CN210700467U - Drying-machine with structure is broken up to mud - Google Patents

Abstract

The utility model discloses a drying-machine with structure is broken up to mud, include: the material feeding device comprises a working cavity, a support, a feeding end, a discharging end, a hopper, a heating furnace, a crushed material rotary cutter, a driving main shaft, a spiral stirring cutter, a driven shaft and a second crushed material cutter, wherein the support is arranged at the bottom of the working cavity; on one hand, the sludge is broken up and shaken for many times while being dried, and the processed product has high fine crushing degree and good practicability; on the other hand, on the traditional drying mechanism, ultrasonic waves are added to accelerate the evaporation of water movement, the drying speed is high, and the drying effect is good.

Description

Drying-machine with structure is broken up to mud

Technical Field

The utility model belongs to the drying equipment field, in particular to drying-machine with structure is broken up to mud.

Background

Along with the development of social economy and urbanization in China, the generation and the quantity of urban sewage are continuously increased. According to the related prediction, the urban sewage quantity in China will be greatly increased in the next 20 years. At present, the conventional drying equipment in domestic market and the conventional drying equipment in main international market are basically manufactured in China, which shows that the history of import guide of the drying equipment in China is finished. China has achieved promising success both in basic theory and in drying technology applications. Have gone forward in the world in some areas.

But the application and popularization of the drying technology are restricted to a certain extent due to the relative lag of the test means. With the development of domestic sewage treatment industry, the total treatment water amount and the treatment degree of a sewage treatment plant are continuously enlarged and improved, and the amount of generated sludge is increased day by day. A large amount of sludge cannot be timely and reasonably treated, and the heavy burden of a sewage treatment plant is caused. The existing dryers still have many disadvantages, for example, the existing dryers basically only can perform the drying function, the processed products have the caking problem, and are not suitable for bagging storage and further processing use, and meanwhile, the drying capacity and the crushing capacity of the dryers are still not excellent. Therefore, the present application has made innovations and improvements to the dryer with respect to the above problems.

The existing drying machine mainly has the following problems:

1. most of the existing dryers only can play a drying role, the processed products have the caking problem, the dryers are not suitable for bagging storage and continuous processing and use, and the practicability is poor.

2. Most of the existing dryers have the problems of poor drying capacity and crushing capacity and poor equipment quality.

Disclosure of Invention

The purpose of the invention is as follows: in order to overcome the defects, the utility model aims to provide a dryer with a sludge scattering structure, which can scatter and crush sludge for many times while drying the sludge, and has high fine crushing degree of processed products and good practicability; on the other hand, on the traditional drying mechanism, ultrasonic waves are added to accelerate the evaporation of water movement, the drying speed is high, and the drying effect is good.

The technical scheme is as follows: in order to achieve the above object, the utility model provides a drying-machine with structure is broken up to mud, include: working chamber, support, feed end, discharge end, hopper, heating furnace, crushed aggregates rotary cutter, driving spindle, spiral stirring sword, driven shaft and second crushed aggregates sword, the working chamber bottom is provided with the support, working chamber one end is provided with the feed end, the inside crushed aggregates rotary cutter that is provided with of feed end, the feed end top is provided with the hopper, the working chamber other end is provided with the discharge end, the working chamber bottom is provided with the heating furnace, working chamber inside is provided with driving spindle, the last spiral stirring sword that is provided with of driving spindle, driving spindle one end is provided with the driven shaft, the driven shaft is provided with two, driven shaft and driving spindle meshing, be provided with second crushed aggregates sword on the driven shaft, the driven shaft is reverse motion each other.

The utility model discloses in the product is smashed through leading spiral stirring sword to the setting of drying-machine, and carry out the secondary through rearmounted second crushed aggregates sword and smash, has improved the degree in small, broken bits of mud, has improved equipment processingquality.

The utility model discloses in the discharge end on be provided with screening mechanism, screening mechanism includes screen cloth, vibrator, support, dirt proof boot, receipts skip and rework blanking box, set up the vibrator on the support, be provided with the screen cloth on the vibrator, the vibrator outside is provided with the dirt proof boot, the dirt proof boot is connected in the screen cloth bottom, the screen cloth bottom is provided with the receipts skip, screen cloth one side is provided with rework blanking box.

The utility model discloses in the mud after the processing can be filtered in the setting of screening mechanism, improves the product granule fineness, has improved the quality of product, does not do over again to passing through the product simultaneously, has practiced thrift manufacturing cost.

The utility model discloses in screen cloth bottom be provided with connecting spring, the connecting spring other end is fixed in on the support.

The utility model discloses in connecting spring's setting has played supporting role and cushioning effect, reduces the stress influence of vibrator to the screen cloth.

The utility model discloses in work intracavity portion be provided with ultrasonic wave vibrations mechanism, ultrasonic wave vibrations mechanism includes supersonic generator and radio reception pipeline, the work chamber bottom is provided with supersonic generator, the last radio reception pipeline that is connected with of supersonic generator, the radio reception pipeline encircles the work chamber, one side that the radio reception pipeline is close to the work chamber is provided with the opening.

The utility model discloses in ultrasonic wave vibrations mechanism's setting, it utilizes the principle that the material ripples vibrates the transmission energy, realizes shaking garrulous and intensification effect to work intracavity mud, improves work intracavity moisture temperature simultaneously, accelerating equipment's stoving speed, improve equipment drying efficiency.

The utility model discloses in radio reception pipeline internal surface be provided with the sound wave reflectance coating, the sound wave reflectance coating forms level and smooth mirror surface.

The utility model discloses in the smooth planar nature of sound wave reflectance coating reflects and concentrates the sound wave that supersonic generator produced, makes the sound wave concentrate to the work intracavity on the one hand, has improved ultrasonic wave's operating mass with rated load, and on the other hand also reduces the excessive of ultrasonic wave and equipment self noise, has reduced the influence of equipment noise to environment and workman.

The utility model discloses in one side that the working chamber was kept away from to radio reception pipeline set up the puigging, the puigging includes stationary blade, first sound absorbing layer, second sound absorbing layer, dust cover and fixing bolt, the stationary blade sets up in radio reception pipeline surface, the stationary blade is "U" font, the stationary blade is provided with a plurality ofly, be provided with first sound absorbing layer between the stationary blade, the stationary blade outside is provided with the second sound absorbing layer, the second sound absorbing layer outside is provided with the dust cover, be provided with fixing bolt on the dust cover, fixing bolt passes dust cover, second sound absorbing layer and stationary blade.

The utility model discloses in the setting of puigging, its nature through sound absorbing layer porous material absorbs the noise that the sound that produces supersonic generator and equipment itself produced and falls and make an uproar, has reduced the sound pollution of equipment to the environment, has reduced the injury of noise to workman's influence, has improved the security.

The utility model discloses in first sound absorbing layer and second sound absorbing layer adopt and inhale the cotton material of sound.

The utility model discloses in the puigging extend to the working chamber by the radio reception pipeline.

The utility model discloses in the setting of puigging has extended the puigging area, has improved the silence ability of equipment.

Above-mentioned technical scheme can find out, the utility model discloses following beneficial effect has:

1. the utility model discloses in a drying-machine with structure is broken up to mud, its spiral stirring sword through leading smashes the product, carries out the secondary through rearmounted second crushed aggregates sword and smashes, has improved the degree in small, broken bits of mud, has improved equipment processingquality.

2. The utility model discloses in a drying-machine with structure is broken up to mud, it utilizes the principle that the material ripples vibrates the transmission energy, realizes shaking garrulous and intensification effect to work intracavity mud, improves work intracavity moisture temperature simultaneously, accelerating equipment's drying speed, improve equipment drying efficiency.

3. The utility model discloses in a drying-machine with structure is broken up to mud, increased screening mechanism, can filter the mud after the processing, improve the product granule fineness, improved the quality of product, to not doing over again through the product simultaneously, practiced thrift manufacturing cost.

4. The utility model discloses in a drying-machine with structure is broken up to mud, increased the puigging, its nature through sound-absorbing layer porous material absorbs the noise that produces the sound that supersonic generator produced and equipment itself and falls and make an uproar, has reduced the sound pollution of equipment to the environment, has reduced the injury of noise to workman's influence, has improved the security.

Drawings

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

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

fig. 3 is a schematic structural view of the ultrasonic vibration mechanism of the present invention;

FIG. 4 is a schematic structural view of the soundproof layer of the present invention;

in the figure: the device comprises a working cavity-1, a support-2, a feeding end-3, a discharging end-4, a hopper-5, a heating furnace-6, a rotary crushing cutter-7, a driving main shaft-8, a spiral stirring cutter-9, a driven shaft-10, a second crushing cutter-11, a screening mechanism-12, a screen-121, a vibrator-122, a support-123, a dustproof sleeve-124, a material receiving vehicle-125, a rework blanking box-126, a connecting spring-127, an ultrasonic vibration mechanism-13, an ultrasonic generator-131, a sound receiving pipeline-132, a sound insulation layer-133, a fixing piece-1331, a first sound absorption layer-1332, a second sound absorption layer-1333, a dust cover-1334 and a fixing bolt-1335.

Detailed Description

The invention will be further elucidated with reference to the drawings and the specific embodiments.

Example 1

A dryer having a sludge scattering structure as shown in fig. 1, comprising: a working cavity 1, a support 2, a feeding end 3, a discharging end 4, a hopper 5, a heating furnace 6, a crushed aggregate rotary cutter 7, a driving main shaft 8, a spiral stirring cutter 9, a driven shaft 10 and a second crushed aggregate cutter 11, the bottom of the working cavity 1 is provided with a support 2, one end of the working cavity 1 is provided with a feeding end 3, a crushed material rotary cutter 7 is arranged in the feed end 3, a hopper 5 is arranged at the top of the feed end 3, the other end of the working cavity 1 is provided with a discharge end 4, the bottom of the working cavity 1 is provided with a heating furnace 6, a driving main shaft 8 is arranged in the working cavity 1, a spiral stirring knife 9 is arranged on the driving main shaft 8, one end of the driving main shaft 8 is provided with a driven shaft 10, two driven shafts 10 are arranged, the driven shaft 10 is meshed with the driving main shaft 8, a second crushing cutter 11 is arranged on the driven shaft 10, and the driven shafts 10 move in opposite directions.

In this embodiment, the discharge end 4 is provided with the screening mechanism 12, the screening mechanism 12 includes a screen 121, a vibrator 122, a support 123, a dust-proof sleeve 124, a material receiving cart 125 and a rework blanking box 126, the vibrator 122 is arranged on the support 123, the screen 121 is arranged on the vibrator 122, the dust-proof sleeve 124 is arranged on the outer side of the vibrator 122, the dust-proof sleeve 124 is connected to the bottom of the screen 121, the material receiving cart 125 is arranged at the bottom of the screen 121, and the rework blanking box 126 is arranged on one side of the screen 121.

In this embodiment, a connecting spring 127 is disposed at the bottom of the screen 121, and the other end of the connecting spring 127 is fixed to the bracket 123.

In this embodiment, the inside ultrasonic vibration mechanism 13 that is provided with of working chamber 1, ultrasonic vibration mechanism 13 includes supersonic generator 131 and radio reception pipeline 132, working chamber 1 bottom is provided with supersonic generator 131, be connected with radio reception pipeline 132 on the supersonic generator 131, radio reception pipeline 132 encircles working chamber 1, one side that radio reception pipeline 132 is close to working chamber 1 is provided with the opening.

The sound receiving pipe 132 described in this embodiment has a sound wave reflecting film formed on its inner surface, and the sound wave reflecting film forms a smooth mirror surface.

In the present embodiment, a sound insulation layer 133 is disposed on a side of the sound reception pipe 132 away from the working chamber 1, the sound insulation layer 133 includes a plurality of fixing pieces 1331, a first sound absorption layer 1332, a second sound absorption layer 1333, a dust cover 1334 and fixing bolts 1335, the fixing pieces 1331 are disposed on an outer surface of the sound reception pipe 132, the fixing pieces 1331 are u-shaped, the fixing pieces 1331 are disposed in plurality, the first sound absorption layer 1332 is disposed between the fixing pieces 1331, the second sound absorption layer 1333 is disposed on an outer side of the fixing pieces 1331, the dust cover 1334 is disposed on an outer side of the second sound absorption layer 1333, the fixing bolts 1335 are disposed on the dust cover 1334, and the fixing bolts 1335 pass through the dust cover 1334, the second sound absorption layer 1333 and the fixing pieces 1331.

The first sound absorbing layer 1332 and the second sound absorbing layer 1333 described in this embodiment are made of a sound absorbing cotton material.

The sound insulation layer 133 in this embodiment extends from the sound-receiving duct 132 to the working chamber 1.

Example 2

A dryer having a sludge scattering structure as shown in fig. 2, comprising: a working cavity 1, a support 2, a feeding end 3, a discharging end 4, a hopper 5, a heating furnace 6, a crushed aggregate rotary cutter 7, a driving main shaft 8, a spiral stirring cutter 9, a driven shaft 10 and a second crushed aggregate cutter 11, the bottom of the working cavity 1 is provided with a support 2, one end of the working cavity 1 is provided with a feeding end 3, a crushed material rotary cutter 7 is arranged in the feed end 3, a hopper 5 is arranged at the top of the feed end 3, the other end of the working cavity 1 is provided with a discharge end 4, the bottom of the working cavity 1 is provided with a heating furnace 6, a driving main shaft 8 is arranged in the working cavity 1, a spiral stirring knife 9 is arranged on the driving main shaft 8, one end of the driving main shaft 8 is provided with a driven shaft 10, two driven shafts 10 are arranged, the driven shaft 10 is meshed with the driving main shaft 8, a second crushing cutter 11 is arranged on the driven shaft 10, and the driven shafts 10 move in opposite directions.

In this embodiment, the discharge end 4 is provided with the screening mechanism 12, the screening mechanism 12 includes a screen 121, a vibrator 122, a support 123, a dust-proof sleeve 124, a material receiving cart 125 and a rework blanking box 126, the vibrator 122 is arranged on the support 123, the screen 121 is arranged on the vibrator 122, the dust-proof sleeve 124 is arranged on the outer side of the vibrator 122, the dust-proof sleeve 124 is connected to the bottom of the screen 121, the material receiving cart 125 is arranged at the bottom of the screen 121, and the rework blanking box 126 is arranged on one side of the screen 121.

In this embodiment, a connecting spring 127 is disposed at the bottom of the screen 121, and the other end of the connecting spring 127 is fixed to the bracket 123.

Example 3

A dryer having a sludge scattering structure as shown in fig. 3 and 4, comprising: a working cavity 1, a support 2, a feeding end 3, a discharging end 4, a hopper 5, a heating furnace 6, a crushed aggregate rotary cutter 7, a driving main shaft 8, a spiral stirring cutter 9, a driven shaft 10 and a second crushed aggregate cutter 11, the bottom of the working cavity 1 is provided with a support 2, one end of the working cavity 1 is provided with a feeding end 3, a crushed material rotary cutter 7 is arranged in the feed end 3, a hopper 5 is arranged at the top of the feed end 3, the other end of the working cavity 1 is provided with a discharge end 4, the bottom of the working cavity 1 is provided with a heating furnace 6, a driving main shaft 8 is arranged in the working cavity 1, a spiral stirring knife 9 is arranged on the driving main shaft 8, one end of the driving main shaft 8 is provided with a driven shaft 10, two driven shafts 10 are arranged, the driven shaft 10 is meshed with the driving main shaft 8, a second crushing cutter 11 is arranged on the driven shaft 10, and the driven shafts 10 move in opposite directions.

In this embodiment, the inside ultrasonic vibration mechanism 13 that is provided with of working chamber 1, ultrasonic vibration mechanism 13 includes supersonic generator 131 and radio reception pipeline 132, working chamber 1 bottom is provided with supersonic generator 131, be connected with radio reception pipeline 132 on the supersonic generator 131, radio reception pipeline 132 encircles working chamber 1, one side that radio reception pipeline 132 is close to working chamber 1 is provided with the opening.

The sound receiving pipe 132 described in this embodiment has a sound wave reflecting film formed on its inner surface, and the sound wave reflecting film forms a smooth mirror surface.

In the present embodiment, a sound insulation layer 133 is disposed on a side of the sound reception pipe 132 away from the working chamber 1, the sound insulation layer 133 includes a plurality of fixing pieces 1331, a first sound absorption layer 1332, a second sound absorption layer 1333, a dust cover 1334 and fixing bolts 1335, the fixing pieces 1331 are disposed on an outer surface of the sound reception pipe 132, the fixing pieces 1331 are u-shaped, the fixing pieces 1331 are disposed in plurality, the first sound absorption layer 1332 is disposed between the fixing pieces 1331, the second sound absorption layer 1333 is disposed on an outer side of the fixing pieces 1331, the dust cover 1334 is disposed on an outer side of the second sound absorption layer 1333, the fixing bolts 1335 are disposed on the dust cover 1334, and the fixing bolts 1335 pass through the dust cover 1334, the second sound absorption layer 1333 and the fixing pieces 1331.

The first sound absorbing layer 1332 and the second sound absorbing layer 1333 described in this embodiment are made of a sound absorbing cotton material.

The sound insulation layer 133 in this embodiment extends from the sound-receiving duct 132 to the working chamber 1.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications can be made without departing from the principles of the present invention, and these modifications should also be regarded as the protection scope of the present invention.

Claims (8)

1. The utility model provides a drying-machine with structure is broken up to mud which characterized in that: the method comprises the following steps: the device comprises a working chamber (1), a support (2), a feeding end (3), a discharging end (4), a hopper (5), a heating furnace (6), a crushed aggregate rotary cutter (7), a driving main shaft (8), a spiral stirring cutter (9), a driven shaft (10) and a second crushed aggregate cutter (11), wherein the support (2) is arranged at the bottom of the working chamber (1), the feeding end (3) is arranged at one end of the working chamber (1), the crushed aggregate rotary cutter (7) is arranged in the feeding end (3), the hopper (5) is arranged at the top of the feeding end (3), the discharging end (4) is arranged at the other end of the working chamber (1), the heating furnace (6) is arranged at the bottom of the working chamber (1), the driving main shaft (8) is arranged in the working chamber (1), the spiral stirring cutter (9) is arranged on the driving main shaft (8), the driven shaft (10) is arranged at one end, the two driven shafts (10) are arranged, the driven shafts (10) are meshed with the driving main shaft (8), the driven shafts (10) are provided with second crushing cutters (11), and the driven shafts (10) move in the opposite direction.

2. The dryer with sludge disintegrating structure as defined in claim 1, wherein: discharge end (4) on be provided with screening mechanism (12), screening mechanism (12) are including screen cloth (121), vibrator (122), support (123), dirt proof boot (124), receipts skip (125) and rework blanking box (126), set up vibrator (122) on support (123), be provided with screen cloth (121) on vibrator (122), the vibrator (122) outside is provided with dirt proof boot (124), dirt proof boot (124) are connected in screen cloth (121) bottom, screen cloth (121) bottom is provided with receipts skip (125), screen cloth (121) one side is provided with rework blanking box (126).

3. The dryer with sludge disintegrating structure as defined in claim 2, wherein: the bottom of the screen (121) is provided with a connecting spring (127), and the other end of the connecting spring (127) is fixed on the support (123).

4. The dryer with sludge disintegrating structure as defined in claim 1, wherein: working chamber (1) inside be provided with ultrasonic vibration mechanism (13), ultrasonic vibration mechanism (13) include supersonic generator (131) and radio reception pipeline (132), working chamber (1) bottom is provided with supersonic generator (131), be connected with radio reception pipeline (132) on supersonic generator (131), working chamber (1) is encircleed in radio reception pipeline (132), one side that radio reception pipeline (132) are close to working chamber (1) is provided with the opening.

5. The dryer with sludge disintegrating structure as defined in claim 4, wherein: the inner surface of the sound receiving pipeline (132) is provided with a sound wave reflecting film, and the sound wave reflecting film forms a smooth mirror surface.

6. The dryer with sludge disintegrating structure as defined in claim 4, wherein: the sound insulation layer (133) is arranged on one side, away from the working cavity (1), of the sound reception pipeline (132), the sound insulation layer (133) comprises fixing pieces (1331), a first sound absorption layer (1332), a second sound absorption layer (1333), a dust cover (1334) and fixing bolts (1335), the fixing pieces (1331) are arranged on the outer surface of the sound reception pipeline (132), the fixing pieces (1331) are U-shaped, the fixing pieces (1331) are multiple, the first sound absorption layer (1332) is arranged between the fixing pieces (1331), the second sound absorption layer (1333) is arranged on the outer side of the fixing pieces (1331), the dust cover (1334) is arranged on the outer side of the second sound absorption layer (1333), the fixing bolts (1335) are arranged on the dust cover (1334), and the fixing bolts (1335) penetrate through the dust cover (1334), the second sound absorption layer (1333) and the fixing pieces (1331).

7. The dryer with sludge disintegrating structure as defined in claim 6, wherein: the first sound absorption layer (1332) and the second sound absorption layer (1333) are made of sound absorption cotton materials.

8. The dryer with sludge disintegrating structure as defined in claim 6, wherein: the sound insulation layer (133) extends from the sound receiving pipeline (132) to the working chamber (1).

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