CN207204319U - Thermo-sensitive material reducing mechanism - Google Patents

Thermo-sensitive material reducing mechanism Download PDF

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Publication number
CN207204319U
CN207204319U CN201721110757.1U CN201721110757U CN207204319U CN 207204319 U CN207204319 U CN 207204319U CN 201721110757 U CN201721110757 U CN 201721110757U CN 207204319 U CN207204319 U CN 207204319U
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China
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water tank
water
flow pipe
cold water
water flow
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CN201721110757.1U
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Inventor
刘巍
华尖本
李迎科
甘守花
阿明
王宝庆
马海燕
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Qinghai Zang yuan Shang Cao animal husbandry Co., Ltd.
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Qinghai Tibetan Origin Grass Husbandry Technology Co Ltd
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Abstract

It the utility model is related to a kind of thermo-sensitive material reducing mechanism, with the cooling chamber being sequentially connected along crushing material direction, mechanical crusher, jet mill, cyclone separator, blower fan and sack cleaner, cooling chamber has the perisporium of inner hollow, the cold water flow pipe set around cooling chamber is installed in the hollow space of perisporium, the side of cooling chamber is provided with water tank, water inlet is formed in the side of water tank, delivery port is formed in the opposite side of water tank, the cooling pipe that refrigerating plant in the outside for being internally provided with and being arranged on water tank of water tank connects, the water inlet of cold water flow pipe and the delivery port of water tank connect, the delivery port of cold water flow pipe and the water inlet of water tank connect, micro pump is installed in the water inlet of cold water flow pipe, the water in water tank is set to be flowed with the water circulation in cold water flow pipe.The utility model can carry out fast-crushing to temperature-sensitive material, and crushing effect is complete, and flour extraction is high.

Description

Thermo-sensitive material reducing mechanism
Technical field
It the utility model is related to a kind of thermo-sensitive material reducing mechanism.
Background technology
, it is necessary to make thermo-sensitive material become bulk by monoblock during being crushed to thermo-sensitive material, become by bulk Fritter, bulky grain is become by fritter, then little particle is become by bulky grain, dust is finally become by little particle, whole process is general Depend on a jet mill to be operated, the crushing process of jet mill quickly, often crushes obtained temperature-sensitive Material is not exclusively qualified powder, and needs to collect the particle for crushing and obtaining from discharging opening, and these particles are put into again Multiplicating crushing is carried out into jet mill, its process is complicated, crush efficiency is low, after even repeatedly crushing sometimes still There are the thermo-sensitive material of bulky grain even fritter can not become dust.
Utility model content
The utility model is to propose in view of the above problems, its object is to provide a kind of thermo-sensitive material reducing mechanism, It can carry out fast-crushing to temperature-sensitive material, and crushing effect is complete, and flour extraction is high.
To realize that the purpose of this utility model adopts the following technical scheme that.
The utility model of technical scheme 1 is a kind of thermo-sensitive material reducing mechanism, has and is sequentially connected along crushing material direction Cooling chamber, mechanical crusher, jet mill, cyclone separator, blower fan and sack cleaner, cooling chamber tool There is the perisporium of inner hollow, the cold water flow pipe set around the cooling chamber be installed in the hollow space of the perisporium, The side of the cooling chamber is provided with water tank, water inlet is formed in the side of the water tank, in the opposite side shape of the water tank The cooling pipe connected into delivery port, the refrigerating plant in the outside for being internally provided with and being arranged on the water tank of the water tank, The water inlet of the cold water flow pipe is connected with the delivery port of the water tank, the delivery port of the cold water flow pipe with it is described The water inlet connection of water tank, is provided with micro pump in the water inlet of the cold water flow pipe, makes the water in the water tank Flowed with the water circulation in the cold water flow pipe.
In addition, the thermo-sensitive material reducing mechanism of technical scheme 2, in the thermo-sensitive material reducing mechanism of technical scheme 1, in institute The water supplement port for offering at the top of water tank and being connected by water pipe with water source is stated, moisturizing control is provided with the water pipe Valve processed.
In addition, the thermo-sensitive material reducing mechanism of technical scheme 3, in the thermo-sensitive material reducing mechanism of technical scheme 2, in institute State the liquid level detector of the fluid level condition for being internally provided with the inside that can detect the water tank of water tank, the liquid level detector It is connected with the moisturizing control valve, and the moisturizing control valve can be based on the liquid level shape detected from the liquid level detector State is opened and closed.
In addition, the thermo-sensitive material reducing mechanism of technical scheme 4, described in the thermo-sensitive material reducing mechanism of technical scheme 1 Cold water flow pipe is two, including the first cold water flow pipe and the second cold water flow pipe, the water inlet of the water tank and The delivery port of the water tank is respectively formed as two, and the water inlet of the first cold water flow pipe and second cold water circulate The water inlet of pipeline is connected with two delivery ports of the water tank respectively, the delivery port of the first cold water flow pipe and described The delivery port of second cold water flow pipe is connected with two water inlets of the water tank respectively, in the first cold water flow pipe Water inlet and the water inlet of the second cold water flow pipe be respectively arranged with respective micro pump, described first is cold Interlaced distribution between water flow pipe and the second cold water flow pipe.
In addition, the thermo-sensitive material reducing mechanism of technical scheme 5, in the thermo-sensitive material reducing mechanism of technical scheme 4, with institute Two relative sides for stating water tank are respectively formed as first side and second side, a water inlet of the water tank with it is described One delivery port of water tank is formed in the first side, another water inlet of the water tank and the water tank another Delivery port is formed in the second side.
In addition, the thermo-sensitive material reducing mechanism of technical scheme 6, described in the thermo-sensitive material reducing mechanism of technical scheme 1 Mechanical crusher include shell, be arranged on the shell inside rotary shaft and electricity that the rotary shaft can be driven to rotate Machine, multiple cutting main blades are provided with a manner of the side face around the rotary shaft in the rotary shaft, in the shell Inwall on be provided with it is multiple respectively with it is each it is described cutting the interlaced auxiliary blade of overlapping cutting of main blade.
In addition, the thermo-sensitive material reducing mechanism of technical scheme 7, described in the thermo-sensitive material reducing mechanism of technical scheme 6 Cut main blade thickness from it is described rotation axis connection main blade root to away from the rotary shaft main blade blade by Gradual change is thin, and the thickness of the auxiliary blade of cutting is from the auxiliary blade root being connected with the inwall of the shell to the remote shell The auxiliary blade cutting edge of inwall is gradually thinning.
In addition, the thermo-sensitive material reducing mechanism of technical scheme 8, described in the thermo-sensitive material reducing mechanism of technical scheme 1 Cyclone separator is two, including the first cyclone separator and the second cyclone separator, the charging of first cyclone separator The charging aperture of mouth and second cyclone separator passes through the first feed pipe and the second feed pipe and the air-flowing type respectively The gas outlet difference of the discharging opening connection of pulverizer, the gas outlet of first cyclone separator and second cyclone separator It is connected by the first outlet pipe and the second outlet pipe with the air intake vent of the blower fan.
In addition, the thermo-sensitive material reducing mechanism of technical scheme 9, in the thermo-sensitive material reducing mechanism of technical scheme 8, also has There is particle screening device, the discharge outlet of first cyclone separator is provided with the first aggregate bin, in second whirlwind The discharge outlet of separator is provided with the second aggregate bin, and first aggregate bin and second aggregate bin are sent by first respectively Material passage and the second feeding channel are connected with the charging aperture of the particle screening device.
In addition, the thermo-sensitive material reducing mechanism of technical scheme 10, in the thermo-sensitive material reducing mechanism of technical scheme 9, institute It is drum-type screening machine to state particle screening device.
Compared with prior art, can be produced using above-mentioned technical proposal, thermo-sensitive material reducing mechanism provided by the utility model Raw following beneficial effect.
According to the utility model of technical scheme 1, thermo-sensitive material reducing mechanism of the present utility model has along crushing material side It is cold to cooling chamber, mechanical crusher, jet mill, cyclone separator, blower fan and the sack cleaner being sequentially connected But room has the perisporium of inner hollow, and the cold water flow pipe set around cooling chamber is provided with the hollow space of perisporium, The side of cooling chamber is provided with water tank, and water inlet is formed in the side of water tank, delivery port is formed in the opposite side of water tank, in water tank The outside for being internally provided with and being arranged on water tank refrigerating plant connection cooling pipe, the water inlet and water of cold water flow pipe The delivery port connection of case, the delivery port of cold water flow pipe and the water inlet of water tank connect, in the water inlet of cold water flow pipe Place is provided with micro pump, the water in water tank is flowed with the water circulation in cold water flow pipe.
By above structure, thermo-sensitive material reducing mechanism provided by the utility model can be by cooling chamber to thermo-sensitive material Cooling processing is carried out, so that thermo-sensitive material easily occurs fragility and broken when entering mechanical crusher in low-temperature condition Split, and then make thermo-sensitive material fast-crushing.After the preliminary crushing of mechanical crusher, the thermo-sensitive material of monoblock becomes small Block, and part becomes bulky grain, and exit into jet mill from the discharging opening of mechanical crusher carry out it is secondary Crush, bulk is ground into by monoblock in jet mill thereby, it is possible to save temperature-sensitive material, then be crushed by bulk Into the process of fritter so that temperature-sensitive material be crushed in jet mill mainly by fritter become bulky grain, by Bulky grain becomes little particle, then becomes the process of dust by little particle.Due to relative to whole block material, air-flow is easy to drive small Block of material is moved, thus small pieces of material can obtain substantially complete crushing in jet mill, then passes through follow-up rotation Wind separator and sack cleaner are collected to dust, thus complete whole crushing process.
Thermo-sensitive material reducing mechanism provided by the utility model can carry out fast-crushing, and crushing effect to thermo-sensitive material Good, flour extraction height, has good application value.
According to the utility model of technical scheme 2, the benefit connected by water pipe with water source is offered at the top of water tank The mouth of a river, moisturizing control valve is provided with water pipe.By such structure, Water in Water Tanks amount abundance can be ensured, so as to Ensure persistently there is water in cold water flow pipe, and then the inside of cooling chamber is persistently kept low temperature shape using cold water flow pipe State.
According to the utility model of technical scheme 3, in the liquid level shape for being internally provided with the inside that can detect water tank of water tank The liquid level detector of state, liquid level detector are connected with moisturizing control valve, and moisturizing control valve can be based on coming from liquid level detector The fluid level condition detected is opened and closed.
By such structure, the liquid level inside water tank can be monitored by liquid level detector, and in water tank Liquid level when reaching the low liquid level of setting, liquid level detector sends low liquid level signal and gives moisturizing control valve, and moisturizing control valve is opened, So that it is water tank water storage that water pipe connects with water source, and when the liquid level in water tank reaches the high level of setting again, liquid level Detector sends high level signal and gives moisturizing control valve, and moisturizing control valve, which is closed, stops water storage, thus moves in circles, and is stored with artificial Water is compared, and said structure makes moisturizing process more stable, and being capable of less artificial workload.
According to the utility model of technical scheme 4, cold water flow pipe is two, including the first cold water flow pipe and second Cold water flow pipe, the water inlet of water tank and the delivery port of water tank are respectively formed as two, the water inlet of the first cold water flow pipe The water inlet of mouth and the second cold water flow pipe is connected with two delivery ports of water tank respectively, the water outlet of the first cold water flow pipe The delivery port of mouth and the second cold water flow pipe is connected with two water inlets of water tank respectively, in entering for the first cold water flow pipe At the mouth of a river and water inlet of the second cold water flow pipe is respectively arranged with respective micro pump, the first cold water flow pipe with Interlaced distribution between second cold water flow pipe.
By above structure, with only setting a cold water flow pipe and one corresponding with the cold water flow pipe The delivery port of the water inlet of water tank and a water tank is compared, and the structure of such scheme can increase cold water flow pipe and cooling chamber Perisporium contact area, so as to reach more preferable cooling effect.
According to the utility model of technical scheme 5, first side and are respectively formed as with two relative sides of water tank Two side faces, a water inlet of water tank and a delivery port of water tank are formed on the first side, another water inlet of water tank Formed on the second side with another delivery port of water tank.
By above structure, make on the basis of two cold water flow pipes are set, the water in the first cold water flow pipe Direction is flowed with the water (flow) direction in the second cold water flow pipe on the contrary, along water (flow) direction, the first cold water flow pipe and second The temperature of each several part between cold water flow pipe can be compensated, so as to ensure the temperature in cooling chamber uniformly, stably.
According to the utility model of technical scheme 6, rotary shaft of the mechanical crusher including shell, the inside for being arranged on shell With the motor that rotary shaft can be driven to rotate, multiple cutting masters are provided with a manner of the side face around rotary shaft on the rotating shaft Blade, be provided with the inwall of shell it is multiple respectively with it is each cutting the interlaced auxiliary blade of overlapping cutting of main blade.
By above structure, the rotary shaft of mechanical crusher can be made to be rotated in the presence of motor, so that being arranged on Formed between the blade of the blade of cutting main blade in rotary shaft and the auxiliary blade of cutting being arranged on the inwall of shell continuous The cutting gap of change, temperature-sensitive material is pressurizeed and cut by the cutting gap, finally makes temperature-sensitive material by monoblock Become bulk and fritter is become by bulk, or even be changed into bulky grain, preliminary crushing process is completed, in addition, above-mentioned by setting Auxiliary blade is cut, compared with only setting rotary shaft and cutting main blade, its cutting effect is more stable.
According to the utility model of technical scheme 7, cut the thickness of main blade from rotate the main blade root of axis connection to Main blade blade away from rotary shaft is gradually thinning, cuts the auxiliary blade root that the thickness of auxiliary blade is connected with the inwall of shell certainly It is gradually thinning to the auxiliary blade cutting edge of the inwall away from shell.
By above structure, the sharpness of main blade blade and auxiliary blade cutting edge can be ensured, and make main blade blade with High shear force can be formed between auxiliary blade cutting edge, during being rotated in rotary shaft, temperature-sensitive material is carried out quick Cutting and grinding.
According to the utility model of technical scheme 8, cyclone separator is two, including the first cyclone separator and the second whirlwind The charging aperture of separator, the charging aperture of the first cyclone separator and the second cyclone separator passes through the first feed pipe and respectively The discharging opening of two feed pipes and jet mill connects, the gas outlet of the first cyclone separator and the second cyclone separator Gas outlet is connected by the first outlet pipe and the air intake vent of the second outlet pipe and blower fan respectively.
By above structure, make between the first cyclone separator and the second cyclone separator can alternate intervals use, so as to Avoid a cyclone separator is only used only and when carrying out long to it continuous use and easily there is the failure of heating damage.Separately Outside, because the inwall of whirlwind separator easily bonds dust granules and is blocked, now parking maintenance can influence material processing Efficiency, thus alternately cleaning can be carried out to two cyclone separators by above structure, so as to avoid stopping, be advantageous to ensure Production efficiency.
According to the utility model of technical scheme 9, also with particle screening device, in the discharge outlet of the first cyclone separator The first aggregate bin is provided with, the discharge outlet of the second cyclone separator is provided with the second aggregate bin, the first aggregate bin and second Aggregate bin is connected by the first feeding channel and the second feeding channel with the charging aperture of particle screening device respectively.
, can be by the first aggregate bin and the second aggregate bin respectively collected from the first cyclone separator and by above structure Material after the crushing flowed out in two cyclone separators, and grade is carried out to the material after the crushing that is collected into by screening plant Screening, the still underproof fraction particulate matter of crushing is backed again carry out repeating crushing in jet mill afterwards, entered One step improves out silty amount.
It is drum-type screening machine by setting particle screening device according to the utility model of technical scheme 10, so as to Using the inclination and rotation of roller, the material sieved to needs rocks, so that the bulky grain in material and dust are quick Depart from, in screening process, material overturns in roller, rolled, and is ejected, is not easy out so as to make to be stuck in the material in screen cloth Existing clogging, be advantageous to ensure the fluency of production process, improve production efficiency.
Brief description of the drawings
, below will be right in order to illustrate more clearly of the utility model embodiment or technical scheme of the prior art The required accompanying drawing used is briefly described in embodiment or description of the prior art, it should be apparent that, describe below In accompanying drawing be some embodiments of the present utility model, for those of ordinary skill in the art, do not paying creativeness On the premise of work, other accompanying drawings can also be obtained according to these accompanying drawings.
Fig. 1 is the process chart for the first embodiment for representing thermo-sensitive material reducing mechanism provided by the utility model.
Fig. 2 is the process chart for the second embodiment for representing thermo-sensitive material reducing mechanism provided by the utility model.
Fig. 3 is the process chart for the 3rd embodiment for representing thermo-sensitive material reducing mechanism provided by the utility model.
Fig. 4 is the machinery in any one specific embodiment for represent thermo-sensitive material reducing mechanism provided by the utility model The structural representation of formula pulverizer.
Reference:1- cooling chambers;11- water tanks;111- cooling pipes;112- water pipes;1121- moisturizing control valves; 113- liquid level detectors;12- refrigerating plants;13- the first cold water flow pipes;14- the second cold water flow pipes;2- mechanical powders Broken machine;21- shells;211- cuts auxiliary blade;22- rotary shafts;221- cuts main blade;23- motors;3- jet mills; 4- cyclone separators;The cyclone separators of 41- first;The feed pipes of 411- first;The outlet pipes of 412- first;The feedings of 413- first Passage;The cyclone separators of 42- second;The feed pipes of 421- second;The outlet pipes of 422- second;The feeding channels of 423- second;5- Blower fan;6- sack cleaners;The aggregate bins of 71- first;The aggregate bins of 72- second;8- particle screening devices.
Embodiment
The technical solution of the utility model is clearly and completely described below in conjunction with accompanying drawing, it is clear that described Embodiment is the utility model part of the embodiment, rather than whole embodiments.Based on the embodiment in the utility model, sheet The every other embodiment that field those of ordinary skill is obtained under the premise of creative work is not made, belongs to this practicality Novel protected scope.
, it is necessary to explanation in description of the present utility model, term " " center ", " on ", " under ", it is "left", "right", " perpendicular Directly ", the orientation of the instruction such as " level ", " interior ", " outer " or position relationship are based on orientation shown in the drawings or position relationship, are only Described for the ease of description the utility model and simplifying, rather than instruction or imply signified device or element must have it is specific Orientation, with specific azimuth configuration and operation, therefore it is not intended that to limitation of the present utility model.In addition, term " the One ", " second ", " the 3rd " are only used for describing purpose, and it is not intended that instruction or hint relative importance.
, it is necessary to which explanation, unless otherwise clearly defined and limited, term " are pacified in description of the present utility model Dress ", " connected ", " connection " should be interpreted broadly, for example, it may be fixedly connected or be detachably connected, or integratedly Connection;Can be mechanical connection or electrical connection;Can be joined directly together, can also be indirectly connected by intermediary, It can be the connection of two element internals.For the ordinary skill in the art, above-mentioned art can be understood with concrete condition Concrete meaning of the language in the utility model.
According to the overall structure of thermo-sensitive material reducing mechanism provided by the utility model, following several embodiments can be divided into.
First embodiment
Fig. 1 is the process chart for the first embodiment for representing thermo-sensitive material reducing mechanism provided by the utility model.Fig. 4 It is the mechanical crusher in any one specific embodiment for represent thermo-sensitive material reducing mechanism provided by the utility model Structural representation.
As shown in Figure 1 and Figure 4, the thermo-sensitive material reducing mechanism have be sequentially connected along crushing material direction cooling chamber 1, Mechanical crusher 2, jet mill 3, cyclone separator 4, blower fan 5 and sack cleaner 6.
Cooling chamber 1 has the perisporium of inner hollow, and the cold water set around cooling chamber 1 is provided with the hollow space of perisporium Flow pipe, the side of cooling chamber 1 is provided with water tank 11, water inlet is formed in the side of water tank 11, in the another of water tank 11 Side forms delivery port, the cooling pipe that the refrigerating plant 12 in the outside for being internally provided with and being arranged on water tank 11 of water tank 11 connects 111, the water inlet of cold water flow pipe is connected with the delivery port of water tank 11, the delivery port of cold water flow pipe and entering for water tank 11 The mouth of a river is connected, and micro pump is provided with the water inlet of cold water flow pipe, makes water and cold water flow pipe in water tank 11 In water circulation flowing.
In addition, the water supplement port connected by water pipe 112 with water source is offered at the top of water tank 11, in water pipe Moisturizing control valve 1121 is provided with 112.
Further, water tank 11 the fluid level condition for being internally provided with the inside that can detect water tank 11 level sensing Device 113, liquid level detector 113 are connected with moisturizing control valve 1121, and moisturizing control valve 1121 can be based on coming from level sensing The fluid level condition that device 113 detects is opened and closed.For example, liquid level detector 113 is set to detect the water in water tank 11 Position sends low liquid level signal when being in 2/3rds position of water tank capacity, moisturizing control valve 1121 receives the low liquid level signal and beaten Open, water source is the moisturizing of water tank 11 by water pipe 112;When liquid level detector 113 can detect the water level in water tank 11 High level signal is sent during 5/6ths position in water tank capacity, moisturizing control valve 1121 receives the high level signal and closed Close, it is the moisturizing of water tank 11 that water pipe 112, which stops,.
In addition, above-mentioned cold water flow pipe is two, including the first cold water flow pipe 13 and the second cold water runner pipe Road 14, the water inlet of water tank 11 and the delivery port of water tank 11 are respectively formed as two, the water inlet of the first cold water flow pipe 13 It is connected respectively with two delivery ports of water tank 11 with the water inlet of the second cold water flow pipe 14, the first cold water flow pipe 13 The delivery port of delivery port and the second cold water flow pipe 14 is connected with two water inlets of water tank 11 respectively, is circulated in the first cold water The water inlet of pipeline 13 and the water inlet of the second cold water flow pipe 14 are respectively arranged with respective micro pump, and first is cold Interlaced distribution between the cold water flow pipe 14 of water flow pipe 13 and second.
Further, first side and second side, water tank 11 are respectively formed as with two relative sides of water tank 11 A delivery port of a water inlet and water tank 11 formed on the first side, another water inlet and the water tank 11 of water tank 11 Another delivery port formed on the second side.
In addition, above-mentioned mechanical crusher 2 include shell 21, be arranged on shell 21 inside rotary shaft 22 and can The motor 23 for driving rotary shaft 22 to rotate, multiple cuttings are provided with a manner of the side face around rotary shaft 22 in rotary shaft 22 Main blade 221, be provided with the inwall of shell 21 it is multiple respectively with it is each cutting the interlaced overlapping cutting of main blade 221 Auxiliary blade 211.
Further, the thickness of main blade 221 is cut from the main blade root being connected with rotary shaft 22 to away from rotary shaft 22 main blade blade is gradually thinning, cut the thickness of auxiliary blade 211 from the auxiliary blade root being connected with the inwall of shell 21 to The auxiliary blade cutting edge of inwall away from shell 21 is gradually thinning.
Second embodiment
Fig. 2 is the process chart for the second embodiment for representing thermo-sensitive material reducing mechanism provided by the utility model.Fig. 4 It is the mechanical crusher in any one specific embodiment for represent thermo-sensitive material reducing mechanism provided by the utility model Structural representation.
On the basis of first embodiment, above-mentioned cyclone separator 4 is two, including the first cyclone separator 41 and the The charging aperture of two cyclone separators 42, the charging aperture of the first cyclone separator 41 and the second cyclone separator 42 passes through first respectively The feed pipe 421 of feed pipe 411 and second is connected with the discharging opening of jet mill 3, and the first cyclone separator 41 goes out The gas outlet of gas port and the second cyclone separator 42 passes through the first outlet pipe 412 and the second outlet pipe 422 and blower fan 5 respectively Air intake vent connection.
3rd embodiment
Fig. 3 is the process chart for the 3rd embodiment for representing thermo-sensitive material reducing mechanism provided by the utility model.Fig. 4 It is the mechanical crusher in any one specific embodiment for represent thermo-sensitive material reducing mechanism provided by the utility model Structural representation.
On the basis of second embodiment, the thermo-sensitive material reducing mechanism also has particle screening device 8, in the first whirlwind The discharge outlet of separator 41 is provided with the first aggregate bin 71, and the discharge outlet of the second cyclone separator 42 is provided with the second collection Hopper 72, the first aggregate bin 71 and the second aggregate bin 72 respectively by the first feeding channel 413 and the second feeding channel 423 with The charging aperture connection of grain screening plant 8.
Further, the particle screening device 8 is drum-type screening machine.
In three kinds of above-mentioned embodiments, a kind of thermo-sensitive material reducing mechanism is each provided, it can pass through Cooling chamber carries out cooling processing to thermo-sensitive material so that thermo-sensitive material when entering mechanical crusher in low-temperature condition and Brittle fracture easily occurs, and then makes thermo-sensitive material fast-crushing.After the preliminary crushing of mechanical crusher, the heat of monoblock Quick material becomes fritter, and part becomes bulky grain, and exits into air-flowing type from the discharging opening of mechanical crusher and crush Separating twice is carried out in machine, bulk is ground into by monoblock in jet mill thereby, it is possible to save temperature-sensitive material, then The process of fritter is ground into by bulk, is mainly become so that temperature-sensitive material is crushed in jet mill by fritter Become little particle into bulky grain, by bulky grain, then become the process of dust by little particle.Due to relative to whole block material, air-flow It is easy to drive small pieces of material motion, thus small pieces of material can obtain substantially complete crushing in jet mill, then Dust is collected by follow-up cyclone separator and sack cleaner, thus completes whole crushing process.
The thermo-sensitive material reducing mechanism that above-mentioned technical proposal provides can carry out fast-crushing to thermo-sensitive material, and crush effect Fruit is good, flour extraction is high, has good application value.
In addition, in three kinds of above-mentioned embodiments, offered at the top of water tank by water pipe and water source The water supplement port of connection, moisturizing control valve is provided with water pipe.By such structure, it can ensure that Water in Water Tanks amount is filled Foot, so as to ensure persistently to have in cold water flow pipe water, and then makes the inside of cooling chamber persistently keep using cold water flow pipe Low-temperature condition.
In addition, in three kinds of above-mentioned embodiments, the inside of water tank can be detected in being internally provided with for water tank Fluid level condition liquid level detector, liquid level detector is connected with moisturizing control valve, and moisturizing control valve can be based on coming from liquid The fluid level condition that bit detector detects is opened and closed.
By such structure, the liquid level inside water tank can be monitored by liquid level detector, and in water tank Liquid level when reaching the low liquid level of setting, liquid level detector sends low liquid level signal and gives moisturizing control valve, and moisturizing control valve is opened, So that it is water tank water storage that water pipe connects with water source, and when the liquid level in water tank reaches the high level of setting again, liquid level Detector sends high level signal and gives moisturizing control valve, and moisturizing control valve, which is closed, stops water storage, thus moves in circles, and is stored with artificial Water is compared, and said structure makes moisturizing process more stable, and being capable of less artificial workload.
In addition, in three kinds of above-mentioned embodiments, cold water flow pipe is two, including the first cold water runner pipe Road and the second cold water flow pipe, the water inlet of water tank and the delivery port of water tank are respectively formed as two, the first cold water runner pipe The water inlet of the water inlet on road and the second cold water flow pipe is connected with two delivery ports of water tank respectively, the first cold water runner pipe The delivery port of the delivery port on road and the second cold water flow pipe is connected with two water inlets of water tank respectively, is circulated in the first cold water The water inlet of pipeline and the water inlet of the second cold water flow pipe are respectively arranged with respective micro pump, the first cold water stream Interlaced distribution between siphunculus road and the second cold water flow pipe.
By above structure, with only setting a cold water flow pipe and one corresponding with the cold water flow pipe The delivery port of the water inlet of water tank and a water tank is compared, and the structure of such scheme can increase cold water flow pipe and cooling chamber Perisporium contact area, so as to reach more preferable cooling effect.
In addition, in three kinds of above-mentioned embodiments, first is respectively formed as with two relative sides of water tank One delivery port of side and second side, a water inlet of water tank and water tank is formed on the first side, water tank it is another Another delivery port of individual water inlet and water tank is formed on the second side.
By above structure, make on the basis of two cold water flow pipes are set, the water in the first cold water flow pipe Direction is flowed with the water (flow) direction in the second cold water flow pipe on the contrary, along water (flow) direction, the first cold water flow pipe and second The temperature of each several part between cold water flow pipe can be compensated, so as to ensure the temperature in cooling chamber uniformly, stably.
In addition, in three kinds of above-mentioned embodiments, mechanical crusher includes shell, is arranged on the inside of shell Rotary shaft and can drive rotary shaft rotate motor, be provided with the rotating shaft in a manner of the side face around rotary shaft more Individual cutting main blade, it is provided with the inwall of shell multiple auxiliary with each cutting interlaced overlapping cutting of main blade respectively Blade.
By above structure, the rotary shaft of mechanical crusher can be made to be rotated in the presence of motor, so that being arranged on Formed between the blade of the blade of cutting main blade in rotary shaft and the auxiliary blade of cutting being arranged on the inwall of shell continuous The cutting gap of change, temperature-sensitive material is pressurizeed and cut by the cutting gap, finally makes temperature-sensitive material by monoblock Become bulk and fritter is become by bulk, or even be changed into bulky grain, preliminary crushing process is completed, in addition, above-mentioned by setting Auxiliary blade is cut, compared with only setting rotary shaft and cutting main blade, its cutting effect is more stable.
In addition, in three kinds of above-mentioned embodiments, the thickness operator with rotation axis connection certainly of main blade is cut Piece root is gradually thinning to the main blade blade away from rotary shaft, and the thickness for cutting auxiliary blade is auxiliary from being connected with the inwall of shell Blade root is gradually thinning to the auxiliary blade cutting edge of the inwall away from shell.
By above structure, the sharpness of main blade blade and auxiliary blade cutting edge can be ensured, and make main blade blade with High shear force can be formed between auxiliary blade cutting edge, during being rotated in rotary shaft, temperature-sensitive material is carried out quick Cutting and grinding.
In addition, in second above-mentioned of embodiment, it is two to set cyclone separator, including the first whirlwind point From device and the second cyclone separator, the charging aperture of the charging aperture of the first cyclone separator and the second cyclone separator passes through respectively One feed pipe and the connection of the discharging opening of the second feed pipe and jet mill, the gas outlet of the first cyclone separator and the The gas outlet of two cyclone separators is connected by the first outlet pipe and the air intake vent of the second outlet pipe and blower fan respectively.
By above structure, make between the first cyclone separator and the second cyclone separator can alternate intervals use, so as to Avoid a cyclone separator is only used only and when carrying out long to it continuous use and easily there is the failure of heating damage.Separately Outside, because the inwall of whirlwind separator easily bonds dust granules and is blocked, now parking maintenance can influence material processing Efficiency, thus alternately cleaning can be carried out to two cyclone separators by above structure, so as to avoid stopping, be advantageous to ensure Production efficiency.
In addition, in the third above-mentioned embodiment, also with particle screening device, in the first cyclone separator Discharge outlet be provided with the first aggregate bin, the discharge outlet of the second cyclone separator is provided with the second aggregate bin, the first collection Hopper and the second aggregate bin are connected by the first feeding channel and the second feeding channel with the charging aperture of particle screening device respectively.
, can be by the first aggregate bin and the second aggregate bin respectively collected from the first cyclone separator and by above structure Material after the crushing flowed out in two cyclone separators, and grade is carried out to the material after the crushing that is collected into by screening plant Screening, the still underproof fraction particulate matter of crushing is backed again carry out repeating crushing in jet mill afterwards, entered One step improves out silty amount.
It is drum-type screening machine by setting particle screening device in addition, in the third above-mentioned embodiment, So as to using the inclination and rotation of roller, be rocked to the material that sieves of needs so that the bulky grain in material with Dust is rapidly separated, and in screening process, material overturns in roller, rolled, so as to make to be stuck in the material in screen cloth by bullet Go out, be less prone to clogging, be advantageous to ensure the fluency of production process, improve production efficiency.
In addition, in the above-described embodiment, concrete structure of the present utility model is illustrated, but not limited to this.
For example, in three kinds of above-mentioned embodiments, offered at the top of water tank by water pipe and water source The water supplement port of connection, moisturizing control valve is provided with water pipe.But not limited to this, above-mentioned moisturizing can also be not provided with Pipeline and moisturizing control valve, but ensure that there is sufficient water inside water tank by way of manually adding water to water tank inside, Be equally reached above-mentioned utilizing in water tank guarantee cold water flow pipe has water all the time, so as to the effect cooled down to cooling chamber Fruit, still, according to the structure in embodiment, above-mentioned water supplement port, water pipe and moisturizing control valve, Neng Goubao are set Demonstrate,prove simpler for the operation of water tank water storage.
In addition, in three kinds of above-mentioned embodiments, the inside of water tank can be detected in being internally provided with for water tank Fluid level condition liquid level detector, liquid level detector is connected with moisturizing control valve, and moisturizing control valve can be based on coming from liquid The fluid level condition that bit detector detects is opened and closed.But not limited to this, above-mentioned liquid level detector can also be not provided with, and It is to be realized by artificial observation cistern water level, and by manually turning moisturizing control valve to the water-refilling operation of water tank, still, according to Structure in embodiment is configured, and the liquid level inside water tank can be monitored by liquid level detector, and When liquid level in water tank reaches the low liquid level of setting, liquid level detector sends low liquid level signal and gives moisturizing control valve, moisturizing control Valve is opened, so that it is water tank water storage that water pipe connects with water source, when the liquid level in water tank reaches the high level of setting again When, liquid level detector sends high level signal and gives moisturizing control valve, and moisturizing control valve, which is closed, stops water storage, thus moves in circles, Compared with artificial storage, said structure makes moisturizing process more stable, and being capable of less artificial workload.
In addition, in three kinds of above-mentioned embodiments, liquid level detector is set to detect the water in water tank Position sends low liquid level signal when being in 2/3rds position of water tank capacity, moisturizing control valve receives low liquid level signal opening, Water source is water tank moisturizing by water pipe;When liquid level detector can be in water tank capacity detecting the water level in water tank High level signal is sent during 5/6ths positions, moisturizing control valve receives high level signal closure, and it is water that water pipe, which stops, Case moisturizing.
But not limited to this or setting low liquid level are a quarter position of water tank capacity, high level is water tank 3/4ths liquid levels at, or the combination of other high levels, low liquid level is arranged to, according to specific equipment situation and water tank Water inlet and water tank delivery port set location determine.
In addition, in three kinds of above-mentioned embodiments, cold water flow pipe is two, including the first cold water runner pipe Road and the second cold water flow pipe, the water inlet of water tank and the delivery port of water tank are respectively formed as two, the first cold water runner pipe The water inlet of the water inlet on road and the second cold water flow pipe is connected with two delivery ports of water tank respectively, the first cold water runner pipe The delivery port of the delivery port on road and the second cold water flow pipe is connected with two water inlets of water tank respectively, is circulated in the first cold water The water inlet of pipeline and the water inlet of the second cold water flow pipe are respectively arranged with respective micro pump, the first cold water stream Interlaced distribution between siphunculus road and the second cold water flow pipe.
But not limited to this, a cold water flow pipe can also be only set, it is cold to be equally reached above-mentioned utilization Water flow pipe carries out the effect of cooling down to cooling chamber, still, with only setting a cold water flow pipe and cold with this The corresponding water inlet of a water tank of water flow pipe and the delivery port of a water tank are compared, according in embodiment Structure is configured the contact area for the perisporium that can increase cold water flow pipe and cooling chamber, preferably cold so as to reach But effect.
In addition, in three kinds of above-mentioned embodiments, first is respectively formed as with two relative sides of water tank One delivery port of side and second side, a water inlet of water tank and water tank is formed on the first side, water tank it is another Another delivery port of individual water inlet and water tank is formed on the second side.
But two water inlets of not limited to this or setting water tank are formed on the first side, two of water tank Delivery port is formed on the second side, be equally reached it is above-mentioned using cold water flow pipe to cooling chamber progress cooling down Effect, still, be configured, make on the basis of two cold water flow pipes are set according to the structure of embodiment, Water (flow) direction in first cold water flow pipe with the water (flow) direction in the second cold water flow pipe on the contrary, along water (flow) direction, The temperature of each several part between first cold water flow pipe and the second cold water flow pipe can be compensated, cold so as to ensure Indoor temperature is uniformly, stably.
In addition, in three kinds of above-mentioned embodiments, mechanical crusher includes shell, is arranged on the inside of shell Rotary shaft and can drive rotary shaft rotate motor, be provided with the rotating shaft in a manner of the side face around rotary shaft more Individual cutting main blade, it is provided with the inwall of shell multiple auxiliary with each cutting interlaced overlapping cutting of main blade respectively Blade.
But not limited to this, the auxiliary blade of above-mentioned cutting can also be not provided with, and operated only by rotary shaft and cutting Piece carries out cutting and grinding to thermo-sensitive material, still, according to the structure in embodiment, had both set cutting main blade, and had set again The auxiliary blade of cutting is put, the rotary shaft of mechanical crusher can be made to be rotated in the presence of motor, so that setting on the rotating shaft The blade of cutting main blade and the blade for the auxiliary blade of cutting being arranged on the inwall of shell between form continually changing cut Slot gap, temperature-sensitive material is pressurizeed and cut by the cutting gap, finally temperature-sensitive material is become bulk by monoblock And fritter is become by bulk, or even it is changed into bulky grain, preliminary crushing process is completed, in addition, by setting the auxiliary knife of above-mentioned cutting Piece, compared with only setting rotary shaft and cutting main blade, its cutting effect is more stable.
In addition, in three kinds of above-mentioned embodiments, further, set the thickness of cutting main blade from rotation The main blade root of axis connection is gradually thinning to the main blade blade away from rotary shaft, cut the thickness of auxiliary blade from shell The auxiliary blade root of inwall connection is gradually thinning to the auxiliary blade cutting edge of the inwall away from shell.
But not limited to this, cutting main blade can also be set with the auxiliary blade of cutting to be respectively formed as each part thickness equal Structure, be equally reached above-mentioned by cutting main blade and cutting the work that auxiliary blade carries out cutting and grinding to heat sensitive material With still, being configured according to the structure in embodiment, the sharp of main blade blade and auxiliary blade cutting edge can be ensured Property, and make that high shear force can be formed between main blade blade and auxiliary blade cutting edge, it is right during being rotated in rotary shaft Temperature-sensitive material carries out fly-cutting crushing.
In addition, in the third above-mentioned embodiment, it is drum-type screening machine to set particle screening device, still Not limited to this, the particle screening device can also be flat vibrating screen classifier, be equally reached particle screening purpose, but It is that during being sieved using flat vibrating screen classifier, its screen cloth is easily prematured by solids and needs to shut down rectification, with This is compared, and according to the scheme of the third embodiment, using drum-type screening machine as particle screening device, can be utilized The inclination and rotation of the roller of drum-type screening machine, the material sieved to needs rocks, so that the bulky grain in material It is rapidly separated with dust, in screening process, material overturns in roller, rolled, so as to make to be stuck in the material quilt in screen cloth Ejection, is less prone to clogging, is advantageous to ensure the fluency of production process, improves production efficiency.
In addition, thermo-sensitive material reducing mechanism of the present utility model, can be combined by the various structures of above-mentioned embodiment and Into can equally play above-mentioned effect.
Finally it should be noted that:Various embodiments above is only to illustrate the technical solution of the utility model, rather than it is limited System;Although the utility model is described in detail with reference to foregoing embodiments, one of ordinary skill in the art should Understand:It can still modify to the technical scheme described in foregoing embodiments, either to which part or whole Technical characteristic carries out equivalent substitution;And these modifications or replacement, the essence of appropriate technical solution is departed from this practicality newly The scope of each embodiment technical scheme of type.

Claims (10)

1. a kind of thermo-sensitive material reducing mechanism, it is characterised in that there is the cooling chamber being sequentially connected along crushing material direction, machinery Formula pulverizer, jet mill, cyclone separator, blower fan and sack cleaner,
The cooling chamber has the perisporium of inner hollow, is provided with the hollow space of the perisporium and is set around the cooling chamber Cold water flow pipe,
The side of the cooling chamber is provided with water tank, water inlet is formed in the side of the water tank, in the another of the water tank Side forms delivery port, the cooling that the refrigerating plant in the outside for being internally provided with and being arranged on the water tank of the water tank connects Pipe,
The water inlet of the cold water flow pipe is connected with the delivery port of the water tank, the delivery port of the cold water flow pipe with The water inlet connection of the water tank, is provided with micro pump in the water inlet of the cold water flow pipe, makes in the water tank Water and the cold water flow pipe in water circulation flow.
2. thermo-sensitive material reducing mechanism according to claim 1, it is characterised in that offered at the top of the water tank logical The water supplement port that water pipe connects with water source is crossed, moisturizing control valve is provided with the water pipe.
3. thermo-sensitive material reducing mechanism according to claim 2, it is characterised in that be internally provided with energy in the water tank The liquid level detector of the fluid level condition of the inside of the water tank is enough detected, the liquid level detector connects with the moisturizing control valve Connect, and the moisturizing control valve can be opened and closed based on the fluid level condition detected from the liquid level detector.
4. thermo-sensitive material reducing mechanism according to claim 1, it is characterised in that the cold water flow pipe is two, Including the first cold water flow pipe and the second cold water flow pipe, the delivery port difference of the water inlet of the water tank and the water tank Be formed as two, the water inlet of the water inlet of the first cold water flow pipe and the second cold water flow pipe respectively with institute State two delivery ports connection of water tank, the delivery port of the first cold water flow pipe and going out for the second cold water flow pipe The mouth of a river is connected with two water inlets of the water tank respectively, in the water inlet of the first cold water flow pipe and described second The water inlet of cold water flow pipe is respectively arranged with respective micro pump, the first cold water flow pipe and described second Interlaced distribution between cold water flow pipe.
5. thermo-sensitive material reducing mechanism according to claim 4, it is characterised in that with two relative sides of the water tank Face is respectively formed as first side and second side,
One water inlet of the water tank is formed in the first side with a delivery port of the water tank, the water tank Another delivery port of another water inlet and the water tank is formed in the second side.
6. thermo-sensitive material reducing mechanism according to claim 1, it is characterised in that the mechanical crusher includes outer Shell, be arranged on the shell inside rotary shaft and motor that the rotary shaft can be driven to rotate, in the rotary shaft Multiple cutting main blades are provided with a manner of the side face around the rotary shaft, are provided with the inwall of the shell multiple Respectively with it is each it is described cutting the interlaced auxiliary blade of overlapping cutting of main blade.
7. thermo-sensitive material reducing mechanism according to claim 6, it is characterised in that it is described cutting main blade thickness from The main blade root for rotating axis connection is gradually thinning to the main blade blade away from the rotary shaft, the auxiliary blade of cutting Thickness it is gradual to the auxiliary blade cutting edge of the inwall of the remote shell from the auxiliary blade root that be connected with the inwall of the shell It is thinning.
8. thermo-sensitive material reducing mechanism according to claim 1, it is characterised in that the cyclone separator is two, bag Include the first cyclone separator and the second cyclone separator, the charging aperture of first cyclone separator and second cyclonic separation The charging aperture of device is connected by the first feed pipe and the second feed pipe with the discharging opening of the jet mill respectively, institute The gas outlet of the first cyclone separator and the gas outlet of second cyclone separator are stated respectively by the first outlet pipe and Two outlet pipes are connected with the air intake vent of the blower fan.
9. thermo-sensitive material reducing mechanism according to claim 8, it is characterised in that also with particle screening device, in institute The discharge outlet for stating the first cyclone separator is provided with the first aggregate bin, is set in the discharge outlet of second cyclone separator There is the second aggregate bin, first aggregate bin and second aggregate bin pass through the first feeding channel and the second feeding channel respectively It is connected with the charging aperture of the particle screening device.
10. thermo-sensitive material reducing mechanism according to claim 9, it is characterised in that the particle screening device is roller Formula screening machine.
CN201721110757.1U 2017-08-31 2017-08-31 Thermo-sensitive material reducing mechanism Active CN207204319U (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN109082919A (en) * 2018-09-20 2018-12-25 淮安天然丝纺织科技有限公司 Magma paper breaking method

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN109082919A (en) * 2018-09-20 2018-12-25 淮安天然丝纺织科技有限公司 Magma paper breaking method

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Address after: 810000 14 km of Ning Zhang Road, Datong County, Xining, Qinghai

Patentee after: Qinghai Zang yuan Shang Cao animal husbandry Co., Ltd.

Address before: 810000 14 km of Ning Zhang Road, Datong County, Xining, Qinghai

Patentee before: Qinghai Tibetan Origin grass Husbandry Technology Co., Ltd.

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