveying auger to rotate through the driving belt;

a packing auger hinged support and a water collecting tank are arranged on the base plate; the front side and the rear side of the left end of the conveying pipe are respectively provided with a packing auger hinged shaft, and the conveying pipe is hinged on a packing auger hinged support in a swinging mode through the packing auger hinged shaft; a bottom water leakage hole is formed in the bottom of the material receiving groove, and a material filter screen is arranged at the bottom water leakage hole; the water collecting tank is positioned below the material receiving tank, and a drain pipe is communicated with the side edge of the water collecting tank; a discharge pipe is arranged below the right end of the conveying pipe;

the height adjusting mechanism is arranged between the base plate and the auger conveying mechanism and used for supporting and adjusting the height of the right end of the auger conveying mechanism.

Furthermore, a discharge extension pipe is hung and mounted at the lower end of the discharge pipe; a suspension side lug is arranged at the position of a bisection point of the circumference of the pipe orifice at the upper end of the discharge extension pipe; the discharging extension pipe is hung at the pipe orifice at the lower end of the discharging pipe through two hanging side lugs.

Furthermore, a belt shield is arranged at the right end of the conveying pipe; the drive belt is located within the belt guard.

Further, the height adjusting mechanism comprises an upper hinge seat, a lower hinge seat, an adjusting sleeve, an adjusting rod, a driving worm wheel and a driving worm; the lower hinge seat is fixedly arranged on the base plate, and the lower end of the adjusting sleeve is arranged on the lower hinge seat in a hinge mode; the upper hinge seat is fixedly arranged below the conveying pipe through a reinforcing plate; the upper end of the adjusting rod is hinged on the upper hinge seat; the lower end of the adjusting rod is inserted into the upper end pipe orifice of the adjusting sleeve, and an adjusting external thread is arranged on the lower end rod wall of the adjusting rod; an adjusting threaded hole is formed in the center of the driving worm wheel and is screwed on the lower end part of the adjusting rod through threads of the adjusting threaded hole; a supporting platform seat is fixedly arranged on the outer wall of the pipe orifice at the upper end of the adjusting sleeve; the driving worm is longitudinally and rotatably arranged on the supporting platform seat through a worm support; the driving worm wheel is meshed with the driving worm; an adjusting crank is fixedly arranged on the shaft head of the driving worm.

Furthermore, a supporting ring groove is arranged on the end surface of the upper end pipe orifice of the adjusting sleeve; supporting balls are distributed in the supporting ring grooves and protrude out of the supporting ring grooves; the underside of the drive worm is supported on respective support balls.

Furthermore, pipe wall water leakage holes are arranged on the pipe wall at intervals on the lower side of the left half section of the conveying pipe, and a material filter screen is arranged on the pipe wall water leakage holes; a strip-shaped water tank is arranged on the pipe wall at the lower side of the left half section of the conveying pipe, and a pipe wall water leakage hole is positioned in the strip-shaped water tank; a water outlet is arranged at the left end of the strip-shaped water tank and above the water collecting tank.

Compared with the prior art, the utility model, its beneficial effect is: the straw powder in the material receiving groove can be conveyed to fermentation equipment for fermentation by using the auger conveying mechanism, manual carrying is not needed, the working efficiency can be ensured, and air pollution in the carrying process can be avoided; by utilizing the matching of the bottom water leakage hole formed in the bottom of the material carrying groove and the water collecting groove, the juice generated by wet materials can be collected, and accumulated liquid is prevented from staying in the material carrying groove; the right end height of the auger conveying mechanism can be adjusted by utilizing the height adjusting mechanism, and the use requirements of various high fermentation equipment are met.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Detailed Description

The technical solution of the present invention will be described in detail with reference to the accompanying drawings, but the scope of the present invention is not limited to the embodiments.

Example 1:

as shown in figure 1, the utility model discloses a screw conveyer for fertilizer fermentation equipment material loading includes: a base plate 201, a packing auger conveying mechanism and a height adjusting mechanism;

the auger conveying mechanism comprises a conveying pipe 207, a conveying auger 208, a material receiving groove 203 and a conveying driving motor 209; the left end of the conveying pipe 207 is fixedly arranged on the right side surface of the material receiving groove 203, and the right end of the conveying pipe 207 is closed; the right end of the conveying auger 208 is rotatably arranged on a right end closing plate of the conveying pipe 207; the left end of the conveying auger 208 extends out of the conveying pipe 207 and is rotatably arranged on the inner bottom of the material receiving groove 203 through the rotary support 204; the conveying driving motor 209 is fixedly arranged at the right end part of the conveying pipe 207 and drives the conveying auger 208 to rotate through a driving belt;

the base plate 201 is provided with an auger hinged support 202 and a water collecting tank 229; the front side and the rear side of the left end of the conveying pipe 207 are respectively provided with an auger hinged shaft 206, and the conveying pipe 207 is hinged on an auger hinged support 202 in a swinging mode through the auger hinged shaft 206; a bottom water leakage hole is arranged at the bottom of the material receiving groove 203, and a material filter screen is arranged at the bottom water leakage hole; the water collecting tank 229 is positioned below the material receiving tank 203, and a drain pipe 230 is arranged at the side of the water collecting tank 229 in a communication manner; a discharge pipe 213 is arranged below the right end of the delivery pipe 207;

the height adjusting mechanism is arranged between the base plate 201 and the auger conveying mechanism and used for supporting and adjusting the height of the right end of the auger conveying mechanism.

The straw powder in the material receiving groove 203 can be conveyed to fermentation equipment for fermentation by using the auger conveying mechanism, manual conveying is not needed, the working efficiency can be ensured, and air pollution in the conveying process can be avoided; by matching the bottom water leakage hole formed in the bottom of the material receiving groove 203 and the water collecting groove 229, the juice generated by wet materials can be collected, and accumulated liquid is prevented from staying in the material receiving groove 203; the right end height of the auger conveying mechanism can be adjusted by utilizing the height adjusting mechanism, and the use requirements of various high fermentation equipment are met.

Further, a discharging extension pipe 214 is hung and installed at the lower end of the discharging pipe 213; a suspension side ear 215 is arranged at the position of the bisector of the circumference of the upper end pipe orifice of the discharge extension pipe 214; the tapping extension pipe 214 is hung at the lower end opening of the tapping pipe 213 through two hanging side lugs 215. The discharge extension pipe 214 is installed by using the suspension side lug 215, the lower pipe mouth orientation of the discharge extension pipe 214 can be conveniently adjusted, so that the discharge extension pipe 214 is in butt joint with the feeding hole of the fermentation equipment, and a rubber sleeve is adopted as the discharge extension pipe 214.

Further, a belt guard 210 is provided at the right end of the delivery pipe 207; the drive belt is located within the belt guard 210. The use safety can be ensured by the belt guard 210.

Further, the height adjusting mechanism comprises an upper hinge seat 217, a lower hinge seat 220, an adjusting sleeve 221, an adjusting rod 218, a driving worm wheel 228 and a driving worm 226; the lower hinged seat 220 is fixedly arranged on the base plate 201, and the lower end of the adjusting sleeve 221 is hinged on the lower hinged seat 220; the upper hinge base 217 is fixedly arranged below the conveying pipe 207 through a reinforcing plate 216; the upper end of the adjusting rod 218 is hinged on the upper hinge seat 217; the lower end of the adjusting rod 218 is inserted into the upper end pipe orifice of the adjusting sleeve 221, and an adjusting external thread 219 is arranged on the lower end rod wall of the adjusting rod 218; an adjusting threaded hole is formed in the center of the driving worm wheel 228, and is threadedly mounted on the lower end of the adjusting rod 218 through the adjusting threaded hole; a supporting platform seat 224 is fixedly arranged on the outer wall of the upper end pipe orifice of the adjusting sleeve 221; the driving worm 226 is longitudinally and rotatably mounted on the supporting platform seat 224 through a worm support 225; the driving worm wheel 228 is meshed with the driving worm 226; an adjusting crank 227 is fixedly mounted on the shaft head of the driving worm 226. Height adjustment and positioning can be achieved by cooperation of the drive worm gear 228, the adjustment threaded hole, the adjustment external thread 219 and the drive worm 226; the height support can be achieved by the adjusting sleeve 221 and the adjusting rod 218, and the support height adjustment is facilitated.

Further, a support ring groove 222 is arranged on the end surface of the upper end pipe orifice of the adjusting sleeve 221; the support ball 223 is distributed in the support ring groove 222, and the support ball 223 protrudes out of the support ring groove 222; the underside of the drive worm wheel 228 is supported on a respective support ball 223. The rotational support of the driving worm wheel 228 can be achieved by the support ring groove 222 and the respective support balls 223.

Furthermore, pipe wall water leakage holes 212 are arranged on the pipe wall at intervals on the lower side of the left half section of the conveying pipe 207, and a material filter screen is arranged on the pipe wall water leakage holes 212; a strip-shaped water tank 211 is arranged on the lower side pipe wall of the left half section of the conveying pipe 207, and water leakage holes 212 on the pipe wall are positioned in the strip-shaped water tank 211; a water outlet 205 is arranged at the left end of the strip-shaped water tank 211 and above the water collecting tank 229. The juice of the material produced by the screw-feeding pressing action can be collected by the strip-shaped water tank 211 and finally flows into the water collecting tank 229 from the water outlet 205 to be collected.

When the spiral conveyor for feeding the organic fertilizer fermentation equipment is used, the height adjusting mechanism is firstly adjusted according to needs, so that the discharge pipe 213 at the right end of the conveying pipe 207 can be butted with a feed inlet of the fermentation equipment, and the discharge extension pipe 214 is connected to the feed pipe of the fermentation equipment; the conveying auger 208 conveys the straw powder in the material receiving groove 203; the juice generated in the straw crushing process can be dripped into the water collecting tank 229 from the water leakage hole at the bottom of the material receiving tank 203 for collection and discharge; when the conveying auger 208 conveys the straw powder in the conveying pipe 207, juice generated by the extrusion effect can drop into the strip-shaped water tank 211 through the pipe wall water leakage holes 212 and finally flows into the water collecting tank 229 through the water outlet 205.

As mentioned above, although the present invention has been shown and described with reference to certain preferred embodiments, it should not be construed as limiting the invention itself. Various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (6)

1. The utility model provides a screw conveyer for fertilizer fermentation equipment material loading which characterized in that: comprises a base plate (201), a packing auger conveying mechanism and a height adjusting mechanism;

the auger conveying mechanism comprises a conveying pipe (207), a conveying auger (208), a material receiving groove (203) and a conveying driving motor (209); the left end of the conveying pipe (207) is fixedly arranged on the right side surface of the material receiving groove (203), and the right end of the conveying pipe (207) is closed; the right end of the conveying auger (208) is rotatably arranged on a right end closing plate of the conveying pipe (207); the left end of the conveying auger (208) extends out of the conveying pipe (207) and is rotatably arranged on the inner bottom of the material receiving groove (203) through a rotary support (204); the conveying driving motor (209) is fixedly arranged at the right end part of the conveying pipe (207) and drives the conveying auger (208) to rotate through a driving belt;

the base plate (201) is provided with a packing auger hinged support (202) and a water collecting tank (229); the front side and the rear side of the left end of the conveying pipe (207) are respectively provided with an auger hinged shaft (206), and the conveying pipe (207) is hinged and installed on an auger hinged support (202) in a swinging mode through the auger hinged shaft (206); a bottom water leakage hole is arranged at the bottom of the material receiving groove (203), and a material filter screen is arranged at the bottom water leakage hole; the water collecting tank (229) is positioned below the material receiving tank (203), and a drain pipe (230) is communicated with the side edge of the water collecting tank (229); a discharge pipe (213) is arranged below the right end of the delivery pipe (207);

the height adjusting mechanism is arranged between the base plate (201) and the auger conveying mechanism and used for supporting and adjusting the height of the right end of the auger conveying mechanism.

2. The screw conveyor for feeding of organic fertilizer fermentation equipment as claimed in claim 1, wherein: a discharge extension pipe (214) is hung and mounted at the lower end of the discharge pipe (213); a suspension side ear (215) is arranged at the position of the bisector of the circumference of the upper end pipe orifice of the discharge extension pipe (214); the discharging extension pipe (214) is hung at the pipe orifice at the lower end of the discharging pipe (213) through two hanging side lugs (215).

3. The screw conveyor for feeding of organic fertilizer fermentation equipment as claimed in claim 1, wherein: a belt shield (210) is arranged at the right end of the conveying pipe (207); the drive belt is located within a belt guard (210).

4. The screw conveyor for feeding of organic fertilizer fermentation equipment as claimed in claim 1, wherein: the height adjusting mechanism comprises an upper hinge seat (217), a lower hinge seat (220), an adjusting sleeve (221), an adjusting rod (218), a driving worm wheel (228) and a driving worm (226); the lower hinged seat (220) is fixedly arranged on the base plate (201), and the lower end of the adjusting sleeve (221) is hinged on the lower hinged seat (220); the upper hinge seat (217) is fixedly arranged below the conveying pipe (207) through a reinforcing plate (216); the upper end of the adjusting rod (218) is hinged on the upper hinge seat (217); the lower end of the adjusting rod (218) is inserted into the upper end pipe orifice of the adjusting sleeve (221), and an adjusting external thread (219) is arranged on the lower end rod wall of the adjusting rod (218); an adjusting threaded hole is formed in the center of the driving worm wheel (228), and the adjusting threaded hole is screwed on the lower end part of the adjusting rod (218); a supporting platform seat (224) is fixedly arranged on the outer wall of the upper end pipe orifice of the adjusting sleeve (221); the driving worm (226) is longitudinally and rotatably arranged on the supporting platform seat (224) through a worm support (225); the driving worm wheel (228) is meshed with the driving worm (226); an adjusting crank (227) is fixedly arranged on the shaft head of the driving worm (226).

5. The screw conveyor for feeding of organic fertilizer fermentation equipment as claimed in claim 4, wherein: a supporting ring groove (222) is arranged on the end surface of the upper end pipe orifice of the adjusting sleeve (221); supporting balls (223) are distributed in the supporting ring groove (222), and the supporting balls (223) protrude out of the supporting ring groove (222); the underside of the drive worm wheel (228) is supported on a respective support ball (223).

6. The screw conveyor for feeding of organic fertilizer fermentation equipment as claimed in claim 1, wherein: pipe wall water leakage holes (212) are arranged on the pipe wall at the lower side of the left half section of the conveying pipe (207) at intervals, and a material filter screen is arranged on the pipe wall water leakage holes (212); a strip-shaped water tank (211) is arranged on the lower side pipe wall of the left half section of the conveying pipe (207), and water leakage holes (212) on the pipe wall are positioned in the strip-shaped water tank (211); a water outlet (205) is arranged at the left end of the strip-shaped water tank (211) and above the water collecting tank (229).

Images