CN111822652B - Automatic grading drying system - Google Patents

Abstract

The invention relates to the technical field of wax pattern drying, and particularly discloses an automatic grading drying system which comprises a conveying mechanism, a plurality of slurry dipping and sand dipping mechanisms and a plurality of drying mechanisms, wherein the first slurry dipping and sand dipping mechanism picks up a wax pattern and carries out first slurry dipping and sand dipping treatment on the wax pattern, the conveying mechanism conveys the wax pattern subjected to the first slurry dipping and sand dipping treatment to the first drying mechanism for carrying out first drying treatment, the conveying mechanism conveys the wax pattern subjected to drying treatment by the first drying mechanism to the second slurry dipping and sand dipping mechanism for carrying out second slurry dipping and sand dipping treatment, and the conveying mechanism transfers the wax pattern subjected to the second slurry dipping and sand dipping treatment to the second drying mechanism for carrying out second drying treatment; through the hierarchical formula to the wax matrix soaks the thick liquid and is stained with sand and hierarchical formula drying process, simplify the structure of drying mechanism greatly, reduce the space volume of drying mechanism, promote drying efficiency, shorten drying time, practice thrift dry power consumption, save drying cost.

Description

Automatic grading drying system

Technical Field

The invention relates to the technical field of wax mold drying, and particularly discloses an automatic grading drying system.

Background

In the production and manufacturing process of the dewaxing mould, firstly, a product wax mould is made from wax, then the product wax mould is soaked in slurry, then sand grains are adhered to the outer side of the product wax mould through the slurry, then the wax mould adhered with the sand grains is subjected to dehumidifying and drying treatment, and the process is repeated for a plurality of times, and finally the product wax mould is subjected to dewaxing treatment.

In the prior art, the product wax pattern needs to be placed in a specific room during dehumidification treatment, the room space is very large, and a large amount of electric energy is wasted for small-batch product wax patterns; in addition, in the prior art, the utilization of a specific room takes a long time, wastes time and labor and is very inconvenient.

Disclosure of Invention

In order to overcome the defects and shortcomings in the prior art, the invention aims to provide an automatic grading drying system, which greatly simplifies the structure of a drying mechanism, reduces the space volume of the drying mechanism, improves the drying efficiency, shortens the drying time, saves the drying electric energy consumption and saves the drying cost through multi-stage slurry dipping and sand dipping and multi-stage drying treatment of a wax mould.

In order to achieve the purpose, the automatic grading and drying system comprises a conveying mechanism, a plurality of slurry dipping and sand dipping mechanisms and a plurality of drying mechanisms, a first slurry dipping and sand dipping mechanism picks up a wax pattern and carries out first slurry dipping and sand dipping treatment on the wax pattern, the first slurry dipping and sand dipping mechanism moves the wax pattern after the first slurry dipping and sand dipping treatment to a conveying mechanism, the conveying mechanism conveys the wax pattern after the first slurry dipping and sand dipping treatment to a first drying mechanism for first drying treatment, the conveying mechanism conveys the wax pattern after the first drying mechanism for drying treatment to a second slurry dipping and sand dipping mechanism for second slurry dipping and sand dipping treatment, the second slurry dipping and sand dipping mechanism conveys the wax pattern after the second slurry dipping and sand dipping treatment to the conveying mechanism, and the conveying mechanism conveys the wax pattern after the second slurry dipping and sand dipping treatment to a second drying mechanism for second drying treatment.

The slurry dipping and sand dipping mechanism comprises a mechanical arm, a slurry supply unit and a sand supply unit, wherein the mechanical arm is used for picking up the wax pattern, the mechanical arm is used for dipping the picked wax pattern into the slurry of the slurry supply unit and transferring the wax pattern after slurry dipping into the sand supply unit, so that sand grains supplied by the sand supply unit are adhered to the outer side of the wax pattern, and the mechanical arm is used for transferring the wax pattern after sand grains are adhered to the conveying mechanism.

Wherein, conveying mechanism includes a plurality of conveying unit, and a plurality of thick liquid are stained with sand mechanism and are cooperated a plurality of conveying unit respectively and use, and conveying unit is used for carrying the wax matrix, and a thick liquid is stained with sand mechanism and is used for shifting the wax matrix between two adjacent conveying unit.

Wherein, the conveying unit includes the support, rotates the annular strip that sets up on the support, is used for driving annular strip pivoted driving piece, rotates the three rotation wheel that sets up on the support, and three rotation wheel is arranged along the length direction of support and is set up, and annular strip cover is established in the outside that three rotated the wheel, and two rotation wheels cooperate the both ends of annular strip respectively, and the third rotates the middle part of taking turns cooperation annular strip, and the annular strip is used for bearing the wax matrix.

Each conveying unit is provided with a plurality of drying mechanisms, the drying mechanisms of the same conveying unit are arranged in the length direction of the conveying unit, and the operating parameters of the drying mechanisms of the same conveying unit are different.

Wherein, dry mechanism include the host computer body and with host computer body electric connection's electric cabinet, the host computer body includes the cavity staving, rotate the setting and lie in the pivot of cavity staving, set up in the arm of hanging of pivot, be used for driving pivot pivoted driving piece, be used for the subassembly of dehumidifying of intercommunication cavity staving, the electric cabinet is used for regulating and control the operating parameter of driving piece, hangs the arm and is used for bearing the wax matrix.

The dehumidifying device comprises a hollow barrel body, an air supply assembly and a dehumidifying piece, wherein the hollow barrel body is communicated with the air supply assembly, the dehumidifying piece is matched with the air supply assembly, the air supply assembly is used for alternately conveying hot air and cold air into the hollow barrel body, and the dehumidifying piece is used for dehumidifying the air sent into the hollow barrel body by the air supply assembly.

Wherein, take out wet subassembly and include convulsions piece, convulsions piece is air exhauster or vacuum generation subassembly, and the pivot is equipped with the centre bore and respectively with a plurality of wet holes of taking out of centre bore intercommunication, a plurality of wet holes of taking out arrange along the length direction of pivot and set up, convulsions piece is used for communicateing the centre bore.

The hanging arms are arranged in a staggered mode, and the hanging arms are arranged in the same ring group in the center axis of the rotating shaft.

Wherein, the cavity staving is equipped with the opening, and the cavity staving can be dismantled to be connected with and be used for coveing the open-ended and cover the door, covers the door and is equipped with the visual hole that runs through the covering door, covers the door and is equipped with the transparent piece that covers the visual hole, and the observer watches the wax matrix in the cavity staving via the transparent piece.

The invention has the beneficial effects that: the first slurry dipping and sand dipping mechanism picks up a wax mould and carries out first slurry dipping and sand dipping treatment on the wax mould, the conveying mechanism conveys the wax mould after the first slurry dipping and sand dipping treatment to a first drying mechanism for carrying out first drying treatment, the conveying mechanism conveys the wax mould after the drying treatment of the first drying mechanism to a second slurry dipping and sand dipping mechanism for carrying out second slurry dipping and sand dipping treatment, the conveying mechanism conveys the wax mould after the second slurry dipping and sand dipping treatment to a second drying mechanism for carrying out second drying treatment, and the steps are repeated until all slurry dipping and sand dipping and drying treatment are finished; through the hierarchical formula to the wax matrix soaks thick liquid and is stained with sand and hierarchical formula drying process, simplify the structure of drying mechanism greatly, reduce the space volume of drying mechanism, promote drying efficiency, shorten drying time, practice thrift dry power consumption, save drying cost.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic top view of the conveying unit and the drying mechanism of the present invention;

FIG. 3 is a schematic perspective view of the drying mechanism of the present invention;

FIG. 4 is a schematic perspective view of the main body according to the present invention;

fig. 5 is an exploded view of the main body according to the present invention.

The reference numerals include:

1-conveying mechanism 2-slurry dipping and sand dipping mechanism 3-drying mechanism

4-manipulator 5-slurry supply unit 6-sand supply unit

7-conveying unit 8-support 9-air supply assembly

11-rotating wheel 12-main body 13-electric cabinet

14-hollow barrel body 15-rotating shaft 16-hanging arm

17-driving part 18-dehumidifying component 19-air supply component

21-dehumidifying element 22-annular ring 23-covering door

24-transparent part 25-barrel bottom foot rest 26-exhaust pipe

27-reinforcing frame 28-motor 29-worm

31-worm wheel.

Detailed Description

In order to facilitate understanding of those skilled in the art, the present invention is further described below with reference to examples and drawings, and the content of the embodiments is not intended to limit the present invention.

Referring to fig. 1 to 5, an automatic grading drying system of the present invention includes a conveying mechanism 1, a plurality of slurry-dipping and sand-dipping mechanisms 2 and a plurality of drying mechanisms 3, wherein a first slurry-dipping and sand-dipping mechanism 2 picks up a wax pattern and performs a first slurry-dipping and sand-dipping treatment on the wax pattern, the first slurry-dipping and sand-dipping mechanism 2 moves the wax pattern after the first slurry-dipping and sand-dipping treatment to the conveying mechanism 1, the conveying mechanism 1 automatically conveys the wax pattern after the first slurry-dipping and sand-dipping treatment to the first drying mechanism 3 for a first drying treatment, then the conveying mechanism 1 conveys the wax pattern after the drying treatment by the first drying mechanism 3 to a second slurry-dipping and sand-dipping mechanism 2 for a second slurry-dipping and sand-dipping treatment, the second slurry-dipping and sand mechanism 2 conveys the wax pattern after the second slurry-dipping and sand-dipping treatment to the conveying mechanism 1, and the conveying mechanism 1 conveys the wax pattern after the second slurry-dipping and sand-dipping treatment to the second drying mechanism 3 for a second drying treatment, and circulating the steps until the wax mould finishes all the dipping sand treatment and drying treatment, and finally performing dewaxing treatment to form the hollow mould for manufacturing the product.

Through the hierarchical formula to the wax matrix soaks the thick liquid and is stained with sand and hierarchical formula drying process, simplify drying mechanism 3's structure greatly, reduce drying mechanism 3's space volume, realize drying mechanism 3's compact design, promote drying efficiency, shorten drying time, practice thrift dry power consumption, save drying cost.

The slurry dipping and sand dipping mechanism 2 comprises a mechanical arm 4, a slurry feeding unit 5 and a sand feeding unit 6, wherein the mechanical arm 4 is used for picking up a wax pattern, according to actual needs, a clamp can be installed at the tail end of the mechanical arm 4, the wax pattern is clamped by the clamp, the mechanical arm 4 dips the picked-up wax pattern into the slurry fed to the slurry feeding unit 5, the wax pattern after being dipped into the slurry is fed into the sand feeding unit 6, sand grains fed to the sand feeding unit 6 are adhered to the outer side of the wax pattern by virtue of the slurry on the surface of the wax pattern, and the mechanical arm 4 moves the wax pattern after being adhered to the sand grains to the conveying mechanism 1.

Conveying mechanism 1 includes a plurality of conveying unit 7, and a plurality of soaks thick liquid and is stained with sand mechanism 2 and cooperate a plurality of conveying unit 7 respectively and use, and conveying unit 7 is used for carrying the wax matrix, soaks thick liquid and is stained with sand mechanism 2 and be used for shifting the wax matrix between two adjacent conveying unit 7. During the in-service use, a plurality of conveying unit 7 of installation fixed in the factory building of mill, preferably, a plurality of conveying unit 7 parallel arrangement, the space in the make full use of factory building avoids conveying unit 7 overlength and extravagant more area.

The conveying unit 7 comprises a bracket 8, an air supply assembly 9 rotatably arranged on the bracket 8, a driving piece 17 for driving the air supply assembly 9 to rotate, and three rotating wheels 11 rotatably arranged on the bracket 8, wherein the bracket 8 is approximately rectangular, and the three rotating wheels 11 are arranged in a row along the length direction of the bracket 8, and preferably, the three rotating wheels 11 are arranged in a collinear way. The parallel horizontal plane of air supply subassembly 9 sets up, and the rotation axis that rotates wheel 11 extends the setting along vertical direction, and air supply subassembly 9 cover is established in the outside of three rotation wheel 11, and two rotation wheels 11 cooperate the both ends of air supply subassembly 9 respectively, and the middle part of third rotation wheel 11 cooperation air supply subassembly 9, and air supply subassembly 9 is used for bearing the wax matrix.

Each conveying unit 7 is provided with a plurality of drying mechanisms 3, the drying mechanisms 3 of the same conveying unit 7 are arranged along the length direction of the conveying unit 7, and the operating parameters of the drying mechanisms 3 of the same conveying unit 7 are different. The wax matrix that same conveying unit 7 carried carries out drying process in grades in different drying mechanism 3 one by one, utilizes different drying mechanism 3's differentiation operating parameter for the wax matrix is dried gradually, promotes the dry yield of wax matrix.

The drying mechanism 3 comprises a main machine body 12 and an electric cabinet 13 electrically connected with the main machine body 12, the main machine body 12 comprises a hollow barrel body 14, a rotating shaft 15 which is rotatably arranged and is positioned in the hollow barrel body 14, a hanging arm 16 arranged on the rotating shaft 15, a driving part 17 used for driving the rotating shaft 15 to rotate, and a dehumidifying component 18 used for communicating the hollow barrel body 14, the electric cabinet 13 is used for regulating and controlling the operation parameters of the driving part 17, and the hanging arm 16 is used for bearing a wax mould.

The hollow barrel 14 is substantially in a hollow cylindrical shape, preferably, the upper end and the lower end of the hollow barrel 14 are both provided with the reinforcing frames 27, the upper end and the lower end of the rotating shaft 15 are respectively rotatably arranged on the reinforcing frames 27 at the upper end and the lower end of the hollow barrel 14, the strength of the hollow barrel 14 is improved through the reinforcing frames 27, and the service life of the hollow barrel 14 is prolonged.

During actual use, the conveying mechanism 1 inputs the wax pattern into the hollow barrel body 14, the wax pattern is loaded on the hanging arm 16 in the hollow barrel body 14, then the driving part 17 drives the rotating shaft 15 to drive the wax pattern carried by the hanging arm 16 to rotate, the dehumidifying component 18 carries out dehumidifying treatment on the hollow barrel body 14, and further automatic drying of the wax pattern in the hollow barrel body 14 is achieved. The hollow barrel body 14 is customized according to the actual size of the wax mold, the compact hollow barrel body 14 is constructed, the volume of the hollow barrel body 14 is reduced, energy waste is avoided, and the drying efficiency is improved.

The barrel type air conditioner also comprises an air supply assembly 19 communicated with the hollow barrel body 14 and a dehumidifying piece 21 matched with the air supply assembly 19, wherein the air supply assembly 19 is used for alternately conveying hot air and cold air into the hollow barrel body 14, and the dehumidifying piece 21 is used for dehumidifying the air fed into the hollow barrel body 14 by the air supply assembly 19.

The dehumidifying part 21 is used for removing water molecules contained in the gas sent into the hollow barrel body 14 by the air supply assembly 19, so that the wax mould is prevented from being wet due to the water molecules mixed in the gas. The air supply assembly 19 supplies hot air into the hollow barrel body 14, and the wax mold in the hollow barrel body 14 is rapidly dried by the hot air. The air supply assembly 19 supplies cold air into the hollow barrel body 14, and the cold air is used for releasing the stress of the wax mold in the hollow barrel body 14, so that the production and manufacturing yield of the wax mold is improved.

Dehumidifying component 18 includes convulsions piece, and convulsions piece is air exhauster or vacuum generation subassembly, and of course, according to actual need, the air exhauster also can be central updraft ventilator, and pivot 15 is equipped with the centre bore and respectively with a plurality of wet holes of taking out of centre bore intercommunication, and the centre bore extends the setting along the central axis direction of pivot 15, and a plurality of wet holes of taking out arrange the setting along the length direction of pivot 15, and convulsions piece is used for the intercommunication centre bore.

In actual use, the air supply assembly 19 inputs cold and hot alternating air into the hollow barrel body 14, and the dehumidifying assembly 18 is used for exhausting air in the hollow barrel body 14, so that the wax mould is quickly dried. Through the arrangement of the plurality of dehumidifying holes, the air at different positions in the hollow barrel body 14 is simultaneously sucked away by the dehumidifying component 18, so that the dehumidifying efficiency and the drying efficiency are improved, and the poor dehumidifying caused by the local dehumidifying of the hollow barrel body 14 is avoided.

The number of the hanging arms 16 is multiple, the hanging arms 16 form multiple ring groups, the ring groups are arranged along the length direction of the rotating shaft 15, each ring group comprises the hanging arms 16, the hanging arms 16 of the same ring group are arranged around the central axis of the rotating shaft 15, and the hanging arms 16 of two adjacent ring groups are arranged in a staggered mode. The plurality of hanging arms 16 each carry a different wax pattern. So, drying mechanism 3 once can accomplish drying process when to a plurality of wax matrix, further supplementary drying efficiency who promotes the wax matrix.

Preferably, each ring group comprises an annular ring 22, the annular ring 22 is sleeved on the outer side of the rotating shaft 15, the plurality of hanging arms 16 are all installed and fixed on the annular ring 22, and during actual manufacturing, the plurality of hanging arms 16 are installed on the annular ring 22, and then the annular ring 22 is sleeved on the outer side of the rotating shaft 15.

Preferably, each hanging arm 16 corresponds to a moisture extraction hole, that is, the moisture extraction hole extends along the length direction of the hanging arm 16, and the moisture extraction hole penetrates through the end surface of the free end of the hanging arm 16. When the dehumidifying component 18 dehumidifies, the dehumidifying hole on one hanging arm 16 dehumidifies the area where the wax mould carried by the hanging arm 16 is located, and the dehumidifying efficiency is greatly improved.

In this embodiment, the hanging arm 16 is of a detachable structure, the hanging arm 16 includes a plurality of joints formed by coaxial assembly, and according to actual needs, a person skilled in the art can increase or decrease the number of the joints, and then change the length of the hanging arm 16, so that the hanging arm 16 can meet actual needs of different wax molds and different sizes of the hollow barrel bodies 14. Preferably, a valve body for opening and closing the moisture extraction hole is closed, and a user can select to close or open the moisture extraction hole on the hanging arm 16 according to actual needs.

The hollow barrel body 14 is provided with an opening, the hollow barrel body 14 is detachably connected with a covering door 23 used for covering the opening, after the covering door 23 is opened, the wax mold conveyed by the conveying mechanism 1 can enter the hollow barrel body 14 through the opening, or the wax mold dried in the hollow barrel body 14 can be moved out through the opening. The covering door 23 is provided with a visual hole penetrating through the covering door 23, the covering door 23 is provided with a transparent member 24 covering the visual hole, and an observer views the wax pattern in the hollow barrel body 14 through the transparent member 24. During the drying and dehumidifying process of the wax pattern, the observer views the actual state of the wax pattern inside the hollow barrel body 14 through the transparent member 24.

The barrel body 14 is placed on the ground by virtue of the plurality of barrel bottom foot rests 25, so that the hollow barrel body 14 is prevented from being corroded due to the fact that the ground is in contact with the hollow barrel body 14, and the service life of the hollow barrel body 14 is prolonged. The gas in the hollow barrel body 14 is discharged through the exhaust valve, and when the air pressure in the hollow barrel body 14 is too high, the gas in the hollow barrel body 14 is automatically decompressed through the exhaust valve, so that the gas in the hollow barrel body 14 is prevented from being burst due to the too high air pressure, and the service life of the hollow barrel body 14 is prolonged.

The hollow barrel 14 is provided with an exhaust pipe 26 penetrating the bottom of the hollow barrel 14, so that the gas in the hollow barrel 14 can be exhausted through the exhaust pipe 26 during actual use. Of course, the exhaust pipe 26 may be provided with a manual valve outside the hollow barrel 14, and the exhaust pipe 26 may be manually opened or closed by using the manual valve according to actual needs.

The above description is only a preferred embodiment of the present invention, and for those skilled in the art, the present invention should not be limited by the description of the present invention, which should be interpreted as a limitation.

Claims (6)

1. An automatic hierarchical drying system which characterized in that: the wax mold drying device comprises a conveying mechanism, a plurality of slurry dipping and sand dipping mechanisms and a plurality of drying mechanisms, wherein the first slurry dipping and sand dipping mechanism picks up a wax mold and carries out first slurry dipping and sand dipping treatment on the wax mold, the first slurry dipping and sand dipping mechanism moves the wax mold after the first slurry dipping and sand dipping treatment to the conveying mechanism, the conveying mechanism conveys the wax mold after the first slurry dipping and sand dipping treatment to the first drying mechanism for first drying treatment, the conveying mechanism conveys the wax mold after the first drying mechanism is dried to the second slurry dipping and sand dipping mechanism for second slurry dipping and sand dipping treatment, the second slurry dipping and sand dipping mechanism transfers the wax mold after the second slurry dipping and sand dipping treatment to the conveying mechanism, and the conveying mechanism transfers the wax mold after the second slurry dipping and sand treatment to the second drying mechanism for second drying treatment;

the drying mechanism comprises a main machine body and an electric cabinet electrically connected with the main machine body, the main machine body comprises a hollow barrel body, a rotating shaft which is rotatably arranged and is positioned in the hollow barrel body, a hanging arm arranged on the rotating shaft, a driving piece used for driving the rotating shaft to rotate, and a dehumidifying component used for being communicated with the hollow barrel body, the electric cabinet is used for regulating and controlling the operation parameters of the driving piece, and the hanging arm is used for bearing a wax pattern;

the upper end and the lower end in the hollow barrel body are respectively provided with a reinforcing frame, and the upper end and the lower end of the rotating shaft are respectively rotatably arranged on the reinforcing frames at the upper end and the lower end in the hollow barrel body;

the conveying mechanism comprises a plurality of conveying units, the slurry soaking and sand dipping mechanisms are respectively matched with the conveying units for use, the conveying units are used for conveying the wax molds, and one slurry soaking and sand dipping mechanism is used for transferring the wax molds between two adjacent conveying units;

each conveying unit is provided with a plurality of drying mechanisms, the drying mechanisms of the same conveying unit are arranged in the length direction of the conveying unit, and the operating parameters of the drying mechanisms of the same conveying unit are different; the dehumidifying device comprises a hollow barrel body, an air supply assembly and a dehumidifying piece, wherein the hollow barrel body is communicated with the air supply assembly, the dehumidifying piece is matched with the air supply assembly, the air supply assembly is used for alternately conveying hot air and cold air into the hollow barrel body, and the dehumidifying piece is used for dehumidifying the air fed into the hollow barrel body by the air supply assembly.

2. The automated staged drying system of claim 1, wherein: the slurry dipping and sand dipping mechanism comprises a mechanical arm, a slurry supply unit and a sand supply unit, wherein the mechanical arm is used for picking up a wax pattern, the mechanical arm is used for dipping the picked wax pattern into slurry of the slurry supply unit and transferring the wax pattern after slurry dipping into the sand supply unit, so that sand grains supplied by the sand supply unit are adhered to the outer side of the wax pattern, and the mechanical arm is used for transferring the wax pattern after sand grains are adhered to the conveying mechanism.

3. The automated staged drying system of claim 1, wherein: the conveying unit comprises a support, an annular strip arranged on the support in a rotating mode, a driving piece used for driving the annular strip to rotate, and three rotating wheels arranged on the support in a rotating mode, wherein the three rotating wheels are arranged along the length direction of the support, the annular strip is sleeved on the outer sides of the three rotating wheels, the two rotating wheels are respectively matched with the two ends of the annular strip, the third rotating wheel is matched with the middle of the annular strip, and the annular strip is used for bearing a wax mold.

4. The automated staged drying system of claim 1, wherein: the dehumidifying component comprises an exhausting piece, the exhausting piece is an exhaust fan or a vacuum generating component, the rotating shaft is provided with a central hole and a plurality of dehumidifying holes communicated with the central hole respectively, the plurality of dehumidifying holes are arranged along the length direction of the rotating shaft, and the exhausting piece is used for communicating the central hole.

5. The automated staged drying system of claim 1, wherein: the quantity of hanging the arm is a plurality of, and a plurality of hanging the arm and form a plurality of rings group, and a plurality of rings group arranges the setting along the length direction of pivot, and each ring group includes a plurality of arms of hanging, and a plurality of arms of hanging of same ring group set up around the central axis of pivot, and the hanging of two adjacent rings group is crisscross to be set up.

6. The automated staged drying system of claim 1, wherein: the cavity staving is equipped with the opening, and the cavity staving can be dismantled to be connected with and be used for coveing the open-ended and cover the door, covers the door and is equipped with the visual hole that runs through the covering door, covers the door and is equipped with the transparent piece that covers the visual hole, and the observer watches the wax matrix in the cavity staving via the transparent piece.

Images