CN205619692U - Chemical material drying equipment with vibration screening device and return stroke mechanism - Google Patents
Chemical material drying equipment with vibration screening device and return stroke mechanism Download PDFInfo
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- CN205619692U CN205619692U CN201620216929.2U CN201620216929U CN205619692U CN 205619692 U CN205619692 U CN 205619692U CN 201620216929 U CN201620216929 U CN 201620216929U CN 205619692 U CN205619692 U CN 205619692U
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Abstract
The utility model discloses a chemical material drying equipment with vibration screening device and return stroke mechanism, including belt conveyor, vertical conveying mechanism, material tool, dry mechanism, spacing lifting mechanism, receiving mechanism, return stroke mechanism. Belt conveyor is equipped with the rotary device that can make on the drive belt rotatory 90 degrees of material tool, and vertical conveying mechanism is used for pressing from both sides tight material tool and through rotary device to the rotatory material tool of rotary device. Spacing lifting mechanism is used for location and lifting material tool to the receiving mechanism of top accomodates the material tool. Return stroke mechanism is used for the starting point department of rotary device foldback to belt conveyor, includes delivery track and the elevating gear who is located delivery track both ends department. Dry mechanism is including shrouding liftable sealed cowling and seal bottom plate in it with the material tool to and can with the vibrating motor of material tool actuation, vibrating motor can vibrate the screening to the material after the drying.
Description
Technical field:
This utility model relates to the processing equipment of chemical material, in particular to a kind of chemical material drying equipment being provided with device for vibration screening and return mechanism.
Background technology:
Dry to solid material is step particularly important in chemical industry, such as medicine, food and feed additive need production process in or final material be dried, traditional mode is artificial dry in the sun, machine drying etc., but there is the shortcomings such as constant, the inefficiency in place in these modes.
To this end, fluid bed is usually used in dried material, the wet stock entered in fluid bed contact in fluid bed with hot-air, through uniform, be sufficiently mixed after, removing moisture, reach dry;Qualified product is discharged by the discharging opening of fluid bed.But, fluid bed, when being dried with the material of certain viscosity, has a partial material because the viscosity of self is viscous glutinous or agglomeration is agglomerating, affect product quality, and material conglomeration easily causes local the most extremely bed phenomenon, is substantially reduced the drying efficiency of fluid bed.
Utility model content:
This utility model is solved the technical problem that: fluid bed is when being dried the material with certain viscosity, have partial material because the viscosity of self is viscous glutinous or agglomeration is agglomerating, affecting product quality, material conglomeration easily causes the dead bed phenomenon in local, is substantially reduced the drying efficiency of fluid bed.
For solving above-mentioned technical problem, this utility model following technical scheme of offer:
A kind of chemical material drying equipment being provided with device for vibration screening and return mechanism, including mainframe, the belt type conveying mechanism of longitudinally fed material tool, material-falling hopper, material tool, dry materials mechanism, the longitudinal translating device associated of longitudinally fed material tool, carries out the spacing lifting mechanism of spacing lifting, for the accommodating mechanism receiving material tool, the return mechanism that is arranged on mainframe to the material tool run on belt type conveying mechanism;
Described belt type conveying mechanism is arranged on mainframe, belt type conveying mechanism include a pair the conveyer belt being laterally set up in parallel, place driver plate on the conveyor belt, be positioned at a pair guide plate above a pair conveyer belt, the rotary apparatus being arranged on driver plate and locker, the first rotating driving device of being arranged on guide plate and the second rotating driving device;
Described rotary apparatus includes that the rotating seat being articulated on driver plate, fixed cover are located at the peripheral gear of rotating seat, are arranged on the rotating seat top pair of workpieces location bar for positioning materials tool, and described workpiece location bar is vertically arranged;
Described locker includes the vertical bar being articulated on driver plate, the torsion spring being set on vertical bar, is fixed on the horizon bar in vertical masthead portion;The top of described torsion spring is fixed on vertical bar, and the bottom of torsion spring is fixed on driver plate, and under the torsion of torsion spring, the left end of described horizon bar is against on gear;
Described first rotating driving device and the second rotating driving device are respectively positioned on the side of rotary apparatus, the first rotating driving device and the second rotating driving device and all include the tooth bar that can engage with gear, the block piece being positioned at tooth bar side;Described block piece is provided with a horizontal protuberance, described horizontal protuberance can stop the right-hand member of longitudinally running horizon bar, and when described horizontal protuberance stops horizon bar right-hand member, horizon bar begins around vertical bar and rotates, when horizon bar begins around the rotation of vertical bar, described wheel and rack starts engagement;
Described material tool includes location division, be positioned on the left of location division and fix with location division be connected the first filter cartridge, be positioned on the right side of location division and fix with location division be connected the second filter cartridge, be positioned at the transit bridge above location division;Described transit bridge is domed, and the left end of transit bridge and the first filter cartridge connect, and the right-hand member of transit bridge and the second filter cartridge connect, and the hole, location coordinated with workpiece location bar is offered in described location division;
Described material-falling hopper is positioned at the top of material tool, and along with the transmission of conveyer belt, first the material persistently fallen from material-falling hopper falls in the first filter cartridge, eventually falls in the second filter cartridge;
Described dry materials mechanism include being arranged on the first seal base other on the left of conveyer belt, be arranged on the second seal base, the first disposable box being arranged on the first seal base, the second disposable box being arranged on the second seal base other on the right side of conveyer belt, be positioned at the seal closure above the first seal base and the second seal base, cylinder body is fixedly installed on the first cylinder that piston rod above seal closure is connected with seal closure;Described first seal base and the second seal base are symmetrical set, described rotating driving device is between the first seal base and the second seal base, the height of the first seal base and the second seal base is less than the first filter cartridge and the height of the second filter cartridge, the height of described seal closure is higher than the first filter cartridge and the height of the second filter cartridge, described first air cylinder driven seal closure lifting;Air inlet offered by described seal closure, and air inlet is connected with fan heater, and fan heater provides steam by air inlet in seal closure;
In above-mentioned dry materials mechanism, the lower section of described first seal base is provided with the first vibration substrate, is provided with the first vibrating motor, the first vibrating motor is provided with the second cylinder at the left end of the first vibration substrate, and the piston rod of the second cylinder is provided with the first Magnet;The lower section of described second seal base is provided with the second vibration substrate, is provided with the second vibrating motor, the second vibrating motor is provided with the 3rd cylinder at the right-hand member of the second vibration substrate, and the piston rod of the 3rd cylinder is provided with the second Magnet;The left side of described first filter cartridge is fixed with can be with the 3rd Magnet of the first magnet attraction, and the right side of described second filter cartridge is fixed with can be with the 4th Magnet of the second magnet attraction;
Described longitudinal translating device associated is between the conveyer belt being laterally set up in parallel for a pair and is positioned at the lower section of driver plate;Longitudinal translating device associated includes the Rodless cylinder being arranged on mainframe and level is longitudinally disposed, be arranged on Rodless cylinder piston the first lift cylinder, the jaw cylinder being arranged on the first lift cylinder piston rod;
Described spacing lifting mechanism is between the conveyer belt being laterally set up in parallel for a pair and is positioned at the lower section of driver plate, and spacing lifting mechanism is positioned at the front of longitudinal translating device associated;Described spacing lifting mechanism includes the spacing lifting base plate being arranged on mainframe, the second lift cylinder being arranged on spacing lifting base plate and the 3rd lift cylinder, the limited block being arranged on the second lift cylinder piston rod, the lifting block that is arranged on the 3rd lift cylinder piston rod;Described lifting block is provided with vertical alignment pin, and driver plate offers the hole, location with detent fit;
Described accommodating mechanism is positioned at the top of spacing lifting mechanism;Accommodating mechanism includes the portal frame being arranged on mainframe, the 4th lift cylinder being suspended on portal frame crossbeam, it is arranged on the storage framework on the 4th lift cylinder piston rod, it is arranged on storage frame left and the first screw rod being vertically arranged and the first polished rod, it is arranged on storage frame right and the second screw rod being vertically arranged and the second polished rod, the the first lifting plate being spirally connected with the first screw rod and be slidably matched with the first polished rod, the the second lifting plate being spirally connected with the second screw rod and be slidably matched with the second polished rod;Before and after described storage framework, vertical material tool gathering sill is offered in both sides;Described first lifting plate include the first base portion, be arranged on the first coil tension spring of the first base portion front end, the first lifting portion of cavity is offered in rear end, the rear end in described first lifting portion is set in front end and compression first coil tension spring of the first base portion, the front end of described first base portion is provided with and the first lifting portion carries out spacing defining flange, and the front end face in described first lifting portion is inclined plane;Described second lifting plate include the second base portion, be arranged on the second coil tension spring of the second base portion front end, the second lifting portion of cavity is offered in rear end, the rear end in described second lifting portion is set in front end and compression second coil tension spring of the second base portion, the front end of described second base portion is provided with and the second lifting portion carries out spacing defining flange, and the front end face in described second lifting portion is inclined plane;
Described return mechanism include the first lowering or hoisting gear at belt type conveying mechanism front end, belt type conveying mechanism rear end the second lowering or hoisting gear, lie across between the first lowering or hoisting gear and the second lowering or hoisting gear and be positioned at the delivery track below belt type conveying mechanism;Described first lowering or hoisting gear include offering vertically to the first support of chute, be articulated in the first bracket chute in and the 3rd servomotor that couples of the 3rd screw rod that is vertically arranged and the 3rd screw rod, leading section be slidably fitted in the first bracket chute in and the first crane of being spirally connected with the 3rd screw rod, described first crane is horizontally disposed with, the first crane include the first side rod be arrangeding in parallel for about a pair, multiple first conveying rollers being articulated between a pair first side rods, drive multiple first conveying roller rotate the first servomotor;Described second lowering or hoisting gear include offering vertically to the second support of chute, be articulated in the second bracket chute in and the 4th servomotor that couples of the 4th screw rod that is vertically arranged and the 4th screw rod, rearward end be slidably fitted in the second bracket chute in and the second crane of being spirally connected with the 4th screw rod, described second crane is horizontally disposed with, the second crane include the second side rod be arrangeding in parallel for about a pair, multiple second conveying rollers being articulated between a pair second side rods, drive multiple second conveying roller rotate the second servomotor;Described delivery track include the 3rd side rod be arrangeding in parallel for about a pair, multiple 3rd conveying rollers being articulated between a pair the 3rd side rods, drive multiple 3rd conveying roller rotate the 5th servomotor.
By technique scheme, the operation principle of a kind of chemical material drying equipment being provided with device for vibration screening and return mechanism described in the utility model is as follows:
First, material tool positions coordinating of bar by hole, a pair location with pair of workpieces and is positioned on rotating seat.
Second, conveyer belt makees the enclosed annular motion circulated, and conveyer belt drives the material tool on driver plate thereon and driver plate to vertically move, and vertically moving of driver plate is guided by a pair guide plate.The material tool being made up of the first filter cartridge, the second filter cartridge, transit bridge is strip, and the length direction of the material tool of this strip is identical with the transmission direction of conveyer belt;Material moist in material-falling hopper falls into and is driven in the material tool moved ahead by conveyer belt, owing to transit bridge is domed, therefore, falls into the material in material tool and is distributed in the first filter cartridge and the second filter cartridge.
3rd, when driver plate runs to longitudinal translating device associated, the first lift cylinder drives jaw cylinder to rise, the cylinder body lifting driver plate of jaw cylinder so that it is depart from conveyer belt;Afterwards, jaw cylinder gripping driver plate;Afterwards, under the driving of Rodless cylinder, driver plate longitudinally moves ahead.
4th, driver plate is transported to be positioned at the first rotating driving device, when the right-hand member of the horizon bar being arranged on driver plate touches the horizontal protuberance of block piece, laterally protuberance forces horizon bar and vertical bar rotated ninety degrees, the left end disengaging of the horizon bar of rotated ninety degrees and contacting of gear, i.e. gear departs from the constraint of horizon bar, now, gear starts to engage with tooth bar.Longitudinally disposed tooth bar orders about the gear rotated ninety degrees vertically moved, gear driven workpiece thereon location bar rotated ninety degrees, and then drives the material jig rotation 90 degree on the bar of workpiece location;During gear rotated ninety degrees, the right-hand member of horizon bar is against on the horizontal protuberance of block piece and vertically moves, after gear rotated ninety degrees, the right-hand member disengaging of horizon bar and contacting of horizontal protuberance, under the torsion of torsion spring, horizon bar resets, and the horizon bar left end after reset is against on gear, rotates with limiting gear.
5th, longitudinal translating device associated time-out action, the first air cylinder driven seal closure is descending, and the bottom of seal closure is in close contact with the first seal base and the second seal base, and the first filter cartridge and the second filter cartridge are positioned in seal closure;Afterwards, fan heater provides steam to dry the moist material in the first filter cartridge and the second filter cartridge by air inlet in seal closure;Afterwards, second air cylinder driven the first Magnet rises, the first Magnet and the 3rd magnet attraction, and meanwhile, the 3rd air cylinder driven the second Magnet rises, the second Magnet and the 4th magnet attraction;Afterwards, first vibrating motor and the second vibrating motor action, whole material tool vibrates therewith, while hot air seasoning moist material, small particles material in first filter cartridge and the second filter cartridge correspondingly falls in the first disposable box and the second disposable box, and the large granular materials in material after drying is trapped in the first filter cartridge and the second filter cartridge.
6th, longitudinal translating device associated conveying material tool is at the second rotating driving device, second rotating driving device makes the workpiece location bar rotated ninety degrees again in rotary apparatus, and the second rotating driving device makes the operation principle of workpiece location bar rotated ninety degrees be same as the first rotating driving device and makes the operation principle of workpiece location bar rotated ninety degrees.
7th, the jaw cylinder in longitudinal translating device associated unclamps driver plate, and the first lift cylinder resets, and driver plate comes back on conveyer belt, conveyer belt drive it to move ahead.
8th, when driver plate is transported at spacing lifting mechanism, the second lift cylinder drives limited block to rise, and limited block stops that driver plate moves ahead;Afterwards, the 3rd lift cylinder drives lifting block to rise, and the alignment pin on lifting block coordinates with the hole, location on driver plate, and driver plate is lifted by lifting block, with positioning transmission plate.
9th, the 4th lift cylinder in accommodating mechanism drives storage framework to decline;Afterwards, first driven by servomotor the first screw rod rotates, first lifting plate declines under the guiding of the first polished rod, the incline of the material tool on the inclined plane contact workpiece location bar in the first lifting portion, along with the decline in the first lifting portion, the first lifting portion compresses the first coil tension spring and relative first base portion transverse shifting, when the front end in the first lifting portion drops to the lower section of material tool, under the elastic force of the first coil tension spring, the first lifting portion resets and is positioned at the bottom part down of material tool;Afterwards, first driven by servomotor the first screw rod rotates, and material tool is lifted under the guiding of the first polished rod by the first lifting plate, and material tool departs from workpiece location bar and rises;Afterwards, second driven by servomotor the second screw rod rotates, and the second lifting plate comes the bottom part down of material tool with the principle identical with the first lifting plate;Second lifting plate continues to lift material tool to precalculated position under the guiding of the second polished rod;Afterwards, first driven by servomotor the first screw rod reversely rotates, and the first lifting plate drops in situ, in case lifting next one material tool;So, the material tool through drying materials mechanism is contained mechanism's storage one by one.
Tenth, driver plate and rotary apparatus thereon and locker run to return mechanism on the first crane of the first lowering or hoisting gear (now through the conveying of belt type conveying mechanism, first crane flushes up and down with conveyer belt), under the conveying of the first conveying roller, driver plate departs from conveyer belt and is fully located on the first crane;Afterwards, under the driving of the 3rd screw rod, the first crane declines, until its rear end flushes up and down with the front end of delivery track;Afterwards, driver plate is delivered on delivery track by the first conveying roller of rotation, and driver plate is carried by delivery track to the rear end of belt type conveying mechanism;Under the auxiliary of the second conveying roller, driver plate on delivery track and rotary apparatus thereon and locker are fully located at and depart from delivery track (now, the second crane flushes up and down with delivery track) on the second crane;Afterwards, under the driving of the 4th screw rod, the second crane rises, until its front end flushes up and down with the conveyer belt rear end of belt type conveying mechanism;Afterwards, driver plate thereon can be delivered on conveyer belt by the second conveying roller on the second crane.
11st, material tool can be placed on the driver plate having been located in conveyer belt rear end by staff, and specifically, material tool is positioned on the workpiece location bar of rotary apparatus.
Pass through technique scheme, the space of this utility model material drying is can the space that constitutes of the seal closure of folding and the first seal base and the second seal base, the generation of the dead bed phenomenon in local can be effectively prevented from prior art, to improve the drying efficiency of chemical material.
As this utility model a kind of explanation to belt type conveying mechanism, described driver plate is provided with dish type mounting seat, and described rotating seat is articulated in dish type mounting seat;Described dish type mounting seat is provided with pivot joint block, and the bottom of described vertical bar is articulated on pivot joint block, and the bottom of described torsion spring is fixed on pivot joint block.As described above, rotary apparatus and locker are installed in the dish type mounting seat of driver plate, and specifically, locker is arranged on the pivot joint block of driver plate.Being so designed that, as long as the lower dish type mounting seat of dismounting, rotary apparatus and locker are i.e. removed.
As this utility model a kind of explanation to belt type conveying mechanism, the left end of described horizon bar is provided with downward projection of first roller, and the right-hand member of described horizon bar is provided with downward projection of second roller;Under the torsion of torsion spring, the left end of described horizon bar is against on gear by the first roller;When described horizontal protuberance barrier level bar right-hand member, horizontal protuberance and the second roller contact.As described above, horizon bar is actual with horizontal protrusions contact is the second roller, i.e. under the driving of conveyer belt, the second roller rolls on horizontal protuberance.First roller of horizon bar left end is fastened between adjacent two teeth of gear, with the rotation of limiting gear, when the second roller rolls on horizontal protuberance, and the first roller disengaging of horizon bar left end and contacting of gear.
As this utility model a kind of explanation to belt type conveying mechanism, described tooth bar includes that the small column of multiple longitudinal arrangement, the spacing of adjacent two small columns can accommodate a tooth of gear, and described tooth bar is arranged on tooth bar seat, and tooth bar seat is fixing with block piece to be connected.As described above, described small column is equivalent to the tooth of tooth bar, the quantity of the small column included by tooth bar depends on the required angle rotated of rotating seat, that is, if rotating seat need to rotate bigger angle, then tooth bar is longer, the quantity of small column is more, if rotating seat need to rotate less angle, then tooth bar is less, the negligible amounts of small column.
Belt type conveying mechanism and material tool are installed a kind of explanation of relation as this utility model, and the top of described workpiece location bar is provided with the first shaft part, and the lower section of the first shaft part is provided with the second shaft part, and the external diameter of the second shaft part is more than the external diameter of the first shaft part;Location hole number on described location division is two, and hole, two location coordinates with the first shaft part of pair of workpieces location bar, and hole, location is matched in clearance with coordinating of the first shaft part.Wherein, the described second sheathed spring of shaft part, the top of spring is against the bottom of location division, it is so designed that, while the first vibrating motor and the second vibrating motor vibrated material tool, the location division of material tool vibrates on the first shaft part of workpiece location bar, and the vibration of location division can be played auxiliary and the effect strengthened by spring.
As this utility model a kind of explanation to return mechanism, vertical gathering sill offered by described first support, the first guide post vertically it is provided with in the gathering sill of the first support, the leading section of the first crane is provided with and is slidably matched the first sliding part with the first support gathering sill, and the first sliding part offers the first pilot hole coordinated with the first guide post;Vertical gathering sill offered by described second support, the second guide post vertically it is provided with in the gathering sill of the second support, the rearward end of the second crane is provided with and is slidably matched the second sliding part with the second support gathering sill, and the second sliding part offers the second pilot hole coordinated with the second guide post.
Accompanying drawing illustrates:
Below in conjunction with the accompanying drawings this utility model is described further:
Fig. 1 is the structural representation of a kind of chemical material drying equipment being provided with device for vibration screening and return mechanism of this utility model;
Fig. 2 is belt type conveying mechanism 20 in Fig. 1, longitudinal translating device associated 70, spacing lifting mechanism 80, return mechanism 900, the combinative structure schematic diagram of material tool a60;
Fig. 3 is the combinative structure schematic diagram of belt type conveying mechanism 20 in Fig. 2, longitudinal translating device associated 70, spacing lifting mechanism 80, return mechanism 900;
Fig. 4 is to observe belt type conveying mechanism 20, longitudinal translating device associated 70, spacing lifting mechanism 80, the combinative structure schematic diagram of return mechanism 900 gained in Fig. 3 from below;
Fig. 5 is the structural representation of material tool a60 in Fig. 2;
Fig. 6 is the structural representation of longitudinal translating device associated 70 in Fig. 2;
Fig. 7 is the combinative structure schematic diagram of rotary apparatus 30 and locker 40 in Fig. 3;
Fig. 8 is the structural representation of rotating driving device 50 in Fig. 3;
Fig. 9 is that in Fig. 3, rotating driving device 50 unlocks locker 40 and drives the fundamental diagram of rotary apparatus 30;
Figure 10 is the structural representation of spacing lifting mechanism 80 in Fig. 2;
Figure 11 is the structural representation of accommodating mechanism 90 in Fig. 1;
Figure 12 is the structural representation of the first lifting plate 961 in Figure 11 in accommodating mechanism 90;
Figure 13 is the explosive view of the first lifting plate 961 in Figure 12;
Figure 14 is the structural representation of the first lowering or hoisting gear 910 in Fig. 3 or Fig. 4.
Symbol description in figure:
20, belt type conveying mechanism;21, conveyer belt;22, driver plate;221, dish type mounting seat;222, pivot joint block;23, guide plate;
30, rotary apparatus;31, rotating seat;32, gear;33, workpiece location bar;331, the first shaft part;332, the second shaft part;
40, locker;41, vertical bar;42, horizon bar;421, the first roller;422, the second roller;
50, the first rotating driving device;500, the second rotating driving device;51, tooth bar;510, small column;52, block piece;520, horizontal protuberance;53, tooth bar seat.
60, mainframe;
70, longitudinal translating device associated;71, Rodless cylinder;72, the first lift cylinder;73, jaw cylinder;
80, spacing lifting mechanism;81, spacing lifting base plate;82, the second lift cylinder;83, the 3rd lift cylinder;84, limited block;85, lifting block;850, alignment pin;
90, accommodating mechanism;91, portal frame;92, the 4th lift cylinder;93, storage framework;941, the first screw rod;942, the second screw rod;951, the first polished rod;952, the second polished rod;961, the first lifting plate;962, the second lifting plate;963, the first base portion;964, the first coil tension spring;965, the first lifting portion;966, defining flange;967, inclined plane;
900, return mechanism;910, the first lowering or hoisting gear;911, the first support;912, the 3rd screw rod;913, the first crane;914, the first side rod;915, the first conveying roller;916, vertically to chute;917, gathering sill;918, the first guide post;920, the second lowering or hoisting gear;930, delivery track;931, the 3rd side rod;932, the 3rd conveying roller;
A10, material-falling hopper;
A60, material tool;A61, location division;A62, the first filter cartridge;A621, the 3rd Magnet;A63, the second filter cartridge;A631, the 4th Magnet;A64, transit bridge;
A70, dry materials mechanism;A71, the first seal base;A72, the second seal base;A73, the first disposable box;A74, the second disposable box;A75, seal closure;A750, air inlet;A76, the first cylinder;A771, the first vibrating motor;A781, the second cylinder;A791, the first Magnet.
Detailed description of the invention:
Such as Fig. 1, a kind of chemical material drying equipment being provided with device for vibration screening and return mechanism, including mainframe 60, the belt type conveying mechanism 20 of longitudinally fed material tool, material-falling hopper a10, material tool a60, dry materials mechanism a70, the longitudinal translating device associated 70 of longitudinally fed material tool, carries out the spacing lifting mechanism 80 of spacing lifting, for receiving the accommodating mechanism 90 of material tool to the material tool run on belt type conveying mechanism.
In conjunction with Fig. 2, Fig. 3, described belt type conveying mechanism 20 is arranged on mainframe, belt type conveying mechanism include a pair the conveyer belt 21 being laterally set up in parallel, place driver plate 22 on the conveyor belt, be positioned at a pair guide plate 23 above a pair conveyer belt, the rotary apparatus 30 that is arranged on driver plate and locker 40, the first rotating driving device 50 and the second rotating driving device 500 being arranged on guide plate.
In above-mentioned belt type conveying mechanism 20, in conjunction with Fig. 7, Fig. 9, described rotary apparatus 30 includes that the rotating seat 31 being articulated on driver plate, fixed cover are located at the peripheral gear 32 of rotating seat, are arranged on the rotating seat top pair of workpieces location bar 33 for positioning materials tool, and described workpiece location bar is vertically arranged.
In above-mentioned belt type conveying mechanism 20, in conjunction with Fig. 7, Fig. 9, described locker 40 includes the vertical bar 41 being articulated on driver plate, the torsion spring being set on vertical bar, is fixed on the horizon bar 42 in vertical masthead portion;The top of described torsion spring is fixed on vertical bar, and the bottom of torsion spring is fixed on driver plate, and under the torsion of torsion spring, the left end of described horizon bar is against on gear.
In above-mentioned belt type conveying mechanism 20, in conjunction with Fig. 3, Fig. 7, Fig. 8, Fig. 9, described first rotating driving device 50 and the second rotating driving device 500 are respectively positioned on the side of rotary apparatus, and the first rotating driving device and the second rotating driving device all include the tooth bar 51 that can engage, the block piece 52 being positioned at tooth bar side with gear;Described block piece is provided with a horizontal protuberance 520, described horizontal protuberance can stop the right-hand member of longitudinally running horizon bar, and when described horizontal protuberance stops horizon bar right-hand member, horizon bar begins around vertical bar and rotates, when horizon bar begins around the rotation of vertical bar, described wheel and rack starts engagement.
In above-mentioned belt type conveying mechanism 20, described driver plate 22 is provided with dish type mounting seat 221, and described rotating seat 31 is articulated in dish type mounting seat;Described dish type mounting seat is provided with pivot joint block 222, and the bottom of described vertical bar 41 is articulated on pivot joint block, and the bottom of described torsion spring is fixed on pivot joint block.
In above-mentioned belt type conveying mechanism 20, the left end of described horizon bar 42 is provided with downward projection of first roller 421, and the right-hand member of described horizon bar is provided with downward projection of second roller 422;Under the torsion of torsion spring, the left end of described horizon bar is against on gear 32 by the first roller;When described horizontal protuberance 520 barrier level bar right-hand member, horizontal protuberance and the second roller contact.
In above-mentioned belt type conveying mechanism 20, described tooth bar 51 includes that the small column 510 of multiple longitudinal arrangement, the spacing of adjacent two small columns can accommodate a tooth of gear 32, and described tooth bar is arranged on tooth bar seat 53, and tooth bar seat is fixing with block piece 52 to be connected.
As Fig. 5, described material tool a60 include location division a61, be positioned on the left of location division and fix with location division be connected the first filter cartridge a62, be positioned on the right side of location division and fix with location division be connected the second filter cartridge a63, be positioned at transit bridge a64 above location division;Described transit bridge is domed, and the left end of transit bridge and the first filter cartridge connect, and the right-hand member of transit bridge and the second filter cartridge connect, and the hole, location coordinated with workpiece location bar is offered in described location division.
As Fig. 1, described material-falling hopper a10 are positioned at the top of material tool, along with the transmission of conveyer belt, first the material persistently fallen from material-falling hopper falls in the first filter cartridge, eventually falls in the second filter cartridge.
As Fig. 1, described dry materials mechanism a70 include being arranged on the first seal base a71 other on the left of conveyer belt, be arranged on the second seal base a72, the first disposable box a73 being arranged on the first seal base, the second disposable box a74 being arranged on the second seal base other on the right side of conveyer belt, be positioned at the seal closure a75 above the first seal base and the second seal base, cylinder body is fixedly installed on the first cylinder a76 that piston rod above seal closure is connected with seal closure;Described first seal base and the second seal base are symmetrical set, described rotating driving device is between the first seal base and the second seal base, the height of the first seal base and the second seal base is less than the first filter cartridge and the height of the second filter cartridge, the height of described seal closure is higher than the first filter cartridge and the height of the second filter cartridge, described first air cylinder driven seal closure lifting;Air inlet a750 offered by described seal closure, and air inlet is connected with fan heater, and fan heater provides steam by air inlet in seal closure.
In above-mentioned dry materials mechanism a70, such as Fig. 1, the lower section of described first seal base a71 is provided with the first vibration substrate, is provided with the first vibrating motor 771 at the left end of the first vibration substrate, being provided with the second cylinder 781 on first vibrating motor, the piston rod of the second cylinder is provided with the first Magnet 791;The lower section of described second seal base is provided with the second vibration substrate, is provided with the second vibrating motor, the second vibrating motor is provided with the 3rd cylinder at the right-hand member of the second vibration substrate, and the piston rod of the 3rd cylinder is provided with the second Magnet;The left side of described first filter cartridge 62 is fixed with can be with the 3rd Magnet 621 of the first magnet attraction, and the right side of described second filter cartridge 63 is fixed with can be with the 4th Magnet 631 of the second magnet attraction.
Such as Fig. 6, described longitudinal translating device associated 70 is between the conveyer belt being laterally set up in parallel for a pair and is positioned at the lower section of driver plate;Longitudinal translating device associated includes the Rodless cylinder 71 being arranged on mainframe and level is longitudinally disposed, be arranged on Rodless cylinder piston the first lift cylinder 72, the jaw cylinder 73 being arranged on the first lift cylinder piston rod.
Such as Figure 10, described spacing lifting mechanism 80 is between the conveyer belt being laterally set up in parallel for a pair and is positioned at the lower section of driver plate, and spacing lifting mechanism is positioned at the front of longitudinal translating device associated;Described spacing lifting mechanism includes the spacing lifting base plate 81 being arranged on mainframe, be arranged on spacing lifting base plate the second lift cylinder 82 and the 3rd lift cylinder 83, the limited block 84 being arranged on the second lift cylinder piston rod, the lifting block 85 that is arranged on the 3rd lift cylinder piston rod;Described lifting block is provided with vertical alignment pin 850, and driver plate offers the hole, location with detent fit.
In conjunction with Figure 11 to Figure 13, described accommodating mechanism 90 is positioned at the top of spacing lifting mechanism;Accommodating mechanism includes the portal frame 91 being arranged on mainframe, the 4th lift cylinder 92 being suspended on portal frame crossbeam, it is arranged on the storage framework 93 on the 4th lift cylinder piston rod, it is arranged on storage frame left and the first screw rod 941 and the first polished rod 951 being vertically arranged, it is arranged on storage frame right and the second screw rod 942 and the second polished rod 952 being vertically arranged, the the first lifting plate 961 being spirally connected with the first screw rod and be slidably matched with the first polished rod, the the second lifting plate 962 being spirally connected with the second screw rod and be slidably matched with the second polished rod;Before and after described storage framework, vertical material tool gathering sill is offered in both sides;Described first lifting plate include the first base portion 963, be arranged on the first coil tension spring 964 of the first base portion front end, the first lifting portion 965 of cavity is offered in rear end, the rear end in described first lifting portion is set in front end and compression first coil tension spring of the first base portion, the front end of described first base portion is provided with and the first lifting portion carries out spacing defining flange 966, and the front end face in described first lifting portion is inclined plane 967;Described second lifting plate include the second base portion, be arranged on the second coil tension spring of the second base portion front end, the second lifting portion of cavity is offered in rear end, the rear end in described second lifting portion is set in front end and compression second coil tension spring of the second base portion, the front end of described second base portion is provided with and the second lifting portion carries out spacing defining flange, and the front end face in described second lifting portion is inclined plane.
In conjunction with Fig. 1 to Fig. 4, Figure 14, described return mechanism 900 include the first lowering or hoisting gear 910 at belt type conveying mechanism front end, belt type conveying mechanism rear end the second lowering or hoisting gear 920, lie across between the first lowering or hoisting gear and the second lowering or hoisting gear and be positioned at the delivery track 930 below belt type conveying mechanism;Described first lowering or hoisting gear include offering vertically to the first support 911 of chute 916, be articulated in the first bracket chute in and the 3rd servomotor that couples with the 3rd screw rod of the 3rd screw rod 912 that is vertically arranged, leading section be slidably fitted in the first bracket chute in and the first crane 913 of being spirally connected with the 3rd screw rod, described first crane is horizontally disposed with, and the first crane includes the first side rod 914 be arrangeding in parallel for about a pair, multiple first conveying rollers 915 of being articulated between a pair first side rods, the first servomotor of driving multiple first conveying roller to rotate;Described second lowering or hoisting gear include offering vertically to the second support of chute, be articulated in the second bracket chute in and the 4th servomotor that couples of the 4th screw rod that is vertically arranged and the 4th screw rod, rearward end be slidably fitted in the second bracket chute in and the second crane of being spirally connected with the 4th screw rod, described second crane is horizontally disposed with, the second crane include the second side rod be arrangeding in parallel for about a pair, multiple second conveying rollers being articulated between a pair second side rods, drive multiple second conveying roller rotate the second servomotor;Described delivery track include the 3rd side rod 931 be arrangeding in parallel for about a pair, multiple 3rd conveying rollers 932 being articulated between a pair the 3rd side rods, drive multiple 3rd conveying roller rotate the 5th servomotor.
In return mechanism 900, vertical gathering sill 917 offered by described first support 911, the first guide post 918 vertically it is provided with in the gathering sill of the first support, the leading section of the first crane 913 is provided with and is slidably matched the first sliding part with the first support gathering sill, and the first sliding part offers the first pilot hole coordinated with the first guide post;Vertical gathering sill offered by described second support, the second guide post vertically it is provided with in the gathering sill of the second support, the rearward end of the second crane is provided with and is slidably matched the second sliding part with the second support gathering sill, and the second sliding part offers the second pilot hole coordinated with the second guide post.
In conjunction with Fig. 5, Fig. 7, the installation relation of belt type conveying mechanism 20 and material tool a60 is as follows: the top of described workpiece location bar 33 is provided with the first shaft part 331, and the lower section of the first shaft part is provided with the second shaft part 332, and the external diameter of the second shaft part is more than the external diameter of the first shaft part;Location hole number on described location division a61 is two, and hole, two location coordinates with the first shaft part of pair of workpieces location bar, and hole, location is matched in clearance with coordinating of the first shaft part.Wherein, described second shaft part 332 is arranged with spring, and the top of spring is against the bottom of location division a61.
In practical operation, the workflow of a kind of chemical material drying equipment being provided with device for vibration screening and return mechanism described in the utility model is as follows:
First, material tool a60 position coordinating of bar 33 by hole, a pair location with pair of workpieces and are positioned on rotating seat 31.
Second, conveyer belt 21 makees the enclosed annular motion circulated, and conveyer belt drives the material tool a60 on driver plate 22 thereon and driver plate to vertically move, and vertically moving of driver plate 22 is guided by a pair guide plate 23.The material tool being made up of the first filter cartridge a62, the second filter cartridge a63, transit bridge a64 is strip, and the length direction of the material tool of this strip is identical with the transmission direction of conveyer belt 21;Material moist in material-falling hopper a10 falls into and is driven in the material tool moved ahead by conveyer belt, owing to transit bridge is domed, therefore, falls into the material in material tool and is distributed in the first filter cartridge a62 and the second filter cartridge a63.
3rd, when driver plate 22 runs to longitudinal translating device associated 70, the first lift cylinder 72 drives jaw cylinder 73 to rise, the cylinder body lifting driver plate 22 of jaw cylinder so that it is depart from conveyer belt 21;Afterwards, jaw cylinder 73 grips driver plate 22;Afterwards, under the driving of Rodless cylinder 71, driver plate longitudinally moves ahead.
4th, driver plate 22 is transported to be positioned at the first rotating driving device 50, when the right-hand member of the horizon bar 42 being arranged on driver plate 22 touches the horizontal protuberance 520 of block piece 52, laterally protuberance 520 forces horizon bar 42 and vertical bar 41 rotated ninety degrees, the left end disengaging of the horizon bar 42 of rotated ninety degrees and contacting of gear 32, i.e. gear 32 departs from the constraint of horizon bar 42, now, gear 32 starts to engage with tooth bar 51.Longitudinally disposed tooth bar 51 orders about gear 32 rotated ninety degrees vertically moved, and gear 32 drives pair of workpieces thereon to position bar 33 rotated ninety degrees, and then drives the material jig rotation 90 degree on the bar 33 of pair of workpieces location;During gear 32 rotated ninety degrees, the right-hand member of horizon bar 42 is against on the horizontal protuberance 520 of block piece 52 and vertically moves, after gear 32 rotated ninety degrees, the right-hand member disengaging of horizon bar 42 and contacting of horizontal protuberance 520, under the torsion of torsion spring, horizon bar 42 resets, and horizon bar 42 left end after reset is against on gear 32, rotates with limiting gear 32.
5th, longitudinal translating device associated 70 suspends action, and the first cylinder a76 drives seal closure a75 descending, and the bottom of seal closure is in close contact with the first seal base a71 and the second seal base a72, and the first filter cartridge a62 and the second filter cartridge a63 is positioned in seal closure;Afterwards, fan heater provides steam to dry the moist material in the first filter cartridge and the second filter cartridge by air inlet a750 in seal closure;Afterwards, the second cylinder a781 drives the first Magnet a791 to rise, the first Magnet and the 3rd Magnet a621 adhesive, and meanwhile, the 3rd air cylinder driven the second Magnet rises, the second Magnet and the 4th Magnet a631 adhesive;Afterwards, first vibrating motor a771 and the second vibrating motor action, whole material tool a60 vibrates therewith, while hot air seasoning moist material, small particles material in first filter cartridge and the second filter cartridge correspondingly falls in the first disposable box a73 and the second disposable box a74, and the large granular materials in material after drying is trapped in the first filter cartridge and the second filter cartridge.
6th, longitudinal translating device associated 70 carries at material tool a60 to second rotating driving device 500, second rotating driving device makes workpiece location bar 33 rotated ninety degrees again in rotary apparatus 30, and the second rotating driving device 500 makes the operation principle of workpiece location bar rotated ninety degrees be same as the first rotating driving device and makes the operation principle of workpiece location bar rotated ninety degrees.
7th, the jaw cylinder 73 in longitudinal translating device associated 70 unclamps driver plate, and the first lift cylinder 72 resets, and driver plate 22 comes back on conveyer belt 21, conveyer belt drive it to move ahead.
8th, when driver plate 22 is transported at spacing lifting mechanism 80, the second lift cylinder 82 drives limited block 84 to rise, and limited block stops that driver plate 22 moves ahead;Afterwards, the 3rd lift cylinder 83 drives lifting block 85 to rise, and the alignment pin 850 on lifting block coordinates with the hole, location on driver plate, and driver plate is lifted by lifting block, with positioning transmission plate.
9th, the 4th lift cylinder 92 in accommodating mechanism 90 drives storage framework 93 to decline;Afterwards, first driven by servomotor the first screw rod 941 rotates, first lifting plate 961 declines under the guiding of the first polished rod 951, the inclined plane 967 in the first lifting portion 965 contacts the incline of the material tool a60 on the bar 33 of workpiece location, decline along with the first lifting portion 965, first lifting portion compression first stretches bullet 964 spring and relative first base portion 963 transverse shifting, when the front end in the first lifting portion 965 drops to the lower section of material tool, under the elastic force of the first coil tension spring 964, the first lifting portion 965 resets and is positioned at the bottom part down of material tool a60;Afterwards, first driven by servomotor the first screw rod 941 rotates, and material tool is lifted under the guiding of the first polished rod 951 by the first lifting plate 961, and material tool departs from workpiece location bar 33 and rises;Afterwards, second driven by servomotor the second screw rod 942 rotates, and the second lifting plate 962 comes the bottom part down of material tool with the principle identical with the first lifting plate;Second lifting plate continues to lift material tool a60 to precalculated position under the guiding of the second polished rod 952;Afterwards, first driven by servomotor the first screw rod reversely rotates, and the first lifting plate drops in situ, in case lifting next one material tool;So, the material tool through drying materials mechanism is contained mechanism 90 one by one and receives.
Tenth, driver plate 22 and rotary apparatus thereon 30 and locker 40 run to return mechanism 900 on first crane 913 of the first lowering or hoisting gear 910 (now through the conveying of belt type conveying mechanism 20, first crane 913 flushes with conveyer belt about 21), under the conveying of the first conveying roller 915, driver plate 22 departs from conveyer belt 21 and is fully located on the first crane 913;Afterwards, under the driving of the 3rd screw rod 912, the first crane 913 declines, until its rear end flushes up and down with the front end of delivery track 930;Afterwards, driver plate 22 is delivered on delivery track 930 by the first conveying roller 915 of rotation, and driver plate 22 is carried by delivery track 930 to the rear end of belt type conveying mechanism 20;Under the auxiliary of the second conveying roller, driver plate 22 on delivery track 930 and rotary apparatus thereon 30 and locker 40 are fully located at and depart from delivery track 930 (now, the second crane flushes with delivery track about 930) on the second crane;Afterwards, under the driving of the 4th screw rod, the second crane rises, until its front end flushes up and down with conveyer belt 21 rear end of belt type conveying mechanism 20;Afterwards, driver plate 22 thereon can be delivered on conveyer belt 21 by the second conveying roller on the second crane.
11st, material tool a60 can be placed on the driver plate 22 having been located in conveyer belt 21 rear end by staff, and specifically, material tool is positioned on the workpiece location bar 33 of rotary apparatus 30.
Above content is only better embodiment of the present utility model, for those of ordinary skill in the art, according to thought of the present utility model, the most all will change, this specification content should not be construed as restriction of the present utility model.
Claims (7)
1. it is provided with a chemical material drying equipment for device for vibration screening and return mechanism, including mainframe (60), the belt type conveying mechanism (20) of longitudinally fed material tool, material-falling hopper (a10), material tool (a60), dry materials mechanism (a70), the longitudinal translating device associated (70) of longitudinally fed material tool, the material tool run on belt type conveying mechanism is carried out the spacing lifting mechanism (80) of spacing lifting, the accommodating mechanism (90) for receiving material tool, the return mechanism (900) that is arranged on mainframe;It is characterized in that:
Described belt type conveying mechanism is arranged on mainframe, belt type conveying mechanism include a pair the conveyer belt (21) being laterally set up in parallel, place driver plate (22) on the conveyor belt, be positioned at a pair guide plate (23) above a pair conveyer belt, the rotary apparatus (30) that is arranged on driver plate and locker (40), the first rotating driving device (50) being arranged on guide plate and the second rotating driving device (500);
Described rotary apparatus (30) includes that the rotating seat (31) being articulated on driver plate, fixed cover are located at the peripheral gear (32) of rotating seat, are arranged on rotating seat top pair of workpieces location bar (33) for positioning materials tool, and described workpiece location bar is vertically arranged;
Described locker (40) includes the vertical bar (41) being articulated on driver plate, the torsion spring being set on vertical bar, is fixed on the horizon bar (42) in vertical masthead portion;The top of described torsion spring is fixed on vertical bar, and the bottom of torsion spring is fixed on driver plate, and under the torsion of torsion spring, the left end of described horizon bar is against on gear;
Described first rotating driving device (50) and the second rotating driving device (500) are respectively positioned on the side of rotary apparatus, and the first rotating driving device and the second rotating driving device all include the tooth bar (51) that can engage, the block piece (52) being positioned at tooth bar side with gear;Described block piece is provided with a horizontal protuberance (520), described horizontal protuberance can stop the right-hand member of longitudinally running horizon bar, when described horizontal protuberance stops horizon bar right-hand member, horizon bar begins around vertical bar and rotates, when horizon bar begins around the rotation of vertical bar, described wheel and rack starts engagement;
Described material tool includes location division (a61), be positioned on the left of location division and fix with location division be connected the first filter cartridge (a62), be positioned on the right side of location division and fix with location division be connected the second filter cartridge (a63), be positioned at the transit bridge (a64) above location division;Described transit bridge is domed, and the left end of transit bridge and the first filter cartridge connect, and the right-hand member of transit bridge and the second filter cartridge connect, and the hole, location coordinated with workpiece location bar is offered in described location division;
Described material-falling hopper is positioned at the top of material tool, and along with the transmission of conveyer belt, first the material persistently fallen from material-falling hopper falls in the first filter cartridge, eventually falls in the second filter cartridge;
Described dry materials mechanism includes being arranged on the first seal base (a71) other on the left of conveyer belt, it is arranged on the second seal base (a72) other on the right side of conveyer belt, the first disposable box (a73) being arranged on the first seal base, the second disposable box (a74) being arranged on the second seal base, it is positioned at the seal closure (a75) above the first seal base and the second seal base, cylinder body is fixedly installed on the first cylinder (a76) that piston rod above seal closure is connected with seal closure;Described first seal base and the second seal base are symmetrical set, described rotating driving device is between the first seal base and the second seal base, the height of the first seal base and the second seal base is less than the first filter cartridge and the height of the second filter cartridge, the height of described seal closure is higher than the first filter cartridge and the height of the second filter cartridge, described first air cylinder driven seal closure lifting;Air inlet (a750) offered by described seal closure, and air inlet is connected with fan heater, and fan heater provides steam by air inlet in seal closure;
In above-mentioned dry materials mechanism, the lower section of described first seal base (a71) is provided with the first vibration substrate, it is provided with the first vibrating motor (771) at the left end of the first vibration substrate, being provided with the second cylinder (781) on first vibrating motor, the piston rod of the second cylinder is provided with the first Magnet (791);The lower section of described second seal base is provided with the second vibration substrate, is provided with the second vibrating motor, the second vibrating motor is provided with the 3rd cylinder at the right-hand member of the second vibration substrate, and the piston rod of the 3rd cylinder is provided with the second Magnet;The left side of described first filter cartridge (62) is fixed with can be with the 3rd Magnet (621) of the first magnet attraction, and the right side of described second filter cartridge (63) is fixed with can be with the 4th Magnet (631) of the second magnet attraction;
Described longitudinal translating device associated (70) is between the conveyer belt being laterally set up in parallel for a pair and is positioned at the lower section of driver plate;Longitudinal translating device associated includes the Rodless cylinder (71) being arranged on mainframe and level is longitudinally disposed, be arranged on Rodless cylinder piston the first lift cylinder (72), the jaw cylinder (73) being arranged on the first lift cylinder piston rod;
Described spacing lifting mechanism (80) is between the conveyer belt being laterally set up in parallel for a pair and is positioned at the lower section of driver plate, and spacing lifting mechanism is positioned at the front of longitudinal translating device associated;Described spacing lifting mechanism includes the spacing lifting base plate (81) being arranged on mainframe, the second lift cylinder (82) being arranged on spacing lifting base plate and the 3rd lift cylinder (83), the limited block (84) being arranged on the second lift cylinder piston rod, the lifting block (85) that is arranged on the 3rd lift cylinder piston rod;Described lifting block is provided with vertical alignment pin (850), and driver plate offers the hole, location with detent fit;
Described accommodating mechanism (90) is positioned at the top of spacing lifting mechanism;Accommodating mechanism includes the portal frame (91) being arranged on mainframe, the 4th lift cylinder (92) being suspended on portal frame crossbeam, the storage framework (93) being arranged on the 4th lift cylinder piston rod, it is arranged on storage frame left and the first screw rod (941) being vertically arranged and the first polished rod (951), it is arranged on storage frame right and the second screw rod (942) being vertically arranged and the second polished rod (952), the the first lifting plate (961) being spirally connected with the first screw rod and be slidably matched with the first polished rod, the the second lifting plate (962) being spirally connected with the second screw rod and be slidably matched with the second polished rod;Before and after described storage framework, vertical material tool gathering sill is offered in both sides;Described first lifting plate include the first base portion (963), be arranged on first coil tension spring (964) of the first base portion front end, the first lifting portion (965) of cavity is offered in rear end, the rear end in described first lifting portion is set in front end and compression first coil tension spring of the first base portion, the front end of described first base portion is provided with and the first lifting portion carries out spacing defining flange (966), and the front end face in described first lifting portion is inclined plane (967);Described second lifting plate include the second base portion, be arranged on the second coil tension spring of the second base portion front end, the second lifting portion of cavity is offered in rear end, the rear end in described second lifting portion is set in front end and compression second coil tension spring of the second base portion, the front end of described second base portion is provided with and the second lifting portion carries out spacing defining flange, and the front end face in described second lifting portion is inclined plane;
Described return mechanism (900) includes being positioned at the first lowering or hoisting gear (910) at belt type conveying mechanism front end, is positioned at second lowering or hoisting gear (920) of belt type conveying mechanism rear end, lies across between the first lowering or hoisting gear and the second lowering or hoisting gear and be positioned at the delivery track (930) below belt type conveying mechanism;Described first lowering or hoisting gear includes offering vertically to first support (911) of chute (916), it is articulated in the 3rd screw rod (912) that the first bracket chute is interior and is vertically arranged, the 3rd servomotor coupled with the 3rd screw rod, the first crane (913) in leading section is slidably fitted in the first bracket chute and being spirally connected with the 3rd screw rod, described first crane is horizontally disposed with, first crane includes the first side rod (914) be arrangeding in parallel for about a pair, multiple first conveying rollers (915) being articulated between a pair first side rods, drive the first servomotor that multiple first conveying roller rotates;Described second lowering or hoisting gear include offering vertically to the second support of chute, be articulated in the second bracket chute in and the 4th servomotor that couples of the 4th screw rod that is vertically arranged and the 4th screw rod, rearward end be slidably fitted in the second bracket chute in and the second crane of being spirally connected with the 4th screw rod, described second crane is horizontally disposed with, the second crane include the second side rod be arrangeding in parallel for about a pair, multiple second conveying rollers being articulated between a pair second side rods, drive multiple second conveying roller rotate the second servomotor;Described delivery track include the 3rd side rod (931) be arrangeding in parallel for about a pair, multiple 3rd conveying rollers (932) being articulated between a pair the 3rd side rods, drive multiple 3rd conveying roller rotate the 5th servomotor.
A kind of chemical material drying equipment being provided with device for vibration screening and return mechanism, it is characterized in that: described driver plate (22) is provided with dish type mounting seat (221), described rotating seat (31) is articulated in dish type mounting seat;Described dish type mounting seat is provided with pivot joint block (222), and the bottom of described vertical bar (41) is articulated on pivot joint block, and the bottom of described torsion spring is fixed on pivot joint block.
A kind of chemical material drying equipment being provided with device for vibration screening and return mechanism, it is characterized in that: the left end of described horizon bar (42) is provided with downward projection of first roller (421), the right-hand member of described horizon bar is provided with downward projection of second roller (422);Under the torsion of torsion spring, the left end of described horizon bar is against on gear (32) by the first roller;When described horizontal protuberance (520) barrier level bar right-hand member, horizontal protuberance and the second roller contact.
A kind of chemical material drying equipment being provided with device for vibration screening and return mechanism, it is characterized in that: described tooth bar (51) includes the small column (510) of multiple longitudinal arrangement, the spacing of adjacent two small columns can accommodate a tooth of gear (32), described tooth bar is arranged on tooth bar seat (53), and tooth bar seat is fixing with block piece (52) to be connected.
A kind of chemical material drying equipment being provided with device for vibration screening and return mechanism, it is characterized in that: the top of described workpiece location bar (33) is provided with the first shaft part (331), the lower section of the first shaft part is provided with the second shaft part (332), and the external diameter of the second shaft part is more than the external diameter of the first shaft part;Location hole number on described location division (a61) is two, and hole, two location coordinates with the first shaft part of pair of workpieces location bar, and hole, location is matched in clearance with coordinating of the first shaft part.
A kind of chemical material drying equipment being provided with device for vibration screening and return mechanism, it is characterised in that: described second shaft part (332) is arranged with spring, and the top of spring is against the bottom of location division (a61).
A kind of chemical material drying equipment being provided with device for vibration screening and return mechanism, it is characterized in that: in return mechanism (900), described first support (911) offers vertical gathering sill (917), the first guide post (918) vertically it is provided with in the gathering sill of the first support, the leading section of the first crane (913) is provided with and is slidably matched the first sliding part with the first support gathering sill, and the first sliding part offers the first pilot hole coordinated with the first guide post;Vertical gathering sill offered by described second support, the second guide post vertically it is provided with in the gathering sill of the second support, the rearward end of the second crane is provided with and is slidably matched the second sliding part with the second support gathering sill, and the second sliding part offers the second pilot hole coordinated with the second guide post.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620216929.2U CN205619692U (en) | 2016-03-21 | 2016-03-21 | Chemical material drying equipment with vibration screening device and return stroke mechanism |
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Application Number | Priority Date | Filing Date | Title |
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CN201620216929.2U CN205619692U (en) | 2016-03-21 | 2016-03-21 | Chemical material drying equipment with vibration screening device and return stroke mechanism |
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CN201620216929.2U Expired - Fee Related CN205619692U (en) | 2016-03-21 | 2016-03-21 | Chemical material drying equipment with vibration screening device and return stroke mechanism |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105716378A (en) * | 2016-03-21 | 2016-06-29 | 苏州珍展科技材料有限公司 | Chemical material drying device equipped with vibration screening device and returning mechanism |
CN117029393A (en) * | 2023-09-27 | 2023-11-10 | 哈尔滨岛田大鹏工业股份有限公司 | Energy-saving drying mechanism for power assembly parts |
-
2016
- 2016-03-21 CN CN201620216929.2U patent/CN205619692U/en not_active Expired - Fee Related
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105716378A (en) * | 2016-03-21 | 2016-06-29 | 苏州珍展科技材料有限公司 | Chemical material drying device equipped with vibration screening device and returning mechanism |
CN105716378B (en) * | 2016-03-21 | 2018-08-03 | 许恩明 | A kind of chemical material drying equipment equipped with device for vibration screening and return mechanism |
CN117029393A (en) * | 2023-09-27 | 2023-11-10 | 哈尔滨岛田大鹏工业股份有限公司 | Energy-saving drying mechanism for power assembly parts |
CN117029393B (en) * | 2023-09-27 | 2023-12-19 | 哈尔滨岛田大鹏工业股份有限公司 | Energy-saving drying mechanism for power assembly parts |
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Granted publication date: 20161005 Termination date: 20170321 |
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