CN205083246U - Prevent sticking with paste pan subassembly of end and low noise - Google Patents

Abstract

The utility model relates to a prevent sticking with paste pan subassembly of end and low noise, include slaughterhouse and the acoustical panel that sets up with the slaughterhouse components of a whole that can function independently, the acoustical panel laminating sets up basal surface in the inner bottom of slaughterhouse can manually freely break away from out the slaughterhouse on the surface, set up the mesh that a plurality of bloops reach the amortization on the acoustical panel, and through set up the feed cylinder on the acoustical panel, can be at the cook material object of different tastes of feed cylinder riga heat, through through -hole and accessibke porosity in setting up on the acoustical panel, can be fast give the water liquid of acoustical panel top with the heat transfer of the bottom of slaughterhouse, the heating speed is fast, can play brokenly simultaneously bubble the noise reduction effect. The utility model discloses a device simple structure, convenient to detach is convenient to be washd, can guarantee simultaneously one pot multi -purpose, improve the commonality of slaughterhouse, can also effectual noise reduction and prevent to be burned, the problem of compounding, can reach boiling with higher speed, the more even effect of heating during the use.

Description

A kind ofly anti-to be sticking and the pan assembly of low noise

Technical field

The utility model relates to a kind of pan assembly, particularly relates to a kind of anti-being sticking and the pan assembly of low noise as electromagnetic oven cooker use, belongs to cookware structure design field.

Background technology

Current electromagnetic oven has become a kind of heating electrical appliance of generality, chafing dish is a kind of common cooking method, the modern electromagnetic oven that uses does chafing dish culinary art more, also there is various structures in the pan for electromagnetic oven, pan often produces bubble noise of blasting in the liquid before sizable electromagnetic noise and boiling in electromagnetic oven heating process, affects the chafing dish culinary art of electromagnetic oven greatly.

When using hot pot for induction cooker function, normally food is placed in the slaughterhouse filling bed material (Chinese prickly ash, capsicum, bacterium mushroom, spices etc.) and cooks, after a period of time of cooking, bed material invests on food unavoidably, makes eater feel inconvenience very much; And bed material can be sunken to the bottom of a pan, boil for a long time and be easy to muddy soup, be burned, sticky pot, not only affected attractive in appearance, but also affect the mouthfeel of chafing dish.

Utility model content

Technical problem to be solved in the utility model is to provide a kind of anti-being sticking and the pan assembly of low noise as hot pot for induction cooker use, add in slaughterhouse with the use of silencer element, whole slaughterhouse can not be burned, glue the phenomenon of pot, and noise is little, use safety, easy to clean.

The technical scheme that the utility model solves the problems of the technologies described above is as follows: a kind ofly anti-to be sticking and the pan assembly of low noise, the acoustical panel comprising slaughterhouse and arrange with described slaughterhouse split, the inner bottom surface that the laminating of described acoustical panel is arranged on described slaughterhouse manually can freely be separated from described slaughterhouse inner bottom surface.

The beneficial effects of the utility model are that this apparatus structure is simple, be convenient to convenient disassembly cleaning, when using mutton cooked in a chafing pot, by acoustical panel as on slaughterhouse inner bottom surface, when using electromagnetic oven heating, electromagnetic induction forms the micro-current vortex of induction bottom slaughterhouse, can local vibrations be caused when there is no acoustical panel and produce noise, when there being acoustical panel to be fitted in slaughterhouse inner bottom surface, acoustical panel meeting snubber falls the most of vibrating noise on slaughterhouse inner bottom part, therefore achieves low noise; In addition, because acoustical panel is fitted on slaughterhouse inner bottom surface, soup for chafing dish bed material is then difficult to enter between slaughterhouse inner bottom surface and acoustical panel, and water liquid can immerse between acoustical panel and slaughterhouse inner bottom surface, in Electromagnetic Heating process, the temperature of acoustical panel, more than low bottom slaughterhouse, therefore can not stick at the bottom of chafing dish material acoustical panel causes and is sticking phenomenon, can manually get from acoustical panel after chafing dish terminates, conveniently clean up respectively; When not needing at the bottom of chafing dish material, such as when boil water or hot water, slaughterhouse can not be placed acoustical panel and heat, simultaneously can real multi-purpose pot, improves the versatility of slaughterhouse.

On the basis of technique scheme, the utility model can also do following improvement.

Further, described acoustical panel is the corrosion resistant plate that thickness is less than or equal to 2mm.

Adopt the beneficial effect of above-mentioned further scheme be corrosion resistant plate be suitable for boiling in soup and indeformable and intensity and hardness good, be beneficial to noise reduction, being less than or equal to 2mm by thickness is arranged, and can reduce overall total amount when content with funtion, and cost is low simultaneously.

Further, described acoustical panel is provided with multiple bloop.

Adopt the beneficial effect of above-mentioned further scheme to be acoustical panel can be arranged bloop to carry out auxiliary noise reduction, also can design other feasible alternative schemes such as multiple grooves.

Further, the area of all bloops accounts for the long-pending 5%-50% of described acoustical panel and described slaughterhouse base contact surface.

Further, the surface area of described acoustical panel plate body covers the 50%-95% of described slaughterhouse bottom area.

The beneficial effect of above-mentioned further scheme is adopted to be that acoustical panel entirety can be designed to the size the same with the slaughterhouse the bottom of a pan, acoustical panel is provided with on the basis of multiple bloop, the surface area of acoustical panel plate body can not ether little, otherwise acoustical panel cannot fall most of vibrating noise on slaughterhouse inner bottom part by snubber, but can not cover too large, the area of bloop is rationally set, contribute to the effect of noise reduction, experimental studies have found that the area of all bloops accounts for acoustical panel and the long-pending 5%-50% of slaughterhouse base contact surface through a large amount of, namely the 50%-95% of the surface area covering slaughterhouse bottom area of acoustical panel plate body is the most suitable, erasure effect is best.

Further, the circumferential outer edge of described acoustical panel is provided with the rewinding portion upwards extended along slaughterhouse madial wall, and the shape bottom described rewinding portion and described slaughterhouse madial wall is suitable, and is close on described slaughterhouse inner bottom surface.

The beneficial effect of above-mentioned further scheme is adopted to be when mentioning acoustical panel from slaughterhouse, acoustical panel can be attached with the residue of bed material and leftover, in order to avoid when proposing, residue drops from acoustical panel, rewinding portion is increased at acoustical panel circumference outer edge, all can be taken out of by unnecessary residue when proposing acoustical panel, slaughterhouse can reuse through simple flushing as far as possible.In order to prevent bed material or food from entering between acoustical panel and slaughterhouse, acoustical panel is close on slaughterhouse inner bottom surface, and rewinding portion also will design like this.

Further, be the arc linkage section be connected with slaughterhouse diapire bottom described slaughterhouse madial wall, described rewinding portion is the arc disk identical with arc linkage section radian.

Adopt the beneficial effect of above-mentioned further scheme to be that the junction of general slaughterhouse within it sidewall and its diapire is all designed to arc, both can expand volume, and also conveniently fish for, clamping food, so rewinding portion is also designed to the arc disk with junction identical radian measure.

Further, institute's acoustical panel is provided with barrel, described barrel comprises and vertically arranging and the stack shell closed by described acoustical panel of top end opening bottom, described acoustical panel closes the part of described stack shell bottom for fitting in the stack shell diapire in slaughterhouse inner bottom surface centre position, described acoustical panel in the part of stack shell bottom periphery for fitting in the chassis of described slaughterhouse inner bottom surface.

The beneficial effect of above-mentioned further scheme is adopted to be by arranging barrel on acoustical panel, the material object of different taste of cooking can be heated in barrel, such as can increase pungent product or spicy product inside barrel, it is rich that increase is cooked, and stack shell is convenient in centre position from circumference all apart from extraction foodstuff.

Further, described stack shell diapire is provided with multiple inner via hole, described chassis is provided with multiple accessibke porosity.

The beneficial effect of above-mentioned further scheme is adopted to be by arranging inner via hole and accessibke porosity, fast the heat of the bottom of slaughterhouse can be passed to the water liquid above acoustical panel, firing rate is fast, similar bloop broken bubble noise reduction can be played simultaneously, namely in the heating process of mutton cooked in a chafing pot, bubble in water liquid can be formed in slaughterhouse bottom faces, just break when rising to through hole, liquid level can not be arrived break and form large noise, besides because acoustical panel is fitted in slaughterhouse inner bottom surface, due to the viscous force effect of water liquid, hinder the soup in barrel and the soup outside barrel to be difficult to be formed flow fast and to exchange, taint of odour is not easy between the cooking therefore inside and outside barrel.

Further, described inner via hole is evenly distributed on described stack shell diapire, and described accessibke porosity is evenly distributed on described chassis.

The beneficial effect adopting above-mentioned further scheme is inner via hole, accessibke porosity is uniformly distributed the best, form stable Convection states, make all directions, each position is heated evenly, there will not be hot-spot or excessively cold situation, and the soup convection current inside and outside barrel is got up more smooth.

Further, the both sides outer wall of described slaughterhouse is respectively equipped with the handle for lifting or put down slaughterhouse.

Further, described inner via hole is circular port, and its aperture is 3-5mm.

Further, described accessibke porosity is circular port, and its aperture is 5-8mm.

Further, described inner via hole is circular port, and its aperture is 3-5mm, and described accessibke porosity is circular port, and its aperture is 5-8mm.

In the process that slaughterhouse uses, slaughterhouse can produce bubble because of heating, and then the soup rolling in drive slaughterhouse, so through hole can be arranged to the circle corresponding with bubble phase, and circle is under same area, come with liquid stream momentum maximum, again because be that round and smooth transition can not produce resistance, so the circular best results of via design.

Through great many of experiments, the actual test that soup carries out is equipped with to barrel inside, find when forming convection current and being heated evenly and considering of pot two problems can not being glued by through hole, aperture stack shell diapire being positioned at the inner via hole of heating nucleus is best at 3-5mm, is preferably about 4.5mm.

Through great many of experiments to the outside actual test of soup being housed and carrying out of barrel, find when forming convection current and being heated evenly and considering of pot two problems can not being glued by through hole, aperture chassis being positioned at the accessibke porosity outside heating nucleus is best at 5-8mm, is preferably about 6.5mm.

Accompanying drawing explanation

Fig. 1 is the utility model package assembly exploded perspective view;

Fig. 2 is the top view after the utility model assembling;

Fig. 3 is AA sectional view in Fig. 2;

Fig. 4 is that Fig. 3 is when using and the coil panel collaboration structural representation of electromagnetic oven;

Fig. 5 is the structure enlarged diagram of square frame B in Fig. 4, and wherein arrow represents that water liquid is to flow path direction;

Fig. 6 is another embodiment package assembly exploded perspective view of the present utility model.

In accompanying drawing, the list of parts representated by each label is as follows:

1, slaughterhouse, 2, barrel, 21, acoustical panel, 3, stack shell, 4, chassis, 5, inner via hole, 6, accessibke porosity, 7, rewinding portion, 8, handle, 9, coil panel.

Detailed description of the invention

Be described principle of the present utility model and feature below in conjunction with accompanying drawing, example, only for explaining the utility model, is not intended to limit scope of the present utility model.

As shown in Figures 1 to 6, the utility model relates to a kind of anti-to be sticking and the pan assembly of low noise, and comprise slaughterhouse 1, this slaughterhouse 1 can be arranged on electromagnetic oven, also can be arranged on other heaters, below describes conveniently, illustrates with electromagnetic oven.As described in Figure 6, in described slaughterhouse 1, split is provided with acoustical panel 21, the inner bottom surface that the laminating of described acoustical panel 21 is arranged on described slaughterhouse 1 manually freely can be separated from described slaughterhouse 1 inner bottom surface, acoustical panel 21 can be arranged multiple bloop and carry out noise reduction, also can design other feasible alternative schemes such as multiple grooves.

Described acoustical panel 21 is less than or equal to the stainless steel of 2mm for thickness, adopt corrosion resistant plate to be suitable for boiling in soup and indeformable and intensity and hardness good, be beneficial to noise reduction, being less than 2mm by thickness is arranged, can reduce overall total amount when content with funtion, cost is low simultaneously.

Described acoustical panel 21 can arrange bloop and carry out auxiliary noise reduction, also can design other feasible alternative schemes such as multiple grooves.Acoustical panel 21 entirety can be designed to the size the same with slaughterhouse 1 the bottom of a pan, acoustical panel 21 is provided with on the basis of multiple bloop, the surface area of acoustical panel 21 plate body can not ether little, otherwise acoustical panel 21 cannot fall most of vibrating noise on slaughterhouse 1 inner bottom part by snubber, but can not cover too large, the area of bloop is rationally set, contribute to the effect of noise reduction, through a large amount of experimental studies have found that, the area of all bloops accounts for acoustical panel 21 5%-50% long-pending with slaughterhouse 1 base contact surface, namely the 50%-95% of surface area covering slaughterhouse 1 bottom area of acoustical panel 21 plate body is the most suitable, erasure effect is best.

As shown in Figures 1 to 5, institute's acoustical panel 21 is provided with barrel 2, described barrel 2 comprises and vertically arranging and the stack shell 3 closed by described acoustical panel 21 of top end opening bottom, described acoustical panel 21 closes the part of described stack shell 3 bottom for fitting in the stack shell diapire in slaughterhouse 1 inner bottom surface centre position, described acoustical panel 21 in the part of stack shell 3 bottom periphery for fitting in the chassis 4 of described slaughterhouse 1 inner bottom surface, by arranging barrel 2 on acoustical panel 21, the material object of different taste of cooking can be heated in barrel 2.Described stack shell diapire is provided with inner via hole 5, and described chassis 4 is provided with multiple accessibke porosity 6, and these through holes can regard the bloop on acoustical panel 21 as.By arranging inner via hole 5 and accessibke porosity 6 on acoustical panel 21, fast the heat of the bottom of slaughterhouse 1 can be passed to the water liquid above acoustical panel 21, firing rate is fast, can play similar bloop broken bubble noise reduction simultaneously.

Apparatus structure of the present utility model is simple, is convenient to convenient disassembly cleaning, can ensures multi-purpose pot simultaneously, improve the versatility of slaughterhouse 1, can also effectively prevent from being burned, the problem of batch mixing, can reach during use accelerate boiling, heating evenly effect.This device can solve and use that heater is heated up water, the culinary art such as chafing dish time firing rate and homogeneous heating sex chromosome mosaicism, improve chafing dish culinary art and experience.

Slaughterhouse 1 of the present utility model can independently use also can with barrel 2 with the use of, realize different taste chafing dish, such as dual-broth hot pot simultaneously.

The principle that slaughterhouse 1 produces bubble is: to the solubility of air and wall, the adsorbance to air reduces with the rising of temperature water, and when the water is heated, first bubble generates on the wall of heating surface.After bubble formation, because water continues to be heated, overheated water layer is formed near heating surface, it will constantly to flashes vapor in minute bubbles, pressure in bubble (air pressure and vapour pressure sum) is constantly increased, and result makes the volume of bubble constantly expand, and the buoyancy suffered by bubble also increases thereupon, when the buoyancy suffered by bubble is greater than the adhesive force between bubble and wall, bubble just leaves wall to start to float.When slaughterhouse 1 because when intensification produces bubble, the soup in slaughterhouse 1 can roll, and brings noise and danger.

The utility model add in slaughterhouse 1 with the use of acoustical panel 21 and barrel 2, by the compartmentation of acoustical panel 21, prevent food from directly contacting with (thermal source) bottom slaughterhouse 1, effectively prevent at the bottom of food paste, avoid occurring muddy soup, be burned, glue the phenomenon of pot, and there is through hole (inner via hole 5, accessibke porosity 6) on stack shell diapire and chassis 4, can make the soup inside and outside barrel 2 respectively by fixed flow to carrying out convection current, accelerate boiling, reduce noise, be heated evenly, use safety.

Soup inside and outside barrel 2 is separated by stack shell 3, although there is through hole may form soup mixing, can controls to allow acoustical panel 21 and slaughterhouse inner bottom surface combine closely, make the circulation of soup very slow, prevent the soup inside and outside barrel 2 from mixing fast, present the effect of dual-broth hot pot.

After dining, mention acoustical panel 21 and barrel 2 from slaughterhouse 1, slaughterhouse 1 entered simple flushing and can reuse, and acoustical panel 21 heats because directly do not contact with electromagnetic oven with barrel 2, its temperature is not high, there will not be the situation of residue stick on top yet, and cleaning up is also very convenient.

The rewinding portion 7 upwards extended along slaughterhouse 1 madial wall is provided with at the circumferential outer edge of described acoustical panel 21.When mentioning acoustical panel 21 from slaughterhouse 1, acoustical panel 21 can be attached with the residue of bed material and leftover, in order to avoid when proposing, residue drops from acoustical panel 21, rewinding portion 7 is increased at the circumferential outer edge of acoustical panel 21, unnecessary residue all can be taken out of when proposing acoustical panel 21 as far as possible, and soup can flow back in slaughterhouse 1 from the structure such as bloop or groove, slaughterhouse 1 can reuse through simple flushing.

Described rewinding portion 7 is suitable with the shape bottom described slaughterhouse 1 madial wall, and is close on described slaughterhouse 1 inner bottom surface.In order to prevent bed material or food from entering between acoustical panel 21 and slaughterhouse 1, acoustical panel 21 is close on slaughterhouse 1 inner bottom surface, and rewinding portion 7 also will design like this.

Be the arc linkage section be connected with slaughterhouse 1 diapire bottom described slaughterhouse 1 madial wall, described rewinding portion 7 is the arc disk identical with arc linkage section radian.The junction of general slaughterhouse 1 within it sidewall and its diapire is all designed to arc, both can expand volume, and also conveniently fish for, clamping food, so rewinding portion 7 is also designed to the arc disk with junction identical radian measure.

In the utility model, stack shell 3, acoustical panel 21 (comprising stack shell diapire, chassis 4), rewinding portion 7 can make respectively and be fixed together, but best being still together made into one is shaping, so both ensure the complete of structure, globality is stronger, and eliminate operation fixing again, avoid the harmful effect to slaughterhouse 1 inside.

Described inner via hole 5 is evenly distributed on described stack shell diapire.Described accessibke porosity 6 is evenly distributed on described chassis 4.Inner via hole 5, accessibke porosity 6 are uniformly distributed the best, form stable Convection states, make all directions, each position is heated evenly, there will not be hot-spot or excessively cold situation, and the soup convection current inside and outside barrel 2 is got up more smooth.

The both sides outer wall of described slaughterhouse 1 is respectively equipped with the handle 8 for lifting or put down slaughterhouse 1.

Through hole is to form convection current, and stack shell diapire and chassis 4 are to separate slaughterhouse and soup, so the size of through hole can not be excessive, the words segregation that not so clear size of opening is excessive is not good, and residue also can be adhered on slaughterhouse 1 by through hole.And the area of single accessibke porosity 6 needs larger than the area of single inner via hole 5, this is fixed for the structure of slaughterhouse 1 and barrel 2 and size, because heater especially electromagnetic oven is generally that centre position temperature is high when heating, ambient temperature is low, it is similar columniform convective structure in barrel 2, it is that flow towards stack shell 3 inwall in centre position above inner via hole 5 in barrel 2 to flow path direction, centre position is got back to again below stack shell diapire, and in slaughterhouse 1, outside barrel 2, be the convective structure of a similar annular, flow towards annular outboard above accessibke porosity 6 from annular inboard, annular inboard is got back to again below chassis 4, the mode of the two convection circulation is different.And the cellular convection structure in slaughterhouse 1 outside barrel 2, annular inboard and the outside temperature difference large, this is because the coil panel 9 concrete structure decision of electromagnetic oven, inner space temperature variation is little, outer space temperature variation is large, in slaughterhouse 1, outermost soup is heated is minimum, temperature is minimum, more much lower than the temperature at barrel 2 edge, needing to form larger convection current is with dynamic temperature to rise overally, so accessibke porosity 6 needs enough large, and because be all in the core heating region of electromagnetic oven in barrel 2, the temperature difference is also little, inner via hole 5 need not arrange so large, can be smaller, by the degree of heat in whole slaughterhouse 1 being made as far as possible identical to the control of via area.

Number of openings and area can also regulate programming rate and affect noise (being equivalent to the bloop on acoustical panel).

For shape and the size of through hole, comparatively preferred technical scheme is: described inner via hole 5 is circular port, and its aperture is 3-5mm, and described accessibke porosity 6 is circular port, and its aperture is 5-8mm.

In the process that slaughterhouse 1 uses, slaughterhouse 1 can produce bubble because of the heating of electromagnetic oven, and then drive the soup in slaughterhouse 1 to roll, and through hole can be arranged to the circle corresponding with bubble phase, and circle is under same area, come with liquid stream momentum maximum, again because be that round and smooth transition can not produce resistance, so the circular best results of via design.

Below for same electromagnetic oven and slaughterhouse 1, respectively Heating Experiment is carried out to obtain the optimum aperture of inner via hole 5, accessibke porosity 6 to different barrels 2:

Select electromagnetic oven common on the market, pattern during the experiment heating general mutton cooked in a chafing pot of employing and power, select general circular slaughterhouse 1, carry out Heating Experiment for the chafing dish bottom flavorings of equivalent and food respectively with different barrels 2, the temperature difference inside and outside when detecting sticky pot situation and heating.

Embodiment 1

50g chafing dish bottom flavorings and 200g mutton are housed in barrel inside, add 80% (namely simulate the state of general mutton cooked in a chafing pot) of general chafing dish soup to volume, that carries out reality adds Thermal test, the number of inner via hole is consistent, in order to get rid of the interference of distribution situation, inner via holes all on barrel diapire is distributed with totally 9, two circles (1 8, Ge center is in surrounding) as shown in Figure 2, the aperture of inner via hole is identical from 0-10mm, respectively from heating after, (temperature test point in inner side is at barrel axis place to measure an internal and external temperature every 2 minutes, temperature outside test point is at stack shell madial wall place), accounting temperature is poor, survey 5 times altogether, sticky pot situation is by gluing a pot quantitative determination, and the weight of namely residual on slaughterhouse after having heated impurity, 45 minutes average times of mutton cooked in a chafing pot, is keeping the detection carrying out sticky pot amount in boiling situation after 45 minutes.In order to get rid of the interference of contingency, 20 groups of experiments are carried out simultaneously to different pore size barrel, the results averaged recorded.The result of gained is as shown in table 1 below.

The temperature difference inside and outside during the heating of table 1 barrel inside

As shown in table 1,3mm is less than or equal in inner via hole aperture, the increase in aperture all significantly reduces the temperature difference, especially in the early stage of heating, and after being greater than 3mm, more little on the impact of increase on the temperature difference in aperture, so after the aperture of inner via hole is greater than 3mm, the effect that formation convection current is heated evenly can be realized, larger, effect improved is not obvious.And sticky pot amount very little in aperture time, substantially can not be bonded on pot, and when being greater than 5mm, sticky pot amount obviously increases, this is because through hole is excessive, residue has been adhered on slaughterhouse by inner via hole.So, when forming convection current and being heated evenly and considering of pot two problems can not being glued by through hole, aperture stack shell diapire being positioned at the inner via hole of electromagnetic oven heating nucleus is best at 3-5mm, and the value of the best should at about 4.5mm, such aperture has compared to 4mm and 5mm comparatively significantly to be optimized, and is best technical scheme.

Embodiment 1 test process in, have a small amount of soup slowly from inner via hole to accessibke porosity to outside barrel, embodiment 1 only for the detection of barrel inside, does not consider external circumstances.

Consider in the inner actual heating process of barrel, inner via hole also can play the effect being equivalent to bloop, therefore when the carrying out of above-mentioned experiment, also the noise produced during heating is tested, the aperture of unexpected discovery inner via hole is when 3-5mm, good muffling effect, noise has obvious reduction, calculate the now inner via hole gross area and account for the long-pending 5%-50% of stack shell bottom wall surface (namely the area of all inner via holes accounts for the 5%-50% that acoustical panel practice part stack shell diapire amasss with described slaughterhouse base contact surface), that is, stack shell diapire with inner via hole accounts for the 50%-95% of corresponding described slaughterhouse 1 bottom centre region area, erasure effect is best, for erasure effect, the best-of-breed technology scheme in aperture is also 4.5mm.

Embodiment 2

50g chafing dish bottom flavorings and 200g mutton are housed in barrel outside, add 80% (namely simulate the state of general mutton cooked in a chafing pot) of general chafing dish soup to volume, that carries out reality adds Thermal test, the number of accessibke porosity is consistent, in order to get rid of the interference of distribution situation, accessibke porosities all on chassis is distributed with four circles totally 96 (radial distribution as shown in Figure 2, often enclose 24), the aperture of accessibke porosity is identical from 0-10mm, respectively from heating after, (temperature test point in inner side is at stack shell lateral wall to measure an internal and external temperature every 2 minutes, temperature outside test point is at slaughterhouse madial wall place), accounting temperature is poor, survey 5 times altogether, sticky pot situation is by gluing a pot quantitative determination, and the weight of namely residual on slaughterhouse after having heated impurity, 45 minutes average times of mutton cooked in a chafing pot, is keeping the detection carrying out sticky pot amount in boiling situation after 45 minutes.In order to get rid of the interference of contingency, 20 groups of experiments are carried out simultaneously to different pore size barrel, the results averaged recorded.The result of gained is as shown in table 2 below.

The temperature difference inside and outside during table 2 barrel external heat

As shown in table 1, through-hole aperture is less than or equal to 5mm outside, the increase in aperture all significantly reduces the temperature difference, especially in the early stage of heating, and after being greater than 5mm, more little on the impact of increase on the temperature difference in aperture, so after the aperture of accessibke porosity is greater than 5mm, the effect that formation convection current is heated evenly can be realized, larger, effect improved is not obvious.And sticky pot amount very little in aperture time, substantially can not be bonded on pot, and when being greater than 8mm, sticky pot amount obviously increases, this is because through hole is excessive, residue has been adhered on slaughterhouse by accessibke porosity.So, when forming convection current and being heated evenly and considering of pot two problems can not being glued by through hole, aperture chassis being positioned at the accessibke porosity of electromagnetic oven heating nucleus is best at 5-8mm, and the value of the best should at about 6.5mm, such aperture has compared to 6mm and 7mm comparatively significantly to be optimized, and is best technical scheme.

Embodiment 2 test process in, have a small amount of soup slowly from accessibke porosity to inner via hole in barrel, embodiment 2 only for the detection of barrel outside, does not consider inner case.

Consider in the outside actual heating process of barrel, accessibke porosity also can play the effect being equivalent to bloop, therefore when the carrying out of above-mentioned experiment, also the noise produced during heating is tested, the aperture of unexpected discovery accessibke porosity is when 5-8mm, good muffling effect, noise has obvious reduction, calculate the now accessibke porosity gross area and account for the long-pending 5%-50% of chassis surface (namely the area of all accessibke porosities accounts for the 5%-50% that acoustical panel practice parts of chassis amasss with described slaughterhouse base contact surface), that is, chassis with accessibke porosity accounts for the 50%-95% of corresponding described slaughterhouse 1 bottom periphery region area, erasure effect is best, for erasure effect, the best-of-breed technology scheme in aperture is also 6.5mm.

Embodiment 3

Concrete mode and embodiment 1, embodiment 2 is identical, difference is that enforcement 3 is all equipped with chafing dish bottom flavorings and food materials barrel is inside and outside, carry out heating to detect simultaneously, but due to the compartmentation of stack shell, impact mutual inside and outside barrel is little, the result surveyed and embodiment 1, embodiment 2 is similar, the conclusion drawn is identical, the aperture of inner via hole is 3-5mm, the aperture of accessibke porosity 6 is 5-8mm, effect is optimized the most, now the area of all through holes (interior accessibke porosity is combined and can regards bloop as) accounts for the long-pending 5%-50% of described acoustical panel and described slaughterhouse base contact surface, namely the surface area of acoustical panel plate body covers the 50%-95% of slaughterhouse bottom area, best aperture schemes is the aperture of inner via hole is 4.5mm, the aperture of accessibke porosity 6 is 6.5mm.

In description of the present utility model, it will be appreciated that, term " centre ", " vertically ", " diameter ", " aperture ", " on ", D score, the orientation of the instruction such as " circumference " or position relationship be based on orientation shown in the drawings or position relationship, only the utility model and simplified characterization for convenience of description, instead of the device of instruction or hint indication or element must have specific orientation, with specific azimuth configuration and operation, therefore can not be interpreted as restriction of the present utility model.

In the utility model, unless otherwise clearly defined and limited, the term such as term " setting ", " being affixed on ", " connection " should be interpreted broadly, and such as, can be fixedly connected with, also can be removably connect, or integral; Can be mechanical connection, also can be electrical connection; Can be directly be connected, also indirectly can be connected by intermediary, can be the connection of two element internals or the interaction relationship of two elements, unless otherwise clear and definite restriction.For the ordinary skill in the art, the concrete meaning of above-mentioned term in the utility model can be understood as the case may be.

In the utility model, unless otherwise clearly defined and limited, fisrt feature second feature " on " or D score can be that the first and second features directly contact, or the first and second features are by intermediary mediate contact.And, fisrt feature second feature " on ", " top " and " above " but fisrt feature directly over second feature or oblique upper, or only represent that fisrt feature level height is higher than second feature.Fisrt feature second feature " under ", " below " and " below " can be fisrt feature immediately below second feature or tiltedly below, or only represent that fisrt feature level height is less than second feature.

In the description of this description, specific features, structure, material or feature that the description of reference term " embodiment ", " some embodiments ", " example ", " concrete example " or " some examples " etc. means to describe in conjunction with this embodiment or example are contained at least one embodiment of the present utility model or example.In this manual, to the schematic representation of above-mentioned term not must for be identical embodiment or example.And the specific features of description, structure, material or feature can combine in one or more embodiment in office or example in an appropriate manner.In addition, when not conflicting, the feature of the different embodiment described in this description or example and different embodiment or example can carry out combining and combining by those skilled in the art.

Although illustrate and described embodiment of the present utility model above, be understandable that, above-described embodiment is exemplary, can not be interpreted as restriction of the present utility model, those of ordinary skill in the art can change above-described embodiment, revises, replace and modification in scope of the present utility model.

Claims (13)

1. prevent being sticking and the pan assembly of low noise for one kind, the acoustical panel (21) comprising slaughterhouse (1) and arrange with described slaughterhouse (1) split, described acoustical panel (21) laminating is arranged on described slaughterhouse (1) inner bottom surface also manually can freely be separated from described slaughterhouse (1) inner bottom surface.

2. according to claim 1ly anti-to be sticking and the pan assembly of low noise, to it is characterized in that, described acoustical panel (21) is less than or equal to the corrosion resistant plate of 2mm for thickness.

3. according to claim 1ly anti-to be sticking and the pan assembly of low noise, it is characterized in that, (21) are provided with multiple bloop to described acoustical panel.

4. a kind of pan assembly according to claim 3, is characterized in that: the area of all bloops accounts for described acoustical panel (21) 5%-50% long-pending with described slaughterhouse (1) base contact surface.

5. according to claim 3ly anti-to be sticking and the pan assembly of low noise, it is characterized in that, the surface area of described acoustical panel (21) plate body covers the 50%-95% of described slaughterhouse (1) bottom area.

6. prevent according to claim 1 being sticking and the pan assembly of low noise, it is characterized in that, the rewinding portion (7) upwards extended along slaughterhouse (1) madial wall is provided with at the circumferential outer edge of described acoustical panel (21), described rewinding portion (7) is suitable with the shape bottom described slaughterhouse (1) madial wall, and is close on described slaughterhouse (1) inner bottom surface.

7. according to claim 6ly anti-to be sticking and the pan assembly of low noise, it is characterized in that, be the arc linkage section be connected with slaughterhouse (1) diapire bottom described slaughterhouse (1) madial wall, described rewinding portion (7) is the arc disk identical with arc linkage section radian.

8. according to claim 1ly anti-to be sticking and the pan assembly of low noise, it is characterized in that, institute's acoustical panel (21) is provided with barrel (2), described barrel (2) comprises and vertically arranging and the stack shell (3) closed by described acoustical panel (21) of top end opening bottom, described acoustical panel (21) closes the part of described stack shell (3) bottom for fitting in the stack shell diapire in slaughterhouse (1) inner bottom surface centre position, described acoustical panel (21) in the part of stack shell (3) bottom periphery for fitting in the chassis (4) of described slaughterhouse (1) inner bottom surface.

9. according to claim 8ly anti-to be sticking and the pan assembly of low noise, described stack shell diapire to be provided with multiple inner via hole (5), described chassis (4) to be provided with multiple accessibke porosity (6).

10. according to claim 9ly anti-to be sticking and the pan assembly of low noise, it is characterized in that, described inner via hole (5) is evenly distributed on described stack shell diapire, and described accessibke porosity (6) is evenly distributed on described chassis (4).

11. anti-according to claim 9 or 10 are sticking and the pan assembly of low noise, and it is characterized in that, described inner via hole (5) aperture is 3-5mm.

12. anti-according to claim 9 or 10 are sticking and the pan assembly of low noise, it is characterized in that, described accessibke porosity (6) for aperture be 5-8mm.

13. anti-according to claim 9 or 10 are sticking and the pan assembly of low noise, and it is characterized in that, described inner via hole (5) is circular port, and its aperture is 3-5mm, and described accessibke porosity (6) is circular port, and its aperture is 5-8mm.