CN108955108A - It is a kind of for drying the drying equipment of ceramic body - Google Patents

Abstract

The present invention relates to drying technology fields, and it discloses a kind of for drying the drying equipment of ceramic body, including drying cabinet, the first chamber door and the second chamber door are offered on the front side wall of the drying cabinet, the left side of first chamber door and the right side of the second chamber door pass through hinge respectively and drying cabinet is hinged, the right side of first chamber door and the left side of the second chamber door are separately installed with the first locking mechanism and the second locking mechanism being mutually locked by magnetic force, the top of drying cabinet, which offers, sequentially passes through drying cabinet top end face and aluminium sheet and chamber central are equipped with the heat release hole of the gauze screen with square through-hole, drying tank is installed in drying box body cavity body, the left and right side of drying cabinet is separately installed with symmetrical the first drying mechanism and the second drying mechanism.The present invention solves existing ceramic body drying equipment, the low problem poor with drying uniformity of drying efficiency.

Description

It is a kind of for drying the drying equipment of ceramic body

Technical field

It is specially a kind of for drying the drying equipment of ceramic body the present invention relates to drying technology field.

Background technique

Ceramic body is the main body of ceramic, and performance decides the performance and application of ceramic.Ceramic body Drying is by the process for evaporating and making green body dehydration after molding.It is strong that the ceramic body of drying can effectively improve green body Degree convenient for the processing of the postorders such as repaired biscuit, carrying, glazing, firing, while can not only improve sucking ability, and can shorten burning At the period, energy consumption is reduced.

Ceramic body drying technology generally uses hot-air seasoning technology, and energy sources mode has combustion of natural gas, coal combustion Burn and three kinds of modes such as electric furnace, still, existing ceramic body drying equipment there is drying efficiency lowly with drying uniformity Poor technical problem, and there is can not high efficiency drying ceramic body, can not convenient for safety observation ceramic body dry Dry process, can not improve drying cabinet radiating efficiency, can not effective protection ceramic body it is indeformable with can not effectively mention The technical issues of high ceramic body drying efficiency.

Summary of the invention

(1) the technical issues of solving

In view of the deficiencies of the prior art, the present invention provides a kind of for drying the drying equipment of ceramic body, has height Effect drying ceramic body observes ceramic body drying course convenient for safety, improves drying cabinet radiating efficiency, effective protection ceramics The advantages that green body is indeformable and effectively improves ceramic body drying efficiency, solves existing ceramic body drying equipment, dries The inefficiency technical problem poor with drying uniformity.

(2) technical solution

To realize above-mentioned high efficiency drying ceramic body, convenient for safety observation ceramic body drying course, raising drying cabinet Radiating efficiency, effective protection ceramic body are indeformable and effectively improve the purpose of ceramic body drying efficiency, and the present invention provides such as Lower technical solution:

It is a kind of for drying the drying equipment of ceramic body, including drying cabinet is opened on the front side wall of the drying cabinet Equipped with mutually matched first chamber door and the second chamber door, the right side of the left side of the first chamber door and the second chamber door passes through conjunction respectively Page, the dead astern at first chamber door right side center hinged with the front end of the intracorporal left side of drying box body cavity and the front end of right side It is equipped with and mutually matched first locking mechanism of the second locking mechanism, the left side of the first locking mechanism and the second locking mechanism Right side be fixedly connected respectively with immediately ahead of the dead astern at the first chamber door right side center and the second chamber door left side center；

The intracorporal top of first locking mechanism chamber and bottom end, which are separately installed on symmetrical lateral wall, is surrounded with first The Article 4 shape iron core of the 4th winding coil, the first strip iron core are surrounded on the first strip iron core and lateral wall of winding coil Both ends of the surface be fixedly connected respectively with the top of the intracorporal leading flank of the first locking mechanism chamber and trailing flank, Article 4 shape iron core Both ends of the surface are fixedly connected with the bottom end of the intracorporal leading flank of the first locking mechanism chamber and trailing flank respectively, the first winding coil and The current direction of four winding coils is from left to right；

The intracorporal top of second locking mechanism chamber and bottom end, which are separately installed with, is surrounded with two pieces of winding coil on lateral wall Strip iron core, the both ends of the surface positioned at the strip iron core of the second locking mechanism cavity top end are intracorporal with the second locking mechanism chamber respectively Leading flank is fixedly connected with the top of trailing flank, positioned at the second locking mechanism cavity bottom end strip iron core both ends of the surface respectively with The second intracorporal leading flank of locking mechanism chamber is fixedly connected with the bottom end of trailing flank, is looped around the second intracorporal item of locking mechanism chamber The current direction of winding coil on shape iron core lateral wall is from left to right；

The leading flank of first locking mechanism is acted on by magnetic attraction and being mutually locked with the trailing flank of the second locking mechanism；

The center on surface offers the aperture of rectangular shape inside and outside first chamber door, is equipped with rectangular shape in the aperture The first vitreum, the lateral wall of the first vitreum is fixedly connected with the inner sidewall center of the rectangular opening of the first chamber door, first The two sides of chamber door inner surface are equipped with the first gauze screen with square through-hole, the left side of the first gauze screen outer surface and Right side is fixedly connected with the left and right side of the first chamber door inner surface；

On the inner surface of second chamber door be coated with non magnetic coating, the Left-side center of outer surface be equipped with successively with First winding coil, the 4th winding coil, the winding wire being looped around on the intracorporal strip iron core lateral wall of the second locking mechanism chamber The power switch being connected in series is enclosed, is equipped with right above power switch positioned at the right side of the second chamber door outer surface left side edge Side and section be in U-shape shape setting catch；

Aluminium sheet, the outside table of aluminium sheet are installed on the intracorporal top end face of drying box body cavity, left side, trailing flank and right side Face is fixedly connected with the intracorporal top end face of drying box body cavity, left side, trailing flank and right side respectively；

The top center of drying cabinet, which offers, sequentially passes through drying cabinet top end face and aluminium sheet and section circular in shape The first heat release hole being arranged, the first heat release hole chamber central are equipped with the gauze screen with square through-hole, the gauze screen it is outer Side wall is fixedly connected with the inner sidewall center of the first heat release hole；

The left and right side of bottom face is separately installed with symmetrical the first support plate one and in drying box body cavity body The bottom side surface of one support plate two, the first support plate one and the first support plate two left side with bottom face in drying box body cavity body respectively Side is fixedly connected with right side, the right side of the left side of the first support plate one and the first support plate two respectively with drying box body cavity body The bottom end of interior left side is fixedly connected with the bottom end of right side, in the top surface of the first support plate one and the first support plate two First drying tank is installed, the left end of the first drying tank bottom side and right end respectively with the first support plate one and the first support plate two Top surface frictional connection；

The left and right side of drying cabinet is separately installed with symmetrical the first drying mechanism and the second drying mechanism, the The right end of one drying mechanism has opening, internal to be arranged in cavity, the rectangle anchor ring and drying box of the first drying mechanism right end The straight-flanked ring edge of the external left side of body cavity is fixedly connected, and the left end of the second drying mechanism has opening, inside set in cavity It sets, the rectangle anchor ring of the second drying mechanism left end is fixedly connected with the straight-flanked ring edge of the external right side of drying box body cavity；

The first high-voltage converter that input terminal has the first plug is installed on the first intracorporal bottom face of drying mechanism chamber, The output end of first high-voltage converter high-voltage winding by conducting wire with and the first high-voltage electricity for being connected in parallel of the first voltage grading resistor The input terminal of container connects, and the first voltage grading resistor setting of bottom face turns in the first high pressure in the first drying mechanism cavity The right side side of parallel operation, the first high-voltage capacitor be mounted on its left side and right side respectively in the first drying mechanism cavity left side The third support plate one being fixedly connected right above the surface of the bottom end in face and the bottom end of the external left side of drying box body cavity The output end in the left side of top surface, the first high-voltage capacitor passes through conducting wire and the right side for being located at one top surface of third support plate First diode cathode connection, the anode of first diode connect by conducting wire with the first anode of the first magnetic control mechanism, First magnetic control mechanism be mounted on its left side and right side respectively with the intracorporal left side center of the first drying mechanism chamber and drying The top surface center for the third support plate two that right side center outside cabinet cavity is fixedly connected, the cathode of the first magnetic control mechanism The first filament connect with the output end of the first high-voltage converter secondary heater winding by conducting wire；

First magnetic control mechanism includes being arranged in cylindrical shape and using the first anode made of copper material, the first anode it is interior The fin that even number extends to its chamber central is evenly equipped on side wall, the cavity of the first anode is divided into even number by even number fin The resonant cavity of a fan-shaped shape setting in section, the chamber central of the first anode are equipped with the electron transmitting terminal of cathode, and cathode is defeated The first filament for entering end runs through the surface of first anode left side bottom end and extends to outside first anode cavity, first anode shell The underface and surface at external side wall center are separately installed with mutually matched first annular magnet one and first annular magnet Two, the inner sidewall of first annular magnet one and first annular magnet two underface with first anode hull outside wall center respectively It is fixedly connected with surface, is evenly equipped between first annular magnet one and first annular magnet two positioned at first anode hull outside The first cooling fin on wall；

The top of the first anode inner sidewall of first magnetic control mechanism is equipped with input terminal phase of its output end with first antenna The annular metal pipe to connect, the output end positioned at the first antenna of the surface on first anode top are arranged in first wave In the cavity of conduit, first wave conduit is by integrated molding and vertical pipe interconnected and horizontal tube form, first wave conduit The circular ring shape bottom face of vertical pipe is fixedly connected with the annular edge of first annular two top end face of magnet, the water of first wave conduit The right-end openings of flat pipe sequentially pass through the underface for drying cabinet left side wall top and aluminium sheet and extend in drying box body cavity body And it is interconnected with the left end of first wave guide mechanism opening；

The second high-voltage converter that input terminal has the second plug is installed on the second intracorporal bottom face of drying mechanism chamber, The output end of second high-voltage converter high-voltage winding by conducting wire with and the second high-voltage electricity for being connected in parallel of the second voltage grading resistor The input terminal of container connects, and the second voltage grading resistor setting of bottom face turns in the second high pressure in the second drying mechanism cavity The left side side of parallel operation, the second high-voltage capacitor be mounted on its left side and right side respectively with the external right side bottom of drying box body cavity The top side for the 4th support plate one being fixedly connected right above the surface at end and right side bottom end in the second drying mechanism cavity The right side on surface, the output end of the second high-voltage capacitor pass through conducting wire and the left side for being located at one top surface of the 4th support plate the The cathode of two diodes connects, and the anode of the second diode is connect by conducting wire with the second plate of the second magnetic control mechanism, and second Magnetic control mechanism is mounted on its left side and right side the right side center and first drying mechanism external with drying box body cavity respectively The top surface center for the 4th support plate two that the intracorporal left side center of chamber is fixedly connected, the of the cathode of the second magnetic control mechanism Two filaments are connect by conducting wire with the output end of the second high-voltage converter secondary heater winding；

Second magnetic control mechanism includes being arranged in cylindrical shape and using second plate made of copper material, second plate it is interior The fin that even number extends to its chamber central is evenly equipped on side wall, the cavity of second plate is divided into even number by even number fin The resonant cavity of a fan-shaped shape setting in section, the chamber central of second plate are equipped with the electronics of the cathode of the second magnetic control mechanism Transmitting terminal, surface and extension of the second filament of the cathode input terminal of the second magnetic control mechanism through second plate right side bottom end To outside second plate cavity, the underface and surface at second plate hull outside wall center are separately installed with mutually matched The inner sidewall of second ring magnet one and the second annular magnet two, the second annular magnet one and the second annular magnet two is respectively with second The underface at anode casing lateral wall center is fixedly connected with surface, between the second annular magnet one and the second annular magnet two It is evenly equipped with the second cooling fin being located on second plate hull outside wall；

The top of the second plate inner sidewall of second magnetic control mechanism is equipped with input terminal phase of its output end with the second antenna The output end of the annular metal pipe to connect, the second antenna right above second plate top is arranged in second waveguide In tube chamber, second waveguide pipe by be integrally formed and vertical pipe interconnected and horizontal tube form, second waveguide pipe it is vertical The circular ring shape bottom face of pipe is fixedly connected with the annular edge of two top end face of the second annular magnet, the horizontal tube of second waveguide pipe Left end opening sequentially pass through drying cabinet right side wall top underface and aluminium sheet and extend in drying box body cavity body and with The right-end openings of first wave guide mechanism are interconnected；

Inside has cavity and in the both ends open of the first wave guide mechanism of straight type tubulose setting respectively from tubulose in a ring The inside of the second waveguide mechanism of setting is internal through it and extends to its outside, and the cavity and first wave of second waveguide mechanism The cavity for leading mechanism is interconnected；

The center of underside of first wave guide mechanism is equipped with its cavity is interconnected with first wave guide mechanism cavity first and leads Wave duct, the left and right side of second waveguide mechanism bottom end offer respectively symmetrically and its cavity successively with second waveguide mechanism The second waveguide pipe and third waveguide pipe that cavity and first wave guide mechanism cavity are interconnected, the rear side of second waveguide mechanism bottom end Offer the 4th waveguide pipe and the 5th that symmetrical and its cavity and second waveguide mechanism cavity are interconnected respectively with front side Waveguide pipe.

Preferably, the surface and underface of the first locking mechanism chamber central are separately installed with symmetrical outer The third bar shaped that tertiary winding coil is surrounded on the second strip iron core and lateral wall of the second winding coil is surrounded on side wall Iron core, the both ends of the surface of the second strip iron core surface and trailing flank with the intracorporal leading flank center of the first locking mechanism chamber respectively Be fixedly connected right above center, the both ends of the surface of third strip iron core respectively with the intracorporal leading flank center of the first locking mechanism chamber Underface and trailing flank center immediately below be fixedly connected, the current direction of the second winding coil and tertiary winding coil be from Left-to-right；

The surface and underface of second locking mechanism chamber central are separately installed on symmetrical lateral wall and surround There is the strip iron core of winding coil, the both ends of the surface of the strip iron core right above the second locking mechanism chamber central are respectively with It is fixedly connected right above the surface and trailing flank center at the intracorporal leading flank center of two locking mechanism chambers, it is sealed to be located at second The both ends of the surface of strip iron core immediately below mechanism chamber central respectively with the intracorporal leading flank center of the second locking mechanism chamber just It is fixedly connected, is looped around on the intracorporal strip iron core lateral wall of the second locking mechanism chamber immediately below lower section and trailing flank center The current direction of winding coil is from left to right.

Preferably, the center on surface offers the aperture of rectangular shape, peace in the aperture inside and outside second chamber door The inner sidewall center of the rectangular opening of secondary vitreous equipped with rectangular shape, the lateral wall of secondary vitreous and the second chamber door is solid Fixed connection, the two sides of the second chamber door inner surface are equipped with the secondary shielding net with square through-hole, secondary shielding net outside The left and right side on surface is fixedly connected with the left and right side of the second chamber door inner surface.

It is preferably, uniformly distributed around first heat release hole that there are six sequentially pass through drying cabinet top end face and aluminium sheet and cut Second heat release hole of face circular in shape setting, the diameter of section of the second heat release hole less than the first heat release hole diameter of section, the Two heat release hole chamber centrals are equipped with the gauze screen with square through-hole, and the lateral wall of the gauze screen is interior with the second heat release hole Side wall center is fixedly connected.

Preferably, the bottom face center in the first drying slot cavity body is equipped with section in the of annular shape setting One putting groove, the circular ring shape bottom face of the first putting groove are fixedly connected with the bottom face center in the first drying slot cavity body, and first The two sides of putting groove are separately installed with section and put in annular shape setting and two symmetrical the second putting grooves, second Circular cross section diameter of the circular cross section diameter of slot less than the first putting groove, the circular ring shape bottom face difference of two the second putting grooves It is fixedly connected with the left side side at the bottom face center in the first drying slot cavity body and right side side；

Uniformly distributed there are six sections in the of annular shape setting for the front side of bottom face and rear side in first drying slot cavity body Three putting grooves, the circular cross section diameter of the circular cross section diameter of third putting groove less than the second putting groove.

Preferably, the underface at the underface at the intracorporal left side center of the drying box body cavity and right side center is distinguished Symmetrical the second support plate one and the second support plate two, the left side of the second support plate one and the second support plate two are installed Right side be fixedly connected respectively with immediately below the underface and right side center at the intracorporal left side center of drying box body cavity, Second drying tank, the left end of the second drying tank bottom side are installed in the top surface of the second support plate one and the second support plate two With the right end top surface frictional connection with the second support plate one and the second support plate two respectively.

It is preferably, uniformly distributed on the bottom face in the second drying slot cavity body that there are six sections in annular shape setting 4th putting groove, the circular cross section diameter of the 4th putting groove less than the first putting groove circular cross section diameter and be greater than second and put The circular cross section diameter of slot, the circular ring shape bottom face of the 4th putting groove are fixedly connected with the bottom face in the second drying slot cavity body.

(3) beneficial effect

Compared with prior art, the present invention provides a kind of for drying the drying equipment of ceramic body, and having following has Beneficial effect:

1, the drying equipment, by being separately installed with symmetrical drying mechanism in the left and right side of drying cabinet, The high-voltage converter that input terminal has plug, the high-voltage winding of high-voltage converter are installed on the intracorporal bottom face of drying mechanism chamber Output end by conducting wire with and the input terminal of high-voltage capacitor that is connected in parallel of voltage grading resistor connect, high-voltage capacitor it is defeated Outlet is connected by the cathode of conducting wire and diode, and the anode of diode is connected by the anode of conducting wire and magnetic control mechanism, magnetic control The filament of the cathode of mechanism is connected by the output end of conducting wire and the secondary heater winding of high-voltage converter, and magnetic control mechanism includes being in Cylindrical shape is arranged and uses anode made of copper material, and even number is evenly equipped on the inner sidewall of anode and is extended to its chamber central Fin, the resonant cavity that the cavity of anode is divided into the fan-shaped shape in even number section to be arranged by even number fin, the chamber of anode Body center is equipped with the electron transmitting terminal of cathode, surface and extension of the filament of cathode input terminal through anode side face bottom end To outside anode cavity, the underface and surface at anode casing lateral wall center are separately installed with mutually matched annular magnet one With annular magnet two, the cooling fin being evenly equipped between annular magnet one and annular magnet two on anode casing lateral wall, magnetic The top for controlling the anode inner side wall of mechanism is equipped with an input terminal annular metal pipe interconnected of its output end and antenna, In the cavity that waveguide is arranged in the output end of the antenna of the surface on anode top, the right end of the horizontal tube of waveguide is opened Mouth sequentially passes through the underface on drying cabinet one side wall top and aluminium sheet and extends in drying box body cavity body and and first wave guide The left end opening of mechanism is interconnected, and inside has the both ends open point of cavity and the first wave guide mechanism in the setting of straight type tubulose The inside for the second waveguide mechanism not being arranged from tubulose in a ring is internal through it and extends to its outside, and second waveguide mechanism Cavity and first wave guide mechanism cavity be interconnected, after being powered up, the secondary lamp of the high-voltage converter of drying mechanism The low-voltage alternating-current that wire coil both ends generate supplies electricity to the filament power supply of the cathode of magnetic control mechanism, and the high-voltage winding of high-voltage converter generates Ac high-voltage through high-voltage capacitor current limliting, the anode that high direct voltage adds to magnetic control mechanism is obtained after diode rectification, formed plus Fast electric field accelerates the electronics of emission of cathode to anode, will also be by ring during electronics is accelerated to anode Shape magnet one and annular magnet two are formed by the strong magnetic field action in vertical direction, and electronics is to accelerate to transport to anode in rotation Dynamic, rotation speed also constantly becomes faster, and oscillation can occur when passing through the vane type resonator of anode for electronics and frequency constantly increases, when Frequency just forms microwave after reaching 2400MHz, and the microwave energy of anode output is transmitted to antenna by an annular metal pipe, Microwave energy is sent into the cavity of drying cabinet by first wave guide mechanism and second waveguide mechanism from antenna again, in ceramic body Hydrone be polar molecule, under fast-changing high-frequency electromagnetic field action, polarity orientation will be with the change of external electric field for it Change and change, causes the movement and mutual friction effect of molecule, the field energy of microwave field is converted into the intracorporal thermal energy of ceramic blank, makes to make pottery Porcelain billet temperature increases, and generates thermalization and puffing process and ceramic body is made to be in baking state, the moisture that ceramic body includes It is evaporated, is dehydrated, realize the technical effect of high efficiency drying the first drying tank and the ceramic body in the second drying tank, solve Existing ceramic body drying equipment, drying efficiency lowly with the poor technical problem of drying uniformity.

2, the drying equipment offers the aperture of rectangular shape by the center on the surface inside and outside the second chamber door, should The secondary vitreous of rectangular shape is installed, the two sides of the second chamber door inner surface are equipped with square through-hole in aperture Secondary shielding net, drying situation of the secondary vitreous convenient for the observation intracorporal ceramic body of drying box body cavity, secondary shielding net energy In enough cavitys that the microwave reflection for being emitted to secondary vitreous surface is effectively returned to drying cabinet, it is therefore prevented that microwave passes through the One vitreum is radiated outside in open space, avoids the waste of microwave, is realized convenient for safety observation ceramic body drying The technical effect of process.

3, the drying equipment, by around the first heat release hole it is uniformly distributed there are six sequentially pass through drying cabinet top end face and Aluminium sheet and the second heat release hole of section circular in shape setting, the section of the diameter of section of the second heat release hole less than the first heat release hole Diameter, the second heat release hole chamber central are equipped with the gauze screen with square through-hole, the first heat release hole and the second heat release hole energy The radiating efficiency for enough effectively improving drying cabinet solves ceramic body and keeps easy in hot environment after drying The technical issues of cracking.

4, the drying equipment is equipped with section in annular shape by the bottom face center in the first drying slot cavity body The first putting groove being arranged, the two sides of the first putting groove are separately installed with section in annular shape setting and symmetrical two A second putting groove, circular cross section diameter of the circular cross section diameter less than the first putting groove of the second putting groove, the first drying tank The front side of bottom face and rear side are evenly distributed with the third putting groove there are six section in annular shape setting, third putting groove in cavity Circular cross section diameter of the circular cross section diameter less than the second putting groove, the first putting groove, the second putting groove and third putting groove Various sizes of ceramic body can be effectively fixed, protect ceramic body not deform during the drying process, realized The effect protection indeformable technical effect of ceramic body.

5, the drying equipment, by the underface at the intracorporal left side center of drying box body cavity and right side center just Lower section is separately installed with symmetrical the second support plate one and the second support plate two, the second support plate one and the second support plate two Top surface on the second drying tank is installed, the left end of the second drying tank bottom side and right end respectively with the second support plate one and The top surface frictional connection of second support plate two, the second drying tank can effectively improve the intracorporal electromagnetic energy of drying box body cavity The utilization efficiency of amount realizes the technical effect for effectively improving ceramic body drying efficiency.

Detailed description of the invention

Fig. 1 is that the present invention is a kind of for drying the drying equipment structural schematic diagram of ceramic body；

Fig. 2 is the top view of drying cabinet of the invention；

Fig. 3 is the sectional view of the first chamber door and the second chamber door of the invention；

Fig. 4 is the cross-sectional view of the first locking mechanism of the invention；

Fig. 5 is the cross-sectional view of drying cabinet of the invention, the first drying mechanism and the second drying mechanism；

Fig. 6 is the circuit diagram of the first drying mechanism of the invention；

Fig. 7 is the sectional view of the first magnetic control mechanism of the invention；

Fig. 8 is the structural schematic diagram of first wave guide mechanism and second waveguide mechanism of the invention；

Fig. 9 is the top view of the first drying tank of the invention；

Figure 10 is the top view of the second drying tank of the invention.

Indicate in figure: 1- dries cabinet, 101- aluminium sheet, the first support plate of 102- one, the first support plate of 103- two, 104- the Two support plates one, the second support plate of 105- two, the first heat release hole of 106-, the second heat release hole of 107-；

The first chamber door of 2-, the first locking mechanism of 201-, the first vitreum of 202-, the first gauze screen of 203-, 204- first Shape iron core, the first winding coil of 205-, the second strip iron core of 206-, the second winding coil of 207-, 208- third strip iron core, 209- tertiary winding coil, 210- Article 4 shape iron core, the 4th winding coil of 211-；

The second chamber door of 3-, the second locking mechanism of 301-, 302- secondary vitreous, 303- secondary shielding net, 304- power supply are opened It closes, 305- catch；

The first drying mechanism of 4-, the first high-voltage converter of 401-, the first plug of 402-, the first voltage grading resistor of 403-, 404- third support plate one, the first high-voltage capacitor of 405-, 406- first diode, 407- third support plate two, 408- first Anode, 409- fin, 410- resonant cavity, 411- cathode, the first filament of 412-, the first annular magnet one of 413-, 414- first dissipate Backing, the first annular magnet two of 415-, 416- first antenna, 417- first wave conduit；

The second drying mechanism of 5-, the second high-voltage converter of 501-, the second plug of 502-, the second voltage grading resistor of 503-, The 4th support plate one of 504-, the second high-voltage capacitor of 505-, the second diode of 506-, the 4th support plate two of 507-, 508- second Anode, the second filament of 509-, the second annular magnet of 510- one, the second cooling fin of 511-, the second annular magnet of 512- two, 513- Two antennas, 514- second waveguide pipe；

6- first wave guide mechanism, the first waveguide pipe of 601-；

7- second waveguide mechanism, the second waveguide pipe of 701-, 702- third waveguide pipe, the 4th waveguide pipe of 703-, 704- the 5th Waveguide pipe；

The first drying tank of 8-, the first putting groove of 801-, the second putting groove of 802-, 803- third putting groove；

The second drying tank of 9-, the 4th putting groove of 901-；

10- power supply.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

It is a kind of referring to Fig. 1, including to dry cabinet 1 for drying the drying equipment of ceramic body, the drying cabinet 1 Mutually matched first chamber door 2 and the second chamber door 3, the right side of the left side of the first chamber door 2 and the second chamber door 3 are offered on front side wall Side passes through hinge respectively and the front end of the front end and right side of drying the intracorporal left side of 1 chamber of cabinet is hinged, as shown in figure 3, The dead astern at 2 right side center of the first chamber door be equipped with mutually matched first locking mechanism 201 of the second locking mechanism 301, The left side of first locking mechanism 201 and the right side of the second locking mechanism 301 respectively with 2 right side center of the first chamber door just It is fixedly connected immediately ahead of rear and 3 left side center of the second chamber door；

As shown in figure 4, the intracorporal top of 201 chamber of the first locking mechanism and bottom end are separately installed with symmetrical lateral wall On be surrounded on the first strip iron core 204 and lateral wall of the first winding coil 205 and be surrounded with the 4th of the 4th winding coil 211 Strip iron core 210, the both ends of the surface of the first strip iron core 204 respectively with the intracorporal leading flank of 201 chamber of the first locking mechanism and rear side The top in face is fixedly connected, the both ends of the surface of Article 4 shape iron core 210 respectively with the intracorporal leading flank of 201 chamber of the first locking mechanism and The bottom end of trailing flank is fixedly connected, and the current direction of the first winding coil 205 and the 4th winding coil 211 is from left to right；

The intracorporal top of second locking mechanism, 301 chamber and bottom end, which are separately installed with, is surrounded with the two of winding coil on lateral wall Block strip iron core, positioned at 301 cavity top end of the second locking mechanism strip iron core both ends of the surface respectively with the second locking mechanism 301 The intracorporal leading flank of chamber is fixedly connected with the top of trailing flank, the strip iron core positioned at the second locking mechanism 301 cavity bottom end Both ends of the surface are fixedly connected with the bottom end of the intracorporal leading flank of 301 chamber of the second locking mechanism and trailing flank respectively, are looped around the second lock The current direction for closing the winding coil on the intracorporal strip iron core lateral wall of 301 chamber of mechanism is from left to right；

The leading flank of first locking mechanism 201 acts on the trailing flank phase with the second locking mechanism 301 by magnetic attraction It is mutually sealed；

The center on surface offers the aperture of rectangular shape inside and outside first chamber door 2, is equipped with rectangle shape in the aperture First vitreum 202 of shape, the lateral wall of the first vitreum 202 and the inner sidewall center of the rectangular opening of the first chamber door 2 are fixed Connection, the two sides of 2 inner surface of the first chamber door are equipped with the first gauze screen 203 with square through-hole, the first gauze screen 203 The left and right side of outer surface is fixedly connected with the left and right side of 2 inner surface of the first chamber door；

Non magnetic coating is coated on the inner surface of second chamber door 3, the Left-side center of outer surface is equipped with successively With the first winding coil 205, the 4th winding coil 211, be looped around the intracorporal strip iron core lateral wall of 301 chamber of the second locking mechanism On the power switch 304 that is connected in series of winding coil, the surface of power switch 304 is equipped with positioned at the outside of the second chamber door 3 The right side side of surface left side edge and section are in U-shape the catch 305 of shape setting；

As shown in figure 5, being equipped with aluminium sheet on the intracorporal top end face of drying 1 chamber of cabinet, left side, trailing flank and right side 101, the outer surface of aluminium sheet 101 is fixed with the intracorporal top end face of drying 1 chamber of cabinet, left side, trailing flank and right side respectively Connection；

As shown in Fig. 2, drying cabinet 1 top center offer sequentially pass through drying 1 top end face of cabinet and aluminium sheet 101 and First heat release hole 106 of section circular in shape setting, 106 chamber central of the first heat release hole are equipped with square through-hole Gauze screen, the lateral wall of the gauze screen are fixedly connected with the inner sidewall center of the first heat release hole 106；

The left and right side of bottom face is separately installed with the first symmetrical support plate 1 in drying 1 cavity of cabinet With the first support plate 2 103, the bottom side surface of the first support plate 1 and the first support plate 2 103 respectively with drying 1 chamber of cabinet The left and right side of internal bottom face is fixedly connected, the right end of the left side of the first support plate 1 and the first support plate 2 103 Face is fixedly connected with the bottom end of the bottom end of the drying intracorporal left side of 1 chamber of cabinet and right side respectively, one 102 He of the first support plate First drying tank 8, the left end of 8 bottom side of the first drying tank and right end point are installed in the top surface of the first support plate 2 103 Not with the top surface frictional connection of the first support plate 1 and the first support plate 2 103；

The left and right side of drying cabinet 1 is separately installed with symmetrical the first drying mechanism 4 and the second drying mechanism 5, the right end of the first drying mechanism 4 has opening, internal to be arranged in cavity, the rectangle anchor ring of 4 right end of the first drying mechanism with The straight-flanked ring edge of the outer left side of drying 1 cavity of cabinet is fixedly connected, and the left end of the second drying mechanism 5 has opening, inside It is arranged in cavity, the rectangle anchor ring of 5 left end of the second drying mechanism and the straight-flanked ring edge in drying 1 cavity external right side face of cabinet are fixed Connection；

First high pressure of the input terminal with the first plug 402 is installed to turn on the intracorporal bottom face of first drying mechanism, 4 chamber Parallel operation 401, as shown in fig. 6, the output end of 401 high-voltage winding of the first high-voltage converter passes through conducting wire and and the first voltage grading resistor The input terminals of 403 the first high-voltage capacitors 405 being connected in parallel connects, the of bottom face in 4 cavity of the first drying mechanism The right side side of the first high-voltage converter 401 is arranged in one voltage grading resistor 403, and the first high-voltage capacitor 405 is installed to the left Face and right side respectively with left side outside the surface of the bottom end of left side in 4 cavity of the first drying mechanism and drying 1 cavity of cabinet The left side of the top surface for the third support plate 1 being fixedly connected right above the bottom end in face, the first high-voltage capacitor 405 Output end is connect by conducting wire with the cathode of the first diode 406 on the right side for being located at one 404 top surface of third support plate, the The anode of one diode 406 is connect by conducting wire with the first anode 408 of the first magnetic control mechanism, and the first magnetic control mechanism is mounted on it Left side and right side respectively with the right side outside the intracorporal left side center of 4 chamber of the first drying mechanism and drying 1 cavity of cabinet The top surface center for the third support plate 2 407 that center is fixedly connected, the first filament of the cathode 411 of the first magnetic control mechanism 412 are connect by conducting wire with the output end of first 401 grade heater windings of high-voltage converter；

First magnetic control mechanism includes being arranged in cylindrical shape and using the first anode 408 made of copper material, such as Fig. 7 institute Show, the fin 409 that even number extends to its chamber central is evenly equipped on the inner sidewall of the first anode 408, and even number fin 409 will The cavity of the first anode 408 is divided into the resonant cavity 410 of the fan-shaped shape setting in even number section, the cavity of the first anode 408 Center is equipped with the electron transmitting terminal of cathode 411, and the first filament 412 of 411 input terminal of cathode runs through 408 left side of the first anode The surface of bottom end simultaneously extends to outside 408 cavity of the first anode, the underface at 408 hull outside wall center of the first anode and just on Side is separately installed with mutually matched first annular magnet 1 and first annular magnet 2 415, first annular magnet 1 It is solid with the underface at 408 hull outside wall center of the first anode and surface respectively with the inner sidewall of first annular magnet 2 415 Fixed connection, is evenly equipped with positioned at 408 hull outside of the first anode between first annular magnet 1 and first annular magnet 2 415 The first cooling fin 414 on wall；

The top of 408 inner sidewall of the first anode of first magnetic control mechanism is equipped with the defeated of its output end and first antenna 416 Enter to hold an annular metal pipe interconnected, positioned at the output end of the first antenna 416 of the surface on 408 top of the first anode It is arranged in the cavity of first wave conduit 417, first wave conduit 417 is by integrated molding and vertical pipe interconnected and horizontal tube Composition, the annular edge of the circular ring shape bottom face of the vertical pipe of first wave conduit 417 and first annular 2 415 top end face of magnet Be fixedly connected, the right-end openings of the horizontal tube of first wave conduit 417 sequentially pass through drying 1 left side wall top of cabinet underface and Aluminium sheet 101 is simultaneously extended in drying 1 cavity of cabinet and is interconnected with the left end of first wave guide mechanism 6 opening；

Second high pressure of the input terminal with the second plug 502 is installed to turn on the intracorporal bottom face of second drying mechanism, 5 chamber Parallel operation 501, the output end of 501 high-voltage winding of the second high-voltage converter by conducting wire with and the second voltage grading resistor 503 company in parallel The input terminal of the second high-voltage capacitor 505 connect connects, the second divider resistance of bottom face in 5 cavity of the second drying mechanism The left side side of the second high-voltage converter 501 is arranged in device 503, and the second high-voltage capacitor 505 is mounted on its left side and right side Respectively with drying 1 cavity external right side face bottom end of cabinet 5 cavity of surface and the second drying mechanism in right side bottom end just on The output end on the right side of the top surface for the 4th support plate 1 being just fixedly connected, the second high-voltage capacitor 505 passes through conducting wire It is connect with the cathode of second diode 506 in the left side for being located at one 504 top surface of the 4th support plate, the second diode 506 Anode is connect by conducting wire with the second plate 508 of the second magnetic control mechanism, and the second magnetic control mechanism is mounted on its left side and right side Face is fixedly connected with the right side center and the intracorporal left side center of 4 chamber of the first drying mechanism dried outside 1 cavity of cabinet respectively The 4th support plate 2 507 top surface center, the second filament 509 of the cathode of the second magnetic control mechanism passes through conducting wire and second The output end of 501 grade heater windings of high-voltage converter connects；

Second magnetic control mechanism includes being arranged in cylindrical shape and using second plate 508 made of copper material, second plate It is evenly equipped with the fin that even number extends to its chamber central on 508 inner sidewall, even number fin is by the cavity of second plate 508 It is divided into the resonant cavity of the fan-shaped shape setting in even number section, the chamber central of second plate 508 is equipped with the second magnetic control machine The electron transmitting terminal of the cathode of structure, the second filament 509 of the cathode input terminal of the second magnetic control mechanism is through 508 right side of second plate The surface of face bottom end simultaneously extends to outside 508 cavity of second plate, the underface at 508 hull outside wall center of second plate and just Top is separately installed with mutually matched second annular magnet 1 and the second annular magnet 2 512, the second annular magnet one 510 and second annular magnet 2 512 the inner sidewall underface and surface with 508 hull outside wall center of second plate respectively It is fixedly connected, is evenly equipped between the second annular magnet 1 and the second annular magnet 2 512 outside 508 shell of second plate The second cooling fin 511 on side wall；

The top of 508 inner sidewall of second plate of second magnetic control mechanism is equipped with the defeated of its output end and the second antenna 513 Enter to hold an annular metal pipe interconnected, the output end of the second antenna 513 right above 508 top of second plate is set It sets in 514 cavity of second waveguide pipe, second waveguide pipe 514 is by integrated molding and vertical pipe interconnected and horizontal tube group At the annular edge of 2 512 top end face of circular ring shape bottom face and the second annular magnet of the vertical pipe of second waveguide pipe 514 is solid The left end opening of fixed connection, the horizontal tube of second waveguide pipe 514 sequentially passes through underface and the aluminium on drying 1 right side wall top of cabinet Plate 101 is simultaneously extended in drying 1 cavity of cabinet and is interconnected with the right-end openings of first wave guide mechanism 6；

As shown in figure 8, it is internal have cavity and in the both ends open of the first wave guide mechanism 6 of straight type tubulose setting respectively from The inside of the second waveguide mechanism 7 of tubulose setting is internal through it in a ring and extends to its outside, and second waveguide mechanism 7 Cavity and the cavity of first wave guide mechanism 6 are interconnected；

The center of underside of first wave guide mechanism 6 is equipped with first that its cavity and 6 cavity of first wave guide mechanism are interconnected Waveguide pipe 601, the left and right side of 7 bottom end of second waveguide mechanism offer respectively symmetrically and its cavity successively with the second wave Lead the second waveguide pipe 701 and third waveguide pipe 702 that 7 cavity of mechanism and 6 cavity of first wave guide mechanism are interconnected, second waveguide The rear side of 7 bottom end of mechanism and front side offer what symmetrical and its cavity was interconnected with 7 cavity of second waveguide mechanism respectively 4th waveguide pipe 703 and the 5th waveguide pipe 704.

Preferably, the surface and underface of 201 chamber central of the first locking mechanism are separately installed with symmetrically Lateral wall on be surrounded on the second strip iron core 206 and lateral wall of the second winding coil 207 and be surrounded with tertiary winding coil 209 third strip iron core 208, the both ends of the surface of the second strip iron core 206 respectively with the intracorporal front side of 201 chamber of the first locking mechanism It is fixedly connected right above the surface at face center and trailing flank center, the both ends of the surface of third strip iron core 208 are respectively with first It is fixedly connected immediately below the underface and trailing flank center at the intracorporal leading flank center of 201 chamber of locking mechanism, the second winding wire The current direction of circle 207 and tertiary winding coil 209 is from left to right；

The surface and underface of second locking mechanism, 301 chamber central are separately installed with ring on symmetrical lateral wall It is wound with the strip iron core of winding coil, the both ends of the surface point of the strip iron core right above 301 chamber central of the second locking mechanism It is not fixedly connected with right above the surface and trailing flank center at the intracorporal leading flank center of 301 chamber of the second locking mechanism, position The both ends of the surface of strip iron core immediately below 301 chamber central of the second locking mechanism are respectively and in 301 cavity of the second locking mechanism Leading flank center underface and trailing flank center immediately below be fixedly connected, be looped around in 301 cavity of the second locking mechanism Strip iron core lateral wall on winding coil current direction be from left to right.

Preferably, the center on surface offers the aperture of rectangular shape, peace in the aperture inside and outside second chamber door 3 The inside of the rectangular opening of secondary vitreous 302 equipped with rectangular shape, the lateral wall of secondary vitreous 302 and the second chamber door 3 Wall center is fixedly connected, and the two sides of 3 inner surface of the second chamber door are equipped with the secondary shielding net 303 with square through-hole, the The left and right side of two gauze screens, 303 outer surface is fixedly connected with the left and right side of 3 inner surface of the second chamber door.

It is preferably, uniformly distributed around first heat release hole 106 that there are six sequentially pass through drying 1 top end face of cabinet and aluminium sheet 101 and section circular in shape setting the second heat release hole 107, the diameter of section of the second heat release hole 107 is less than the first heat release hole 106 diameter of section, 107 chamber central of the second heat release hole are equipped with the gauze screen with square through-hole, the gauze screen it is outer Side wall is fixedly connected with the inner sidewall center of the second heat release hole 107.

Preferably, as shown in figure 9, the intracorporal bottom face center of 8 chamber of the first drying tank is equipped with section in circular ring shape First putting groove 801 of shape setting, the circular ring shape bottom face of the first putting groove 801 and the intracorporal bottom end of 8 chamber of the first drying tank Face center is fixedly connected, and the two sides of the first putting groove 801 are separately installed with section in annular shape setting and symmetrical Two the second putting grooves 802, the circular cross section diameter of the second putting groove 802 less than the first putting groove 801 circular cross section diameter, The circular ring shape bottom face of two the second putting grooves 802 respectively with the left side side at the intracorporal bottom face center of 8 chamber of the first drying tank and Right side side is fixedly connected；

Uniformly distributed there are six sections in the of annular shape setting for the front side of bottom face and rear side in first drying tank, 8 cavity Three putting grooves 803, the circular cross section diameter of the circular cross section diameter of third putting groove 803 less than the second putting groove 802.

Preferably, the underface point of the underface at the drying intracorporal left side center of 1 chamber of cabinet and right side center Symmetrical the second support plate 1 and the second support plate 2 105 be not installed, the left side of the second support plate 1 and The right side of second support plate 2 105 respectively with drying the intracorporal left side center of 1 chamber of cabinet underface and right side center Underface be fixedly connected, second drying tank is installed in the top surface of the second support plate 1 and the second support plate 2 105 9, the left end of 9 bottom side of the second drying tank and right end the top side table with the second support plate 1 and the second support plate 2 105 respectively Face frictional connection.

It is preferably, as shown in Figure 10, uniformly distributed on the intracorporal bottom face of 9 chamber of the second drying tank that there are six sections in annulus 4th putting groove 901 of shape shape setting, the circle of the circular cross section diameter of the 4th putting groove 901 less than the first putting groove 801 Diameter of section and the circular cross section diameter for being greater than the second putting groove 802, the circular ring shape bottom face of the 4th putting groove 901 and second dry The intracorporal bottom face of dry 9 chamber of slot is fixedly connected.

When work, the catch 305 of the second chamber door 3 is pulled, the second chamber door 3 is opened, then opens the first chamber door 2, takes out the Different size of ceramic body to be dried is individually positioned in corresponding first putting groove by one drying tank 8 and the second drying tank 9 801, in the cavity of the second putting groove 802, third putting groove 803, the 4th putting groove 901, then the first drying tank 8 is placed on The second support plate one is placed in the top surface of first support plate 1 and the first support plate 2 103, by the second drying tank 9 104 and second support plate 2 105 top surface on, first close the first chamber door 2, turn off the second chamber door 3, make the first chamber door 2 The first locking mechanism 201 leading flank and the second chamber door 3 the second locking mechanism 301 the mutual frictional connection in trailing flank, this When turn on the power switch 304, be connected in circular winding coil on the intracorporal strip iron core lateral wall of 201 chamber of the first locking mechanism The electric current of direction from left to right generates the pole S, the intracorporal item of 301 chamber of the second locking mechanism in the leading flank of the first locking mechanism 201 The electric current of direction from left to right is connected on shape iron core lateral wall in circular winding coil, in the rear side of the second locking mechanism 301 The leading flank of the face generation pole N, the trailing flank of the second locking mechanism 301 and the first locking mechanism 201 passes through magnetic attraction and acts on It is mutually locked integral；

First plug 402 and the second plug 502 are inserted into power outlet, after powering on 10, the first drying mechanism 4 The low-voltage alternating-current that generates of secondary heater winding both ends of the first high-voltage converter 401 supply electricity to the cathode 411 of the first magnetic control mechanism The power supply of the first filament 412, the ac high-voltage that the high-voltage winding of the first high-voltage converter 401 generates is through the first high-voltage capacitor 405 current limlitings, first diode 406 obtain the first anode 408 that high direct voltage adds to the first magnetic control mechanism after rectifying, formed and accelerated Electric field, the electronics for emitting cathode 411 is accelerated to the first anode 408, in the mistake that electronics is accelerated to the first anode 408 The work of the high-intensity magnetic field in vertical direction is also formed by journey by first annular magnet 1 and first annular magnet 2 415 With electronic edge rotates side and accelerates to the first anode 408, and rotation speed also constantly becomes faster, and electronics is passing through the first anode 408 Vane type resonator 410 when oscillation can occur and frequency constantly increases, just form microwave after 2400MHz when frequency reaches, the The microwave energy of one anode 408 output is transmitted to first antenna 416 by an annular metal pipe, then is led to by first antenna 416 It crosses first wave guide mechanism 6 and second waveguide mechanism 7 and sends microwave energy into the cavity of drying cabinet 1；

The low-voltage alternating-current that the secondary heater winding both ends of second high-voltage converter 501 of the second drying mechanism 5 generate supplies electricity to Second filament 509 of the cathode of the second magnetic control mechanism is powered, the ac high-voltage that the high-voltage winding of the second high-voltage converter 501 generates High direct voltage adds to the second magnetic control mechanism second is obtained after 505 current limliting of the second high-voltage capacitor, the rectification of the second diode 506 Anode 508 forms accelerating field, accelerates the electronics of the emission of cathode of the second magnetic control mechanism to second plate 508, in electricity Son will also be by 2 512 institute of the second annular magnet 1 and the second annular magnet during accelerating to second plate 508 Strong magnetic field action in the vertical direction of formation, electronic edge rotate side and accelerate to second plate 508, and rotation speed is also continuous It becomes faster, oscillation can occur when passing through the vane type resonator of second plate 508 for electronics and frequency constantly increases, when frequency reaches Just microwave is formed after 2400MHz, the microwave energy that second plate 508 exports is transmitted to second day by an annular metal pipe Line 513, then sent from the second antenna 513 by first wave guide mechanism 6 and second waveguide mechanism 7 into the cavity of drying cabinet 1 Microwave energy, microwave are a kind of high frequency waves, and with 2,400,000,000 velocity transformations per second, microwave is a kind of high frequency waves, with 2,400,000,000 times per second Velocity transformation, microwave causes the high speed wheel pendular motion of hydrone, and hydrone, which rubs mutually, generates great heat, heat quilt After ceramic body material absorbs, ceramic body temperature of charge is increased, and ceramic material is made to be in baking state, in ceramic body material The moisture contained is evaporated, is dehydrated, to realize the work of drying ceramic body；

After drying, 304 are turned off the power switch, the leading flank of the first locking mechanism 201 and the second locking mechanism 301 Magnetic attraction between trailing flank disappears, and pulls up the first plug 402 and the second plug 502, the first magnetic of the first drying mechanism 4 The second magnetic control mechanism for controlling mechanism and the second drying mechanism 5 stops transmitting microwave, and catch 305 is pulled to open the second chamber door 3, then It opens the first chamber door 2, takes out the first drying tank 8 and the second drying tank 9, by the ceramic body of drying from the first drying tank 8 and the It is taken out in two drying tanks, 9 cavity, completes the work of drying ceramic body.

In conclusion the drying equipment, by being separately installed with symmetrical baking in the left and right side of drying cabinet 1 Mechanism is done, the high-voltage converter that input terminal has plug is installed on the intracorporal bottom face of drying mechanism chamber, high-voltage converter The output end of high-voltage winding by conducting wire with and the input terminal of high-voltage capacitor that is connected in parallel of voltage grading resistor connect, high-voltage electricity The output end of container is connected by the cathode of conducting wire and diode, and the anode of diode is connected by the anode of conducting wire and magnetic control mechanism It connects, the filament of the cathode of magnetic control mechanism is connected by the output end of conducting wire and the secondary heater winding of high-voltage converter, magnetic control machine Structure includes being arranged and using anode made of copper material in cylindrical shape, is evenly equipped with even number to its cavity on the inner sidewall of anode The fin that center extends, the resonant cavity that the cavity of anode is divided into the fan-shaped shape in even number section to be arranged by even number fin, The chamber central of anode is equipped with the electron transmitting terminal of cathode, the filament of cathode input terminal through anode side face bottom end just on Side simultaneously extends to that anode cavities are external, and the underface and surface at anode casing lateral wall center are separately installed with mutually matched ring Shape magnet one and annular magnet two are evenly equipped with dissipating on anode casing lateral wall between annular magnet one and annular magnet two Backing, the top of the anode inner side wall of magnetic control mechanism are equipped with an input terminal ring-type interconnected of its output end and antenna Metal tube, positioned at the antenna of the surface on anode top output end waveguide is set cavity in, the horizontal tube of waveguide Right-end openings sequentially pass through drying cabinet one side wall top underface and aluminium sheet and extend in drying box body cavity body and with The left end opening of first wave guide mechanism 6 is interconnected, and inside has cavity and in the first wave guide mechanism 6 of straight type tubulose setting The inside for the second waveguide mechanism 7 that both ends open is arranged from tubulose in a ring respectively is internal through it and extends to its outside, and The cavity of second waveguide mechanism 7 and the cavity of first wave guide mechanism 6 are interconnected, after being powered up, the high pressure of drying mechanism The low-voltage alternating-current that the secondary heater winding both ends of converter generate supplies electricity to the filament power supply of the cathode of magnetic control mechanism, high-voltage converter The ac high-voltage that generates of high-voltage winding through high-voltage capacitor current limliting, obtain high direct voltage after diode rectification and add to magnetic control mechanism Anode, formed accelerating field, make the electronics of emission of cathode to anode accelerate, in the process that electronics is accelerated to anode In to be also formed by the strong magnetic field action in vertical direction by annular magnet one and annular magnet two, electronics is in rotation It is accelerated to anode, rotation speed also constantly becomes faster, and oscillation and frequency can occur when passing through the vane type resonator of anode for electronics Rate constantly increases, and microwave is just formed after frequency reaches 2400MHz, and the microwave energy of anode output passes through an annular metal Pipe is transmitted to antenna, then is sent from antenna by first wave guide mechanism 6 and second waveguide mechanism 7 into the cavity of drying cabinet 1 Microwave energy, the hydrone in ceramic body is polar molecule, it is under fast-changing high-frequency electromagnetic field action, polarity orientation It will change with the variation of external electric field, cause the movement and mutual friction effect of molecule, the field energy of microwave field is converted into ceramics The intracorporal thermal energy of base increases ceramic body temperature, generates thermalization and puffing process and ceramic body is made to be in baking state, makes pottery The moisture contained in porcelain billet body is evaporated, is dehydrated, and realizes the ceramic body in the first drying tank of high efficiency drying and the second drying tank Technical effect, solve existing ceramic body drying equipment, drying efficiency lowly ask by the technology poor with drying uniformity Topic.

The drying equipment offers the aperture of rectangular shape by the center on the surface inside and outside the second chamber door 3, this is opened The secondary vitreous 302 of rectangular shape is installed, the two sides of 3 inner surface of the second chamber door are equipped with square through-hole in hole Secondary shielding net 303, secondary vitreous 302 convenient for observation the intracorporal ceramic body of drying box body cavity drying situation, second Gauze screen 303 will effectively can be emitted in the Microwave emission to the cavity of drying cabinet 1 on 302 surface of secondary vitreous, be prevented Microwave is stopped to be radiated outside in open space across the first vitreum 302, has avoided the waste of microwave, has realized convenient for safety Observe the technical effect of ceramic body drying course.

The drying equipment, by being evenly distributed with around the first heat release hole 106, there are six sequentially pass through drying 1 top end face of cabinet With the second heat release hole 107 of aluminium sheet 101 and the setting of section circular in shape, the diameter of section of the second heat release hole 107 is less than first The diameter of section of heat release hole 106,107 chamber central of the second heat release hole are equipped with the gauze screen with square through-hole, and first dissipates Hot hole 106 and the second heat release hole 107 can effectively improve the radiating efficiency of drying cabinet 1, solve ceramic body and drying The technical issues of of being easy to happen cracking, is kept in hot environment later.

The drying equipment, by being equipped with section in annular shape at the intracorporal bottom face center of 8 chamber of the first drying tank The first putting groove 801 being arranged, the two sides of the first putting groove 801 be separately installed with section in annular shape setting and mutually it is right Two the second putting grooves 802 claimed, the circular cross-section of the circular cross section diameter of the second putting groove 802 less than the first putting groove 801 Diameter, uniformly distributed there are six the thirds that section is in annular shape setting for the front side of bottom face and rear side in 8 cavity of the first drying tank Putting groove 803, less than the circular cross section diameter of the second putting groove 802, first puts the circular cross section diameter of third putting groove 803 Various sizes of ceramic body can be effectively fixed with third putting groove 803 in slot 801, the second putting groove 802, protect ceramic blank Body does not deform during the drying process, realizes the indeformable technical effect of effective protection ceramic body.

The drying equipment, by drying the intracorporal left side center of 1 chamber of cabinet underface and right side center just Lower section is separately installed with symmetrical the second support plate 1 and the second support plate 2 105, the second support plate 1 and Second drying tank 9, the left end of 9 bottom side of the second drying tank and right end difference are installed in the top surface of two support plates 2 105 With the top surface frictional connection of the second support plate 1 and the second support plate 2 105, the second drying tank 9 can be mentioned effectively The utilization efficiency of the height drying intracorporal electromagnetic energy of 1 chamber of cabinet realizes the technology effect for effectively improving ceramic body drying efficiency Fruit.

It should be noted that, in this document, relational terms such as first and second and the like are used merely to a reality Body or operation are distinguished with another entity or operation, are deposited without necessarily requiring or implying between these entities or operation In any actual relationship or order or sequence.Moreover, the terms "include", "comprise" or its any other variant are intended to Non-exclusive inclusion, so that the process, method, article or equipment including a series of elements is not only wanted including those Element, but also including other elements that are not explicitly listed, or further include for this process, method, article or equipment Intrinsic element.

It although an embodiment of the present invention has been shown and described, for the ordinary skill in the art, can be with A variety of variations, modification, replacement can be carried out to these embodiments without departing from the principles and spirit of the present invention by understanding And modification, the scope of the present invention is defined by the appended.

Claims (7)

1. a kind of for drying the drying equipment of ceramic body, including drying cabinet (1), it is characterised in that: the drying cabinet (1) mutually matched first chamber door (2) and the second chamber door (3), the left side of the first chamber door (2) and are offered on front side wall The right side of two chamber doors (3) passes through hinge respectively and dries the front end of cabinet (1) intracorporal left side of chamber and the front end of right side Hingedly, the dead astern at the first chamber door (2) right side center is equipped with sealed with the second locking mechanism (301) mutually matched first The right side of mechanism (201), the left side of the first locking mechanism (201) and the second locking mechanism (301) respectively with the first chamber door (2) it is fixedly connected immediately ahead of the dead astern at right side center and the second chamber door (3) left side center；

The intracorporal top of first locking mechanism (201) chamber and bottom end are separately installed on symmetrical lateral wall and are surrounded with first The Article 4 shape iron of the 4th winding coil (211) is surrounded on the first strip iron core (204) and lateral wall of winding coil (205) Core (210), the both ends of the surface of the first strip iron core (204) respectively with the intracorporal leading flank of the first locking mechanism (201) chamber and rear side The top in face is fixedly connected, the both ends of the surface of Article 4 shape iron core (210) respectively with the first locking mechanism (201) the intracorporal front side of chamber Face is fixedly connected with the bottom end of trailing flank, and the current direction of the first winding coil (205) and the 4th winding coil (211) is from a left side To the right side；

The intracorporal top of second locking mechanism (301) chamber and bottom end, which are separately installed with, is surrounded with two pieces of winding coil on lateral wall Strip iron core, be located at the second locking mechanism (301) cavity top end strip iron core both ends of the surface respectively with the second locking mechanism (301) the intracorporal leading flank of chamber is fixedly connected with the top of trailing flank, is located at the bar shaped of the second locking mechanism (301) cavity bottom end The both ends of the surface of iron core are fixedly connected with the bottom end of the intracorporal leading flank of the second locking mechanism (301) chamber and trailing flank respectively, are surround The current direction of winding coil on the intracorporal strip iron core lateral wall of the second locking mechanism (301) chamber is from left to right；

The leading flank of first locking mechanism (201) acts on the trailing flank phase with the second locking mechanism (301) by magnetic attraction It is mutually sealed；

The center on surface offers the aperture of rectangular shape inside and outside first chamber door (2), is equipped with rectangular shape in the aperture The first vitreum (202), the inner sidewall center of the rectangular opening of the lateral wall and the first chamber door (2) of the first vitreum (202) It being fixedly connected, the two sides of the first chamber door (2) inner surface are equipped with the first gauze screen (203) with square through-hole, and first The left and right side of gauze screen (203) outer surface is fixedly connected with the left and right side of the first chamber door (2) inner surface；

On the inner surface of second chamber door (3) be coated with non magnetic coating, the Left-side center of outer surface be equipped with successively with First winding coil (205), is looped around outside the intracorporal strip iron core of the second locking mechanism (301) chamber the 4th winding coil (211) The power switch (304) that winding coil on side wall is connected in series, power switch are equipped with right above (304) positioned at the second case Door (3) outer surface left side edge right side side and section be in U-shape shape setting catch (305)；

Aluminium sheet (101), aluminium sheet are installed on the intracorporal top end face of drying cabinet (1) chamber, left side, trailing flank and right side (101) outer surface is fixedly connected with the intracorporal top end face of drying cabinet (1) chamber, left side, trailing flank and right side respectively；

The top center of drying cabinet (1), which offers, sequentially passes through drying cabinet (1) top end face and aluminium sheet (101) and section in circle The first heat release hole (106) of shape shape setting, the first heat release hole (106) chamber central are equipped with the shielding with square through-hole Net, the lateral wall of the gauze screen are fixedly connected with the inner sidewall center of the first heat release hole (106)；

The left and right side of bottom face is separately installed with the first symmetrical support plate one (102) in drying cabinet (1) cavity With the first support plate two (103), the bottom side surface of the first support plate one (102) and the first support plate two (103) respectively with drying The left and right side of bottom face is fixedly connected in cabinet (1) cavity, the left side of the first support plate one (102) and the first support plate The right side of two (103) is fixedly connected with the bottom end of the bottom end of drying cabinet (1) intracorporal left side of chamber and right side respectively, the The first drying tank (8), the first drying tank are installed in the top surface of one support plate one (102) and the first support plate two (103) (8) left end of bottom side and the right end top surface friction with the first support plate one (102) and the first support plate two (103) respectively Connection；

The left and right side of drying cabinet (1) is separately installed with symmetrical the first drying mechanism (4) and the second drying mechanism (5), the right end of the first drying mechanism (4) has opening, internal to be arranged in cavity, the rectangle of the first drying mechanism (4) right end Anchor ring is fixedly connected with the straight-flanked ring edge of the outer left side of drying cabinet (1) cavity, and the left end of the second drying mechanism (5), which has, opens Mouthful, internal to be arranged in cavity, rectangle anchor ring and drying cabinet (1) cavity external right side face of the second drying mechanism (5) left end Straight-flanked ring edge is fixedly connected；

First high pressure of the input terminal with the first plug (402) is installed to turn on the intracorporal bottom face of the first drying mechanism (4) chamber The output end of parallel operation (401), the first high-voltage converter (401) high-voltage winding passes through conducting wire and and the first voltage grading resistor (403) The input terminal of the first high-voltage capacitor (405) being connected in parallel connects, and is located at the of bottom face in the first drying mechanism (4) cavity One voltage grading resistor (403) is arranged in the right side side of the first high-voltage converter (401), and the first high-voltage capacitor (405) is mounted on Its left side and right side respectively with the surface of the bottom end of left side in the first drying mechanism (4) cavity and drying cabinet (1) The left side of the top surface for the third support plate one (404) being fixedly connected right above the bottom end of the outer left side of cavity, first is high The one or two pole that the output end of piezoelectric capsule (405) passes through conducting wire and the right side for being located at third support plate one (404) top surface The cathode connection of (406) is managed, the anode of first diode (406) passes through the first anode (408) of conducting wire and the first magnetic control mechanism Connection, the first magnetic control mechanism are mounted on its left side and right side respectively and in the first drying mechanism (4) intracorporal left side of chamber The top surface center for the third support plate two (407) that the heart is fixedly connected with the right side center outside drying cabinet (1) cavity, the The first filament (412) of the cathode (411) of one magnetic control mechanism passes through conducting wire and the secondary heater winding of the first high-voltage converter (401) Output end connection；

First magnetic control mechanism includes being arranged in cylindrical shape and using the first anode (408) made of copper material, the first anode (408) it is evenly equipped with the fin (409) that even number extends to its chamber central on inner sidewall, even number fin (409) is by first The cavity of anode (408) is divided into the resonant cavity (410) of the fan-shaped shape setting in even number section, the chamber of the first anode (408) Body center is equipped with the electron transmitting terminal of cathode (411), and first filament (412) of cathode (411) input terminal runs through the first anode (408) it the surface of left side bottom end and extends to outside the first anode (408) cavity, in the first anode (408) hull outside wall The underface and surface of the heart are separately installed with mutually matched first annular magnet one (413) and first annular magnet two (415), the inner sidewall of first annular magnet one (413) and first annular magnet two (415) respectively with the first anode (408) shell The underface at lateral wall center is fixedly connected with surface, first annular magnet one (413) and first annular magnet two (415) it Between be evenly equipped with the first cooling fin (414) on the first anode (408) hull outside wall；

The top of the first anode (408) inner sidewall of the first magnetic control mechanism is equipped with the defeated of its output end and first antenna (416) Enter to hold an annular metal pipe interconnected, is located at the defeated of the first antenna (416) of the surface on the first anode (408) top Outlet is arranged in the cavity of first wave conduit (417), and first wave conduit (417) is by integrated molding and vertical pipe interconnected It is formed with horizontal tube, the circular ring shape bottom face of the vertical pipe of first wave conduit (417) and first annular magnet two (415) top end face Annular edge be fixedly connected, the right-end openings of the horizontal tube of first wave conduit (417) sequentially pass through drying cabinet (1) on the left of The underface on wall top and aluminium sheet (101) are simultaneously extended in drying cabinet (1) cavity and are opened with the left end of first wave guide mechanism (6) Mouth is interconnected；

Second high pressure of the input terminal with the second plug (502) is installed to turn on the intracorporal bottom face of the second drying mechanism (5) chamber The output end of parallel operation (501), the second high-voltage converter (501) high-voltage winding passes through conducting wire and and the second voltage grading resistor (503) The input terminal of the second high-voltage capacitor (505) being connected in parallel connects, and is located at the of bottom face in the second drying mechanism (5) cavity Two voltage grading resistors (503) are arranged in the left side side of the second high-voltage converter (501), and the second high-voltage capacitor (505) is mounted on Its left side and right side respectively with the surface of drying cabinet (1) cavity external right side face bottom end and the second drying mechanism (5) chamber The right side of the top surface for the 4th support plate one (504) being fixedly connected right above internal right side bottom end, the second high-voltage electricity The second diode that the output end of container (505) passes through conducting wire and the left side for being located at the 4th support plate one (504) top surface (506) anode of cathode connection, the second diode (506) is connected by the second plate (508) of conducting wire and the second magnetic control mechanism Connect, the second magnetic control mechanism be mounted on its left side and right side respectively with the right side center and the outside drying cabinet (1) cavity The top surface center for the 4th support plate two (507) that the intracorporal left side center of one drying mechanism (4) chamber is fixedly connected, second The output that the second filament (509) of the cathode of magnetic control mechanism passes through conducting wire and the secondary heater winding of the second high-voltage converter (501) End connection；

Second magnetic control mechanism includes being arranged in cylindrical shape and using second plate (508) made of copper material, second plate (508) it is evenly equipped with the fin that even number extends to its chamber central on inner sidewall, even number fin is by second plate (508) Cavity is divided into the resonant cavity of the fan-shaped shape setting in even number section, and the chamber central of second plate (508) is equipped with second The electron transmitting terminal of the cathode of magnetic control mechanism, the second filament (509) of the cathode input terminal of the second magnetic control mechanism is through the second sun The surface of pole (508) right side bottom end simultaneously extends to outside second plate (508) cavity, second plate (508) hull outside wall The underface and surface at center are separately installed with mutually matched second annular magnet one (510) and the second annular magnet two (512), the inner sidewall of the second annular magnet one (510) and the second annular magnet two (512) respectively with second plate (508) shell The underface at lateral wall center is fixedly connected with surface, the second annular magnet one (510) and the second annular magnet two (512) it Between be evenly equipped with the second cooling fin (511) on second plate (508) hull outside wall；

The top of second plate (508) inner sidewall of the second magnetic control mechanism is equipped with the defeated of its output end and the second antenna (513) Enter to hold an annular metal pipe interconnected, is located at the output of the second antenna (513) right above second plate (508) top End is arranged in second waveguide pipe (514) cavity, and second waveguide pipe (514) is by integrated molding and vertical pipe interconnected and water Flat pipe composition, the circle of the circular ring shape bottom face of the vertical pipe of second waveguide pipe (514) and second annular magnet two (512) top end face Ring edge is fixedly connected, and the left end opening of the horizontal tube of second waveguide pipe (514) sequentially passes through drying cabinet (1) right side wall top The underface at end and aluminium sheet (101) and extend to drying cabinet (1) cavity in and the right-end openings phase with first wave guide mechanism (6) It is intercommunicated；

Inside has cavity and sets respectively from tubulose in a ring in the both ends open of the first wave guide mechanism (6) of straight type tubulose setting The inside for the second waveguide mechanism (7) set is internal through it and extends to its outside, and the cavity of second waveguide mechanism (7) and the The cavity of one waveguide mechanism (6) is interconnected；

The center of underside of first wave guide mechanism (6) is equipped with first that its cavity and first wave guide mechanism (6) cavity are interconnected Waveguide pipe (601), the left and right side of second waveguide mechanism (7) bottom end offers respectively symmetrically and its cavity is successively with the The second waveguide pipe (701) and third waveguide pipe that two waveguide mechanism (7) cavitys and first wave guide mechanism (6) cavity are interconnected (702), the rear side of second waveguide mechanism (7) bottom end and front side offer symmetrical and its cavity and second waveguide mechanism respectively (7) cavity interconnected the 4th waveguide pipe (703) and the 5th waveguide pipe (704).

2. according to claim 1 a kind of for drying the drying equipment of ceramic body, it is characterised in that: first lock The surface and underface for closing mechanism (201) chamber central are separately installed on symmetrical lateral wall and are surrounded with the second winding The third strip iron core of tertiary winding coil (209) is surrounded on the second strip iron core (206) and lateral wall of coil (207) (208), the both ends of the surface of the second strip iron core (206) respectively with the intracorporal leading flank center of the first locking mechanism (201) chamber just Be fixedly connected right above top and trailing flank center, the both ends of the surface of third strip iron core (208) respectively with the first locking mechanism (201) it is fixedly connected immediately below the underface and trailing flank center at the intracorporal leading flank center of chamber, the second winding coil (207) Current direction with tertiary winding coil (209) is from left to right；

The surface and underface of the second locking mechanism (301) chamber central are separately installed on symmetrical lateral wall and surround There is the strip iron core of winding coil, is located at the both ends of the surface point of the strip iron core right above the second locking mechanism (301) chamber central It is not fixedly connected with right above the surface and trailing flank center at the intracorporal leading flank center of the second locking mechanism (301) chamber, The both ends of the surface of strip iron core immediately below the second locking mechanism (301) chamber central respectively with the second locking mechanism (301) It is fixedly connected immediately below the underface and trailing flank center at the intracorporal leading flank center of chamber, is looped around the second locking mechanism (301) current direction of the winding coil on the intracorporal strip iron core lateral wall of chamber is from left to right.

3. according to claim 1 a kind of for drying the drying equipment of ceramic body, it is characterised in that: second case The center on surface offers the aperture of rectangular shape inside and outside door (3), and the second glass of rectangular shape is equipped in the aperture The lateral wall of body (302), secondary vitreous (302) is fixedly connected with the inner sidewall center of the rectangular opening of the second chamber door (3), the The two sides of two chamber doors (3) inner surface are equipped with the secondary shielding net (303) with square through-hole, secondary shielding net (303) The left and right side of outer surface is fixedly connected with the left and right side of the second chamber door (3) inner surface.

4. according to claim 1 a kind of for drying the drying equipment of ceramic body, it is characterised in that: described first dissipates It is uniformly distributed around hot hole (106) that there are six sequentially pass through drying cabinet (1) top end face and aluminium sheet (101) and section circular in shape The second heat release hole (107) being arranged, the diameter of section of the second heat release hole (107) less than the first heat release hole (106) diameter of section, Second heat release hole (107) chamber central is equipped with the gauze screen with square through-hole, and the lateral wall of the gauze screen and second dissipate The inner sidewall center of hot hole (107) is fixedly connected.

5. according to claim 1 a kind of for drying the drying equipment of ceramic body, it is characterised in that: described first dries The intracorporal bottom face center of dry slot (8) chamber is equipped with the first putting groove (801) that section is in annular shape setting, and first puts The circular ring shape bottom face of slot (801) is fixedly connected with the intracorporal bottom face center of the first drying tank (8) chamber, the first putting groove (801) two sides are separately installed with section in annular shape setting and two symmetrical the second putting grooves (802), and second Circular cross section diameter of the circular cross section diameter of putting groove (802) less than the first putting groove (801), two the second putting grooves (802) circular ring shape bottom face is fixed with the left side side at the intracorporal bottom face center of the first drying tank (8) chamber and right side side respectively Connection；

The front side of bottom face and rear side are evenly distributed with the third there are six section in annular shape setting in first drying tank (8) cavity Putting groove (803), the circular cross section diameter of the circular cross section diameter of third putting groove (803) less than the second putting groove (802).

6. according to claim 1 a kind of for drying the drying equipment of ceramic body, it is characterised in that: the drying box Symmetrical second is separately installed with immediately below the underface and right side center at the intracorporal left side center of body (1) chamber Fagging one (104) and the second support plate two (105), the left side of the second support plate one (104) and the second support plate two (105) Right side is fixed with the underface of the underface at the drying intracorporal left side center of cabinet (1) chamber and right side center respectively to be connected It connects, is equipped in the top surface of the second support plate one (104) and the second support plate two (105) the second drying tank (9), second dries The left end of dry slot (9) bottom side and the right end top surface with the second support plate one (104) and the second support plate two (105) respectively Frictional connection.

7. according to claim 6 a kind of for drying the drying equipment of ceramic body, it is characterised in that: described second dries Uniformly distributed there are six the 4th putting groove (901) that section is in annular shape setting on the intracorporal bottom face of dry slot (9) chamber, the 4th sets It puts the circular cross section diameter of the circular cross section diameter of slot (901) less than the first putting groove (801) and is greater than the second putting groove (802) Circular cross section diameter, circular ring shape bottom face and the intracorporal bottom face of the second drying tank (9) chamber of the 4th putting groove (901) fix Connection.