CN209871376U - Biogas residue conveyer after dehydration - Google Patents

Abstract

The utility model provides a marsh gas sediment conveyer after dehydration relates to defeated technical field. The effect of smashing and saving time during transportation is achieved. This marsh gas sediment conveyer after dehydration, including automobile body, thing case, fan, material pipe, connector, device case, smash mechanism, feed mechanism, baffle and ejection of compact switch, the top welding of automobile body has the thing case, and the top pin joint of thing case has the fan, and the input cover of fan is equipped with the material pipe, and the positive surperficial cover of material pipe is equipped with the connector, and the top welding of thing incasement wall has the device case, and the bottom of device incasement portion has been placed and has been smashed the mechanism. This marsh gas sediment conveyer after dehydration turns on the switch, and the battery supplies power, and the feeder hopper is transferred to marsh gas sediment after the dehydration, and the motor drives and smashes the tooth and rotate, smashes the tooth and smashes marsh gas sediment at the protective housing, and the marsh gas sediment of smashing passes through the sieve and drops at the top of swash plate, enters into the feed inlet through the discharge gate, smashes in the transportation, save time's effect.

Description

Biogas residue conveyer after dehydration

Technical Field

The utility model relates to the technical field of transportation devices, in particular to a dehydrated biogas residue transportation device.

Background

The biogas residues are solid substances left after organic substances are fermented, the biogas residues are rich in organic matters, humic acid, micronutrients, various amino acids, enzymes, beneficial microorganisms and the like, can play a good role in improving soil, also contain elements such as nitrogen, phosphorus, potassium and the like, can meet the growth requirements of crops, and have two functions of quick acting and delayed acting in the comprehensive utilization process and can be used as base fertilizer and additional fertilizer.

The biogas residues are left in the biogas digester generally, the cleaned biogas residues are conveyed to a processing plant for dehydration treatment, and then are conveyed to a production plant, the biogas residues are large and small when being cleaned, after dehydration is finished, the biogas residues are conveyed to the production plant for crushing, then grass can be processed for production, and when the biogas residues are used as waste materials, a large amount of time is wasted for crushing, and when the plant is busy particularly, in order to drive work, the time is saved, the crushing time can be compressed as much as possible, so that the crushing is not thorough, the prepared fertilizer has an unsatisfactory effect when being used.

SUMMERY OF THE UTILITY MODEL

The invention aims to provide a dehydrated biogas residue conveying device which can crush in the process of conveying and save time.

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: the utility model provides a marsh gas sediment conveyer after dehydration, includes automobile body, thing case, fan, material pipe, connector, device case, smashes mechanism, feed mechanism, baffle and ejection of compact switch, the top welding of automobile body has the thing case, the top pin joint of thing case has the fan, the input cover of fan is equipped with the material pipe, the positive surface cover of material pipe is equipped with the connector, the top welding of thing incasement wall has the device case, smash the mechanism has been placed to smash the bottom of device incasement portion, smash the left side fixed mounting of mechanism and have feed mechanism, there is the baffle through bolt swing joint on the thing case, the right side of thing case is inserted and is equipped with ejection of compact switch.

Smash mechanism includes guard box, slider, sieve, swash plate, fender bracket, motor, radiator, battery, feeder hopper and smashes the tooth, there is the sieve inside the guard box through slider swing joint, the bottom welding of guard box inner wall has the swash plate, the welding of one side of guard box inner wall has the fender bracket, the bottom pin joint of fender bracket inner wall has the motor, the top fixed mounting of motor has the radiator, the battery has been posted to one side of fender bracket inner wall, the top welding of guard box has the feeder hopper, the output swing joint of motor has smashes the tooth.

Feed mechanism includes stock column, rotary column, helical tooth, first belt pulley, motor, second belt pulley, belt, feed inlet and ejection of compact interface, the inside swing joint of stock column has the rotary column, the winding is provided with the helical tooth on the rotary column, the left side welding of rotary column has first belt pulley, the top riveting of stock column has the motor, the output swing joint of motor has the second belt pulley, first belt pulley passes through belt transmission with the second belt pulley and is connected, the feed inlet has been seted up at the top of stock column, the left side of stock column is inserted and is equipped with ejection of compact interface.

Preferably, the output end of the fan penetrates through the top of the object box, and the connector is matched with the discharging interface.

Preferably, the top of guard box is seted up with feeder hopper assorted rectangle through-hole, the output of motor runs through one side of fender bracket.

Preferably, a discharge port is formed in the left side of the protection box and is matched with the feed port.

Preferably, the material column and the protection box are welded at an included angle of 45 degrees, and the discharge port is positioned at the right left side of the feed port.

Preferably, the output end of the radiator is sleeved with an air pipe, and the air pipe penetrates through one side of the protection frame, which is the same as the protection box.

Preferably, the first belt pulley penetrates through one side of the rotary column, and the spiral teeth are matched with the material column.

The utility model provides a biogas residue conveyer after dehydration. The method has the following beneficial effects:

1. this marsh gas sediment conveyer after dehydration turns on the switch, and the battery supplies power, and the feeder hopper is transferred to marsh gas sediment after the dehydration, and the motor drives and smashes the tooth and rotate, smashes the tooth and smashes marsh gas sediment at the protective housing, and the marsh gas sediment of smashing passes through the sieve and drops at the top of swash plate, enters into the feed inlet through the discharge gate, smashes in the transportation, save time's effect.

2. This marsh gas sediment conveyer after dehydration, the motor drives the second belt pulley simultaneously and rotates, and the second belt pulley passes through the belt and drives first belt pulley rotation, makes the rotary column drive the helical tooth and rotate, makes the marsh gas sediment pass through the rotation of helical tooth, enters into ejection of compact interface, and the fan rotates simultaneously, inhales the material pipe with the marsh gas sediment through the connector, enters into the thing case through the material pipe, and automatic the feeding.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the breaking mechanism of the present invention;

fig. 3 is the structural schematic diagram of the feeding mechanism of the present invention.

In the figure: 1 vehicle body, 2 article boxes, 3 fans, 4 material pipes, 5 connectors, 6 device boxes, 7 smashing mechanisms, 701 protection boxes, 702 sliding blocks, 703 sieve plates, 704 inclined plates, 705 protection frames, 706 motors, 707 radiators, 708 storage batteries, 709 feed hoppers, 710 smashing teeth, 8 feeding mechanisms, 801 material columns, 802 rotating columns, 803 spiral teeth, 804 first belt pulleys, 805 motors, 806 second belt pulleys, 807 belts, 808 feeding ports, 809 discharging interfaces, 9 baffles and 10 discharging switches.

Detailed Description

According to the first aspect of the utility model, the utility model provides a biogas residue transportation device after dehydration, as shown in figure 1-3, comprising a vehicle body 1, a material box 2, a fan 3, a material pipe 4, a connector 5, a device box 6, a breaking mechanism 7, a feeding mechanism 8, a baffle 9 and a discharge switch 10, wherein the top of the vehicle body 1 is welded with the material box 2, the top of the material box 2 is pin-jointed with the fan 3, the output end of the fan 3 penetrates the top of the material box 2, the input end of the fan 3 is sleeved with the material pipe 4, the front surface of the material pipe 4 is sleeved with the connector 5, the connector 5 is welded with the top of the inner wall of the material box 2 matched with the discharge interface 809, the breaking mechanism 7 is placed at the bottom inside the device box 6, the feeding mechanism 8 is fixedly installed at the left side of the breaking mechanism 7, the baffle 9 is movably connected with the material box, a discharging switch 10 is inserted at the right side of the article box 2.

The breaking mechanism 7 comprises a protection box 701, a sliding block 702, a sieve plate 703, an inclined plate 704, a protection frame 705, a motor 706, a radiator 707, a storage battery 708, a feed hopper 709 and breaking teeth 710, the inside of the protection box 701 is movably connected with the sieve plate 703 through the sliding block 702, the left side of the protection box 701 is provided with a discharge port matched with the feed port 808, the top of the protection box 701 is provided with a rectangular through hole matched with the feed hopper 709, the inclined plate 704 is welded at the bottom of the inner wall of the protection box 701, the protection frame 705 is welded at one side of the inner wall of the protection box 701, the motor 706 is connected with the bottom pin of the inner wall of the protection frame 705 through a pin, the output end of the motor 706 penetrates through one side of the protection frame 705, the radiator 707 is fixedly installed at the top of the motor 706, an air pipe is sleeved at the output end, the top of the protection box 701 is welded with a feed hopper 709, the output end of the motor 706 is movably connected with a breaking tooth 710, a switch is turned on, the storage battery 708 supplies power, the dehydrated biogas residues are transferred into the feed hopper 709, the motor 706 drives the breaking tooth 710 to rotate, the breaking tooth 710 breaks the biogas residues in the protection box 701, the broken biogas residues fall on the top of the inclined plate 704 through the sieve plate 703 and enter the feed inlet 808 through the discharge port, and the biogas residues are crushed during transportation, so that the time is saved.

The feeding mechanism 8 comprises a material column 801, a rotary column 802, spiral teeth 803, a first belt pulley 804, a motor 805, a second belt pulley 806, a belt 807, a feeding port 808 and a discharging port 809, wherein the rotary column 802 is movably connected inside the material column 801, the material column 801 and a protection box 701 are welded at an included angle of 45 degrees, the discharging port is positioned on the right left side of the feeding port 808, the spiral teeth 803 are wound on the rotary column 802, the first belt pulley 804 is welded on the left side of the rotary column 802, the first belt pulley 804 penetrates through one side of the rotary column 802, the spiral teeth 803 are matched with the material column 801, the motor 805 is riveted on the top of the material column 801, the second belt pulley 806 is movably connected to the output end of the motor 805, the first belt pulley 804 is in transmission connection with the second belt pulley 806 through the belt 807, the feeding port 808 is arranged on the top of the material column 801, the discharging port 809 is inserted on the left side of the material column 801, and, second belt pulley 806 passes through belt 807 and drives first belt pulley 804 and rotate, makes rotary column 802 drive helical tooth 803 and rotate, makes the natural pond sediment pass through the rotation of helical tooth 803, enters into ejection of compact interface 809, and fan 3 rotates simultaneously, inhales natural pond sediment to material pipe 4 through connector 5, enters into thing case 2 through material pipe 4, and automatic the feeding.

The electrical components presented in the document are all electrically connected with an external master controller and 220V mains, and the master controller can be a conventional known device controlled by a computer or the like.

The working principle is as follows: the switch of the baffle plate 9 is opened, the breaking mechanism 7 and the feeding mechanism 8 are taken out, the discharging port 809 and the connector 5 are installed, the feed hopper 709 is positioned under the dewatering device, the switch is opened, the storage battery 708 supplies power, the dewatered biogas residues are transferred into the feed hopper 709, the motor 706 drives the breaking teeth 710 to rotate, the breaking teeth 710 break the biogas residues in the protective box 701, the broken biogas residues fall on the top of the inclined plate 704 through the sieve plate 703, enter into feed inlet 808 through the discharge gate, motor 805 drives second belt pulley 806 simultaneously and rotates, and second belt pulley 806 drives first belt pulley 804 through belt 807 and rotates, makes rotary column 802 drive helical tooth 803 and rotates, makes the natural pond sediment pass through the rotation of helical tooth 803, enters into ejection of compact interface 809, and fan 3 rotates simultaneously, inhales material pipe 4 through connector 5 with natural pond sediment, enters into thing case 2 through material pipe 4.

To sum up, the storage battery 708 supplies power to the dehydrated biogas residue conveying device, the dehydrated biogas residue is transferred to the feed hopper 709, the motor 706 drives the breaking teeth 710 to rotate, the breaking teeth 710 break the biogas residue in the protective box 701, the broken biogas residue falls on the top of the inclined plate 704 through the sieve plate 703 and enters the feed inlet 808 through the discharge port, and the biogas residue is crushed during the conveying process, so that the time is saved.

And, motor 805 drives second belt pulley 806 simultaneously and rotates, and second belt pulley 806 drives first belt pulley 804 through belt 807 and rotates, makes rotary column 802 drive helical tooth 803 and rotate, makes the natural pond sediment pass through the rotation of helical tooth 803, enters into ejection of compact interface 809, and fan 3 rotates simultaneously, inhales the natural pond sediment to material pipe 4 through connector 5, enters into thing case 2 through material pipe 4, carries out the material loading automatically.

Claims (7)

1. The utility model provides a marsh slag conveyer after dehydration, includes automobile body (1), thing case (2), fan (3), material pipe (4), connector (5), device case (6), smashes mechanism (7), feed mechanism (8), baffle (9) and ejection of compact switch (10), its characterized in that: the device is characterized in that an object box (2) is welded at the top of the vehicle body (1), a fan (3) is connected to the top of the object box (2) in a pin mode, a material pipe (4) is sleeved at the input end of the fan (3), a connector (5) is sleeved on the front surface of the material pipe (4), a device box (6) is welded at the top of the inner wall of the object box (2), a smashing mechanism (7) is placed at the bottom inside the device box (6), a feeding mechanism (8) is fixedly installed on the left side of the smashing mechanism (7), a baffle (9) is movably connected to the object box (2) through bolts, and a discharging switch (10) is inserted at the right side of the object box (2);

the breaking mechanism (7) comprises a protection box (701), a slide block (702), a sieve plate (703), a sloping plate (704), a protection frame (705), a motor (706), a radiator (707), a storage battery (708), a feed hopper (709) and breaking teeth (710), the inside of the protection box (701) is movably connected with a sieve plate (703) through a sliding block (702), the bottom of the inner wall of the protection box (701) is welded with an inclined plate (704), one side of the inner wall of the protection box (701) is welded with a protection frame (705), the bottom of the inner wall of the protective frame (705) is connected with a motor (706) by a pin, the top of the motor (706) is fixedly provided with a radiator (707), a storage battery (708) is attached to one side of the inner wall of the protection frame (705), a feed hopper (709) is welded to the top of the protection box (701), and a breaking tooth (710) is movably connected to the output end of the motor (706);

feeding mechanism (8) include material column (801), rotary column (802), helical tooth (803), first belt pulley (804), motor (805), second belt pulley (806), belt (807), feed inlet (808) and ejection of compact interface (809), the inside swing joint of material column (801) has rotary column (802), the winding is provided with helical tooth (803) on rotary column (802), the left side welding of rotary column (802) has first belt pulley (804), the top riveting of material column (801) has motor (805), the output swing joint of motor (805) has second belt pulley (806), first belt pulley (804) and second belt pulley (806) pass through belt (807) transmission and are connected, feed inlet (808) have been seted up at the top of material column (801), the left side of material column (801) is inserted and is equipped with ejection of compact interface (809).

2. The dehydrated biogas residue transport device according to claim 1, characterized in that: the output end of the fan (3) penetrates through the top of the article box (2), and the connector (5) is matched with the discharging interface (809).

3. The dehydrated biogas residue transport device according to claim 1, characterized in that: the top of guard box (701) is seted up with feeder hopper (709) assorted rectangle through-hole, the output of motor (706) runs through one side of fender bracket (705).

4. The dehydrated biogas residue transport device according to claim 1, characterized in that: a discharge hole is formed in the left side of the protection box (701) and is matched with the feed hole (808).

5. The dehydrated biogas residue transport device according to claim 1, characterized in that: the material column (801) and the protection box (701) are welded at an included angle of 45 degrees, and the discharge hole is located on the right left side of the feed port (808).

6. The dehydrated biogas residue transport device according to claim 1, characterized in that: the output end of the radiator (707) is sleeved with an air pipe, and the air pipe penetrates through the same side of the protection frame (705) and the protection box (701).

7. The dehydrated biogas residue transport device according to claim 1, characterized in that: the first belt pulley (804) penetrates through one side of the rotating column (802), and the spiral teeth (803) are matched with the material column (801).