CN204165987U - Auto moisture proving installation and auto moisture tester - Google Patents

Abstract

The utility model discloses a kind of auto moisture proving installation and auto moisture tester, comprise back up pad and shell and get the dish structure of falling model machine back up pad all relative to sample dish conveyer and movably arrange.Get the dish structure of falling model machine in order to pick up sample dish and to be transported to sample dish conveyer, and pick up sample spoon and after sample spoon application of sample, sample in sample spoon is added after in the sample dish being transported to sample dish conveyer and be separated with sample spoon; Sample dish conveyer is in order to transport the sample dish after application of sample and to depart from meausring apparatus and drying unit.In auto moisture proving installation, get the dish structure of falling model machine and sample dish is transported to sample dish conveyer, and add sample in sample dish, sample dish transports and departs from meausring apparatus and drying unit by sample dish conveyer, completes the operation of drying and weighing.The operations such as the picking and placeing of the sample dish of auto moisture proving installation, sample interpolation, sample presentation weighing, sample presentation oven dry all complete by machine, and without the need to manual operation, automaticity is high, saves manpower, improves detection efficiency.

Description

Auto moisture proving installation and auto moisture tester

Technical field

The utility model relates to field of analytic instrument, especially, relates to a kind of auto moisture proving installation.In addition, the utility model also relates to a kind of auto moisture tester comprising above-mentioned auto moisture proving installation.

Background technology

In a lot of analytical instrument, automaticity is not high, and a lot of process all wants manual operation, as the moisture tester for testing fixed substance moisture.The various moisture measurement instruments of current use, although major part is all called full-automatic moisture tester, does not realize full process automatization during its test, wherein have a lot of place all to need manually to participate in.As the picking and placeing of empty sample dish, sample add, sample presentation weighs and sample presentation is dried and needed manual operation, complex operation, needs a large amount of human resources.

Utility model content

The auto moisture proving installation that the utility model object is to provide a kind of automaticity high and auto moisture tester, to solve, traditional moisture content tester automaticity is low, the technical matters of complex operation.

A kind of auto moisture proving installation, comprises back up pad and shell, it is characterized in that, back up pad is provided with gets the dish structure of falling model machine and sample dish conveyer; Get the dish structure of falling model machine back up pad all relative to sample dish conveyer movably to arrange;

Get the dish structure of falling model machine in order to pick up sample dish and to be transported to sample dish conveyer, and pick up sample spoon and after sample spoon application of sample, sample in sample spoon is added after in the sample dish being transported to sample dish conveyer and be separated with sample spoon;

Sample dish conveyer is in order to transport the sample dish after application of sample and to depart from meausring apparatus and drying unit.

Further, get the dish structure of falling model machine to comprise bracing frame and be arranged at the swingle on bracing frame;

Swingle is horizontally rotated on bracing frame by the driving of horizontal driver, to arrive pickup sample dish position, to pick up sample spoon position and sample dish conveyer position;

Swingle one end is provided with the sampler for picking and placeing sample dish and sample spoon, and the other end is provided with the rotating driver for driving swingle to rotate.

Further, swingle is arranged on mount pad, and swingle one end connects rotating driver through mount pad, and mount pad connects horizontal driver by rotating shaft, and horizontally rotates under the driving of horizontal driver;

Bracing frame is provided with multiple the first location optocoupler stopping position in order to control mount pad; Mount pad is provided with control the second location optocoupler that swingle stops position;

Swingle carries out 180 ° of rotations under the control of the second location optocoupler; Sampler is electromagnet.

Further, sample dish conveyer comprises tangential movement group, lengthwise movement group and the adjustable cramp in order to clamp and to unclamp sample dish;

Tangential movement group and lengthwise movement assembly are closed and adjustable cramp are delivered to meausring apparatus or drying unit, and the sample dish clamped to make adjustable cramp is placed and departed from corresponding operating device.

Further, lengthwise movement group comprises longitudinal gear frame, longitudinal rail and longitudinal driving motor, and longitudinal rail and longitudinal driving motor are arranged on longitudinal gear frame;

Adjustable cramp one end and longitudinal rail are slidably connected, and under the driving of longitudinal driving motor longitudinally guide rail movement;

Tangential movement group comprises horizontal guide rail and tangential movement motor, and one end of longitudinal gear frame is flexibly connected with horizontal guide rail, and moves along horizontal guide rail under the driving of tangential movement motor.

Further, adjustable cramp comprises base, the first jig arm and the second jig arm; Adjustable cramp is slidably connected by base and longitudinal rail;

First jig arm and the second jig arm are oppositely arranged, and the first jig arm and the second jig arm are all movably set in base;

At least one driving group is provided with between first jig arm and the second jig arm, and by the distance between driving group control first jig arm and the second jig arm.

Further, base is provided with guide rail, the end of the first jig arm and the end of the second jig arm are provided with the slide block coordinated with guide rail;

First jig arm and the second jig arm control at slide on rails by same driving group;

Driving group comprises: clamp motor, drive screw, movable block and two transmission arms;

Two transmission arm one end are connected to the end of the first jig arm and the end of the second jig arm respectively rotationally, and the other end is connected to the two ends of movable block respectively rotationally;

Movable block is connected with clamp motor by drive screw.

Further, auto moisture proving installation also comprises feed mechanism;

Feed mechanism comprises supporting seat, lifting motor and the lifting table in order to hold up sample dish or sample spoon;

Lifting table and lifting motor are all arranged on supporting seat, and lifting table relative to supporting seat elevating movement, and is carried sample supplying disk or sample spoon and got coil position to getting the dish structure of falling model machine under the driving of lifting motor.

Further, feed mechanism also comprises the 3rd location optocoupler and microswitch;

3rd location optocoupler is arranged at the below of supporting seat to determine lifting of lifting table lower position; Microswitch is arranged to be got on the dish structure of falling model machine to determine lifting of lifting table upper limit position.

Further, auto moisture proving installation also comprises spreading out device, and spreading out device is arranged at above sample dish conveyer, and spreading out device comprises and shakeouts blade and rotary electric machine, shakeouts blade and rotates under rotary electric machine drives, shakeout by the sample in sample dish.

Further, auto moisture proving installation also comprises proportioning device, and proportioning device comprises scraper plate, is getting above the track moved under the dish structure of falling model machine drives after scraper plate is arranged at sample spoon application of sample, and tangent with the edge of sample spoon opening after application of sample.

Further, auto moisture proving installation also comprises abandons sample platform, abandons sample platform and comprises slope and platform;

Be connected to back up pad bottom slope, and top is connected to platform, the below of adjustable cramp is provided with the sample dish of propelling loading waste sample from platform along the push rod of slope landing.

According to another aspect of the present utility model, additionally provide a kind of auto moisture tester, comprise meausring apparatus, drying unit and above-mentioned auto moisture proving installation.

Meausring apparatus is arranged in auto moisture proving installation, and drying unit is arranged at outside auto moisture proving installation.

Drying unit comprises housing and at least one deck rotating disk, any layer rotating disk is provided with multiple sample dish putting hole coordinated with sample dish; Housing is provided with opening, and opening is with thinking that the sample dish after application of sample to transport and to depart from and provide passage in rotating disk by sample dish conveyer.

The utility model has following beneficial effect: in auto moisture proving installation, get the dish structure of falling model machine and sample dish is transported to sample dish conveyer, and sample is added in sample dish, sample dish transports and departs from meausring apparatus and drying unit by sample dish conveyer, completes the operation of drying and weighing.The operations such as the picking and placeing of the sample dish of auto moisture proving installation, sample interpolation, sample presentation weighing, sample presentation oven dry all complete by machine, and without the need to manual operation, automaticity is high, saves manpower, improves detection efficiency.

Except object described above, feature and advantage, the utility model also has other object, feature and advantage.Below with reference to figure, the utility model is described in further detail.

Accompanying drawing explanation

The accompanying drawing forming a application's part is used to provide further understanding of the present utility model, and schematic description and description of the present utility model, for explaining the utility model, is not formed improper restriction of the present utility model.In the accompanying drawings:

Fig. 1 is the structural representation of the auto moisture proving installation of the utility model preferred embodiment;

Fig. 2 is another viewing angle constructions schematic diagram of the auto moisture proving installation of the utility model preferred embodiment;

Fig. 3 is the structural representation getting the dish structure of falling model machine of the utility model preferred embodiment;

Fig. 4 is another viewing angle constructions schematic diagram getting the dish structure of falling model machine of the utility model preferred embodiment;

Fig. 5 is the structural representation of the sample dish conveyer of the utility model preferred embodiment;

Fig. 6 is another viewing angle constructions schematic diagram of the sample dish conveyer of the utility model preferred embodiment;

Fig. 7 is the structural representation of the feed mechanism of the utility model preferred embodiment;

Fig. 8 is another viewing angle constructions schematic diagram of the feed mechanism of the utility model preferred embodiment;

Fig. 9 is the structural representation of the drying unit of the utility model preferred embodiment.

Description of reference numerals: 100, back up pad; 200, the dish structure of falling model machine is got; 300, sample dish conveyer; 210, bracing frame; 221, swingle; 222, sampler; 231, horizontal driver; 232, rotating driver; 240, mount pad; 251, the first location optocoupler; 252, the second location optocoupler; 310, tangential movement group; 320, lengthwise movement group; 330, adjustable cramp; 331, base; 332, the first jig arm; 333, the second jig arm; 336, slide location optocoupler; 337, control strip; 340, driving group; 334, guide rail; 335, slide block; 341, clamp motor; 342, drive screw; 343, movable block; 344, transmission arm; 321, longitudinal gear frame; 322, longitudinal rail; 323, longitudinal driving motor; 324, horizontal location optocoupler; 311, horizontal guide rail; 312, tangential movement motor; 313, perpendicular positioning optocoupler; 400, feed mechanism; 410, supporting seat; 420, lifting motor; 430, lifting table; 440, the 3rd location optocoupler; 450, microswitch; 500, spreading out device; 510, blade is shakeout; 520, rotary electric machine; 600, proportioning device; 610, scraper plate; 700, sample platform is abandoned; 710, slope; 720, platform; 800, drying unit; 810, housing; 820, rotating disk; A, sampling dish position; B, sample spoon position; C, load position; D, weighing location.

Embodiment

Below in conjunction with accompanying drawing, embodiment of the present utility model is described in detail, but the multitude of different ways that the utility model can be defined by the claims and cover is implemented.

See figures.1.and.2, preferred embodiment of the present utility model provides a kind of auto moisture proving installation, comprise back up pad 100 and shell, it is characterized in that, back up pad 100 is provided with gets the dish structure of falling model machine 200 and sample dish conveyer 300, gets the dish structure of falling model machine 200 back up pad 100 all relative to sample dish conveyer 300 and movably arranges.Get the dish structure of falling model machine 200 in order to pick up sample dish and to be transported to sample dish conveyer 300, and pick up sample spoon and after sample spoon application of sample, sample in sample spoon is added after in the sample dish being transported to sample dish conveyer 300 and be separated with sample spoon.Sample dish conveyer 300 is in order to transport the sample dish after application of sample and to depart from meausring apparatus and drying unit 800.

Shell covers in back up pad 100 and forms cavity, get dish the structure of falling model machine 200 and sample dish conveyer 300 be arranged in cavity.Get the activity of the dish structure of falling model machine 200 relative support plate 100 to arrange, coil the structure of falling model machine 200 and sample dish be transported to sample dish conveyer 300 to make to get or sample added in the sample dish of sample dish conveyer 300.The activity of sample dish conveyer 300 relative support plate 100 is arranged, and to make the sample dish after by application of sample be transported in meausring apparatus and drying unit 800, meausring apparatus can be electronic balance, and drying unit 800 is can baking oven.Drying unit 800 offers the opening that sample dish is sent into and taken out by sample supplying disk conveyer 300.The technical matters that auto moisture proving installation of the present utility model solves is to provide the picking and placeing of a kind of empty sample dish, sample adds, sample presentation weighs and sample presentation dries the machine completed by machinery, therefore meausring apparatus and drying unit 800 are unnecessary devices to auto moisture proving installation of the present utility model, auto moisture proving installation can comprise the two, be arranged in body, meausring apparatus and drying unit 800 also can not be set, user configures outward voluntarily at auto moisture proving installation body, to reach the effect weighing and dry.

In the present embodiment, get the dish structure of falling model machine 200 by various ways pickup sample dishes such as crawl, gripping or absorptions, then sample dish is transported to sample dish conveyer 300.Sample dish conveyer 300 can be provided with sample dish fetching device, as the movable jaw, clamp and the sample dish draw frame machine that coordinate with sample dish, sample dish can be facilitated on the one hand to depart from from getting the dish structure of falling model machine 200, when being transported to working position after can facilitating sample dish application of sample on the other hand, during as arrived at meausring apparatus and drying unit 800, sample dish is separated from sample dish conveyer 300, when sample dish is after the operation of meausring apparatus and drying unit 800 completes, sample dish conveyer 300 picks up sample dish, is departed from by sample dish from corresponding device.

The whole course of work is as follows: get the dish structure of falling model machine 200 at sampling dish position a pickup sample dish after being delivered to sample dish conveyer 300, get the dish structure of falling model machine 200 to move to sample spoon position b and pick up sample spoon, after sample spoon application of sample, move to load position c, sample in sample spoon is added in the sample dish being transported to sample dish conveyer 300.The sample dish of carrying sample is transported to weighing location d by sample dish conveyer 300, and meausring apparatus is weighed, weighed rear pickup sample dish, be transported to drying unit 800, after the sample in sample dish is dried, sample dish conveyer 300 picks up sample dish again, is delivered to meausring apparatus and again weighs.The difference of weighing for twice is the moisture of sample.

In auto moisture proving installation, get the dish structure of falling model machine 200 and sample dish is transported to sample dish conveyer 300, and sample is added in sample dish, sample dish transports and departs from meausring apparatus and drying unit 800 by sample dish conveyer 300, completes the operation of drying and weighing.The operations such as the picking and placeing of the sample dish of auto moisture proving installation, sample interpolation, sample presentation weighing, sample presentation oven dry all complete by machine, and without the need to manual operation, automaticity is high, saves manpower, improves detection efficiency.

Preferably, with reference to Fig. 3 and Fig. 4, get the swingle 221 that the dish structure of falling model machine 200 comprises bracing frame 210 and is arranged on bracing frame 210; Swingle 221 is horizontally rotated on bracing frame 210 by the driving of horizontal driver 231, to arrive pickup sample dish position, to pick up sample spoon position and sample dish conveyer 300 position; Swingle 221 one end is provided with the sampler 222 for picking and placeing sample dish and sample spoon, and the other end is provided with the rotating driver 232 for driving swingle 221 to rotate.Swingle 221 is horizontally rotated on bracing frame 210 by the driving of horizontal driver 231; Swingle 221 one end is provided with the sampler 222 for picking and placeing sample dish, and the other end is provided with the rotating driver 232 for driving swingle 221 to rotate.

In the present embodiment, swingle 221 relative support frame 210 under the driving of horizontal driver 231 rotates, and drives sampler 222 to working position, as pickup sample dish position, picks up sample spoon position, and sample dish conveyer 300 position.Sampler 222 can adopt multimode to pick up sample dish or sample spoon, method of clamping can be adopted to clamp sample dish or sample spoon, as sampler 222 can arrange two relative jig arm, clamping sample dish or sample spoon, or adopt the mode of engaging to engage sample dish or sample spoon, and as sampler 222 is set to flat rod, the container cavity arranging and coordinate with flat rod of trying to get to the heart of a matter at sample dish or sample spoon, also the mode of absorption can be adopted to draw sample dish or sample spoon, as sampler 222 is set to magnet, electromagnet or sucker.Horizontal driver 231 and rotating driver 232 all can be set to motor.

In the present embodiment, sample dish is transported to sample dish conveyer 300 and can is: when sample dish turns to the target location arriving sample dish conveyer 300, sample dish is separated with sampler 222.As sampler 222 unclamps retained part, sample dish is directly to sample dish conveyer 300, or after sample dish is combined with sample dish conveyer 300, swingle 221 continues to horizontally rotate, and sampler 222 is separated with sample dish, realizes sample dish and places.

In the present embodiment, the process that sample adds can be: sampler 2,220 sample spoon, after sample spoon adds sample, turn to the sample dish position on sample dish conveyer 300, rotating driver 232 driven rotary bar 221 and sample spoon rotate, and sample spoon tilts, in sample impouring sample dish wherein.The process of throwing aside of sample spoon can arrange stop block for throwing aside position at sample spoon, and after sample spoon and stop block offset, swingle 221 continues to horizontally rotate, and sampler 222 is separated with sample spoon, and sample spoon drops, and realizes throwing aside of sample spoon.

In the present embodiment, sampler 222 picks up sample dish or sample spoon, and swingle 221 relative support frame 210 under the driving of horizontal driver 231 rotates, driven rotary bar 221 to working position, completes and puts sample-setting disk operation; Rotating driver 232 driven rotary bar 221 and sample spoon rotate, and sample spoon tilts, and complete sample and add operation; After application of sample completes, swingle 221 relative support frame 210 under the driving of horizontal driver 231 rotates, and drives used sample spoon to throwing aside position, complete throw aside used sample spoon operation.The above-mentioned dish structure of falling sampling device of getting is simple, and what can complete the picking and placeing of sample dish, sample interpolation and use sample spoon abandons multiple operation, has saved human resources, has improve work efficiency.

Preferably, with reference to Fig. 3 and Fig. 4, swingle 221 is arranged on mount pad 240, and swingle 221 one end connects rotating driver 232 through mount pad 240, mount pad 240 connects horizontal driver 231 by rotating shaft, and horizontally rotates under the driving of horizontal driver 231.Bracing frame 210 is provided with multiple the first location optocoupler 251 stopping position in order to control mount pad 240; Mount pad 240 is provided with control the second location optocoupler 252 that swingle 221 stops position; Swingle 221 carries out 180 ° of rotations under the control of the second location optocoupler 252.Sampler 222 is electromagnet.

Mount pad 240 horizontally rotates under the driving of horizontal driver 231, and driven rotary bar 221 horizontally rotates.Rotating driver 232 is fixed on mount pad 240, and driven rotary bar 221 is mounted opposite seat 240 and rotates.Mount pad 240 is set, makes to get the dish structure of falling sampling device more compact.

Arrange the first location optocoupler 251, the rotation of mount pad 240 is more accurate, and mount pad 240 can drive sample dish and sample spoon to be accurately parked in required working position.Under the effect of the second location optocoupler 252, swingle 221 can rotate accurately, realize sample and add, and secondary sampler 222 picks up sample dish or sample spoon.

When sampler 222 is electromagnet, get the dish operation of falling sampling device more convenient, example is discarded as with sample interpolation and used sample spoon, when sampler 222 goes to sky sample spoon position, start the bottom of electromagnet absorption sample spoon, under the driving of rotating driver 232, swingle 221 rotates 180 °, sample spoon level is drawn on electromagnet, and then in sample spoon, add sample, interior middle sample is not easy landing from sample spoon.When swingle 221 horizontally rotates to sample point of addition, swingle 221 rotates 180 °, and sample spoon slowly tilts in this process, and sample is from sample spoon landing application of sample, until sample spoon overturns completely, in interior, all materials add complete.Then swingle 221 horizontally rotates to throwing aside sample spoon position, and swingle 221 rotates 180 °, and sample spoon is opening down, and stop energising, electromagnet is separated with sample spoon, and sample spoon drops.The fetching process of sample dish is roughly the same, repeats no more.

Preferably, with reference to Fig. 5 and Fig. 6, sample dish conveyer 300 comprises tangential movement group 310, lengthwise movement group 320 and the adjustable cramp 330 in order to clamp and to unclamp sample dish.Tangential movement group 310 and lengthwise movement group 320 coordinate delivers to meausring apparatus or drying unit 800 by adjustable cramp 330, and the sample dish clamped to make adjustable cramp 330 is placed and departed from corresponding operating device.

Tangential movement group 310 is connected with lengthwise movement group 320, adjustable cramp 330 with the two one of be connected.Move in the horizontal direction under the control of adjustable cramp 330 tangential movement group 310, and move at longitudinal direction under the control of lengthwise movement group 320.Tangential movement group 310 and lengthwise movement group 320 coordinate for multiple, as adjustable cramp 330 is arranged at longitudinally-moving group, lengthwise movement group 320 is moved to the lengthwise position of meausring apparatus or drying unit 800 by tangential movement group 310, lengthwise movement group 320 regulates vertically moving of adjustable cramp 330, makes adjustable cramp 330 press close to corresponding device.Other fit system repeats no more.

Tangential movement group 310 and lengthwise movement group 320 coordinate can make adjustable cramp 330 comparatively press close to meausring apparatus or drying unit 800, make adjustable cramp 330 closely the sample dish of carrying sample can be placed meausring apparatus or drying unit 800, adjustable cramp 330 is separated with sample dish, after the operation of sample dish on corresponding operating means completes, related device got back to by adjustable cramp 330, clamping sample dish, makes sample dish and device depart from.Sample dish is placed and is departed from corresponding operating device easy to operate, and action is accurate.

Preferably, with reference to Fig. 5 and Fig. 6, lengthwise movement group 320 comprises longitudinal gear frame 321, longitudinal rail 322 and longitudinal driving motor 323, and longitudinal rail 322 and longitudinal driving motor 323 are all arranged on longitudinal gear frame 321.Adjustable cramp 330 one end and longitudinal rail 322 are slidably connected, and under the driving of longitudinal driving motor 323 longitudinally guide rail 322 move.Tangential movement group 310 comprises horizontal guide rail 311 and tangential movement motor 312, and one end of longitudinal gear frame 321 is flexibly connected with horizontal guide rail 311, and moves along horizontal guide rail 311 under the driving of tangential movement motor 312.

Longitudinal gear frame 321 moves along horizontal guide rail 311 under the driving of tangential movement motor 312, and the horizontal slip of longitudinal gear frame 321 followed by adjustable cramp 330, and simultaneously under the effect of longitudinal driving motor 323, adjustable cramp 330 is in longitudinally guide rail 322 longitudinal sliding motion.Longitudinal gear frame 321 and horizontal guide rail 311 is slidably matched, adjustable cramp 330 and longitudinal rail 322 are slidably matched, resistance is less, slides smooth and easy, easy to operate.

Further, with reference to Fig. 5 and Fig. 6, be provided with the horizontal location optocoupler 324 controlling longitudinal gear frame 321 and stop near horizontal guide rail 311, longitudinal gear frame 321 is provided with the horizontal location sheet coordinated with horizontal location optocoupler 324.Be provided with the perpendicular positioning optocoupler 313 controlling adjustable cramp 330 and stop near longitudinal rail 322, adjustable cramp 330 is provided with the perpendicular positioning sheet coordinated with perpendicular positioning optocoupler 313.Horizontal location optocoupler 324 and perpendicular positioning optocoupler 313 accurately can control longitudinal gear frame 321 and stop position and adjustable cramp 330 stops position.

Preferably, with reference to Fig. 5 and Fig. 6, adjustable cramp 330 comprises base 331, first jig arm 332 and the second jig arm 333; Adjustable cramp 330 is slidably connected by base 331 and longitudinal rail 322; First jig arm 332 and the second jig arm 333 are oppositely arranged, and the first jig arm 332 and the second jig arm 333 are all movably set in base 331; Be provided with at least one driving group 340 between first jig arm 332 and the second jig arm 333, and control the distance between the first jig arm 332 and the second jig arm 333 by driving group 340.Distance between first jig arm 332 and the second jig arm 333 controls by driving group 340, clamp sample dish to make adjustable cramp 330 or sample dish will be unclamped, first jig arm 332 and the second jig arm 333 drive by same driving group 340, also can drive respectively by independently driving group 340.The head end of the first jig arm 332 and the head end of the second jig arm 333 all extend out formation arc section, and two arc sections form the clamping zone of clamping sample dish.The clamping zone of two arc section formation is consistent with the gabarit of sample dish, can be comparatively firm clampingly by sample dish.

Preferably, with reference to Fig. 6, base 331 is provided with guide rail 334, the end of the first jig arm 332 and the end of the second jig arm 333 are provided with the slide block 335 coordinated with guide rail 334.First jig arm 332 and the second jig arm 333 control to slide on guide rail 334 by same driving group 340.Driving group 340 comprises: clamp motor 341, drive screw 342, movable block 343 and two transmission arms 344.Two transmission arm 344 one end are connected to the end of the first jig arm 332 and the end of the second jig arm 333 respectively rotationally, and the other end is connected to the two ends of movable block 343 respectively rotationally.Movable block 343 is connected with clamp motor 341 by drive screw 342.

Movable block 343 and drive screw 342 are by being threaded, and movable block 343 can move by drive screw 342 relatively.Clamp motor 341 drives drive screw 342 to rotate, and drive screw 342 is movable relatively to drive movable block 343, and movable block 343 makes the first jig arm 332 and the second jig arm 333 complete the action of opening or closing up by transmission arm 344.Clamp motor 341 can positive and negatively rotate, with make movable block 343 near or away from drive screw 342.As clamp motor 341 rotates forward, movable block 343 moves near the direction of drive screw 342, and the first jig arm 332 and the second jig arm 333 are opened; Clamp motor 341 reverses, and movable block 343 moves to the direction away from drive screw 342, and the first jig arm 332 and the second jig arm 333 are closed up.Further, with reference to Fig. 5 and Fig. 6, base 331 is provided with the slip location optocoupler 336 that control first jig arm 332 and the second jig arm 333 stop position; First jig arm 332 or the second jig arm 333 are provided with control strip 337, and control strip 337 one end is connected to the first jig arm 332 or the second jig arm 333, and the other end is to the first jig arm 332 or the second jig arm 333 extension.The quantity of locating optocoupler 336 of sliding is two, composition slip locating area.When first jig arm 332 and the second jig arm 333 are moved, control strip 337 is back and forth movement in the slip locating area that the location optocoupler 336 that slides is formed.For Fig. 6, first jig arm 332 and the second jig arm 333 are opened, when control strip 337 arrives and locates optocoupler 336 from the slip away from the first jig arm 332, this slip locates optocoupler 336 by signal transmission to clamp motor 341, select as required to allow clamp motor 341 change rotation direction or stop motion, when clamp motor 341 changes rotation direction, the first jig arm 332 and the second jig arm 333 can be closed up.In like manner, when the first jig arm 332 and the second jig arm 333 are closed up, control strip 337 arrives from the slip location optocoupler 336 close to the first jig arm 332, this slip locates optocoupler 336 by signal transmission to clamp motor 341, select as required to allow clamp motor 341 again change rotation direction or stop motion, when clamp motor 341 changes rotation direction again, the first jig arm 332 and the second jig arm 333 expansible.

Preferably, with reference to Fig. 7 and Fig. 8, auto moisture proving installation also comprises auto moisture proving installation and also comprises feed mechanism 400.Feed mechanism 400 comprises supporting seat 410, lifting motor 420 and the lifting table 430 in order to hold up sample dish or sample spoon.Lifting table 430 and lifting motor 420 are arranged on supporting seat 410, and lifting table 430 relative to supporting seat 410 elevating movement, and is carried sample supplying disk or sample spoon and got coil position to getting the dish structure of falling model machine 200 under the driving of lifting motor 420.Lifting motor 420 rises by belt drive lifting table 430 or declines.Lifting table 430 can be set to two, and carry sample supplying disk for one, another provides sample spoon, makes whole auto moisture proving installation automaticity higher.Lifting table 430 can arrange with sample dish or sample spoon adaptation bracket, make sample dish or stable being positioned on lifting table 430 of sample spoon.

Preferably, with reference to Fig. 4, Fig. 7 and Fig. 8, sample dish feed mechanism 400 and sample spoon feed mechanism 400 also comprise the 3rd location optocoupler 440 and microswitch 450.3rd location optocoupler 440 is arranged at the below of supporting seat 410 to determine that lifting table 430 is elevated lower position; Microswitch 450 is arranged to be got on the dish structure of falling model machine 200 to determine that lifting table 430 is elevated upper limit position.

In lifting table 430 uphill process, when the microswitch 450 being arranged on and getting as sampler 222 on the dish structure of falling model machine 200 encountered by sample dish or sample spoon, microswitch 450 is by signal transmission to lifting motor 420, and lifting motor 420 stops rising.In lifting table 430 decline process, the 3rd location optocoupler 440 detects lifting table 430, and by signal transmission to lifting motor 420, lifting motor 420 stops declining.After sample dish or sample spoon are got dish the structure of falling model machine 200 picked up, lifting table 430 declines, and makes being separated of not picked sample dish or sample spoon and pickup, is convenient to get coil the structure of falling model machine 200 and complete subsequent action.What the 3rd location optocoupler 440 and microswitch 450 accurately can complete lifting table 430 lifting action and accurately control lifting table 430 stops position, sample dish and sample spoon is arrived at accurately get the dish structure of falling model machine 200 to get and coils position.

Preferably, see figures.1.and.2, auto moisture proving installation also comprises spreading out device 500, spreading out device 500 is arranged at above sample dish conveyer 300, spreading out device 500 comprises and shakeouts blade 510 and rotary electric machine 520, shakeout blade 510 to rotate under rotary electric machine 520 drives, the sample in sample dish is shakeout.

After sample dish application of sample on sample dish conveyer 300, sample dish conveyer 300 moves and stops at below spreading out device 500 by sample dish, sample dish conveyer 300 rises or shakeouts mechanism and declines, what make spreading out device 500 shakeouts blade 510 and the sample contacts in sample dish, shakeout blade 510 to rotate under rotary electric machine 520 drives, sample is shakeout.The sample thickness shakeout is even, is conducive to moisture drying, makes test result accurate.

Preferably, see figures.1.and.2, auto moisture proving installation also comprises proportioning device 600, and proportioning device 600 comprises scraper plate 610, getting above the track moved under the dish structure of falling model machine 200 drives after scraper plate 610 is arranged at sample spoon application of sample, and tangent with the edge of sample spoon opening after application of sample.Scraper plate 610 is fixed on above sample spoon, with sample spoon edge contact.After sample spoon application of sample completes, swingle 221 drives sample spoon to rotate, and sample too much in sample spoon from hanging fascia in sample spoon, realizes quantitatively rough by scraper plate 610, makes the quality of each sample measured in certain scope.

Further, see figures.1.and.2, auto moisture proving installation also comprises abandons sample platform 700, abandons sample platform 700 and comprises slope 710 and platform 720.Be connected to back up pad 100 bottom slope 710, and top is connected to platform 720, the below of adjustable cramp 330 is provided with the sample dish of propelling loading waste sample from platform 720 along the push rod of slope 710 landing.

Under the adjustment of tangential movement group 310, lengthwise movement group 320, adjustable cramp 330 arrives platform 720 position, unclamp adjustable cramp 330 and the sample dish loading waste sample is positioned over platform 720, then adjustable cramp 330 moves horizontally after declining, and promotes sample along slope 710 landing in rejected material case by push rod.

A kind of auto moisture tester, comprises meausring apparatus, drying unit 800 and above-mentioned auto moisture proving installation.Meausring apparatus is arranged in auto moisture proving installation, and drying unit 800 is arranged at outside auto moisture proving installation.Drying unit 800 comprises housing 810 and at least one deck rotating disk 820, any layer rotating disk 820 is provided with multiple sample dish putting hole coordinated with sample dish; Housing 810 is provided with opening, and opening is with thinking that the sample dish transport after application of sample and disengaging to rotating disk 820 are provided passage by sample dish conveyer 300.

With reference to Fig. 9, rotating disk 820 offers multiple sample dish putting hole, sample dish embeds in sample dish putting hole, in the rotation process of rotating disk 820, between sample dish and rotating disk 820, displacement is less likely to occur.Drying unit 800 at least comprises one deck rotating disk 820, and every one deck rotating disk 820 all can place multiple sample dish.The heating arrangement of drying unit 800 can dry the sample in multiple sample dish simultaneously, enhances the processing power of auto moisture tester.

The foregoing is only preferred embodiment of the present utility model, be not limited to the utility model, for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any amendment done, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (13)

1. an auto moisture proving installation, comprises back up pad (100) and shell, it is characterized in that, described back up pad (100) is provided with gets the dish structure of falling model machine (200) and sample dish conveyer (300); Described get dish the structure of falling model machine (200) described back up pad (100) all relative to described sample dish conveyer (300) movably arrange;

The described dish structure of falling model machine (200) of getting in order to pick up sample dish and to be transported to described sample dish conveyer (300), and picks up sample spoon and is added by sample in described sample spoon after described sample spoon application of sample after in the described sample dish being transported to described sample dish conveyer (300) and be separated with described sample spoon;

Described sample dish conveyer (300) is in order to transport the described sample dish after application of sample and to depart from meausring apparatus and drying unit (800).

2. auto moisture proving installation according to claim 1, it is characterized in that, described in get dish the structure of falling model machine (200) comprise bracing frame (210) and be arranged at the swingle (221) on support frame as described above (210);

Described swingle (221) is horizontally rotated on support frame as described above (210) by the driving of horizontal driver (231), to arrive the described sample dish position of pickup, to pick up described sample spoon position and described sample dish conveyer (300) position;

Described swingle (221) one end is provided with the sampler (222) for picking and placeing described sample dish and described sample spoon, and the other end is provided with the rotating driver (232) for driving described swingle (221) to rotate.

3. auto moisture proving installation according to claim 2, it is characterized in that, described swingle (221) is arranged on mount pad (240), described swingle (221) one end connects described rotating driver (232) through described mount pad (240), described mount pad (240) connects described horizontal driver (231) by described rotating shaft, and horizontally rotates under the driving of described horizontal driver (231);

Support frame as described above (210) is provided with multiple first location optocoupler (251) of stopping position in order to control described mount pad (240); Described mount pad (240) is provided with control the second location optocoupler (252) that described swingle (221) stops position;

Described swingle (221) carries out 180 ° of rotations under the control of described second location optocoupler (252); Described sampler (222) is electromagnet.

4. auto moisture proving installation according to claim 1, it is characterized in that, described sample dish conveyer (300) comprises tangential movement group (310), lengthwise movement group (320) and the adjustable cramp (330) in order to clamp and to unclamp described sample dish;

Described tangential movement group (310) and described lengthwise movement group (320) coordinate delivers to described meausring apparatus or described drying unit (800) by described adjustable cramp (330), and the described sample dish clamped to make described adjustable cramp (330) is placed and departs from corresponding operating device.

5. auto moisture proving installation according to claim 4, it is characterized in that, described lengthwise movement group (320) comprises longitudinal gear frame (321), longitudinal rail (322) and longitudinal driving motor (323), and described longitudinal rail (322) and described longitudinal driving motor (323) are arranged on described longitudinal gear frame (321);

Described adjustable cramp (330) one end and described longitudinal rail (322) are slidably connected, and move along described longitudinal rail (322) under the driving of described longitudinal driving motor (323);

Described tangential movement group (310) comprises horizontal guide rail (311) and tangential movement motor (312), one end of described longitudinal gear frame (321) is flexibly connected with described horizontal guide rail (311), and moves along described horizontal guide rail (311) under the driving of described tangential movement motor (312).

6. auto moisture proving installation according to claim 5, is characterized in that, described adjustable cramp (330) comprises base (331), the first jig arm (332) and the second jig arm (333); Described adjustable cramp (330) is slidably connected by described base (331) and described longitudinal rail (322);

Described first jig arm (332) and described second jig arm (333) are oppositely arranged, and described first jig arm (332) and described second jig arm (333) are all movably set in described base (331);

Be provided with at least one driving group (340) between described first jig arm (332) and described second jig arm (333), and control the distance between described first jig arm (332) and described second jig arm (333) by described driving group (340).

7. auto moisture proving installation according to claim 6, it is characterized in that, described base (331) is provided with guide rail (334), the end of described first jig arm (332) and the end of described second jig arm (333) are provided with the slide block (335) coordinated with described guide rail (334);

Described first jig arm (332) and described second jig arm (333) control in the upper slip of described guide rail (334) by same described driving group (340);

Described driving group (340) comprising: clamp motor (341), drive screw (342), movable block (343) and two transmission arms (344);

Two described transmission arm (344) one end are connected to the end of described first jig arm (332) and the end of described second jig arm (333) respectively rotationally, and the other end is connected to the two ends of described movable block (343) respectively rotationally;

Described movable block (343) is connected with described clamp motor (341) by described drive screw (342).

8. auto moisture proving installation according to claim 1, is characterized in that, described auto moisture proving installation also comprises feed mechanism (400);

Described feed mechanism (400) comprises supporting seat (410), lifting motor (420) and the lifting table (430) in order to hold up described sample dish or described sample spoon;

Described lifting table (430) and described lifting motor (420) are all arranged on described supporting seat (410), described lifting table (430) under the driving of described lifting motor (420) relative to the elevating movement of described supporting seat (410), and provide described sample dish or described sample spoon to described in get the dish structure of falling model machine (200) and get and coil position.

9. auto moisture proving installation according to claim 8, is characterized in that, described feed mechanism (400) also comprises the 3rd location optocoupler (440) and microswitch (450);

Described 3rd location optocoupler (440) is arranged at the below of described supporting seat (410) to determine described lifting table (430) lifting lower position; Get described in described microswitch (450) is arranged on the dish structure of falling model machine (200) to determine described lifting table (430) lifting upper limit position.

10. auto moisture proving installation according to claim 4, it is characterized in that, described auto moisture proving installation also comprises spreading out device (500), described spreading out device (500) is arranged at described sample dish conveyer (300) top, described spreading out device (500) comprises and shakeouts blade (510) and rotary electric machine (520), the described blade (510) that shakeouts rotates under described rotary electric machine (520) drives, and is shakeout by the sample in described sample dish.

11. auto moisture proving installations according to claim 2, it is characterized in that, described auto moisture proving installation also comprises proportioning device (600), described proportioning device (600) comprises scraper plate (610), get above the track that moves under the dish structure of falling model machine (200) drives described after described scraper plate (610) is arranged at described sample spoon application of sample, and tangent with the edge of described sample spoon opening after application of sample.

12. auto moisture proving installations according to claim 4, it is characterized in that, described auto moisture proving installation also comprises abandons sample platform (700), described in abandon sample platform (700) and comprise slope (710) and platform (720);

Bottom, described slope (710) is connected to described back up pad (100), and top is connected to described platform (720), the below of described adjustable cramp (330) is provided with the sample dish of propelling loading waste sample from described platform (720) along the push rod of described slope (710) landing.

13. 1 kinds of auto moisture testers, is characterized in that, comprise described meausring apparatus, described drying unit (800) and the auto moisture proving installation described in claim 1 ~ 12 any one;

Described meausring apparatus is arranged in described auto moisture proving installation, and described drying unit (800) is arranged at outside described auto moisture proving installation;

Described drying unit (800) comprises housing (810) and at least one deck rotating disk (820), rotating disk described in any layer (820) is provided with the sample dish putting hole that multiple and described sample dish coordinates; (810) are provided with opening to described housing, and described opening is with thinking that the sample dish after application of sample to transport and to depart from and provide passage in described rotating disk (820) by described sample dish conveyer (300).