CN104544490A - Shell bursting device for camellia seed shells - Google Patents

Abstract

The invention relates to a shell bursting device for camellia seed shells. The shell bursting device comprises a generation module, a gas storage module, a shelling module and a condensation module. The camellia seed shells are burst by the aid of high-temperature superheated steam (above 100 DEG C), and the shortcomings of non-uniform shell bursting, loud noise in the shell bursting process, easiness in damaging pulp, high energy consumption, long shell bursting time and the like caused by traditional shell bursting methods such as a mechanical shell bursting method and a microwave shell bursting method are overcome. The high-temperature superheated steam is generated by a superheated steam generation device and then sprayed into a closed container at a high speed through a nozzle, high pressure is generated in the container, the camellia seed shells are burst, water in materials can be gasified when the high-temperature steam comprehensively contacting with the materials, and shell bursting is facilitated. By the aid of a superheated steam shell bursting method, the shell bursting device has the advantages of shell bursting uniformity, low noise, short shell bursting time, energy conservation and the like.

Description

A kind of quick-fried housing apparatus being applied to tea seed shell

Technical field

The present invention relates to a kind of quick-fried housing apparatus, particularly relate to a kind of quick-fried housing apparatus being applied to tea seed shell.

Background technology

In recent years, China's Biomass Briquetting Technologies achieves fast development, and biomass solid formed fuel has also been acknowledged as a kind of clean energy that can substitute fossil energy.Because biomass solid formed fuel has the plurality of advantages such as intensity is large, accumulating convenient, combustion thermal efficiency is high, environmentally friendly, for this reason, increase the development dynamics to biomass solid forming technology both at home and abroad, nowadays, a large amount of biomass materials, as: agricultural crop straw, forestry industrial wood waste, processing of farm products residuum etc. have been used for being processed into biomass solid formed fuel, wherein just comprise resourceful tea seed shell.And a large amount of tea seed shells need obtain by carrying out quick-fried shell to tea seed, at present, traditional quick-fried shell side method mainly contains mechanical type and Microwave Burst shell process, but because the traditional method of mechanical type and microwave etc. exists shortcomings, as: uneven, the quick-fried shell time length of high, the quick-fried shell of energy consumption, poor working environment etc., therefore, above shortcoming be overcome, just need a kind of quick-fried shell side method to be completely newly applied to the quick-fried shell of tea seed.

Summary of the invention

The technical problem to be solved in the present invention is to provide a kind of quick-fried housing apparatus being applied to tea seed shell newly, that logical superheated steam producer produces high temperature super heated steam, then spray in encloses container by nozzle at high speeds, and in container, produce larger pressure, tea seed shell is popped, simultaneously, because the temperature of steam is higher, with the process of material comprehensive engagement in the middle of, moisture vaporization in material can be made, have the carrying out utilizing quick-fried shell.Adopt superheated vapour peanut-bursting method, there is the advantages such as quick-fried shell is even, noise is few, the quick-fried shell time is short and energy-conservation.

For reaching above-mentioned purpose, the present invention is applied to the quick-fried housing apparatus of tea seed shell, comprises steam generation module, gas storage module, quick-fried shell module and condensation module; This steam generation module provides the superheated vapour of more than 100 DEG C, and gas storage module is for storing described superheated vapour, and tea seed realizes quick-fried shell under the effect of quick-fried shell module at superheated vapour, and superheated vapour condensation is delivered to steam generation module by condensation module again.

Preferably, this steam generation module is made up of steam-generating installation and the flow sensor be connected successively with it, the first magnetic valve and the first check valve.

Preferably, this gas storage module is made up of gas-holder and the second magnetic valve be communicated with successively with it, the second check valve, and this gas-holder is provided with the first pressure transmitter and the first temperature sensor.

Preferably, this quick-fried shell module comprises encloses container, multiple nozzle and blowing room is established in this encloses container, described blowing room is welded by the first metal sheet with holes and the second metal sheet with holes, second metal sheet is provided with discharge valve, be provided with screening plant below discharge valve, be provided with opening for feed above screening plant, below is provided with discharge port; Above this blowing room, there is material inlet.

Better, this encloses container is provided with timing register, the second pressure transmitter and the second temperature sensor.

Better, this encloses container is communicated with the 3rd magnetic valve and the 3rd check valve successively.

Preferably, described blowing room is installed vertically in this encloses container.

Preferably, described condensation module by condenser and with its 4th check valve be communicated with successively and the 4th magnetic valve.

Preferably, the above-mentioned quick-fried housing apparatus being applied to tea seed shell also comprises Controlling System, be made up of test section, execution part, control section and human-computer interaction part, wherein, this test section comprises under meter, the first pressure transmitter, the first temperature sensor, timing register, the second pressure transmitter and the second temperature sensor; This execution part is the working order for controlling each module, comprising: the folding controlling the first-four magnetic valve and discharge valve, and then controls the quantity of steam entering each module, and magnetic valve folding condition is fed back to control unit; And the startup of steam-generating installation and stopping.This control section is made up of control unit and upper computer, and control unit is responsible for the status signal collected and process test section provides, and provides execution instruction to execution part; Upper computer on the one hand carries out detection job state, in addition also can the sequence of control of editor control unit, and sequence of control comprises manual mode and automatic mode; This human-computer interaction part arranges corresponding push button by human-computer interaction interface according to sequence of control on the one hand, realizes manual mode to whole device Non-follow control; The working order of each module under can directly monitoring automatic mode by human-computer interaction interface on the one hand in addition, and can each set(ting)value in automatic module be set.

By above technical scheme, at least there is following technique effect:

(1) pressure adopting flow of superheated steam at a high speed to produce makes the shell of tea seed pop, thus solves that the energy consumption that traditional quick-fried shell side formula exists is high, exhaust emissions produces secondary pollution and the quick-fried shell of material uneven, the quick-fried shell time is long and the technical barrier such as efficiency is low.In the quick-fried shell process of superheated vapour, due to use is all high temperature super heated steam (temperature more than 100 DEG C), moisture moves from material surface evaporation and is not diffusion by matter but is used as power with the volume flow (bulk flow) that the pressure difference of liquid stream produces, the quick-fried shell of superheated vapour is without gas film mass transfer resistance, therefore, the unit consumption of energy of the quick-fried shell of superheated vapour is adopted to be significantly less than the energy consumption of traditional peanut-bursting method;

(2) utilize the high temperature super heated steam that can not pollute human body and environment, compared with the quick-fried shell side method of traditional mechanical type, significantly improve working conditions, also reduce labour intensity, meanwhile, also improve the security of operation;

(3) utilize vapour stream at a high speed to spray in the encloses container of quick-fried housing apparatus, be conducive to like this shortening the quick-fried shell time, meanwhile, because the pressure in encloses container is equal everywhere, therefore, quick-fried shell is more even;

(4) superheated vapour of high temperature is applied to the quick-fried shell of tea seed, superheat steam temperature is high, heat enthalpy value is large, has strong sterilization and murders the effect of microorganism.Temperature when the quick-fried shell of superheated vapour works, more than 100 DEG C, not only has the explosion utilizing tea seed shell at such temperatures, and can play the effect of eliminating bacteria and other harmful microorganisms;

(5) after whole quick-fried shell process completes, the waste heat of superheated vapour can be used, such as the drying medium of industrial materials or fodder industry etc., drying be carried out to material.So not only can reduce the drying cost to industrial materials etc., and harmful gas can not be given off in drying process and human body and environment are worked the mischief.Meanwhile, superheat steam drying can realize anaerobic or few oxygen dry environment, reduces the risk that drying process produces the toxic gases such as NOx, SOx.Because in drying process, the quantity of obnoxious flavour is significantly less than traditional hot air convective drying, therefore vent gas treatment cost is by lower than traditional food or fodder industry drying process.

Below in conjunction with specific embodiment and accompanying drawing, the invention will be further described.

Accompanying drawing explanation

Fig. 1 is the one-piece construction schematic diagram of the quick-fried housing apparatus of the present invention;

Fig. 2 is Controlling System frame principle figure of the present invention;

In figure: 1-superheated steam producer, 2-metallic conduit, 3-flow sensor, 4-first magnetic valve, 8-second magnetic valve, 23-the 3rd magnetic valve, 29-the 4th magnetic valve, 5-first check valve, 9-second check valve, 25-the 3rd check valve, 28-the 4th check valve, 6-gas-holder, 7-first pressure transmitter, 17-second pressure transmitter, 10-timing register, 11-nozzle, 12-opening for feed, 13-blowing room, 14-Semen Brassicae campestris, 15-first perforated metal plate, 22-second perforated metal plate, 16-encloses container, 18-first temperature sensor, 26-second temperature sensor, 19-blanking port 20-screening plant, 21-discharge port, 24-discharge valve, 27-condenser, 30-human-computer interaction interface, 31-upper computer, 32-control unit.

Embodiment

Below in conjunction with drawings and Examples, to above-mentioned being described in more detail with other technical characteristic and advantage of the present invention.

As shown in Figure 1, for being applied to the structural representation of the quick-fried housing apparatus of tea seed shell in one embodiment of the invention, comprise steam generation module, gas storage module, quick-fried shell module and condensation module; Steam generation module forms by steam-generating installation 1 and with its flow sensor 3, first magnetic valve 4 be connected successively and the first check valve 5.Flow sensor 3 in the middle of this module can show the steam flow flowed out from superheated steam producer in real time.First check valve 5 can prevent steam to be back in superheated steam producer 1 by pipeline 2.

Gas storage module forms by gas-holder 6 and with the second magnetic valve 8, second check valve 9 that it is communicated with successively, and this gas-holder 6 is provided with the first pressure transmitter 7 and the first temperature sensor 26.The superheated vapour flowed out from steam-generating installation is mainly stored in the middle of gas-holder 6 by this module, is convenient to for quick-fried shell module provides the superheated vapour with certain pressure and temperature continuously, thus ensures carrying out smoothly of quick-fried shell.First pressure transmitter 7 and the first temperature sensor 26 are for detecting operating pressure in gas-holder 6 and working temperature in real time.Second check valve 9 is for preventing opposing steam flow in gas-holder 6.

This quick-fried shell module comprises encloses container 16, multiple nozzle 11 and blowing room 13 is established in this encloses container 16, described blowing room 13 is welded by the first metal sheet 15 with holes and the second metal sheet 22 with holes, second metal sheet 22 is provided with discharge valve 24, screening plant 20 is provided with below discharge valve 24, after quick-fried shell completes, open discharge valve 24, the material after quick-fried shell can be made to fall into screening plant 20 and carry out being separated of shell and pulp.Be provided with opening for feed 19 above screening plant 20, below is provided with discharge port 21; Above this blowing room 13, there is material inlet 12.This encloses container 16 is provided with timing register 10, second pressure transmitter 17 and the second temperature sensor 18.This encloses container is communicated with the 3rd magnetic valve 23 successively) and the 3rd check valve 25.Described blowing room 13 is installed vertically in this encloses container 16, and at right angle setting not only can reduce the time of blanking, is also conducive to the homogeneity of quick-fried shell.

Superheated vapour in the middle of gas-holder is sprayed in encloses container (16) by nozzle (11) high speed, makes to produce certain pressure in container, is popped by tea seed shell.Because the temperature of the superheated vapour of high temperature is higher, in the process of quick-fried shell, can be very fast carry out heat exchange with tea seed surface, thus make the moisture on its surface by very fast precipitation, be conducive to the carrying out of quick-fried shell equally.

Condensation module by condenser 27 and with its 4th check valve 28 be communicated with successively and the 4th magnetic valve 29.This module mainly carries out condensation to the steam flowed out from encloses container (16), and then by Cemented filling to steam-generating installation, so not only can improve the utilization ratio of steam, and can also reduce the cost of whole quick-fried shell.

Refer to Fig. 1 and Fig. 2, applying device of the present invention, to carry out the method for quick-fried shell as follows:

(1) will treat that blowing room 13 put into by the tea seed raw material of quick-fried shell, the internal diameter of blowing room is 3-5 Semen Brassicae campestris external diameter doubly.By the first-four magnetic valve (4,8,23,29) be placed in closing condition, open steam-generating installation 1 power switch, steam-generating installation work produces high temperature super heated steam, then the first magnetic valve 4 being placed in opened condition makes high temperature super heated steam enter gas-holder 6 constantly by pipeline 2, now, flow signal is sent to control unit 32 by the under meter 3 be connected in pipeline 2, can be detected the steam flow of steam-generating installation 1 outflow by control unit 32 in real time;

Pressure in (2) first pressure transmitters 7 and the first temperature sensor 26 pairs of gas-holder 6 and temperature value detect, and send signal to control unit 32, when pressure reaches set(ting)value, control unit 32 sends instruction makes the first magnetic valve 4 closedown and the second magnetic valve 8 open, and namely superheated vapour will be sprayed in encloses container 16 at high speed by pipeline 2 and nozzle 11.When the pressure on pressure transmitter is lower than set(ting)value, control unit sends instruction makes the first magnetic valve 4 open, and superheated vapour will be entered in gas-holder 6 by pipeline again from superheated steam producer 1, thus, make the pressure in gas-holder 6 maintain set(ting)value.By the first temperature sensor 26, whether control unit 32 detects the temperature value in gas-holder 6 in real time, monitored steam-generating installation and normally work, and also can show real time temperature in addition to staff with this;

Pressure and the temperature of (3) second pressure transmitter 17, second temperature sensors 18 pairs of encloses containers 16 detect, and send detection signal to control unit 32, when pressure reaches set(ting)value, control unit 32 will send instruction makes the second magnetic valve 8 close, namely stop toward steam supply in encloses container, timing register 10 starts timing simultaneously.Under rated pressure, the working hour of steam needs to be greater than 30s, and namely the timer sets time need be greater than 30s, can complete quick-fried shell.When timing register reaches setting-up time, control unit 32 sends instruction makes magnetic valve 23 open, and namely starts to carry out pressure release to encloses container 16, and timing register 10 resets zero simultaneously.Now, second pressure transmitter 17 and the second temperature sensor 18 continue to detect the pressure in encloses container 16 and temperature value, and detection signal transfers to control unit 32, when the pressure values on the second pressure transmitter 17 be a normal atmosphere and temperature value on the second temperature sensor 18 lower than 60 DEG C time, control unit 32 sends instruction makes discharge valve 24 open, and is dropped in screening plant 20 by the tea seed of quick-fried shell carry out being separated of shell and meat through blanking port 19;

(4) along with steam constantly enters in condenser 27, steam is by the water of liquefy under the effect of condenser, through condensation after a while, opening the 4th magnetic valve 29 flows in superheated steam producer 1 by the liquid in condenser by pipeline, this not only increases the utilization ratio of steam, also reduce the operating cost of quick-fried shell.

Consult Fig. 2, Controlling System of the present invention, by test section, performs part, control section, and human-computer interaction part forms.

(1) test section is for detecting each module work state, and by the state transfer of correspondence to control section, comprising:

A. the detection of under meter 3 pairs of steam flows;

B. the first pressure transmitter 7, first temperature sensor 26 detects the pressure and temperature in gas-holder 6 respectively;

C. timing register 10, first pressure transmitter 17, first temperature sensor 18 detects working hour of quick-fried shell module, operating pressure, working temperature respectively;

(2) execution part is the working order for controlling each module.Comprise:

A. control the folding of the first-four magnetic valve (4,8,23,29) and discharge valve 24, and then control the quantity of steam entering each module, and magnetic valve folding condition is fed back to control unit 32;

B. the startup of steam-generating installation 1 and stopping;

(3) control section is made up of control unit 32 and upper computer 31, and control unit 32 is responsible for the status signal collected and process test section provides, and provides execution instruction to execution part; Detection job state is carried out in upper computer 31 1 aspect, in addition also can the sequence of control of editor control unit 32, and sequence of control comprises manual mode and automatic mode;

(4) human-computer interaction part arranges corresponding push button by human-computer interaction interface 30 according to sequence of control on the one hand, realizes manual mode to whole device Non-follow control; The working order of each module under can directly monitoring automatic mode by human-computer interaction interface 30 on the one hand in addition, and can each set(ting)value in automatic module be set.

Above-described embodiment is only be described the preferred embodiment of the present invention; not scope of the present invention is limited; under not departing from the present invention and designing the prerequisite of spirit; the various distortion that those of ordinary skill in the art make technical scheme of the present invention and improvement, all should fall in protection domain that claims of the present invention determines.

Claims (9)

1. be applied to a quick-fried housing apparatus for tea seed shell, it is characterized in that comprising steam generation module, gas storage module, quick-fried shell module and condensation module; This steam generation module provides the superheated vapour of more than 100 DEG C, and gas storage module is for storing described superheated vapour, and tea seed realizes quick-fried shell under the effect of quick-fried shell module at superheated vapour, and superheated vapour condensation is delivered to steam generation module by condensation module again.

2. be applied to the quick-fried housing apparatus of tea seed shell as claimed in claim 1, it is characterized in that this steam generation module is made up of steam-generating installation (1) and the flow sensor (3) be connected successively with it, the first magnetic valve (4) and the first check valve (5).

3. be applied to the quick-fried housing apparatus of tea seed shell as claimed in claim 2, it is characterized in that this gas storage module is made up of gas-holder (6) and the second magnetic valve (8) be communicated with successively with it, the second check valve (9), this gas-holder (6) is provided with the first pressure transmitter (7) and the first temperature sensor (26).

4. be applied to the quick-fried housing apparatus of tea seed shell as claimed in claim 3, it is characterized in that this quick-fried shell module comprises encloses container (16), multiple nozzle (11) and blowing room (13) are established in this encloses container (16), described blowing room (13) is welded by the first metal sheet (15) with holes and the second metal sheet (22) with holes, second metal sheet (22) is provided with discharge valve (24), discharge valve (24) below is provided with screening plant (20), and screening plant (20) top is provided with opening for feed (19), below is provided with discharge port (21); This top, blowing room (13) has material inlet (12).

5. be applied to the quick-fried housing apparatus of tea seed shell as claimed in claim 4, it is characterized in that this encloses container (16) is provided with timing register (10), the second pressure transmitter (17) and the second temperature sensor (18).

6. the quick-fried housing apparatus being applied to tea seed shell as described in claim 4 or 5, is characterized in that this encloses container is communicated with the 3rd magnetic valve (23) and the 3rd check valve (25) successively.

7. the quick-fried housing apparatus being applied to tea seed shell as described in claim 4 or 5, is characterized in that described blowing room (13) is installed vertically in this encloses container (16).

8. be applied to the quick-fried housing apparatus of tea seed shell as claimed in claim 6, it is characterized in that described condensation module by condenser (27) and with its 4th check valve (28) be communicated with successively and the 4th magnetic valve (29).

9. be applied to the quick-fried housing apparatus of tea seed shell as claimed in claim 8, it is characterized in that it also comprises Controlling System, be made up of test section, execution part, control section and human-computer interaction part, wherein, this test section comprises under meter (3), the first pressure transmitter (7), the first temperature sensor (26), timing register (10), the second pressure transmitter (17) and the second temperature sensor (18); This execution part is the working order for controlling each module, comprise: the folding controlling the first-four magnetic valve (4,8,23,29) and discharge valve (24), and then control the quantity of steam entering each module, and magnetic valve folding condition is fed back to control unit (32); And the startup of steam-generating installation (1) and stopping; This control section is made up of control unit (32) and upper computer (31), and control unit (32) is responsible for the status signal collected and process test section provides, and provides execution instruction to execution part; Upper computer (31) on the one hand carries out detection job state, in addition also can the sequence of control of editor control unit (32), and sequence of control comprises manual mode and automatic mode; This human-computer interaction part arranges corresponding push button by human-computer interaction interface (30) according to sequence of control on the one hand, realizes manual mode to whole device Non-follow control; The working order of each module under can directly monitoring automatic mode by human-computer interaction interface (30) on the one hand in addition, and can each set(ting)value in automatic module be set.