CN219253154U - Drying equipment - Google Patents

Drying equipment Download PDF

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Publication number
CN219253154U
CN219253154U CN202320067741.6U CN202320067741U CN219253154U CN 219253154 U CN219253154 U CN 219253154U CN 202320067741 U CN202320067741 U CN 202320067741U CN 219253154 U CN219253154 U CN 219253154U
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China
Prior art keywords
assembly
screw rod
bearing
drying
materials
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CN202320067741.6U
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Chinese (zh)
Inventor
罗文欣
彭攀武
李锦晖
彭招良
李金湘
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Shenzhen Haobao Technology Co ltd
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Shenzhen Haobao Technology Co ltd
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Priority to CN202320067741.6U priority Critical patent/CN219253154U/en
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E60/00Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
    • Y02E60/10Energy storage using batteries

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  • Drying Of Solid Materials (AREA)

Abstract

The utility model relates to the technical field of material drying, in particular to drying equipment, which comprises two material placing frames, two drying ovens and a conveying line, wherein the two material placing frames are arranged at intervals along a first direction, the two drying ovens are also arranged at intervals along the first direction, the two material placing frames are respectively arranged in the two drying ovens so that the drying ovens can dry materials borne by the material placing frames, and particularly, the conveying line is arranged across the two drying ovens, so that the materials can be conveyed to the two material placing frames by the conveying line.

Description

Drying equipment
Technical Field
The utility model relates to the field of material drying, in particular to drying equipment.
Background
Some electronic products need to be subjected to glue dispensing in the production process, and in order to accelerate glue solidification, the glue is sent to drying equipment for baking after being dispensed.
In order to realize automatic production, the prior art can set up loading attachment and unloader in drying equipment's both sides, and loading attachment is used for providing the material on to drying equipment, and unloader is used for transporting the material that drying equipment toasted, because drying equipment among the prior art only has a work or material rest and a dry-off oven, and some materials need pass through the stoving of at least twice different temperatures, so need to use two at least drying equipment, and the material is to be shifted in two at least drying equipment to manufacturing cost is higher.
Disclosure of Invention
The embodiment of the utility model aims to solve the technical problem that at least two drying devices are required to be arranged for materials which need to be dried at least twice at different temperatures, so that the cost of producing finished products is high.
The drying equipment provided by the embodiment of the utility model comprises: the two material placing frames are arranged at intervals along the first direction and are used for bearing materials; the two drying ovens are arranged at intervals along the first direction, the two material placing frames are respectively arranged in the two drying ovens, and the drying ovens are used for heating and drying the materials; the conveying line is arranged across the two drying ovens along the first direction and comprises a starting end and a tail end which are oppositely arranged along the first direction, and the starting end is used for conveying materials towards the tail end so that the materials can be conveyed onto the two material placing racks by the conveying line.
Further, the material placing frame comprises a plurality of bearing structures for bearing the materials, and the bearing structures are arranged in a layered manner; the conveying line comprises a first transverse moving assembly and a first longitudinal moving assembly, the first transverse moving assembly is used for moving materials to the bearing structure, the first longitudinal moving assembly is connected with the first transverse moving assembly to drive the first transverse moving assembly to rise or fall, and then the materials are driven to rise or fall, so that the materials can be moved to any layer of bearing structure by the first transverse moving assembly.
Further, the first longitudinal movement assembly includes: the lifting platform is provided with the first transverse moving assembly; the first screw rod seat is arranged on the lifting table, and is provided with a first threaded hole arranged along the gravity direction; the first screw rod penetrates through the first threaded hole; the first rotary driving piece is fixedly arranged at the top of the lifting platform and is connected with the first screw rod to drive the first screw rod to rotate.
Further, the first longitudinal movement assembly further comprises a first transmission assembly; the two lifting tables are arranged, and the two sides of the first transverse moving assembly in the first direction are respectively arranged on the two lifting tables; two first screw rod installation seats are arranged, and one first screw rod installation seat is arranged on two sides of each lifting table in the second direction; the four first screw rods are respectively arranged in the first threaded holes of the four first screw rod mounting seats in a penetrating mode; the first rotary driving piece synchronously drives the four first screw rods to rotate through a first transmission assembly; wherein the second direction is perpendicular to the first direction.
Further, the first transmission assembly includes: the synchronous belt and the synchronous pulleys are arranged on each first screw rod, and the synchronous belt is arranged on the synchronous pulleys.
Further, the material placing frame comprises two bearing frames symmetrically arranged in a second direction, the second direction is perpendicular to the first direction, the bearing frames comprise a plurality of bearing bars arranged at intervals in the first direction, one surface of each bearing bar, which is close to the other bearing frame, is provided with a plurality of bearing blocks, the bearing blocks are arranged in layers, and the bearing blocks of the two groups of bearing frames jointly define the bearing structure; the first traversing assembly includes: the two first mounting seats are symmetrically arranged on the outer side of the material placing frame along the second direction, the two ends of each first mounting seat in the first direction are provided with first protruding parts protruding out of the material placing frame, and the first protruding parts are connected with the first longitudinal moving assembly; the two groups of first rollers are symmetrically arranged on one sides of the two opposite sides of the first mounting seat, each group of first rollers are arranged along the first direction, part of the first rollers are inserted between the bearing strips, and the other parts of the first rollers are arranged on the first protruding parts; the second transmission assembly is connected with the two groups of first rollers; the first power assembly is connected with the second transmission assembly so as to drive the two groups of first rollers to rotate through the second transmission assembly; the first width adjusting assembly is connected with the two first installation seats and used for driving the two first installation seats to be close to or far away from each other.
Further, the first width adjusting component includes: the two second screw rod seats are respectively arranged on the two first installation seats, and the second screw rod seats are provided with second threaded holes arranged along the second direction; the two second screw rods are respectively arranged in the two second threaded holes in a penetrating mode; and the two second rotary driving parts are respectively connected with one second screw rod to drive the second screw rod to rotate.
Further, the material placing frame further comprises a second width adjusting component which is connected with one of the bearing frames or connected with the two bearing frames, and the second width adjusting component is used for driving the bearing frames to move relative to the other bearing frame so as to adjust the distance between the two bearing frames.
Further, the second width adjusting assembly includes: a connection plate connected to all of the carrier bars of one of the carriers; the third screw rod seat is arranged on the connecting plate, and is provided with a third threaded hole arranged along the second direction; the third screw rod is arranged in the third threaded hole in a penetrating way; the third rotary driving piece is fixedly arranged at one end of the third screw rod and is connected with the third screw rod to drive the third screw rod to rotate.
Further, drying equipment still includes feed mechanism, feed mechanism includes second sideslip subassembly and second indulges and moves the subassembly, the second sideslip subassembly with the starting end is adjacent to be set up, the second sideslip subassembly is used for receiving the material, and will the material is carried to on the transportation line, the second indulges and moves the subassembly and be used for driving the second sideslip subassembly goes up and down, in order to with the second sideslip subassembly goes up and down to receive the position of material, and will the second sideslip subassembly removes to the position of material.
Compared with the prior art, the drying equipment provided by the embodiment of the utility model has the beneficial effects that: the drying equipment provided by the embodiment of the utility model comprises two material placing frames, two drying ovens and a conveying line, wherein the two material placing frames are arranged at intervals along the first direction, the two drying ovens are also arranged at intervals along the first direction, the two material placing frames are respectively arranged in the two drying ovens so that the drying ovens can dry materials borne by the opposite material placing frames, and particularly, the conveying line is arranged across the two drying ovens, so that the materials can be conveyed to the two material placing frames by the conveying line.
Drawings
The utility model will now be described in further detail with reference to the accompanying drawings and examples, in which:
fig. 1 is a schematic perspective view of a drying apparatus according to an embodiment of the present utility model;
fig. 2 is a schematic perspective view of a part of a structure of a drying apparatus according to an embodiment of the present utility model;
FIG. 3 is a schematic perspective view of a transport mechanism according to an embodiment of the present utility model;
FIG. 4 is an enlarged schematic view of a portion of the position A of FIG. 2;
FIG. 5 is an enlarged schematic view of a portion of the B position of FIG. 3;
FIG. 6 is an enlarged schematic view of a portion of the C position of FIG. 2;
fig. 7 is a schematic perspective view of a part of a structure in a feeding mechanism according to an embodiment of the present utility model.
The reference numerals in the drawings are as follows:
1000. a drying device;
100. a material placing frame; 110. a load bearing structure; 120. a carrier; 121. a carrier strip; 122. a bearing block; 130. a second width adjustment assembly; 131. a connecting plate; 132. a third screw rod mounting seat; 133. a third screw rod; 134. a third rotary driving member;
200. a drying furnace;
300. a transport line; 310. a starting end; 320. a terminal end; 330. a first traversing assembly; 331. a first mount; 3311. a first projection; 332. a first roller; 333. a first power assembly; 334. a first width adjustment assembly; 3341. a second screw rod mounting seat; 3342. a second screw rod; 3343. a second rotary driving member; 340. a first longitudinally moving component; 341. a lifting table; 342. a first screw rod mounting seat; 343. a first screw rod; 344. a first rotary drive member; 345. a first transmission assembly; 3451. a synchronous belt; 3452. a synchronous pulley;
400. a feeding mechanism; 410. a second traversing assembly; 411. a second mounting base; 412. a sprocket; 4121. a driving wheel; 4122. driven wheel; 413. a conveyor belt; 414. a second power assembly; 4141. a rotating electric machine; 4142. a rotating shaft; 420. a second longitudinally moving component; 430. a third width adjustment assembly; 431. a fourth screw rod mounting seat; 432. a fourth screw rod; 433. a fourth rotary driving member;
500. a blanking mechanism; 510. a third traversing assembly; 520. a third longitudinally moving component;
9000. and a jig plate.
Detailed Description
It should be noted that, in the case of no conflict, the embodiments and features in the embodiments may be combined with each other. Preferred embodiments of the present utility model will now be described in detail with reference to the accompanying drawings.
The embodiment of the utility model provides a drying device 1000, as shown in fig. 1-2, the drying device 1000 includes two material placing frames 100, two drying ovens 200 and a transportation line 300, the two material placing frames 100 are arranged at intervals along a first direction (X direction in fig. 2), the two material placing frames 100 are used for carrying materials, the two drying ovens 200 are arranged at intervals along the first direction, the two material placing frames 100 are respectively arranged in the two drying ovens 200, and the drying ovens 200 are used for heating and drying the materials; the conveying line 300 is disposed across the two drying ovens 200 along the first direction, and the conveying line 300 includes a start end 310 and a tail end 320, wherein the start end 310 is used for conveying the material towards the tail end 320, so that the material can be conveyed onto the two material placing racks 100 by the conveying line 300.
Through implementing this embodiment, be provided with two and put work or material rest 100, two drying ovens 200, the transportation line 300 spans two drying ovens 200 and sets up for the material can be transported to two by transportation line 300 and put on the work or material rest 100, and the material that same drying equipment 1000 can bear like this can be more, and external loading attachment and unloader can be for two material services of putting on the work or material rest 100, and two drying ovens 200 are transferred to different stoving temperatures respectively, just can utilize a drying equipment 1000 to dry the material that needs twice different temperatures, thereby reach reduction in production cost's technical effect.
It should be noted that, for adapting to materials that need to be dried more times and at different temperatures, a longer transporting line 300 may be provided, and more racks 100 and ovens 200 may be provided for this purpose.
Referring to fig. 1-4, in a specific embodiment, the material placing rack 100 includes a carrying structure 110 for carrying materials, and the plurality of carrying structures 110 are arranged in layers, the conveying line 300 includes a first traversing assembly 330 and a first longitudinal moving assembly 340, the first traversing assembly 330 is used for moving the materials onto the carrying structure 110, and the first longitudinal moving assembly 340 is connected with the first traversing assembly 330 to drive the first traversing assembly 330 to raise or lower, so as to drive the materials to raise or lower, so that the materials can be moved onto any layer of carrying structure 110 by the first traversing assembly 330.
The first traversing assembly 330 of this embodiment is capable of moving material onto any one of the levels of load bearing structures 110 because the conveyor line 300 further includes a first traversing assembly 340 coupled to the first traversing assembly 330. The first traverse assembly 340 is configured to drive the first traverse assembly 330 to raise or lower, thereby driving the material to raise or lower to a height corresponding to the desired placement of the load bearing structure 110, and then move the material onto the load bearing structure 110 by using the first traverse assembly 330 to move the material. Since the materials can be layered on the material placing rack 100, the material placing rack 100 of the present embodiment can accommodate a larger amount of materials. Through implementing this embodiment, can make put work or material rest 100 can hold more materials, drying equipment 1000 can once only dry more materials, has reduced manufacturing cost effectively.
To achieve the technical effect of driving the first traversing assembly 330 to raise or lower, the present utility model provides a specific embodiment of the first traversing assembly 340, referring to fig. 3, the first traversing assembly 340 includes: the lifting platform 341, the first screw 343 seat, the first screw 343 and the first rotary driving member 344. The first traversing assembly 330 and the first screw rod 343 are arranged on the lifting platform 341, a first threaded hole arranged along the gravity direction is arranged on the first screw rod 343 seat, the first screw rod 343 is arranged in the first threaded hole in a penetrating manner, and the first rotary driving piece 344 is fixedly arranged at the top of the lifting platform 341 and connected with the first screw rod 343 to drive the first screw rod 343 to rotate.
By implementing the embodiment, when the first rotary driving member 344 drives the first screw rod 343 to rotate, the external thread of the first screw rod 343 is matched with the internal thread of the first screw rod 343 mounting base 342, so as to drive the lifting platform 341 to lift or lower, and further drive the first traversing assembly 330 to lift or lower. Of course, it is understood that other embodiments may be used to raise and lower the first traversing assembly 330, such as using an electric cylinder to raise and lower the first traversing assembly 330.
2-3, the first longitudinal movement assembly 340 further includes a first transmission assembly 345; the two lifting tables 341 are arranged, and the two sides of the first traversing assembly 330 in the first direction are respectively arranged on the two lifting tables 341; two first screw rod 343 installation seats 342 are arranged, and one first screw rod 343 installation seat 342 is arranged on two sides of each lifting platform 341 in the second direction (Y direction in fig. 2); four first screw rods 343 are arranged, and the four first screw rods 343 are respectively arranged in the first threaded holes of the four first screw rod 343 installation seats 342 in a penetrating manner; the first rotary driving piece 344 synchronously drives the four first screw rods 343 to rotate through the first transmission assembly 345; wherein the second direction is perpendicular to the first direction.
In this embodiment, the two lifting platforms 341 respectively drive the first traversing assembly 330 to rise or fall from two sides of the first traversing assembly 330, so that the first traversing assembly 330 is more stable in lifting; each lifting platform 341 is provided with a first screw rod 343 mounting seat 342 on two sides in the second direction, namely, two sides of each lifting platform 341 in the second direction can be restrained by the first screw rods 343, so that the lifting platform 341 can be more stable in lifting. Therefore, the material can be more stable in lifting by implementing the embodiment.
In order to achieve the technical effect that the first rotary driving piece 344 synchronously drives the four first lead screws 343 to rotate through the first transmission assembly 345, the utility model provides a specific embodiment of the first transmission assembly 345, and referring to fig. 3, the first transmission assembly 345 comprises a synchronous belt 3451 and a plurality of synchronous belt 3451 wheels, each first lead screw 343 is provided with one synchronous belt 3451 wheel, and the synchronous belt 3451 wheels are arranged on the plurality of synchronous belt 3451 wheels.
Specifically, when one of the first screw rods 343 is driven to rotate by the first rotation driving member 344, the synchronous belt 3451 on the one screw rod is driven to rotate, so as to drive the synchronous belt 3451, and the synchronous belt 3451 can drive the other three synchronous belts 3451 to rotate, so as to drive the other three first screw rods 343 to rotate synchronously.
Referring to fig. 2 and 4, in an embodiment, the material rack includes two bearing frames 120 symmetrically disposed in a second direction (Y direction in fig. 2), the second direction is perpendicular to the first direction, the bearing frames 120 include a plurality of bearing bars 121 disposed at intervals in the first direction, a plurality of bearing blocks 122 are disposed on a surface of the bearing bar 121 near another bearing frame 120, and the plurality of bearing blocks 122 are disposed in layers, where the bearing blocks 122 of the two sets of bearing frames 120 together define the bearing structure 110. The first traversing assembly 330 comprises: two first mounts 331, two sets of first rollers 332, a second transmission assembly, a first power assembly 333, and a first width adjustment assembly 334. The two first mounting seats 331 are symmetrically disposed on the outer side of the material placing frame 100 along the second direction, both ends of the first mounting seats 331 in the first direction are provided with first protruding portions 3311 protruding out of the material placing frame 100, and the first protruding portions 3311 are connected with the first longitudinal moving assembly 340. The two sets of first rollers 332 are symmetrically disposed on opposite sides of the two first mounting seats 331, each set of first rollers 332 is disposed along the first direction, and part of the first rollers 332 are inserted between the plurality of carrier bars 121, and part of the first rollers 332 are mounted on the first protruding portion 3311. The first power assembly 333 is connected to the two sets of first rollers 332 through the second transmission assembly, so that the first power assembly 333 can drive the second transmission assembly to further drive the two sets of first rollers 332 to rotate. The first width adjusting component 334 is connected to the two first mounting bases 331, and is used for driving the two first mounting bases 331 to approach or separate from each other.
By implementing this embodiment, the first traversing assembly 340 and the first traversing assembly 330 can be utilized to move material onto any layer of load bearing structure 110. The first power unit 333 drives the second transmission unit and thus drives the first roller 332, which is not limited in this embodiment, and a person skilled in the art can adaptively set the first power unit, for example, a sprocket 412 is installed on a side of the first roller 332 facing away from the carrying structure 110, the sprocket 412 is provided with the same chain, and the first power unit 333 drives a driving wheel 4121 installed on the chain to rotate, so as to drive a set of first rollers 332 to rotate.
Specifically, the operation flow of the drying apparatus 1000 provided in this embodiment is as follows:
firstly, the jig plate 9000 is fed to the starting end 310 of the transport line 300, and at this time, the first rollers 332 on the first protruding portions 3311 of the two first mounting seats 331 are respectively abutted to the bottoms of two sides of the jig plate 9000;
then, the first traversing assembly 330 is driven to rise or fall by the first traversing assembly 340, so that the jig plate 9000 moves to the side of the carrying structure 110 where it needs to be placed;
then, the first power component 333 is utilized to drive the second transmission component and further drive the first roller 332 to rotate, so that the jig plate 9000 translates onto the carrying structure 110 of the material placing frame 100;
then, the first width adjusting assembly 334 is utilized to drive the two first installation seats 331 to be far away from each other until the first roller 332 inserted between the bearing strips 121 moves out of the material placing frame 100, and at this time, the first roller 332 is no longer in contact with the jig plate 9000;
then, the first traversing assembly 330 is moved to a position for receiving a new jig plate 9000 by the first longitudinal moving assembly 340, and the distance between the two first mounting seats 331 is adjusted by the first width adjusting assembly 334, so that the bottom ends of the two sides of the jig plate 9000 can be respectively abutted against the first rollers 332 on the two sides.
It should be noted that, the material is supplied to the drying apparatus 1000 of the present utility model by the jig plate 9000, so that the transporting line 300 of the present utility model moves the material by moving the jig plate 9000, and the carrying structure 110 also carries the material by carrying the jig plate 9000. Of course, it is understood that the material may be directly supplied to the drying apparatus 1000 of the present embodiment if the shape of the material is appropriate.
Referring to fig. 5, in a particular embodiment, the first widening component 334 includes: two second lead screws 3342 mount blocks 3341, two second lead screws 3342, and two second rotary drivers 3343. The two second screw rods 3342 mounting seats 3341 are respectively arranged on the two first mounting seats 331, second threaded holes arranged along the second direction are formed in the second screw rod 3342 mounting seats 3341, the two second screw rods 3342 are respectively arranged in the two second threaded holes in a penetrating mode, and the two second rotary driving pieces 3343 are respectively connected with the one second screw rod 3342 so as to drive the second screw rods 3342 to rotate.
By implementing the embodiment, the two second rotary driving members 3343 respectively drive the two second screw rods 3342 to rotate, and the external threads of the screw rods of the second screw rods 3342 and the internal threads of the mounting seats 3341 of the second screw rods 3342 can be matched with each other, so that the two first mounting seats 331 are driven to move, and the two first mounting seats 331 are close to or far from each other.
Of course, it can be appreciated that there are many embodiments of the first widening component 334, for example, two electric cylinders are used to drive two first mounting seats 331 respectively; for example, two cylinders are used to drive two first mounting seats 331 respectively; for example, a cylinder with a double sliding table is used for driving the two first mounting seats 331, the cylinder with the double sliding table is provided with two sliding tables which can move relatively, and the two first mounting seats 331 are respectively connected to the two sliding tables; the utility model is not limited thereto and may be adapted by a person skilled in the art.
Referring to fig. 2 and 6, in an embodiment, the placement frame 100 further includes a second width adjustment assembly 130, which is connected to one of the carriers 120 or connected to both of the carriers 120, and the second width adjustment assembly 130 is configured to move the carrier 120 relative to the other carrier 120 to adjust a distance between the two carriers 120.
By implementing the embodiment, the second width adjusting component 130 can be used to adjust the distance between the two carriers 120, so that the material placing rack 100 can be adapted to jig plates 9000 with different sizes, the universality of the drying device 1000 is increased, and a plurality of drying devices 1000 do not need to be designed for the jig plates 9000 with different sizes.
To achieve the technical objective of adjusting the distance between the two carriers 120 by using the second width adjustment assembly 130, the present utility model provides a specific embodiment of the second width adjustment assembly 130, referring to fig. 2 and 6, in which the second width adjustment assembly 130 includes a connection plate 131, a third screw rod 133 mounting seat 132, a third screw rod 133, and a third rotary driving member 134. The connecting plate 131 is connected with all bearing bars 121 of one bearing frame 120, the third screw rod 133 mounting seat 132 is arranged on the connecting plate 131, a third threaded hole arranged along the second direction is formed in the third screw rod 133 mounting seat 132, the third screw rod 133 penetrates through the third threaded hole, and the third rotary driving piece 134 is fixedly arranged at one end of the third screw rod 133 and connected with the third screw rod 133 so as to drive the third screw rod 133 to rotate.
Through implementation of the embodiment, when the third rotary driving member 134 drives the third screw rod 133 to rotate, the external thread of the third screw rod 133 is matched with the internal thread of the third screw rod 133 mounting seat 132, so as to drive the connecting plate 131, and further drive the carrier 120 connected with the connecting plate 131 to move relative to the other carrier 120.
Referring to fig. 2 and 7, in an embodiment, the drying apparatus 1000 further includes a feeding mechanism 400, where the feeding mechanism 400 includes a second traversing assembly 410 and a second longitudinal moving assembly, the second traversing assembly 410 is disposed adjacent to the start end 310, the second traversing assembly 410 is used for receiving the material and conveying the material onto the conveying line 300, and the second longitudinal moving assembly 420 is used for driving the second traversing assembly 410 to lift to a position for receiving the material, and moving the second traversing assembly 410 to a position for conveying the material.
The drying equipment 1000 shown in this embodiment is additionally provided with a feeding mechanism 400, and the feeding mechanism 400 is used for transporting materials to the transporting line 300, so as to achieve the technical effect of rapidly placing the materials on the material placing frame 100.
Specifically, in the process of automated production, an external transporting device is provided to transport the material to be baked to the drying apparatus 1000, and this transporting device generally transports the jig plate 9000 provided with the material to a certain height, and then provides the jig plate 9000 to the drying apparatus 1000 at a certain height.
When the feeding mechanism 400 is not provided, the transporting line 300 is moved to the height of the receiving jig plate 9000, then moved to the height of the storing jig plate 9000, and returned to the height of the receiving jig plate 9000 to receive the jig plate 9000 after the jig plate 9000 is stored, so that the efficiency is low. In addition, when the loading mechanism 400 is not provided, the transport line 300 is relatively long, because the two racks 100 are provided in the present utility model, if the loading mechanism 400 is not provided, the transport line 300 receives two jig boards 9000 at a time, and the starting end 310 of the transport line 300 protrudes from the racks by a length sufficient to accommodate two circuit boards.
After the feeding mechanism 400 is added, the feeding mechanism 400 can be used to receive the jig plate 9000 sent by the external conveying device, after the feeding mechanism 400 receives the jig plate 9000, the jig plate 9000 is moved to the height for storing the jig plate 9000, then the jig plate 9000 is provided for the conveying line 300, then the jig plate 9000 is moved to the material placing frame 100 by the conveying line 300, the feeding mechanism 400 can be used to receive the jig plate 9000 again in the process that the conveying line 300 moves the jig plate 9000 to the material placing frame 100, and after the conveying line 300 moves the jig plate 9000 to the material placing frame 100, the jig plate 9000 provided by the feeding mechanism 400 can be received only by lifting to the position of the next layer of the placing structure. Therefore, the technical effect of rapidly placing the materials on the material placing rack 100 can be achieved by implementing the embodiment, and the production efficiency is improved.
Referring to fig. 7, in a particular embodiment, the second traversing assembly 410 includes two second mounts 411, two sets of sprockets 412, two conveyor belts 413, and a second power assembly 414. The two second mounting seats 411 are symmetrically arranged in the second direction; two sets of chain wheels 412 are symmetrically arranged on opposite sides of the two second mounting seats 411, and each set of chain wheels 412 comprises a driving wheel 4121 and a driven wheel 4122 which are arranged at intervals along the first direction; two belts 413 are respectively mounted on one set of sprockets 412, and a second power assembly 414 is coupled to a drive wheel 4121 of the two sets of sprockets 412.
Specifically, the second power assembly 414 may drive the driving wheel 4121 to rotate, and further drive the conveyor 413, so that the material carried on the conveyor 413 is driven by the conveyor 413 to move toward the conveying line 300.
Referring to fig. 7, in a particular embodiment, the second power assembly 414 includes: a rotary motor 4141, a coupling, and a rotary shaft 4142. The rotating motor 4141 is connected to the rotating shaft 4142 through a coupling, and the driving wheels 4121 of the two sets of chain wheels 412 are mounted on the rotating shaft 4142, so that the rotating motor 4141 can drive the rotating shaft 4142 to rotate, thereby driving the driving wheels 4121 of the two sets of chain wheels 412 to rotate.
Referring to fig. 7, in a specific embodiment, the feeding mechanism 400 further includes a third width adjusting component 430, where the third width adjusting component 430 is connected to one of the second mounting seats 411, or the third width adjusting component 430 is connected to two of the second mounting seats 411, and the third width adjusting component 430 is configured to drive the second mounting seat 411 to move relative to the other second mounting seat 411 so as to adjust a distance between the two second mounting seats 411.
Through implementation of this embodiment, the third width adjusting component 430 can be used to adjust the distance between the movement of the two second mounting seats 411, so that the feeding mechanism 400 can adapt to jig plates 9000 with different sizes, the universality of the drying apparatus 1000 is increased, and multiple drying apparatuses 1000 do not need to be designed for the jig plates 9000 with different sizes.
Referring to fig. 7, in a specific embodiment, the third widening component 430 includes: fourth lead screw 432 mount 431, fourth lead screw 432, and fourth rotary drive 433. The fourth screw rod 432 mounting seat 431 is arranged on one of the second mounting seats 411, a fourth threaded hole arranged along the second direction is formed in the fourth screw rod 432 mounting seat 431, the fourth screw rod 432 penetrates through the fourth threaded hole, and the fourth rotary driving piece 433 is connected to one end of the fourth screw rod 432 and used for driving the fourth screw rod 432 to rotate. The fourth rotary driving member 433 may be a hand crank as shown in fig. 7 or a rotary motor, and the present embodiment is not limited thereto.
Of course, it can be appreciated that there are many embodiments of the third widening component 430, for example, two electric cylinders are utilized to drive two second mounting seats 411 respectively; for example, two cylinders are used to drive two second mounting seats 411 respectively; for example, a cylinder with a double sliding table is used for driving two second mounting seats 411, the cylinder with the double sliding table is provided with two sliding tables which can move relatively, and the two second mounting seats 411 are respectively arranged on the two sliding tables; the utility model is not limited thereto and may be adapted by a person skilled in the art.
Through implementation of the embodiment, when the fourth rotary driving member 433 drives the fourth screw rod 432 to rotate, the external thread of the fourth screw rod 432 is matched with the internal thread of the fourth screw rod 432 mounting seat 431, so that the second mounting seat 411 can be driven to move relative to the other mounting seat, and the technical effect of adjusting the distance between the two second mounting seats 411 to adapt to the jig plates 9000 with different sizes is achieved.
Referring to fig. 2, in an embodiment, the drying apparatus 1000 further includes a blanking mechanism 500, where the blanking mechanism 500 includes a third traversing assembly 510 and a third longitudinal moving assembly 520, the third traversing assembly 510 is disposed on a side of the transport line 300 away from the feeding mechanism 400, the third traversing assembly 510 is configured to receive the material from the transport line 300 and send the material away from the drying apparatus 1000, and the third longitudinal moving assembly 520 is configured to drive the third traversing assembly 510 to lift and lower to a position where the material is received, and move the third traversing assembly 510 to a position where the material is sent away.
In order to realize automatic production, an external transporting device is required to be arranged to transport baked materials away, the transporting device can receive the jig plate 9000 at a certain height, the blanking mechanism 500 shown in the embodiment is additionally arranged to move jig plates 9000 at different layers to the height of the receiving jig plate 9000 of the transporting device, and then the third traversing assembly is utilized to move the jig plate 9000 to the transporting device.
It should be noted that, the specific structure of the blanking mechanism 500 is the same as that of the feeding mechanism 400, so that the blanking mechanism 500 will not be described in detail.
The embodiment of the utility model shows a drying device 1000, as shown in fig. 1-2, the drying device 1000 includes two material placing frames 100, two drying ovens 200 and a transportation line 300, the two material placing frames 100 are arranged at intervals along a first direction, the two drying ovens 200 are also arranged at intervals along the first direction, the two material placing frames 100 are respectively arranged in the two drying ovens 200, so that the drying ovens 200 can dry materials carried by the material placing frames 100, specifically, the transportation line 300 spans the two drying ovens 200, so that the materials can be transported to the two material placing frames 100 by the transportation line 300.
It should be understood that the foregoing embodiments are merely illustrative of the technical solutions of the present utility model, and not limiting thereof, and that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art; all such modifications and substitutions are intended to be included within the scope of this disclosure as defined in the following claims.

Claims (10)

1. A drying apparatus for baking a material, comprising:
the two material placing frames are arranged at intervals along the first direction and are used for bearing materials;
the two drying ovens are arranged at intervals along the first direction, the two material placing frames are respectively arranged in the two drying ovens, and the drying ovens are used for heating and drying the materials;
the conveying line is arranged across the two drying ovens along the first direction and comprises a starting end and a tail end which are oppositely arranged along the first direction, and the starting end is used for conveying materials towards the tail end so that the materials can be conveyed onto the two material placing racks by the conveying line.
2. The drying apparatus according to claim 1, wherein: the material placing frame comprises a plurality of bearing structures for bearing the materials, and the bearing structures are arranged in a layered manner; the conveying line comprises a first transverse moving assembly and a first longitudinal moving assembly, the first transverse moving assembly is used for moving materials to the bearing structure, the first longitudinal moving assembly is connected with the first transverse moving assembly to drive the first transverse moving assembly to rise or fall, and then the materials are driven to rise or fall, so that the materials can be moved to any layer of bearing structure by the first transverse moving assembly.
3. The drying apparatus according to claim 2, wherein the first longitudinal movement assembly comprises:
the lifting platform is provided with the first transverse moving assembly;
the first screw rod seat is arranged on the lifting table, and is provided with a first threaded hole arranged along the gravity direction;
the first screw rod penetrates through the first threaded hole;
the first rotary driving piece is fixedly arranged at the top of the lifting platform and is connected with the first screw rod to drive the first screw rod to rotate.
4. The drying apparatus according to claim 3, wherein said first longitudinal movement assembly further comprises a first transmission assembly; the two lifting tables are arranged, and the two sides of the first transverse moving assembly in the first direction are respectively arranged on the two lifting tables; two first screw rod installation seats are arranged, and one first screw rod installation seat is arranged on two sides of each lifting table in the second direction; the four first screw rods are respectively arranged in the first threaded holes of the four first screw rod mounting seats in a penetrating mode; the first rotary driving piece synchronously drives the four first screw rods to rotate through a first transmission assembly; wherein the second direction is perpendicular to the first direction.
5. The drying apparatus according to claim 4, wherein the first transmission assembly comprises: the synchronous belt and the synchronous pulleys are arranged on each first screw rod, and the synchronous belt is arranged on the synchronous pulleys.
6. A drying apparatus according to any one of claims 2 to 3 wherein the material placing rack comprises two bearing racks symmetrically arranged in a second direction, the second direction being perpendicular to the first direction, the bearing racks comprising a plurality of bearing bars arranged at intervals in the first direction, a plurality of bearing blocks being arranged on a face of the bearing bar adjacent to the other bearing rack, and the plurality of bearing blocks being arranged in layers, the bearing blocks of two sets of bearing racks together defining the bearing structure; the first traversing assembly includes:
the two first mounting seats are symmetrically arranged on the outer side of the material placing frame along the second direction, the two ends of each first mounting seat in the first direction are provided with first protruding parts protruding out of the material placing frame, and the first protruding parts are connected with the first longitudinal moving assembly;
the two groups of first rollers are symmetrically arranged on one sides of the two opposite sides of the first mounting seat, each group of first rollers are arranged along the first direction, part of the first rollers are inserted between the bearing strips, and the other parts of the first rollers are arranged on the first protruding parts;
the second transmission assembly is connected with the two groups of first rollers;
the first power assembly is connected with the second transmission assembly so as to drive the two groups of first rollers to rotate through the second transmission assembly;
the first width adjusting assembly is connected with the two first installation seats and used for driving the two first installation seats to be close to or far away from each other.
7. The drying apparatus of claim 6, wherein the first widening component comprises:
the two second screw rod seats are respectively arranged on the two first installation seats, and the second screw rod seats are provided with second threaded holes arranged along the second direction;
the two second screw rods are respectively arranged in the two second threaded holes in a penetrating mode;
and the two second rotary driving parts are respectively connected with one second screw rod to drive the second screw rod to rotate.
8. The drying apparatus according to claim 6, wherein the placement frame further comprises a second width adjusting assembly connected to one of the carriers or connected to both of the carriers, the second width adjusting assembly being configured to move the carrier relative to the other carrier to adjust a distance between the two carriers.
9. The drying apparatus according to claim 8, wherein the second widening component comprises:
a connection plate connected to all of the carrier bars of one of the carriers;
the third screw rod seat is arranged on the connecting plate, and is provided with a third threaded hole arranged along the second direction;
the third screw rod is arranged in the third threaded hole in a penetrating way;
the third rotary driving piece is fixedly arranged at one end of the third screw rod and is connected with the third screw rod to drive the third screw rod to rotate.
10. The drying apparatus of claim 6, further comprising a loading mechanism, the loading mechanism comprising a second traversing assembly and a second traversing assembly, the second traversing assembly being disposed adjacent the starting end, the second traversing assembly being configured to receive the material and to transport the material onto the transport line, the second traversing assembly being configured to raise and lower the second traversing assembly to a position to receive the material and to move the second traversing assembly to a position to transport the material.
CN202320067741.6U 2023-01-09 2023-01-09 Drying equipment Active CN219253154U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202320067741.6U CN219253154U (en) 2023-01-09 2023-01-09 Drying equipment

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202320067741.6U CN219253154U (en) 2023-01-09 2023-01-09 Drying equipment

Publications (1)

Publication Number Publication Date
CN219253154U true CN219253154U (en) 2023-06-27

Family

ID=86856642

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202320067741.6U Active CN219253154U (en) 2023-01-09 2023-01-09 Drying equipment

Country Status (1)

Country Link
CN (1) CN219253154U (en)

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