CN108380345B

CN108380345B - Organic fertilizer production equipment

Info

Publication number: CN108380345B
Application number: CN201810055088.5A
Authority: CN
Inventors: 尹莹; 王海球
Original assignee: Nanjing Huoyanyan Environmental Protection Technology Co ltd
Current assignee: Nanjing Huoyanyan Environmental Protection Technology Co ltd
Priority date: 2018-01-19
Filing date: 2018-01-19
Publication date: 2021-07-23
Anticipated expiration: 2038-01-19
Also published as: CN108380345A

Abstract

The invention relates to improved organic fertilizer production equipment which comprises a production machine base, wherein a sunken groove is formed in the end face of the bottom of the production machine base, a grinding rotating block is connected in the sunken groove in a rotating and matching mode, a first conical cavity is formed in the end face of the top of the grinding rotating block, a second conical cavity is formed in the end face of the bottom of the grinding rotating block, a first through cavity is communicated between the first conical cavity and the second conical cavity, a toothed ring is fixedly arranged on the outer surface of the grinding rotating block in the circumferential direction, a tooth groove is formed in the inner wall of the production machine base on the rear side of the sunken groove, a transfer cavity is formed in the inner wall of the production machine base on the upper side of the sunken groove, and a charging hole extending up and down is formed in the inner wall of the production machine base on the front side of the transfer cavity.

Description

Organic fertilizer production equipment

Technical Field

The invention relates to the technical field of organic fertilizers, in particular to organic fertilizer production equipment.

Background

The organic fertilizer is mainly derived from plants and/or animals, and is a carbon-containing material which is applied to soil to provide plant nutrition as a main function. Through biomass, animal and plant discarded object, plant residual processing and come, grinding work is an important link in the course of working, exists mainly to rely on the manual work to waste time and energy, grinding speed is slow, grind inhomogeneous shortcoming when carrying out the grinding in the fertilizer production process at present, consequently needs to develop a labour saving and time saving, the production facility of the fertilizer that grinding speed is fast, the grinding is even.

Disclosure of Invention

The invention aims to provide organic fertilizer production equipment which is used for overcoming the defects in the prior art.

The organic fertilizer production equipment comprises a production machine base, wherein a sunken groove is formed in the bottom end face of the production machine base, a grinding rotating block is connected in the sunken groove in a rotating and matching mode, a first conical cavity is formed in the top end face of the grinding rotating block, a second conical cavity is formed in the bottom end face of the grinding rotating block, a first through cavity is communicated between the first conical cavity and the second conical cavity, a toothed ring is fixedly arranged on the outer surface of the grinding rotating block in the circumferential direction, a tooth groove is formed in the inner wall of the production machine base on the rear side of the sunken groove, a transfer cavity is formed in the inner wall of the production machine base on the upper side of the sunken groove, a hole extending up and down is formed in the inner wall of the production machine base on the front side of the transfer cavity, a rotating cavity is communicated with the front side of the feeding hole, and an upper rotating rod and a lower rotating rod are respectively arranged on the upper side and the lower side of the rotating cavity, the upper rotary rod and the lower rotary rod are respectively connected with the inner wall of the front side of the charging hole in a rotating matching manner, the rear extension end of the upper rotary rod is connected with the main motor in a power matching manner, the outer surface of the main motor is arranged in the inner wall of the rear side of the charging hole and is fixedly connected with the inner wall of the rear side of the charging hole in a matching manner, the rear extension end of the lower rotary rod is connected with the rear extension end of the charging hole in a rotating matching manner, the upper rotary rod and the lower rotary rod in the rotating cavity are connected with a transfer belt in a transmission matching manner, a plurality of groups of chopping saw cutters are respectively and fixedly arranged on the outer surfaces of the upper rotary rod and the lower rotary rod in the charging hole in a circumferential direction, a second through cavity is communicated with the depressed groove, a first through cavity is arranged in the inner wall of the production machine base on the upper side of the transfer cavity, a second through cavity is arranged in the inner wall of the production machine base on the rear side of the first through cavity, and is positioned right above the tooth socket, the transmission device is characterized in that a sliding block is connected in a sliding fit manner in the transmission cavity, a steering shaft is connected in the sliding block in a rotating fit manner, a steering arm which extends downwards is connected to the bottom of the steering shaft in a power connection manner, an extension section at the bottom of the steering arm sequentially passes through the second through cavity, the first taper cavity and the first through cavity and then extends into the second taper cavity, a taper grinding wheel fixedly connected with the extension tail end at the bottom of the steering arm is arranged in the second taper cavity, a spline cavity is arranged in the top end face of the steering shaft, a first steering shaft is connected between the first cavity and the transmission cavity in a rotating fit manner, a first taper wheel extending into the first cavity is connected to the tail end at the top of the first steering shaft in a power connection manner, a spline rod extending into the transmission cavity and used for being connected with the spline cavity in a matching manner is connected to the first cavity and the second cavity in a power connection manner, and a transmission member is arranged between the first cavity and the second cavity, a driving component is arranged in the tooth groove, a transferring component is arranged in the sliding block at the rear side of the steering shaft, and the top end face of the production machine base is also provided with a lighting device.

According to the further technical scheme, the top end face of the production machine base is provided with a feeding vibrator which is communicated with the extending tail end of the top of the feeding hole, and the extending tail end of the bottom of the feeding hole is communicated with the first conical cavity.

According to a further technical scheme, the transmission component comprises a second steering shaft which is arranged between the first hole cavity and the second hole cavity in a rotating fit connection mode, a second conical wheel extending into the first hole cavity is fixedly arranged at the front side extending tail end of the second steering shaft, the bottom of the front side of the second conical wheel is connected with the top of the rear side of the first conical wheel in a matching mode, and a third conical wheel extending into the second hole cavity is fixedly arranged at the rear side extending tail end of the second steering shaft.

According to a further technical scheme, the driving component comprises a toothed wheel which is arranged in the tooth socket in a clearance fit connection mode, the front side of the toothed wheel extends into the concave groove and is in power fit connection with the toothed ring, the bottom of the toothed wheel is in power connection with a motor, the outer surface of the motor is installed in the inner bottom wall of the tooth socket and is in fixed fit connection with the inner bottom wall of the tooth socket, a third steering shaft is connected between the second hole cavity and the tooth socket in a rotating fit mode, the tail end of the top of the third steering shaft is in power connection with a fourth conical wheel which extends into the second hole cavity, the bottom of the front side of the fourth conical wheel is in matched fit connection with the top of the rear side of the third conical wheel, and the bottom end of the third steering shaft is in fixed fit connection with the end face of the bottom of the toothed wheel.

According to a further technical scheme, the adjusting component comprises a spiral rod in threaded fit connection with the sliding block, the bottom end of the spiral rod is in rotating fit connection with the bottom wall of the transmission cavity, the top extending end of the spiral rod is in power fit connection with the motor II, and the outer surface of the motor is installed in the top wall of the transmission cavity and is in fixed fit connection with the top wall of the transmission cavity.

According to the technical scheme, the lighting device comprises a lamp holder fixedly mounted at the rear side of the end face of the top of the production machine base, and an energy-saving lamp is mounted in the end face of the upper side of the lamp holder.

The invention has the beneficial effects that: the invention has simple structure and convenient operation, a concave groove is arranged in the bottom end surface of the production machine base, a grinding rotating block is connected in the concave groove in a rotating and matching way, a first taper-shaped cavity is arranged in the top end surface of the grinding rotating block, a second taper-shaped cavity is arranged in the bottom end surface of the grinding rotating block, a first through cavity is communicated and arranged between the first taper-shaped cavity and the second taper-shaped cavity, a tooth-shaped ring is fixedly arranged on the outer surface of the grinding rotating block in the circumferential direction, a tooth socket is arranged in the inner wall of the production machine base at the rear side of the concave groove, a transfer cavity is arranged in the inner wall of the production machine base at the upper side of the concave groove, a charging hole which is arranged in an up-and-down extending way is arranged in the inner wall of the production machine base at the front side of the transfer cavity, a rotating cavity is communicated and arranged at the front side of the charging hole, an upper rotating rod and a lower rotating rod are respectively arranged at the upper side and the lower side of the rotating cavity, and the extending tail ends of the front side of the upper rotating rod are respectively in a rotating and matched and connected with the inner wall of the charging hole in a rotating way, the rear side extending end of the upper rotating roller is connected with the main motor in a power matching manner, the outer surface of the main motor is arranged in the inner wall of the rear side of the charging hole and is fixedly connected with the inner wall of the rear side of the charging hole in a matching manner, the rear side extending end of the lower rotating roller is connected with the rear side extending end of the charging hole in a rotating manner, a plurality of groups of chopping saw cutters are fixedly arranged on the outer surfaces of the upper rotating roller and the lower rotating roller in the charging hole in the circumferential direction respectively, a second through cavity is communicated with the concave groove and is arranged in the transmission cavity, a first hole cavity is arranged in the inner wall of the production machine base on the upper side of the transmission cavity, a second hole cavity is arranged in the inner wall of the production machine base on the rear side of the first hole cavity and is positioned right above the tooth socket, a sliding block is connected in the transmission cavity in a sliding manner, and a steering shaft is connected in the sliding block in a rotating manner, the bottom of the steering shaft is in power connection with a steering arm which extends downwards, the bottom extension section of the steering arm sequentially passes through the second through cavity, the first taper cavity and the first through cavity and then extends into the second taper cavity, a taper grinding wheel fixedly connected with the bottom extension tail end of the steering arm is arranged in the second taper cavity, a spline cavity is arranged in the top end face of the steering shaft, a first steering shaft is connected between the first cavity and the transmission cavity in a rotating fit manner, the top tail end of the first steering shaft is in power connection with a first taper wheel extending into the first cavity, the bottom tail end of the first steering shaft is in power connection with a spline rod extending into the transmission cavity and used for being in fit connection with the spline cavity, a transmission member is arranged between the first cavity and the second cavity, a driving member is arranged in the spline cavity, and a regulating member is arranged in the sliding block at the rear side of the steering shaft, thereby can realize carrying out earlier the shredding work before the grinding, increase the agility of follow-up grinding work, can realize the reverse rotation work of automatic control grinding turning block and cone grinding wheel to improve grinding efficiency and quality, thereby through transferring convenient quick overhaul and maintenance of component, prevent that the grinding material from blockking up.

Drawings

FIG. 1 is a schematic diagram of the internal structure of an organic fertilizer production apparatus according to the present invention;

fig. 2 is an enlarged schematic view of fig. 1 at a.

Detailed Description

The present invention will be described in detail with reference to fig. 1 to 2.

Referring to fig. 1-2, the organic fertilizer production apparatus according to the embodiment of the present invention includes a production machine base 8, a concave groove 81 is disposed in a bottom end surface of the production machine base 8, a grinding rotating block 810 is rotatably and fittingly connected in the concave groove 81, a first tapered cavity 812 is disposed in a top end surface of the grinding rotating block 810, a second tapered cavity 813 is disposed in a bottom end surface of the grinding rotating block 810, a first through cavity 814 is disposed between the first tapered cavity 812 and the second tapered cavity 813, a tooth-shaped ring 811 is fixedly disposed on an outer surface of the grinding rotating block 810 in a circumferential direction, a tooth socket 82 is disposed in an inner wall of the production machine base 8 at a rear side of the concave groove 81, a transfer cavity 83 is disposed in an inner wall of the production machine base 8 at an upper side of the concave groove 81, and a feed hole 86 extending up and down is disposed in an inner wall of the production machine base 8 at a front side of the transfer cavity 83, the front side of the feed opening 86 is communicated with a rotating cavity 803, the upper and lower sides of the rotating cavity 803 are respectively provided with an upper rotating roller 806 and a lower rotating roller 804, the front side extending end of the upper rotating roller 806 and the lower rotating roller 804 is respectively connected with the front side inner wall of the feed opening 86 in a rotating fit manner, the rear side extending end of the upper rotating roller 806 is connected with a main motor 801 in a power fit manner, the outer surface of the main motor 801 is arranged in the rear side inner wall of the feed opening 86 and is fixedly connected with the inner wall of the feed opening 86 in a matching manner, the rear side extending end of the lower rotating roller 806 is connected with the rear side extending end of the feed opening 86 in a rotating fit manner, a transmission belt 802 is connected between the upper rotating roller 806 and the lower rotating roller 804 in the rotating cavity 803 in a transmission fit manner, a plurality of chopping knives 805 are respectively and fixedly arranged on the outer surfaces of the upper rotating roller 806 and the lower rotating roller 804 in the feed opening 86 in the circumferential direction, and a second through cavity 833 is arranged between the transmission cavity 83 and the depressed groove 81, a first hole cavity 84 is arranged in the inner wall of the production machine base 8 on the upper side of the transfer cavity 83, a second hole cavity 85 is arranged in the inner wall of the production machine base 8 on the rear side of the first hole cavity 84, the second hole cavity 85 is positioned right above the tooth socket 82, a sliding block 831 is connected in the transfer cavity 83 in a sliding fit manner, a steering shaft 832 is connected in the sliding block 831 in a rotating fit manner, the bottom of the steering shaft 832 is connected with a steering arm 834 extending downwards in a power manner, an extending section at the bottom of the steering arm 834 sequentially passes through the second hole cavity 833, the first tapered cavity 812 and the first through cavity 814 and then extends into the second tapered cavity 813, a grinding wheel 815 fixedly connected with the extending tail end at the bottom of the steering arm 834 is arranged in the second tapered cavity 813, a spline cavity 8321 is arranged in the end face of the top of the steering shaft 832, and a first steering shaft 842 is connected between the first hole cavity 84 and the transfer cavity 83 in a rotating fit manner, the tail end of the top of the first steering shaft 842 is in power connection with a first conical wheel 843 extending into the first hole cavity 84, the tail end of the bottom of the first steering shaft 842 is in power connection with a spline rod 8421 extending into the transmission cavity 83 and being in fit connection with the spline cavity 8321, a transmission member is arranged between the first hole cavity 84 and the second hole cavity 85, a driving member is arranged in the tooth groove 82, an adjusting member is arranged in the sliding block 831 at the rear side of the steering shaft 832, and the top end face of the production machine base 8 is further provided with an illumination device.

Advantageously or exemplarily, the top end face of the production machine base 8 is provided with a feeding funnel 87 which is arranged to communicate with the top extended end of the feeding hole 86, and the bottom extended end of the feeding hole 86 is arranged to communicate with the first tapered cavity 812, so as to realize automatic feeding operation.

Advantageously or exemplarily, the transmission member comprises a second steering shaft 853 disposed between the first bore 84 and the second bore 85 in a rotationally-fitting connection, a front extended end of the second steering shaft 853 is fixedly provided with a second tapered wheel 841 extending into the first bore 84, a front bottom of the second tapered wheel 841 is in a fitting connection with a rear top of the first tapered wheel 843, and a rear extended end of the second steering shaft 853 is fixedly provided with a third tapered wheel 852 extending into the second bore 85, so that the power automatic control operation is realized.

Advantageously or exemplarily, said driving member comprises a toothed wheel 821 with a clearance-fit connection arranged inside said tooth slot 82, the front side of the toothed wheel 821 extends into the concave groove 81 and is connected with the toothed ring 811 in a power fit way, the bottom of the toothed wheel 821 is connected with an electric motor 823 by power, the outer surface of the electric motor 823 is arranged in the inner bottom wall of the tooth socket 82, and is fixedly matched and connected with the second hole cavity 85, a third steering shaft 822 is connected between the second hole cavity 85 and the tooth groove 82 in a rotating and matching way, a fourth tapered wheel 851 extending into the second bore 85 is power connected to the top end of the third steering shaft 822, the bottom of the front side of the fourth cone-shaped wheel 851 is matched and connected with the top of the back side of the third cone-shaped wheel 852, the bottom end of the third steering shaft 822 is fixedly connected with the bottom end surface of the toothed wheel 821 in a matching way, thereby achieving automatic control of the rotation of the grinding rotor 810 and the conical grinding wheel 815.

Advantageously or exemplarily, the manoeuvring means comprises a screw 835 in threaded engagement with the sliding block 831, the bottom end of the screw 835 is in rotating engagement with the bottom wall of the transfer chamber 83, the top extended end of the screw 835 is in power engagement with a second motor 836, and the second motor 836 is externally mounted in the top wall of the transfer chamber 83 and is in fixed engagement therewith, so as to realize the lifting control work of the tapered grinding wheel 815, prevent blockage and facilitate maintenance and repair.

Advantageously or exemplarily, the lighting device comprises a lamp holder 88 fixedly installed at the rear side of the top end face of the production machine base 8, and an energy-saving lamp 89 is installed in the upper side end face of the lamp holder 88, so as to provide a lighting effect.

In the initial state, the sliding block 831 is located at the topmost position in the transfer chamber 83, at this time, the sliding block 831 drives the spline chamber 8321 in the top end face of the steering shaft 832 to be completely matched and connected with the spline rod 8421, at the same time, the steering shaft 832 drives the top section of the steering arm 834 to maximally extend into the transfer chamber 83, at this time, the steering arm 834 drives the tapered grinding wheel 815 at the bottom end to maximally approach the top wall in the second tapered chamber 813, so that the grinding state is realized.

When grinding is needed, the raw material to be ground is poured into the feeding hopper 87, then the feeding hole 86 falls into the first tapered cavity 812, at this time, the motor 823 controls the toothed wheel 821 and the third steering shaft 822 on the top of the toothed wheel 821 to rotate clockwise, so as to realize the grinding operation of rotating the toothed ring 811 and the grinding rotating block 810 fixedly connected with the toothed ring 811 counterclockwise by the first tapered cavity 812, at this time, the fourth tapered wheel 851 on the top end of the third steering shaft 822 drives the third tapered wheel 852 to rotate, at the same time, the third tapered wheel 852 drives the second steering shaft 853 and the second tapered wheel 841 on the front end of the second steering shaft 853 to rotate, at this time, the first tapered wheel 843 is driven by the second tapered wheel 841 to rotate clockwise, the spline rod 8421 is driven by the first steering shaft 842 to rotate, and at the same time, the spline rod 8421 drives the steering shaft and the steering arm 834 on the bottom of the steering shaft 832 to rotate, at this time, the conical grinding wheel 815 at the bottom end is driven by the steering arm 834 to rotate clockwise for grinding, so that the grinding efficiency and the grinding quality are improved; when the plug or the maintenance and the overhaul are needed, the screw rod 835 is controlled to rotate by the second motor 836, the screw rod 835 drives the sliding block 831 to gradually slide along the bottom direction in the transmission cavity 83, meanwhile, the steering arm 834 drives the tapered grinding wheel 815 to gradually slide along the bottom direction in the second tapered cavity 813, when the sliding block 831 slides to the bottommost position in the transmission cavity 83, at the moment, the spline cavity 8321 in the top end face of the steering shaft 832 is furthest away from the spline rod 8421, and meanwhile, the steering arm 834 drives the top end face of the tapered grinding wheel 815 to furthest away from the top wall in the second tapered cavity 813.

The invention has the beneficial effects that: the invention has simple structure and convenient operation, a concave groove is arranged in the bottom end surface of the production machine base, a grinding rotating block is connected in the concave groove in a rotating and matching way, a first taper-shaped cavity is arranged in the top end surface of the grinding rotating block, a second taper-shaped cavity is arranged in the bottom end surface of the grinding rotating block, a first through cavity is communicated and arranged between the first taper-shaped cavity and the second taper-shaped cavity, a tooth-shaped ring is fixedly arranged on the outer surface of the grinding rotating block in the circumferential direction, a tooth socket is arranged in the inner wall of the production machine base at the rear side of the concave groove, a transfer cavity is arranged in the inner wall of the production machine base at the upper side of the concave groove, a charging hole which is arranged in an up-and-down extending way is arranged in the inner wall of the production machine base at the front side of the transfer cavity, a rotating cavity is communicated and arranged at the front side of the charging hole, an upper, the rear side extending end of the upper rotating roller is connected with the main motor in a power matching manner, the outer surface of the main motor is arranged in the inner wall of the rear side of the charging hole and is fixedly connected with the inner wall of the rear side of the charging hole in a matching manner, the rear side extending end of the lower rotating roller is connected with the rear side extending end of the charging hole in a rotating manner, a plurality of groups of chopping saw cutters are fixedly arranged on the outer surfaces of the upper rotating roller and the lower rotating roller in the charging hole in the circumferential direction respectively, a second through cavity is communicated with the concave groove and is arranged in the transmission cavity, a first hole cavity is arranged in the inner wall of the production machine base on the upper side of the transmission cavity, a second hole cavity is arranged in the inner wall of the production machine base on the rear side of the first hole cavity and is positioned right above the tooth socket, a sliding block is connected in the transmission cavity in a sliding manner, and a steering shaft is connected in the sliding block in a rotating manner, the bottom of the steering shaft is in power connection with a steering arm which extends downwards, the bottom extension section of the steering arm sequentially passes through the second through cavity, the first taper cavity and the first through cavity and then extends into the second taper cavity, a taper grinding wheel fixedly connected with the bottom extension tail end of the steering arm is arranged in the second taper cavity, a spline cavity is arranged in the top end face of the steering shaft, a first steering shaft is connected between the first cavity and the transmission cavity in a rotating fit manner, the top tail end of the first steering shaft is in power connection with a first taper wheel extending into the first cavity, the bottom tail end of the first steering shaft is in power connection with a spline rod extending into the transmission cavity and used for being in fit connection with the spline cavity, a transmission member is arranged between the first cavity and the second cavity, a driving member is arranged in the spline cavity, and a regulating member is arranged in the sliding block at the rear side of the steering shaft, thereby can realize carrying out earlier the shredding work before the grinding, increase the agility of follow-up grinding work, can realize the reverse rotation work of automatic control grinding turning block and cone grinding wheel to improve grinding efficiency and quality, thereby through transferring convenient quick overhaul and maintenance of component, prevent that the grinding material from blockking up.

It will be apparent to those skilled in the art that various modifications may be made to the above embodiments without departing from the general spirit and concept of the invention. All falling within the scope of protection of the present invention. The protection scheme of the invention is subject to the appended claims.

Claims

1. The utility model provides an organic fertilizer production equipment, includes production frame, its characterized in that: the production machine base is characterized in that a concave groove is formed in the end face of the bottom of the production machine base, a grinding rotating block is connected in the concave groove in a rotating and matching mode, a first taper cavity is formed in the end face of the top of the grinding rotating block, a second taper cavity is formed in the end face of the bottom of the grinding rotating block, a first through cavity is formed between the first taper cavity and the second taper cavity in a communicating mode, a tooth-shaped ring is fixedly arranged on the outer surface of the grinding rotating block in the circumferential direction, a tooth socket is formed in the inner wall of the production machine base on the rear side of the concave groove, a transfer cavity is formed in the inner wall of the production machine base on the upper side of the concave groove in the circumferential direction, a feeding hole extending up and down is formed in the inner wall of the production machine base on the front side of the transfer cavity in the circumferential direction, a rotating cavity is formed in the communicating mode of the front side of the feeding hole and the front side of the feeding hole, an upper rotating roller and a lower rotating roller are respectively arranged on the front side of the upper rotating roller and the lower rotating end of the rotating roller in a matching mode, the rear side extending end of the upper rotating roller is connected with the main motor in a power fit manner, the outer surface of the main motor is arranged in the inner wall of the rear side of the charging hole and is fixedly connected with the inner wall of the rear side of the charging hole in a matching manner, the rear side extending end of the lower rotating roller is connected with the rear side extending end of the charging hole in a rotating manner, a transmission belt is connected between the upper rotating roller and the lower rotating roller in a transmission fit manner in the rotating cavity, a plurality of groups of chopping saw cutters are fixedly arranged on the outer surfaces of the upper rotating roller and the lower rotating roller in the charging hole in the circumferential direction respectively, a second through cavity is communicated with the sunken groove, a first hole cavity is arranged in the inner wall of the production machine base at the upper side of the transmission cavity, a second hole cavity is arranged in the inner wall of the production machine base at the rear side of the first hole cavity, a sliding block is connected in a sliding fit manner, and is connected with a rotating shaft in the sliding block in a matching manner, the bottom of the steering shaft is in power connection with a steering arm which extends downwards, the bottom extension section of the steering arm sequentially passes through the second through cavity, the first taper cavity and the first through cavity and then extends into the second taper cavity, a taper grinding wheel fixedly connected with the bottom extension tail end of the steering arm is arranged in the second taper cavity, a spline cavity is arranged in the top end face of the steering shaft, a first steering shaft is connected between the first cavity and the transmission cavity in a rotating fit manner, the top tail end of the first steering shaft is in power connection with a first taper wheel extending into the first cavity, the bottom tail end of the first steering shaft is in power connection with a spline rod extending into the transmission cavity and used for being in fit connection with the spline cavity, a transmission member is arranged between the first cavity and the second cavity, a driving member is arranged in the spline cavity, and a regulating member is arranged in the sliding block at the rear side of the steering shaft, the top end face of the production machine base is also provided with an illumination device.

2. The organic fertilizer production equipment of claim 1, characterized in that: the top end face of the production machine base is provided with a feeding hopper communicated with the top extension tail end of the feeding hole, and the bottom extension tail end of the feeding hole is communicated with the first conical cavity.

3. The organic fertilizer production equipment of claim 1, characterized in that: the transmission component comprises a second steering shaft which is arranged between the first hole cavity and the second hole cavity in a rotating fit connection mode, a second conical wheel extending into the first hole cavity is fixedly arranged at the front side extending tail end of the second steering shaft, the bottom of the front side of the second conical wheel is connected with the top of the rear side of the first conical wheel in a matching mode, and a third conical wheel extending into the second hole cavity is fixedly arranged at the rear side extending tail end of the second steering shaft.

4. The organic fertilizer production apparatus according to claim 3, characterized in that: the driving component comprises a toothed wheel which is arranged in the tooth socket in a clearance fit connection mode, the front side of the toothed wheel extends into the concave groove and is in power fit connection with the toothed ring, the bottom of the toothed wheel is in power connection with a motor, the outer surface of the motor is installed in the inner bottom wall of the tooth socket and is in fixed fit connection with the inner bottom wall of the tooth socket, a third steering shaft is connected between the second hole cavity and the tooth socket in a rotating fit mode, the tail end of the top of the third steering shaft is in power connection with a fourth conical wheel which extends into the second hole cavity, the bottom of the front side of the fourth conical wheel is in matched fit connection with the top of the rear side of the third conical wheel, and the bottom end of the third steering shaft is in fixed fit connection with the bottom end face of the toothed wheel.

5. The organic fertilizer production equipment of claim 1, characterized in that: the transfer component comprises a spiral rod in threaded fit connection with the sliding block, the bottom end of the spiral rod is in rotating fit connection with the bottom wall of the transfer cavity, the top extending end of the spiral rod is in power fit connection with the motor II, and the outer surface of the motor is installed in the top wall of the transfer cavity and is in fixed fit connection with the motor II.

6. The organic fertilizer production equipment of claim 1, characterized in that: the illumination device comprises a lamp bracket fixedly installed at the rear side of the end face of the top of the production machine base, and an energy-saving lamp is installed in the end face of the upper side of the lamp bracket.