CN110455025B - A convenient to use type cooling device for bio-feritlizer - Google Patents

Abstract

The invention relates to a cooling device for biological fertilizer, in particular to a convenient-to-use cooling device for biological fertilizer. The technical problem is as follows: provides a convenient-to-use cooling device for biological fertilizer, which has high cooling efficiency and convenient cooling. The technical scheme of the invention is as follows: a convenient-to-use cooling device for biological fertilizer comprises a large cooling cylinder, a feed hopper, a large baffle, a deflector rod, a water inlet pipe, a one-way valve, a water outlet pipe, a first valve, a first large rotating shaft, a first large rotating roller and the like; the middle upper part of the large cooling cylinder is provided with a triangular cooling tank, the lower part of the large cooling cylinder is provided with a rectangular water tank, and the rectangular water tank is positioned below the triangular cooling tank. The convenient-to-use cooling device for the biological fertilizer provided by the invention can be used for repeatedly and circularly cooling the biological fertilizer, and has the advantages of high cooling efficiency, convenience in cooling and time saving.

Description

A convenient to use type cooling device for bio-feritlizer

Technical Field

The invention relates to a cooling device for biological fertilizer, in particular to a convenient-to-use cooling device for biological fertilizer.

Background

The broad biological fertilizer is a product containing nutrient elements required by crops and microorganisms, is a combination of organisms, organic matters and inorganic matters, can replace chemical fertilizers to provide various nutrient elements required by the growth and development of the crops, is a product which enables the crops to obtain a specific fertilizer effect through the life activities of the microorganisms, is also called an inoculant or bacterial manure, and is required to be cooled frequently in the production of the biological fertilizer.

Disclosure of Invention

In order to overcome the defects that the prior biological fertilizer with high temperature is cooled by natural ventilation, the cooling efficiency is low, the cooling is troublesome, and the time waste is serious, the technical problem is as follows: provides a convenient-to-use cooling device for biological fertilizer, which has high cooling efficiency and convenient cooling.

The technical scheme of the invention is as follows: a convenient-to-use cooling device for biological fertilizer comprises a large cooling cylinder, a feed hopper, a large baffle, a deflector rod, a water inlet pipe, a check valve, a drain pipe, a first valve, a first large rotating shaft, a first large rotating roller, a second large rotating shaft, a second large rotating roller, a third large rotating shaft, a third large rotating roller, a circulating belt, a scraper plate, a first filter screen, a first baffle, a first movable rod, a second filter screen, a second baffle and a second movable rod, wherein a triangular cooling groove is formed in the middle upper part of the large cooling cylinder, a rectangular water groove is formed in the lower part of the large cooling cylinder and is positioned below the triangular cooling groove, the top of the large cooling cylinder is connected with the feed hopper, the feed hopper is communicated with the triangular cooling groove, a discharge port is formed in the rear side wall of the large cooling cylinder and is positioned behind the triangular cooling groove, and is communicated with the triangular cooling groove, the large cooling cylinder is provided with a rectangular groove, the rectangular groove is positioned behind the triangular cooling groove and communicated with a discharge port, the rear side wall of the large cooling cylinder is provided with a lifting groove, the lifting groove is positioned above the discharge port and is positioned behind the rectangular groove, the lifting groove is communicated with the rectangular groove, a large baffle is positioned in the discharge port and the rectangular groove and used for blocking the discharge port, the large baffle is in sliding fit with the rectangular groove, the rear side of the large baffle is connected with a deflector rod which is in sliding fit with the rectangular groove, the lower part of the right side of the large cooling cylinder is connected with a water inlet pipe, a check valve is arranged on the water inlet pipe, the water inlet pipe is communicated with the rectangular groove, the lower part of the left side of the large cooling cylinder is connected with a water drain pipe, a first valve is arranged on the water drain pipe and communicated with the rectangular groove, a first large rotating shaft is positioned in the triangular cooling groove, and the first large rotating shaft is rotatably connected with the side wall of the large cooling cylinder, the middle part of a first large rotating roller is fixedly sleeved on the first large rotating shaft, a second large rotating shaft is positioned at the lower right part of the first large rotating roller, the second large rotating shaft is rotationally connected with the side wall of a large cooling cylinder, the middle part of the second large rotating roller is fixedly sleeved on the second large rotating shaft, a third large rotating shaft is positioned at the left side of the second large rotating roller, the third large rotating shaft is rotationally connected with the side wall of the large cooling cylinder, the middle part of the third large rotating roller is fixedly sleeved on the third large rotating shaft, the third large rotating roller is positioned at the lower left part of the first large rotating roller, the second large rotating roller and the third large rotating roller are all positioned in a triangular cooling groove, a circulating belt is sleeved on the first large rotating roller, the second large rotating roller and the third large rotating roller, the first large rotating roller, the second large rotating roller and the third large rotating roller are all contacted with the circulating belt, the outer side of the circulating belt is connected with a scraping plate, the right oblique side wall of the large cooling cylinder is provided with a first large movable groove, the right outer oblique side wall of the large cooling cylinder is provided with a first small movable groove and a first vent hole, the first small movable groove is positioned above the first vent hole, the first small movable groove and the first vent hole are both positioned at the right side of the first large movable groove, the first small movable groove and the first vent hole are both communicated with the first large movable groove, the right inner oblique side wall of the large cooling cylinder is embedded with a first filter screen which is positioned at the right side of the triangular cooling groove, a first baffle plate is slidably positioned in the first large movable groove, the first baffle plate is positioned at the right side of the first filter screen, the first baffle plate is contacted with the first filter screen, the upper end of the right side of the first baffle plate is connected with a first movable rod, the first movable rod is slidably positioned in the first small movable groove, the first baffle plate is provided with a third vent hole, the third vent hole is positioned below the first movable rod, the left oblique side wall of the large cooling cylinder is provided with a second large movable groove, the left outer oblique side wall of the large cooling cylinder is provided with a second small movable groove and a second ventilation hole, the second small movable groove is located above the second ventilation hole, the second small movable groove and the second ventilation hole are located on the left side of the second large movable groove, the second small movable groove and the second ventilation hole are communicated with the second large movable groove, a second filter screen is embedded in the left inner oblique side wall of the large cooling cylinder, the second filter screen is located on the left side of the triangular cooling groove, a second baffle is slidably located in the second large movable groove, the second baffle is located on the left side of the second filter screen, the second baffle is in contact with the second filter screen, the upper end of the left side of the second baffle is connected with a second movable rod, the second movable rod is slidably located in the second small movable groove, the second baffle is provided with a fourth ventilation hole, and the fourth ventilation hole is located below the second movable rod.

Further, still including the cover, the connecting pipe, the second valve, the fan, air cleaner and base, the outer oblique lateral wall in the right side of big cooling cylinder is connected with the cover, the cover is located the below of first little movable groove, first ventilation hole is located the cover, the bottom of cover is connected with the connecting pipe, install second valve and fan on the connecting pipe, the fan is located the below of second valve, the lower extreme of connecting pipe is connected with air cleaner, the base is located the fan, the below of air cleaner and big cooling cylinder, fan and air cleaner all are connected with the base.

Further, the cooling device comprises a first guide rod, a first lifting block, a second guide rod and a second lifting block, wherein the right outer oblique side wall of the large cooling cylinder is connected with the first guide rod, the first guide rod is positioned above the first small movable groove, the first lifting block is positioned on the right side of the large cooling cylinder, the first lifting block is contacted with the large cooling cylinder, the upper part of the first lifting block is provided with a first guide hole, the first guide rod is positioned in the first guide hole, the first lifting block is contacted with the first guide rod, the lower part of the first lifting block is provided with a first jack, the first jack is corresponding to the first movable rod, the lower end of the first lifting block is provided with a first arc-shaped clamping groove, the first movable rod is positioned in the first arc-shaped clamping groove, the first lifting block is positioned above the first movable rod, the first lifting block is contacted with the first movable rod, the left outer oblique side wall of the large cooling cylinder is connected with the second guide rod, the second guide rod is positioned above the second small movable groove, the second elevator is located the left side of big cooling cylinder, the second elevator contacts with big cooling cylinder, open on the upper portion of second elevator has the second guiding hole, the second guide bar is located the second guiding hole, the second guide bar contacts with the second elevator, open on the lower part of second elevator has the second jack, open the lower extreme of second elevator has second arc draw-in groove, the second movable rod is located second arc draw-in groove, the second elevator is located the top of second movable rod, the second elevator contacts with the second movable rod.

Further, still including first bevel gear, second bevel gear and rotating electrical machines, the rear end of first big rotation axis is connected with first bevel gear, and first bevel gear is located the rear of big cooling cylinder, and second bevel gear is located first bevel gear's rear below, and second bevel gear meshes with first bevel gear mutually, and the upper end of rotating electrical machines output shaft is connected with second bevel gear, and the preceding lateral wall of rotating electrical machines is connected with the back lateral wall of big cooling cylinder.

The invention has the beneficial effects that: the convenient-to-use cooling device for the biological fertilizer, provided by the invention, can be used for repeatedly and circularly cooling the biological fertilizer, has the advantages of high cooling efficiency, convenience in cooling, time saving, convenience for developing and carrying out work, simple structure, easiness in production and manufacture, easiness in maintenance and repair, and low production, manufacture and maintenance cost.

Drawings

Fig. 1 is a schematic front view of the present invention.

Fig. 2 is a rear view of the large cooling cylinder according to the present invention.

Fig. 3 is an enlarged schematic view of part a of the present invention.

Fig. 4 is an enlarged schematic view of part B of the present invention.

Part names and serial numbers in the figure: 1 large cooling cylinder, 2 feed hopper, 3 large baffle, 4 deflector rod, 5 water inlet pipe, 6 one-way valve, 7 water outlet pipe, 8 first valve, 9 first large rotating shaft, 10 first large rotating roller, 11 second large rotating shaft, 12 second large rotating roller, 13 third large rotating shaft, 14 third large rotating roller, 15 circulating belt, 16 scraping plate, 17 first filter screen, 18 first baffle, 19 first movable rod, 20 second filter screen, 21 second baffle, 22 second movable rod, 31 cover, 32 connecting pipe, 33 second valve, 34 fan, 35 air filter, 36 base, 41 first guide rod, 42 first lifting block, 43 second guide rod, 44 second lifting block, 51 first bevel gear, 52 second bevel gear, 53 rotating motor, 101 triangular cooling tank, 102 rectangular water tank, 103 discharge gate, 104 rectangular groove, 105 lifting groove, 106 first big movable groove, 107 first small movable groove, 108 first vent hole, 109 second big movable groove, 110 second small movable groove, 111 second vent hole, 181 third vent hole, 211 fourth vent hole, 421 first guide hole, 422 first jack, 423 first arc clamping groove, 441 second guide hole, 442 second jack, 443 second arc clamping groove.

Detailed Description

The present invention will be further described with reference to specific examples, which are illustrative of the invention and are not to be construed as limiting the invention.

Example 1

A convenient-to-use cooling device for biological fertilizer is shown in figure 1 and comprises a large cooling cylinder 1, a feed hopper 2, a large baffle 3, a deflector rod 4, a water inlet pipe 5, a one-way valve 6, a water outlet pipe 7, a first valve 8, a first large rotating shaft 9, a first large rotating roller 10, a second large rotating shaft 11, a second large rotating roller 12, a third large rotating shaft 13, a third large rotating roller 14, a circulating belt 15, a scraping plate 16, a first filter screen 17, a first baffle 18, a first movable rod 19, a second filter screen 20, a second baffle 21 and a second movable rod 22, wherein a triangular cooling tank 101 is arranged at the middle upper part of the large cooling cylinder 1, a rectangular water tank 102 is arranged at the lower part of the large cooling cylinder 1, the rectangular water tank 102 is positioned below the triangular cooling tank 101, the top of the large cooling cylinder 1 is connected with the feed hopper 2, the feed hopper 2 is communicated with the triangular cooling tank 101, a discharge port 103 is arranged on the rear side wall of the large cooling cylinder 1, the discharge opening 103 is positioned behind the triangular cooling groove 101, the discharge opening 103 is communicated with the triangular cooling groove 101, the large cooling cylinder 1 is provided with a rectangular groove 104, the rectangular groove 104 is positioned behind the triangular cooling groove 101, the rectangular groove 104 is communicated with the discharge opening 103, the rear side wall of the large cooling cylinder 1 is provided with a lifting groove 105, the lifting groove 105 is positioned above the discharge opening 103, the lifting groove 105 is positioned behind the rectangular groove 104, the lifting groove 105 is communicated with the rectangular groove 104, the large baffle 3 is positioned in the discharge opening 103 and the rectangular groove 104, the large baffle 3 is used for blocking the discharge opening 103, the large baffle 3 is in sliding fit with the rectangular groove 104, the rear side of the large baffle 3 is connected with a deflector rod 4, the deflector rod 4 is slidably positioned in the lifting groove 105, the lower part on the right side of the large cooling cylinder 1 is connected with a water inlet pipe 5, the water inlet pipe 5 is provided with a one-way valve 6, the water inlet pipe 5 is communicated with the rectangular groove 102, the lower part on the left side of the large cooling cylinder 1 is connected with a drain pipe 7, the water discharge pipe 7 is provided with a first valve 8, the water discharge pipe 7 is communicated with a rectangular water tank 102, a first large rotating shaft 9 is positioned in a triangular cooling tank 101, the first large rotating shaft 9 is rotatably connected with the side wall of a large cooling cylinder 1, the middle part of a first large rotating roller 10 is fixedly sleeved on the first large rotating shaft 9, a second large rotating shaft 11 is positioned at the lower right part of the first large rotating roller 10, the second large rotating shaft 11 is rotatably connected with the side wall of the large cooling cylinder 1, the middle part of a second large rotating roller 12 is fixedly sleeved on the second large rotating shaft 11, a third large rotating shaft 13 is positioned at the left side of the second large rotating roller 12, the third large rotating shaft 13 is rotatably connected with the side wall of the large cooling cylinder 1, the middle part of a third large rotating roller 14 is fixedly sleeved on the third large rotating shaft 13, the third large rotating roller 14 is positioned at the lower left part of the first large rotating roller 10, the second large rotating roller 12 and the third large rotating roller 14 are all positioned in the triangular cooling tank 101, the circulating belt 15 is sleeved on the first large rotating roller 10, the second large rotating roller 12 and the third large rotating roller 14, the first large rotating roller 10, the second large rotating roller 12 and the third large rotating roller 14 are all contacted with the circulating belt 15, the outer side of the circulating belt 15 is connected with a scraping plate 16, the right oblique side wall of the large cooling cylinder 1 is provided with a first large movable groove 106, the right outer oblique side wall of the large cooling cylinder 1 is provided with a first small movable groove 107 and a first vent hole 108, the first small movable groove 107 is positioned above the first vent hole 108, the first small movable groove 107 and the first vent hole 108 are both positioned on the right side of the first large movable groove 106, the first small movable groove 107 and the first vent hole 108 are both communicated with the first large movable groove 106, the right inner oblique side wall of the large cooling cylinder 1 is embedded with a first filter screen 17, the first filter screen 17 is positioned on the right side of the triangular cooling groove 101, the first baffle 18 is positioned in the first large movable groove 106, the first baffle plate 18 is positioned at the right side of the first filter screen 17, the first baffle plate 18 is contacted with the first filter screen 17, the upper end of the right side of the first baffle plate 18 is connected with a first movable rod 19, the first baffle plate 18 is connected with the first movable rod 19 by welding, the first movable rod 19 is slidably positioned in a first small movable groove 107, the first baffle plate 18 is provided with a third vent hole 181, the third vent hole 181 is positioned below the first movable rod 19, the left oblique side wall of the large cooling cylinder 1 is provided with a second large movable groove 109, the left outer oblique side wall of the large cooling cylinder 1 is provided with a second small movable groove 110 and a second vent hole 111, the second small movable groove 110 is positioned above the second vent hole 111, the second small movable groove 110 and the second vent hole 111 are both positioned at the left side of the second large movable groove 109, the second small movable groove 110 and the second vent hole 111 are both communicated with the second large movable groove 109, the left inner oblique side wall of the large cooling cylinder 1 is provided with a second filter screen 20, the second filter screen 20 is located on the left side of the triangular cooling groove 101, the second baffle 21 is slidably located in the second large movable groove 109, the second baffle 21 is located on the left side of the second filter screen 20, the second baffle 21 contacts with the second filter screen 20, the upper end of the left side of the second baffle 21 is connected with the second movable rod 22, the second baffle 21 is connected with the second movable rod 22 in a welding connection mode, the second movable rod 22 is slidably located in the second small movable groove 110, the second baffle 21 is provided with a fourth ventilation hole 211, and the fourth ventilation hole 211 is located below the second movable rod 22.

Example 2

A convenient-to-use cooling device for biological fertilizers is disclosed, as shown in figure 1-2, and comprises a large cooling cylinder 1, a feed hopper 2, a large baffle 3, a deflector rod 4, a water inlet pipe 5, a check valve 6, a water outlet pipe 7, a first valve 8, a first large rotating shaft 9, a first large rotating roller 10, a second large rotating shaft 11, a second large rotating roller 12, a third large rotating shaft 13, a third large rotating roller 14, a circulating belt 15, a scraper plate 16, a first filter screen 17, a first baffle 18, a first movable rod 19, a second filter screen 20, a second baffle 21 and a second movable rod 22, wherein a triangular cooling tank 101 is arranged at the middle upper part of the large cooling cylinder 1, a rectangular water tank 102 is arranged at the lower part of the large cooling cylinder 1, the rectangular water tank 102 is positioned below the triangular cooling tank 101, the top of the large cooling cylinder 1 is connected with the feed hopper 2, and the feed hopper 2 is communicated with the triangular cooling tank 101, the rear side wall of the large cooling cylinder 1 is provided with a discharge hole 103, the discharge hole 103 is positioned behind the triangular cooling groove 101, the discharge hole 103 is communicated with the triangular cooling groove 101, the large cooling cylinder 1 is provided with a rectangular groove 104, the rectangular groove 104 is positioned behind the triangular cooling groove 101, the rectangular groove 104 is communicated with the discharge hole 103, the rear side wall of the large cooling cylinder 1 is provided with a lifting groove 105, the lifting groove 105 is positioned above the discharge hole 103, the lifting groove 105 is positioned behind the rectangular groove 104, the lifting groove 105 is communicated with the rectangular groove 104, the large baffle 3 is positioned in the discharge hole 103 and the rectangular groove 104, the large baffle 3 is used for blocking the discharge hole 103, the large baffle 3 is in sliding fit with the rectangular groove 104, the rear side of the large baffle 3 is connected with a shift lever 4, the shift lever 4 is in the lifting groove 105 in a sliding manner, the lower part on the right side of the large cooling cylinder 1 is connected with a water inlet pipe 5, the water inlet pipe 5 is provided with a one-way valve 6, the water inlet pipe 5 is communicated with the rectangular groove 102, the left lower part of the large cooling cylinder 1 is connected with a drain pipe 7, the drain pipe 7 is provided with a first valve 8, the drain pipe 7 is communicated with a rectangular water tank 102, a first large rotating shaft 9 is positioned in a triangular cooling tank 101, the first large rotating shaft 9 is rotationally connected with the side wall of the large cooling cylinder 1, the middle part of a first large rotating roller 10 is fixedly sleeved on the first large rotating shaft 9, a second large rotating shaft 11 is positioned at the right lower part of the first large rotating roller 10, the second large rotating shaft 11 is rotationally connected with the side wall of the large cooling cylinder 1, the middle part of a second large rotating roller 12 is fixedly sleeved on the second large rotating shaft 11, a third large rotating shaft 13 is positioned at the left side of the second large rotating roller 12, the third large rotating shaft 13 is rotationally connected with the side wall of the large cooling cylinder 1, the middle part of a third large rotating roller 14 is fixedly sleeved on the third large rotating shaft 13, the third large rotating roller 14 is positioned at the left lower part of the first large rotating roller 10, the first large rotating roller 10, the second large rotating roller 12 and the third large rotating roller 14 are all positioned in a triangular cooling groove 101, a circulating belt 15 is sleeved on the first large rotating roller 10, the second large rotating roller 12 and the third large rotating roller 14, the first large rotating roller 10, the second large rotating roller 12 and the third large rotating roller 14 are all contacted with the circulating belt 15, the outer side of the circulating belt 15 is connected with a scraping plate 16, the right oblique side wall of the large cooling cylinder 1 is provided with a first large movable groove 106, the right outer oblique side wall of the large cooling cylinder 1 is provided with a first small movable groove 107 and a first vent hole 108, the first small movable groove 107 is positioned above the first vent hole 108, the first small movable groove 107 and the first vent hole 108 are both positioned on the right side of the first large movable groove 106, the first small movable groove 107 and the first vent hole 108 are both communicated with the first large movable groove 106, a first filter screen 17 is embedded in the right inner oblique side wall of the large cooling cylinder 1, the first filter screen 17 is positioned at the right side of the triangular cooling groove 101, the first baffle 18 is slidably positioned in the first large movable groove 106, the first baffle 18 is positioned at the right side of the first filter screen 17, the first baffle 18 is in contact with the first filter screen 17, the upper end of the right side of the first baffle 18 is connected with the first movable rod 19, the first movable rod 19 is slidably positioned in the first small movable groove 107, the first baffle 18 is provided with a third vent hole 181, the third vent hole 181 is positioned below the first movable rod 19, the left inclined side wall of the large cooling cylinder 1 is provided with a second large movable groove 109, the left outer inclined side wall of the large cooling cylinder 1 is provided with a second small movable groove 110 and a second vent hole 111, the second small movable groove 110 is positioned above the second vent hole 111, the second small movable groove 110 and the second vent hole 111 are both positioned at the left side of the second large movable groove 109, the second small movable groove 110 and the second vent hole 111 are both communicated with the second large movable groove 109, the second filter screen 20 is embedded in the left inner oblique side wall of the large cooling cylinder 1, the second filter screen 20 is located on the left side of the triangular cooling groove 101, the second baffle 21 is slidably located in the second large movable groove 109, the second baffle 21 is located on the left side of the second filter screen 20, the second baffle 21 is in contact with the second filter screen 20, the upper end on the left side of the second baffle 21 is connected with the second movable rod 22, the second movable rod 22 is slidably located in the second small movable groove 110, the second baffle 21 is provided with a fourth ventilation hole 211, and the fourth ventilation hole 211 is located below the second movable rod 22.

The cooling device comprises a large cooling cylinder 1, a cover 31, a connecting pipe 32, a second valve 33, a fan 34, an air filter 35 and a base 36, wherein the cover 31 is connected to the right outer oblique side wall of the large cooling cylinder 1, the large cooling cylinder 1 is connected with the cover 31 in a welding connection mode, the cover 31 is positioned below a first small movable groove 107, a first vent 108 is positioned in the cover 31, the connecting pipe 32 is connected to the bottom of the cover 31, the second valve 33 and the fan 34 are installed on the connecting pipe 32, the fan 34 is positioned below the second valve 33, the air filter 35 is connected to the lower end of the connecting pipe 32, the base 36 is positioned below the fan 34, the air filter 35 and the large cooling cylinder 1, the fan 34 and the air filter 35 are all connected with the base 36.

Example 3

A convenient-to-use cooling device for biological fertilizers is disclosed, as shown in figures 1-4, and comprises a large cooling cylinder 1, a feed hopper 2, a large baffle 3, a deflector rod 4, a water inlet pipe 5, a check valve 6, a water outlet pipe 7, a first valve 8, a first large rotating shaft 9, a first large rotating roller 10, a second large rotating shaft 11, a second large rotating roller 12, a third large rotating shaft 13, a third large rotating roller 14, a circulating belt 15, a scraper plate 16, a first filter screen 17, a first baffle 18, a first movable rod 19, a second filter screen 20, a second baffle 21 and a second movable rod 22, wherein a triangular cooling tank 101 is arranged at the middle upper part of the large cooling cylinder 1, a rectangular water tank 102 is arranged at the lower part of the large cooling cylinder 1, the rectangular water tank 102 is positioned below the triangular cooling tank 101, the top of the large cooling cylinder 1 is connected with the feed hopper 2, and the feed hopper 2 is communicated with the triangular cooling tank 101, the rear side wall of the large cooling cylinder 1 is provided with a discharge hole 103, the discharge hole 103 is positioned behind the triangular cooling groove 101, the discharge hole 103 is communicated with the triangular cooling groove 101, the large cooling cylinder 1 is provided with a rectangular groove 104, the rectangular groove 104 is positioned behind the triangular cooling groove 101, the rectangular groove 104 is communicated with the discharge hole 103, the rear side wall of the large cooling cylinder 1 is provided with a lifting groove 105, the lifting groove 105 is positioned above the discharge hole 103, the lifting groove 105 is positioned behind the rectangular groove 104, the lifting groove 105 is communicated with the rectangular groove 104, the large baffle 3 is positioned in the discharge hole 103 and the rectangular groove 104, the large baffle 3 is used for blocking the discharge hole 103, the large baffle 3 is in sliding fit with the rectangular groove 104, the rear side of the large baffle 3 is connected with a shift lever 4, the shift lever 4 is in the lifting groove 105 in a sliding manner, the lower part on the right side of the large cooling cylinder 1 is connected with a water inlet pipe 5, the water inlet pipe 5 is provided with a one-way valve 6, the water inlet pipe 5 is communicated with the rectangular groove 102, the left lower part of the large cooling cylinder 1 is connected with a drain pipe 7, the drain pipe 7 is provided with a first valve 8, the drain pipe 7 is communicated with a rectangular water tank 102, a first large rotating shaft 9 is positioned in a triangular cooling tank 101, the first large rotating shaft 9 is rotationally connected with the side wall of the large cooling cylinder 1, the middle part of a first large rotating roller 10 is fixedly sleeved on the first large rotating shaft 9, a second large rotating shaft 11 is positioned at the right lower part of the first large rotating roller 10, the second large rotating shaft 11 is rotationally connected with the side wall of the large cooling cylinder 1, the middle part of a second large rotating roller 12 is fixedly sleeved on the second large rotating shaft 11, a third large rotating shaft 13 is positioned at the left side of the second large rotating roller 12, the third large rotating shaft 13 is rotationally connected with the side wall of the large cooling cylinder 1, the middle part of a third large rotating roller 14 is fixedly sleeved on the third large rotating shaft 13, the third large rotating roller 14 is positioned at the left lower part of the first large rotating roller 10, the first large rotating roller 10, the second large rotating roller 12 and the third large rotating roller 14 are all positioned in a triangular cooling groove 101, a circulating belt 15 is sleeved on the first large rotating roller 10, the second large rotating roller 12 and the third large rotating roller 14, the first large rotating roller 10, the second large rotating roller 12 and the third large rotating roller 14 are all contacted with the circulating belt 15, the outer side of the circulating belt 15 is connected with a scraping plate 16, the right oblique side wall of the large cooling cylinder 1 is provided with a first large movable groove 106, the right outer oblique side wall of the large cooling cylinder 1 is provided with a first small movable groove 107 and a first vent hole 108, the first small movable groove 107 is positioned above the first vent hole 108, the first small movable groove 107 and the first vent hole 108 are both positioned on the right side of the first large movable groove 106, the first small movable groove 107 and the first vent hole 108 are both communicated with the first large movable groove 106, a first filter screen 17 is embedded in the right inner oblique side wall of the large cooling cylinder 1, the first filter screen 17 is positioned at the right side of the triangular cooling groove 101, the first baffle 18 is slidably positioned in the first large movable groove 106, the first baffle 18 is positioned at the right side of the first filter screen 17, the first baffle 18 is in contact with the first filter screen 17, the upper end of the right side of the first baffle 18 is connected with the first movable rod 19, the first movable rod 19 is slidably positioned in the first small movable groove 107, the first baffle 18 is provided with a third vent hole 181, the third vent hole 181 is positioned below the first movable rod 19, the left inclined side wall of the large cooling cylinder 1 is provided with a second large movable groove 109, the left outer inclined side wall of the large cooling cylinder 1 is provided with a second small movable groove 110 and a second vent hole 111, the second small movable groove 110 is positioned above the second vent hole 111, the second small movable groove 110 and the second vent hole 111 are both positioned at the left side of the second large movable groove 109, the second small movable groove 110 and the second vent hole 111 are both communicated with the second large movable groove 109, the second filter screen 20 is embedded in the left inner oblique side wall of the large cooling cylinder 1, the second filter screen 20 is located on the left side of the triangular cooling groove 101, the second baffle 21 is slidably located in the second large movable groove 109, the second baffle 21 is located on the left side of the second filter screen 20, the second baffle 21 is in contact with the second filter screen 20, the upper end on the left side of the second baffle 21 is connected with the second movable rod 22, the second movable rod 22 is slidably located in the second small movable groove 110, the second baffle 21 is provided with a fourth ventilation hole 211, and the fourth ventilation hole 211 is located below the second movable rod 22.

The cooling device further comprises a cover 31, a connecting pipe 32, a second valve 33, a fan 34, an air filter 35 and a base 36, wherein the cover 31 is connected to the right outer oblique side wall of the large cooling cylinder 1, the cover 31 is located below the first small movable groove 107, the first vent hole 108 is located in the cover 31, the connecting pipe 32 is connected to the bottom of the cover 31, the second valve 33 and the fan 34 are installed on the connecting pipe 32, the fan 34 is located below the second valve 33, the air filter 35 is connected to the lower end of the connecting pipe 32, the base 36 is located below the fan 34, the air filter 35 and the large cooling cylinder 1, the fan 34 and the air filter 35 are all connected with the base 36.

The cooling device further comprises a first guide rod 41, a first lifting block 42, a second guide rod 43 and a second lifting block 44, the first guide rod 41 is connected to the right outer oblique side wall of the large cooling cylinder 1, the large cooling cylinder 1 is connected with the first guide rod 41 in a welding connection mode, the first guide rod 41 is located above the first small movable groove 107, the first lifting block 42 is located on the right side of the large cooling cylinder 1, the first lifting block 42 is in contact with the large cooling cylinder 1, a first guide hole 421 is formed in the upper portion of the first lifting block 42, the first guide rod 41 is located in the first guide hole 421, the first lifting block 42 is in contact with the first guide rod 41, a first jack 422 is formed in the lower portion of the first lifting block 42, the first jack 422 corresponds to the first movable rod 19, a first arc clamping groove 423 is formed in the lower end of the first lifting block 42, the first movable rod 19 is located in the first arc clamping groove 423, the first lifting block 42 is located above the first movable rod 19, the first lifting block 42 is in contact with the first movable rod 19, the second guide rod 43 is connected to the left outer oblique side wall of the large cooling cylinder 1, the large cooling cylinder 1 is connected with the second guide rod 43 in a welding connection mode, the second guide rod 43 is located above the second small movable groove 110, the second lifting block 44 is located on the left side of the large cooling cylinder 1, the second lifting block 44 is in contact with the large cooling cylinder 1, the second guide hole 441 is formed in the upper portion of the second lifting block 44, the second guide rod 43 is located in the second guide hole 441, the second guide rod 43 is in contact with the second lifting block 44, the second insertion hole 442 is formed in the lower portion of the second lifting block 44, the second arc-shaped clamping groove 443 is formed in the lower end of the second lifting block 44, the second movable rod 22 is located in the second arc-shaped clamping groove 443, the second lifting block 44 is located above the second movable rod 22, and the second lifting block 44 is in contact with the second movable rod 22.

Example 4

A convenient-to-use cooling device for biological fertilizers is disclosed, as shown in figures 1-4, and comprises a large cooling cylinder 1, a feed hopper 2, a large baffle 3, a deflector rod 4, a water inlet pipe 5, a check valve 6, a water outlet pipe 7, a first valve 8, a first large rotating shaft 9, a first large rotating roller 10, a second large rotating shaft 11, a second large rotating roller 12, a third large rotating shaft 13, a third large rotating roller 14, a circulating belt 15, a scraper plate 16, a first filter screen 17, a first baffle 18, a first movable rod 19, a second filter screen 20, a second baffle 21 and a second movable rod 22, wherein a triangular cooling tank 101 is arranged at the middle upper part of the large cooling cylinder 1, a rectangular water tank 102 is arranged at the lower part of the large cooling cylinder 1, the rectangular water tank 102 is positioned below the triangular cooling tank 101, the top of the large cooling cylinder 1 is connected with the feed hopper 2, and the feed hopper 2 is communicated with the triangular cooling tank 101, the rear side wall of the large cooling cylinder 1 is provided with a discharge hole 103, the discharge hole 103 is positioned behind the triangular cooling groove 101, the discharge hole 103 is communicated with the triangular cooling groove 101, the large cooling cylinder 1 is provided with a rectangular groove 104, the rectangular groove 104 is positioned behind the triangular cooling groove 101, the rectangular groove 104 is communicated with the discharge hole 103, the rear side wall of the large cooling cylinder 1 is provided with a lifting groove 105, the lifting groove 105 is positioned above the discharge hole 103, the lifting groove 105 is positioned behind the rectangular groove 104, the lifting groove 105 is communicated with the rectangular groove 104, the large baffle 3 is positioned in the discharge hole 103 and the rectangular groove 104, the large baffle 3 is used for blocking the discharge hole 103, the large baffle 3 is in sliding fit with the rectangular groove 104, the rear side of the large baffle 3 is connected with a shift lever 4, the shift lever 4 is in the lifting groove 105 in a sliding manner, the lower part on the right side of the large cooling cylinder 1 is connected with a water inlet pipe 5, the water inlet pipe 5 is provided with a one-way valve 6, the water inlet pipe 5 is communicated with the rectangular groove 102, the left lower part of the large cooling cylinder 1 is connected with a drain pipe 7, the drain pipe 7 is provided with a first valve 8, the drain pipe 7 is communicated with a rectangular water tank 102, a first large rotating shaft 9 is positioned in a triangular cooling tank 101, the first large rotating shaft 9 is rotationally connected with the side wall of the large cooling cylinder 1, the middle part of a first large rotating roller 10 is fixedly sleeved on the first large rotating shaft 9, a second large rotating shaft 11 is positioned at the right lower part of the first large rotating roller 10, the second large rotating shaft 11 is rotationally connected with the side wall of the large cooling cylinder 1, the middle part of a second large rotating roller 12 is fixedly sleeved on the second large rotating shaft 11, a third large rotating shaft 13 is positioned at the left side of the second large rotating roller 12, the third large rotating shaft 13 is rotationally connected with the side wall of the large cooling cylinder 1, the middle part of a third large rotating roller 14 is fixedly sleeved on the third large rotating shaft 13, the third large rotating roller 14 is positioned at the left lower part of the first large rotating roller 10, the first large rotating roller 10, the second large rotating roller 12 and the third large rotating roller 14 are all positioned in a triangular cooling groove 101, a circulating belt 15 is sleeved on the first large rotating roller 10, the second large rotating roller 12 and the third large rotating roller 14, the first large rotating roller 10, the second large rotating roller 12 and the third large rotating roller 14 are all contacted with the circulating belt 15, the outer side of the circulating belt 15 is connected with a scraping plate 16, the right oblique side wall of the large cooling cylinder 1 is provided with a first large movable groove 106, the right outer oblique side wall of the large cooling cylinder 1 is provided with a first small movable groove 107 and a first vent hole 108, the first small movable groove 107 is positioned above the first vent hole 108, the first small movable groove 107 and the first vent hole 108 are both positioned on the right side of the first large movable groove 106, the first small movable groove 107 and the first vent hole 108 are both communicated with the first large movable groove 106, a first filter screen 17 is embedded in the right inner oblique side wall of the large cooling cylinder 1, the first filter screen 17 is positioned at the right side of the triangular cooling groove 101, the first baffle 18 is slidably positioned in the first large movable groove 106, the first baffle 18 is positioned at the right side of the first filter screen 17, the first baffle 18 is in contact with the first filter screen 17, the upper end of the right side of the first baffle 18 is connected with the first movable rod 19, the first movable rod 19 is slidably positioned in the first small movable groove 107, the first baffle 18 is provided with a third vent hole 181, the third vent hole 181 is positioned below the first movable rod 19, the left inclined side wall of the large cooling cylinder 1 is provided with a second large movable groove 109, the left outer inclined side wall of the large cooling cylinder 1 is provided with a second small movable groove 110 and a second vent hole 111, the second small movable groove 110 is positioned above the second vent hole 111, the second small movable groove 110 and the second vent hole 111 are both positioned at the left side of the second large movable groove 109, the second small movable groove 110 and the second vent hole 111 are both communicated with the second large movable groove 109, the second filter screen 20 is embedded in the left inner oblique side wall of the large cooling cylinder 1, the second filter screen 20 is located on the left side of the triangular cooling groove 101, the second baffle 21 is slidably located in the second large movable groove 109, the second baffle 21 is located on the left side of the second filter screen 20, the second baffle 21 is in contact with the second filter screen 20, the upper end on the left side of the second baffle 21 is connected with the second movable rod 22, the second movable rod 22 is slidably located in the second small movable groove 110, the second baffle 21 is provided with a fourth ventilation hole 211, and the fourth ventilation hole 211 is located below the second movable rod 22.

The cooling device further comprises a cover 31, a connecting pipe 32, a second valve 33, a fan 34, an air filter 35 and a base 36, wherein the cover 31 is connected to the right outer oblique side wall of the large cooling cylinder 1, the cover 31 is located below the first small movable groove 107, the first vent hole 108 is located in the cover 31, the connecting pipe 32 is connected to the bottom of the cover 31, the second valve 33 and the fan 34 are installed on the connecting pipe 32, the fan 34 is located below the second valve 33, the air filter 35 is connected to the lower end of the connecting pipe 32, the base 36 is located below the fan 34, the air filter 35 and the large cooling cylinder 1, the fan 34 and the air filter 35 are all connected with the base 36.

The cooling device further comprises a first guide rod 41, a first lifting block 42, a second guide rod 43 and a second lifting block 44, the first guide rod 41 is connected to the right outer oblique side wall of the large cooling cylinder 1, the first guide rod 41 is positioned above the first small movable groove 107, the first lifting block 42 is positioned on the right side of the large cooling cylinder 1, the first lifting block 42 is in contact with the large cooling cylinder 1, a first guide hole 421 is formed in the upper portion of the first lifting block 42, the first guide rod 41 is positioned in the first guide hole 421, the first lifting block 42 is in contact with the first guide rod 41, a first jack 422 is formed in the lower portion of the first lifting block 42, the first jack 422 corresponds to the first movable rod 19, a first arc-shaped clamping groove 423 is formed in the lower end of the first lifting block 42, the first movable rod 19 is positioned in the first arc-shaped clamping groove 423, the first lifting block 42 is positioned above the first movable rod 19, the first lifting block 42 is in contact with the first movable rod 19, the left outer oblique side wall of the large cooling cylinder 1 is connected with a second guide rod 43, the second guide rod 43 is located above the second small movable groove 110, the second lifting block 44 is located on the left side of the large cooling cylinder 1, the second lifting block 44 is in contact with the large cooling cylinder 1, the upper portion of the second lifting block 44 is provided with a second guide hole 441, the second guide rod 43 is located in the second guide hole 441, the second guide rod 43 is in contact with the second lifting block 44, the lower portion of the second lifting block 44 is provided with a second jack 442, the lower end of the second lifting block 44 is provided with a second arc-shaped clamping groove 443, the second movable rod 22 is located in the second arc-shaped clamping groove 443, the second lifting block 44 is located above the second movable rod 22, and the second lifting block 44 is in contact with the second movable rod 22.

The cooling device further comprises a first bevel gear 51, a second bevel gear 52 and a rotating motor 53, wherein the first bevel gear 51 is connected to the rear end of the first large rotating shaft 9, the first large rotating shaft 9 is connected with the first bevel gear 51 in a welding connection mode, the first bevel gear 51 is located behind the large cooling cylinder 1, the second bevel gear 52 is located behind and below the first bevel gear 51, the second bevel gear 52 is meshed with the first bevel gear 51, the upper end of an output shaft of the rotating motor 53 is connected with the second bevel gear 52, and the front side wall of the rotating motor 53 is connected with the rear side wall of the large cooling cylinder 1.

In the invention, firstly, cold water is added into a rectangular water tank 102 through a water inlet pipe 5, then biological fertilizer to be cooled is added into a triangular cooling tank 101 through a feed hopper 2, meanwhile, a first large rotary roller 10 is driven to rotate through a first large rotary shaft 9, the first large rotary roller 10 drives a circulating belt 15 and a scraping plate 16 to move, a second large rotary roller 12 and a third large rotary roller 14 provide rotation guide assistance for the circulating belt 15, the scraping plate 16 drives the biological fertilizer to be cooled to the bottom in the triangular cooling tank 101, at the moment, the biological fertilizer to be cooled is cooled by the cold water in the rectangular water tank 102, after the water is heated, a first valve 8 can be opened, the biological fertilizer is discharged through a water discharge pipe 7 and is replaced by new cold water for cooling, and a first movable rod 19 and a second movable rod 22 can be pulled upwards to respectively drive a first baffle 18 and a second baffle 21 to move upwards, and make third ventilation hole 181 align with first ventilation hole 108, make fourth ventilation hole 211 align with second ventilation hole 111 simultaneously, can wait to cool off the bio-feritlizer in the triangle-shaped cooling bath 101 and carry out the ventilation cooling, first filter screen 17 and second filter screen 20 can prevent that bio-feritlizer from being blown out triangle-shaped cooling bath 101, after the cooling finishes, can upwards stimulate driving lever 4 and big baffle 3, thereby open bin outlet 103, can discharge the bio-feritlizer after the cooling, scrape flitch 16 in addition can prevent that bio-feritlizer from bonding on the cell wall of triangle-shaped cooling bath 101, high durability and convenient use.

At this time, the blower 34 may be started, and the second valve 33 may be opened, so that the air filtered by the air filter 35 is delivered into the cover 31 through the connection pipe 32, and is delivered into the triangular cooling tank 101 through the first ventilation hole 108 and the third ventilation hole 181, so that the bio-fertilizer to be cooled is efficiently cooled, and the cooling effect is better.

At this time, the first lifting block 42 and the second lifting block 44 can respectively stop the first movable rod 19 and the second movable rod 22, when the first movable rod 19 and the second movable rod 22 need to be moved, the first lifting block 42 and the second lifting block 44 can be pulled upwards, the first movable rod 19 and the second movable rod 22 can be respectively removed from the first arc-shaped clamping groove 423 and the second arc-shaped clamping groove 443, at this time, the first movable rod 19 and the second movable rod 22 can be pulled upwards, the first movable rod 19 is pulled upwards to the position below the first insertion hole 422, then the first lifting block 42 is moved downwards, the first movable rod 19 is inserted into the first insertion hole 422, so that the first baffle plate 18 is fixed, the third ventilation hole 181 is aligned with the first ventilation hole 108, the second movable rod 22 can be moved upwards to the position below the second ventilation hole 442, and then the second lifting block 44 is moved downwards, and the second movable rod 22 is inserted into the second insertion hole 442, so that the second baffle 21 can be fixed, and at the moment, the fourth ventilation hole 211 and the second ventilation hole 111 keep aligned, so that the worker can conveniently vacate his hand to perform other operations.

Can start rotating electrical machines 53 at this moment and move, rotating electrical machines 53 drives second bevel gear 52 and rotates, thereby second bevel gear 52 drives first bevel gear 51 and rotates, thereby first bevel gear 51 drives first big rotation axis 9 and first big rotatory roller 10 and rotates, utilizes rotating electrical machines 53 to replace manual operation, labour saving and time saving more.

The present application is described in detail above, and the principles and embodiments of the present application are described herein by using specific examples, which are only used to help understand the method and the core idea of the present application; meanwhile, for a person skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

Claims (4)

1. A convenient-to-use cooling device for biological fertilizer comprises a large cooling cylinder, a feed hopper, a large baffle, a deflector rod, a water inlet pipe, a check valve, a drain pipe, a first valve, a first large rotating shaft, a first large rotating roller, a second large rotating shaft, a second large rotating roller, a third large rotating shaft, a third large rotating roller, a circulating belt and a scraper plate, wherein a triangular cooling groove is formed in the middle upper part of the large cooling cylinder, a rectangular water groove is formed in the lower part of the large cooling cylinder and is positioned below the triangular cooling groove, the top of the large cooling cylinder is connected with the feed hopper, the feed hopper is communicated with the triangular cooling groove, a discharge opening is formed in the rear side wall of the large cooling cylinder and is positioned behind the triangular cooling groove, the discharge opening is communicated with the triangular cooling groove, a rectangular groove is formed in the large cooling cylinder and is positioned behind the triangular cooling groove, and is communicated with the discharge opening, the rear side wall of the large cooling cylinder is provided with a lifting groove, the lifting groove is positioned above the discharge port, the lifting groove is positioned at the rear part of the rectangular groove, the lifting groove is communicated with the rectangular groove, the large baffle is positioned in the discharge port and the rectangular groove, the large baffle is used for blocking the discharge port, the large baffle is in sliding fit with the rectangular groove, the rear side of the large baffle is connected with a deflector rod, the deflector rod is in sliding type positioned in the lifting groove, the lower part of the right side of the large cooling cylinder is connected with a water inlet pipe, a one-way valve is arranged on the water inlet pipe, the water inlet pipe is communicated with the rectangular groove, the lower part of the left side of the large cooling cylinder is connected with a drain pipe, a first valve is arranged on the drain pipe, the drain pipe is communicated with the rectangular groove, the first large rotating shaft is positioned in the triangular cooling groove and is rotatably connected with the side wall of the large cooling cylinder, the middle part of the first large rotating roller is fixedly sleeved on the first rotating shaft, the second rotating shaft is positioned below the first rotating roller, the second large rotating shaft is rotationally connected with the side wall of the large cooling cylinder, the middle part of the second large rotating roller is fixedly sleeved on the second large rotating shaft, the third large rotating shaft is positioned at the left side of the second large rotating roller, the third large rotating shaft is rotationally connected with the side wall of the large cooling cylinder, the middle part of the third large rotating roller is fixedly sleeved on the third large rotating shaft, the third large rotating roller is positioned at the left lower part of the first large rotating roller, the second large rotating roller and the third large rotating roller are all positioned in the triangular cooling groove, the circulating belt is sleeved on the first large rotating roller, the second large rotating roller and the third large rotating roller, the first large rotating roller, the second large rotating roller and the third large rotating roller are all contacted with the circulating belt, and the outer side of the circulating belt is connected with a scraping plate. The right oblique side wall of the large cooling cylinder is provided with a first large movable groove, the right outer oblique side wall of the large cooling cylinder is provided with a first small movable groove and a first vent hole, the first small movable groove is positioned above the first vent hole, the first small movable groove and the first vent hole are both positioned at the right side of the first large movable groove, the first small movable groove and the first vent hole are both communicated with the first large movable groove, the right inner oblique side wall of the large cooling cylinder is embedded with a first filter screen which is positioned at the right side of the triangular cooling groove, a first baffle plate is slidably positioned in the first large movable groove, the first baffle plate is positioned at the right side of the first filter screen, the first baffle plate is contacted with the first filter screen, the upper end of the right side of the first baffle plate is connected with a first movable rod, the first movable rod is slidably positioned in the first small movable groove, the first baffle plate is provided with a third vent hole, the third vent hole is positioned below the first movable rod, the left oblique side wall of the large cooling cylinder is provided with a second large movable groove, the left outer oblique side wall of the large cooling cylinder is provided with a second small movable groove and a second ventilation hole, the second small movable groove is located above the second ventilation hole, the second small movable groove and the second ventilation hole are located on the left side of the second large movable groove, the second small movable groove and the second ventilation hole are communicated with the second large movable groove, a second filter screen is embedded in the left inner oblique side wall of the large cooling cylinder, the second filter screen is located on the left side of the triangular cooling groove, a second baffle is slidably located in the second large movable groove, the second baffle is located on the left side of the second filter screen, the second baffle is in contact with the second filter screen, the upper end of the left side of the second baffle is connected with a second movable rod, the second movable rod is slidably located in the second small movable groove, the second baffle is provided with a fourth ventilation hole, and the fourth ventilation hole is located below the second movable rod.

2. The easy-to-use cooling device for bio-fertilizer as claimed in claim 1, further comprising a cover, a connecting pipe, a second valve, a blower, an air filter and a base, wherein the cover is connected to the right outer inclined side wall of the large cooling cylinder, the cover is located below the first small movable groove, the first ventilation hole is located in the cover, the connecting pipe is connected to the bottom of the cover, the second valve and the blower are installed on the connecting pipe, the blower is located below the second valve, the air filter is connected to the lower end of the connecting pipe, the base is located below the blower, the air filter and the large cooling cylinder, the blower and the air filter are all connected to the base.

3. The easy-to-use cooling device for biofertilizer as claimed in claim 2, further comprising a first guide bar, a first lifting block, a second guide bar and a second lifting block, wherein the right outer inclined side wall of the large cooling cylinder is connected with the first guide bar, the first guide bar is located above the first small movable groove, the first lifting block is located on the right side of the large cooling cylinder, the first lifting block is in contact with the large cooling cylinder, the upper portion of the first lifting block is provided with a first guide hole, the first guide bar is located in the first guide hole, the first lifting block is in contact with the first guide bar, the lower portion of the first lifting block is provided with a first jack corresponding to the first movable bar, the lower end of the first lifting block is provided with a first arc-shaped slot, the first movable bar is located in the first arc-shaped slot, the first lifting block is located above the first movable bar, the first lifting block is in contact with the first movable bar, the left outer oblique side wall of big cooling cylinder is connected with the second guide bar, the second guide bar is located the top of the little movable groove of second, the second elevator is located the left side of big cooling cylinder, the second elevator contacts with big cooling cylinder, open on the upper portion of second elevator has the second guiding hole, the second guide bar is located the second guiding hole, the second guide bar contacts with the second elevator, open the lower part of second elevator has the second jack, open the lower extreme of second elevator has second arc draw-in groove, the second movable rod is located second arc draw-in groove, the second elevator is located the top of second movable rod, the second elevator contacts with the second movable rod.

4. The easy-to-use cooling device for biofertilizer of claim 3, which further comprises a first bevel gear, a second bevel gear and a rotating motor, wherein the rear end of the first large rotating shaft is connected with the first bevel gear, the first bevel gear is positioned behind the large cooling cylinder, the second bevel gear is positioned behind and below the first bevel gear, the second bevel gear is meshed with the first bevel gear, the upper end of an output shaft of the rotating motor is connected with the second bevel gear, and the front side wall of the rotating motor is connected with the rear side wall of the large cooling cylinder.

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