CN204924408U - Material automatically measure equipment - Google Patents

Abstract

The utility model belongs to the technical field of smelt glue, especially, relate to a material automatically measure equipment. It includes feed arrangement, weighing device and electric control system, and feed arrangement includes quick feeder, delivery sheet, striker plate, sieve, vibration feeder ware, and weighing device expects sealed cowling, hopper door subassembly and connect the storage bucket including weighing steelframe, weighing sensor, scale hooper, row, can be fast accurate accomplishes weighing and discharging the storage bucket of getting ready automatically of block rubber according to prescription weight is automatic, and the simultaneously whole process of weighing all has reliable sealed and dust removal scheme.

Description

A kind of material poidometer

Technical field

The utility model belongs to refining glue technical field, particularly relates to a kind of material poidometer.

Background technology

In mixing process, carry out banburying after large for rubber blob of viscose is cut into fragment and effectively can reduce energy consumption, significantly economize energy; Carry out mixing after being shredded by the natural gum of multiple batches to mix thoroughly, then drop into mixing, effectively can promote the stability of elastomeric compound, improve the quality of rubber product.

More efficient rubber crumbling method adopts rubber disintegrating machine at present, and broken glue amount per hour can reach 8 tons, standard rubber can be broken into the block rubber of average 60 ~ 100 grams, but also has the block rubber weight of significant proportion (more than 10%) more than 200 grams.Simultaneously for preventing the block rubber after fragmentation from sticking together, need in shattering process to add a certain proportion of white carbon as separant.

Tradition banburying process is by artificial or be transported on the weigh belt before Banbury mixer by some automated tools by standard raw rubber block, also needs manually to cut glue carry out counterweight for reaching recipe requirements.After adopting rubber crushing process, also substantially continued to use the operator scheme of traditional banburying process, by the block rubber after fragmentation by before artificial or Belt Conveying to Banbury mixer, the sizing material weight being dropped into weigh belt by manual control completes batching.

Because human factor is many, the stability of weighing precision can not be guaranteed, and simultaneously due to the problem of separant, need reliable dust pelletizing system, otherwise site environment will worsen, and threatens operator ' s health.Because each board needs above-mentioned sizing material conveying device or memory storage, belt conveyer scale, dust arrester etc., on-the-spot meeting is more crowded, device layout difficulty.

For solving the problem, a kind of new proportioning process can be adopted, namely outside banburying workshop, automatically complete weighing and the batching of sizing material according to the production schedule and recipe requirements by computer control system, then deliver to each banburying board by logistics system and carry out weight School Affairs dosing operation.This technological process is description existing similar in the patent of invention of 201110148674.2 at application number, is not repeated.Realize above-mentioned technique, a crucial problem is the automatic weighing of rubber, and meet the productive temp of Banbury mixer about 3 minutes cars, weighing speed must be fast; Meet technical recipe requirement, weighing precision must reach height, for the sizing material often having block rubber weight more than 200 grams, weighing precision be made to control at ± 200 grams, even higher, is to be difficult to realize, and also needs to consider the problems such as dedusting simultaneously.The prior art comprising above-mentioned patent does not all have ripe block rubber automatic weighing solution.

Utility model content

For solving the deficiencies in the prior art, the utility model provides a kind of material poidometer, can automatically complete the weighing of material by formulation weight fast and accurately and be automatically discharged in the charging basket got ready, whole weighing process all has sealing and dust-cleaning scheme reliably simultaneously.

A kind of material poidometer, comprise feed arrangement, meausring apparatus and electric control system, described feed arrangement comprises Quick feeding device and is arranged in dustproof room, delivery sheet, striker plate, sieve plate, vibra feeder, the feeding end of described Quick feeding device is arranged at outside described dustproof room, the discharge end of described Quick feeding device is arranged on the top of the indoor or outdoors of described dustproof room, the below of the discharge end of described Quick feeding device is provided with described meausring apparatus, the described vibra feeder fed intake to described meausring apparatus is provided with at the inferoanterior of the discharge end of described Quick feeding device.

The below of the discharge end of described Quick feeding device is provided with described delivery sheet, be provided with the delivery sheet driving mechanism that described delivery sheet axle can be driven to rotate near one end of the discharge end of described Quick feeding device at described delivery sheet, described sieve plate is provided with above described vibra feeder, at described sieve plate, the sieve plate driving mechanism that described sieve plate axle can be driven to rotate is set away from one end of described vibra feeder, described striker plate is provided with above between described delivery sheet and described sieve plate, at described striker plate, one end of described delivery sheet driving mechanism and described sieve plate driving mechanism is provided with the striker plate driving mechanism that described striker plate rotating shaft can be driven dynamic.

Described material poidometer also can be optimized, electric control system is set, described electric control system connects described Quick feeding device, described vibra feeder, described delivery sheet driving mechanism, described sieve plate driving mechanism and described striker plate driving mechanism, and the weighing process performed by described electric control system comprises the following steps:

S20, control described delivery sheet and turn to the side of described Quick feeding device to abdicate charging space, controlling described striker plate turns to described Quick feeding device to fall into described vibra feeder to prevent charging, then starts described Quick feeding device and feeds intake to described meausring apparatus;

S30, described Quick feeding device to be dosed to described meausring apparatus requirement to certainty ratio after, control described delivery sheet and turn to the described vibra feeder that sizing material can be led, controlling described striker plate turns to described vibra feeder side to abdicate charging space, control the side that described sieve plate turns to described Quick feeding device, meanwhile, control described Quick feeding device driving mechanism time delay to shut down;

S40, start described vibra feeder and supplement charging to described meausring apparatus, supplement be fed to requirement after control described vibra feeder and shut down.

In above scheme, described Quick feeding device accepts sizing material by charging aperture and is fed forward input meausring apparatus, after the certain proportion that sizing material weight reaches described electric control system setting weight, the sizing material that described Quick feeding device is sent here is imported described vibra feeder by described delivery sheet, described Quick feeding device time delay stops, described vibra feeder supplements sizing material to described meausring apparatus, until stop after setting weight by vibration.Described striker plate prevents too much sizing material from entering vibra feeder, and described sieve plate limits excessive sizing material and enters vibra feeder.

The equal driving mechanism of described delivery sheet, striker plate and sieve plate all can make it rotate to an angle.Described sieve plate is at described delivery sheet to when turning to described feed belt side during vibra feeder feeding, the sizing material only allowing size to be less than sieve aperture enters vibra feeder, ensures weighing precision.The change that described sieve plate can require according to weighing precision be changed, and accuracy requirement is higher, and sieve plate sieve aperture is less, and the blob of viscose entered in vibration dispenser correspondingly diminishes, and weighing precision is higher.

Preferably, the top board of the described dustproof room directly over described meausring apparatus is provided with suction port, weigh and discharge overall process in dust suction always, prevent outside from occurring airborne dust.

Preferably, when described electric control system performs step S20, described electric control system also controls described sieve plate and turns to described vibra feeder, start described vibra feeder to empty the sizing material on described sieve plate and described vibra feeder simultaneously, can prevent the sieve aperture on sieve plate from blocking and sizing material accumulation in vibra feeder, ensure each accuracy weighed.When described sieve plate moves to and contacts with vibra feeder, by the vibrations of vibra feeder, the residual material in sieve plate mesh is shaken off.

Preferably, in described step S30, what described Quick feeding device was dosed to requirement to described meausring apparatus is 1% ~ 99% to certainty ratio, and in described step S40, described vibra feeder is remaining 1% ~ 99% to the amount that described meausring apparatus supplements charging.

In above scheme, described Quick feeding device can be described as fast title to described scale hooper feeding, described vibra feeder can be described as slow title to described scale hooper feeding, and described weighing soon is generally 90% ~ 95% of setting weight, finely tunes according to setting weight size.

Concrete, described meausring apparatus comprises weighing steelframe, LOAD CELLS, scale hooper, discharge seal closure and splicing bucket, described LOAD CELLS is fixed on the horizontal segment of described weighing steelframe, described LOAD CELLS is fixed with described scale hooper, described scale hooper has the bucket-shaped structure of hollow of upper and lower opening, the lower open end place of described scale hooper is provided with hopper door assembly, in the below of described scale hooper, described splicing bucket is set, described weighing steelframe is also provided with the described discharge seal closure for setting up discharge seal channel between described scale hooper and described splicing bucket, wherein, described hopper door assembly comprises the spade door that two fans are split, and described spade door is respectively arranged with spade door drive mechanism, described discharge seal closure comprises telescopic cover and drives the cover body driving mechanism of described telescopic cover switch,

Described electric control system also connects described LOAD CELLS, described spade door drive mechanism and described cover body driving mechanism, and the weighing process performed by described electric control system also comprises the following steps:

Performing the step S10 before step S20, control two of described hopper door assembly fan spade doors and close;

In random time section in the implementation of step S10 to step S40, control described discharge seal closure and close to set up described discharge seal channel;

Performing the step S50 after step S40, monitor after the charging weighed in described scale hooper reaches desired value via described LOAD CELLS, control described hopper door assembly the described spade door split of two fans open to described splicing bucket discharge, via described LOAD CELLS monitor sizing material in described scale hooper emptying after, control described hopper door assembly the described spade door split of two fans close.

In above scheme, to complete and below scale hooper, splicing charging basket rear described electric control system in place sends discharge signal as required in weighing, described hopper door assembly is opened hopper door according to described electric control system discharge signal and is carried out discharge, and described discharge seal closure is set up discharge seal channel and prevented from occurring airborne dust during discharge before discharge between scale hooper and splicing charging basket.Described hopper door assembly is closed described discharge seal closure withdrawal simultaneously and is once weighed on can starting after discharge completes.

Preferred, described material poidometer also comprises dust-proof labyrinth, described dust-proof labyrinth is formed by the first seal pad be fixed on the outer wall of described scale hooper and the second seal pad be fixed on described discharge seal closure, described first seal pad away from one end of described scale hooper and described second seal pad press close to away from one end of described discharge seal closure, and, described first seal pad be folded to described second seal pad away from one end of described scale hooper, described second seal pad be folded to described first seal pad away from one end of described discharge seal closure, at described first seal pad and described second seal pad press close to end and form gap.

Preferred, described discharge seal closure also comprises the sealing sponge of horizontally disposed ring-type, what described telescopic cover had a tubular can the structure of axial stretching, the stiff end of described telescopic cover is fixed on described weighing steelframe, the telescopic end of described telescopic cover is fixed in the annular body of described sealing sponge, further, the telescopic end of described telescopic cover all drops on the upper surface of the annular of described sealing sponge.

Preferred, described spade door comprises the base plate of rectangle, the vertical trapezoidal left plate being fixed on the described base plate left and right sides and trapezoidal right plate and vertical be arranged between described left plate and described right plate and be fixed on the backboard of described floor rear, correspondingly on described left plate and described right plate is provided with rotating shaft through hole.

Wherein, described spade door adopts the mode such as cylinder, oil cylinder to drive.The side of described spade door and the baffle plate arranged below can prevent separant from leaking.

Preferred, the weighing process performed by described electric control system also comprise step S50 after step S60, control the motion of described discharge seal closure vertical telescopic, connect to make discharge seal closure or depart from splicing bucket.

In above scheme, two parts seal pad front end is bent to form the small―gap suture of labyrinth-like, and under the effect of described suction port, form negative pressure in described discharge seal closure, air-flow, by flowing in discharge seal closure under gap, prevents airborne dust.Sealing between described dustproof room and described meausring apparatus also can adopt same structure.

The application of material poidometer provided by the utility model, the material of weighing is powdery and/or solid shape structural objects, and is particularly suitable for the powdery and/or the solid shape structural objects that there are different-grain diameter.

The beneficial effects of the utility model are:

1, material poidometer, weighing speed is ensured to " soon claim " of scale hooper quick feeding by Quick feeding device, by vibra feeder " claiming slowly " guarantee weighing precision to scale hooper feeding, speed combines, and automatically can complete the weighing of material fast and accurately by formulation weight.

2, preferably, control by sieve plate the size entering vibra feeder different-grain diameter material, eliminate the impact of material weighing precision not of uniform size, the ingenious difficult problem solving high-precision weighing requirement and be difficult to realize.

3, preferably, telescopic discharge seal closure, by setting up an airtight discharging channel, forms an internal environment, coordinates dust sucking plant can effectively solve in discharging process and easily occurs this difficult problem of airborne dust.

4, preferably, the side of hopper door and all have baffle plate below, the discharge gate of symmetrical batch box has carried out careful protection, effectively can prevent the leakage of separant in sizing material.

Accompanying drawing explanation

Fig. 1 is the one-piece construction schematic diagram of material poidometer provided by the utility model.

Fig. 2 is the partial enlarged drawing of Fig. 1.

Fig. 3 is the structural representation that the hopper door assembly of the meausring apparatus of material poidometer provided by the utility model is in closed condition.

Fig. 4 is the structural representation that the hopper door assembly of the meausring apparatus of material poidometer provided by the utility model is in open mode.

Fig. 5 is the partial enlarged drawing of Fig. 4.

Fig. 6 is the structural representation of the spade door of material poidometer provided by the utility model.

In accompanying drawing 1,2,3,4,5,6, the list of parts representated by each label is as follows:

1, feed arrangement, 2, meausring apparatus, 3, suction port, 4, splicing bucket, 11, Quick feeding device, 12, vibra feeder, 13, delivery sheet, 14, striker plate, 15, sieve plate, 21, weigh steelframe, 22, LOAD CELLS, 23, scale hooper, 24, hopper door assembly, 25, discharge seal closure, 26, dust-proof labyrinth, 241, spade door, 251, telescopic cover, 252, sponge is sealed, the 261, first seal pad, the 262, second seal pad.

Embodiment

Be described principle of the present utility model and feature below in conjunction with accompanying drawing, illustrated embodiment, only for explaining the utility model, is not intended to limit scope of the present utility model.

In a concrete embodiment, a kind of material poidometer, as shown in Figure 1, 2, comprise feed arrangement 1, meausring apparatus 2, described feed arrangement 1 comprises Quick feeding device 11, vibra feeder 12, delivery sheet 13, striker plate 14, sieve plate 15, the bottom of the discharge end of described Quick feeding device 11 is provided with described meausring apparatus 2, is provided with the described vibra feeder 12 that can feed intake to described meausring apparatus 2 at the inferoanterior of the discharge end of described Quick feeding device 11;

The below of the discharge end of described Quick feeding device 11 is provided with described delivery sheet 13, and described delivery sheet 13 can tangential movement or horizontal axis rotate, and directly by the discharge end of Quick feeding device 11, can fall into meausring apparatus 2 to make sizing material; Or make material be delivered to vibra feeder 12 from the discharge end of Quick feeding device 11 through delivery sheet 13, by vibra feeder 12, material is sent into meausring apparatus 2.

Further: above described vibra feeder 12, to be also provided with sieve plate 15, be also provided with striker plate 14 above between described delivery sheet 13 and sieve plate 15; Described striker plate 14, sieve plate 15 all can tangential movement or horizontal axis rotate, and by the discharge end of Quick feeding device 11, directly can fall into meausring apparatus 2/ or fall into meausring apparatus 2 through striker plate 14 to make sizing material; Or make material from the discharge end of Quick feeding device 11 after delivery sheet 13 to sieve plate 15, fall into vibra feeder 12, by vibra feeder 12, material is sent into meausring apparatus 2.

Further: be provided with the delivery sheet driving mechanism that described delivery sheet 13 axle can be driven to rotate near one end of the discharge end of described Quick feeding device 11 at described delivery sheet 13, described sieve plate 15 is provided with above described vibra feeder 12, at described sieve plate 15, the sieve plate driving mechanism that described sieve plate 15 axle can be driven to rotate is set away from one end of described vibra feeder 12, described striker plate 14 is provided with above between described delivery sheet 13 and described sieve plate 15, at described striker plate 14, one end of described delivery sheet driving mechanism and described sieve plate driving mechanism is provided with the striker plate driving mechanism that described striker plate 14 axle can be driven to rotate.

Further: when described sieve plate 15 moves to and contacts with vibra feeder 12, by the vibrations of vibra feeder 12, the residual material in sieve plate 15 mesh is shaken off.

As shown in Fig. 3,4,5, described meausring apparatus 2 comprises weighing steelframe 21, LOAD CELLS 22, scale hooper 23, described LOAD CELLS 22 is fixed on the horizontal segment of described weighing steelframe 21, described LOAD CELLS 22 is fixed with described scale hooper 23, the bucket-shaped structure of hollow that described scale hooper 23 has upper and lower opening, the lower open end place of described scale hooper 23 is provided with hopper door assembly 24, and hopper door assembly 24 can be opened and closed, to make scale hooper 23 can removal or store material.

Further: as shown in Figure 6, described hopper door assembly 24 comprises symmetrical expression that two fans split can axial rotation spade door 241, spade door 241 comprises the base plate of rectangle, the vertical trapezoidal left plate being fixed on the described base plate left and right sides and trapezoidal right plate and vertical be arranged between described left plate and described right plate and be fixed on the backboard of described floor rear, correspondingly on described left plate and described right plate is provided with rotating shaft through hole.

Further: above described meausring apparatus 2, to be also provided with dustproof room, described delivery sheet 13, striker plate 14, sieve plate 15, vibra feeder 12 are arranged in dustproof room, the feeding end of described Quick feeding device 11 is arranged at outside described dustproof room, the discharge end of described Quick feeding device 11 is arranged on the top of the indoor or outdoors of described dustproof room, and described vibra feeder 12 is partly or entirely arranged in dustproof room.

Further: the top of described dustproof room is provided with suction port 3.

Further: the below of described scale hooper 23 is provided with splicing bucket 4, the weighing steelframe 21 of described meausring apparatus 2 is also provided with the described discharge seal closure 25 for setting up discharge seal channel between described scale hooper 23 and described splicing bucket 4, described discharge seal closure 25 comprises at least partly for can the telescopic cover 251 of axial stretching structure, and the cover body driving mechanism driving described telescopic cover 251 flexible.Described telescopic cover 251 be detachably fixed on described weighing steelframe 21, the telescopic end of described telescopic cover 251 can be connected with splicing bucket 4 removable seal.

Further: described material poidometer also comprises electric control system, described electric control system connects described Quick feeding device 11, described vibra feeder 12, described delivery sheet driving mechanism, described sieve plate driving mechanism and described striker plate driving mechanism, and the weighing process performed by described electric control system comprises the following steps:

S20, control described delivery sheet 13 and turn to the side of described Quick feeding device 11 to abdicate described in charging space, controlling described striker plate 14 turns to described Quick feeding device 11 to fall into described vibra feeder 12 to prevent charging, then starts described Quick feeding device 11 and feeds intake to described meausring apparatus 2;

S30, described Quick feeding device 11 to be dosed to described meausring apparatus 2 requirement to certainty ratio after, control described delivery sheet 13 and turn to the described vibra feeder 12 that sizing material can be led, controlling described striker plate 14 turns to described vibra feeder 12 side to abdicate charging space, control the side that described sieve plate 15 turns to described Quick feeding device 11, meanwhile, control described Quick feeding device 11 driving mechanism time delay to shut down;

S40, start described vibra feeder 12 and supplement charging to described meausring apparatus 2, supplement be fed to requirement after control described vibra feeder 12 and shut down.

The top board of the described dustproof room directly over described meausring apparatus 2 is provided with suction port 3.

When described electric control system performs step S20, described electric control system also controls described sieve plate 15 and turns to described vibra feeder 12, starts described vibra feeder 12 to empty the sizing material on described sieve plate 15 and described vibra feeder 12 simultaneously.

In described step S30, what described Quick feeding device 11 was dosed to requirement to described meausring apparatus 2 is 1% ~ 99% to certainty ratio, in described step S40, described vibra feeder 12 is remaining 1% ~ 99% to the amount that described meausring apparatus 2 supplements charging.

Further: described electric control system also connects described LOAD CELLS 22, described spade door 241 driving mechanism and described cover body driving mechanism, and the weighing process performed by described electric control system also comprises the following steps:

Performing the step S10 before step S20, control two of described hopper door assembly 24 fan spade doors 241 and close;

In random time section in the implementation of step S10 to step S40, control described discharge seal closure 25 and close to set up described discharge seal channel;

Performing the step S50 after step S40, monitor after the charging of weighing described scale hooper 23 in reaches desired value via described LOAD CELLS 22, control described hopper door assembly 24 the described spade door 241 split of two fans open to described splicing bucket 4 discharge, via described LOAD CELLS 22 monitor sizing material in described scale hooper 23 emptying after, control described hopper door assembly 24 the described spade door 241 split of two fans close.

The weighing process performed by described electric control system also comprise step S50 after step S60, control described discharge seal closure 25 vertical telescopic motion, to connect or to depart from splicing bucket 4.

Described material poidometer, the material of ponderable quantity is powdery and/or solid shape structural objects, is particularly suitable for the powdery and/or the solid shape structural objects that there are different-grain diameter.

The foregoing is only preferred embodiment of the present utility model, not in order to limit the utility model, 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 (12)

1. a material poidometer, it is characterized in that: comprise feed arrangement (1), meausring apparatus (2), described feed arrangement (1) comprises Quick feeding device (11), vibra feeder (12), delivery sheet (13), striker plate (14), sieve plate (15), the below of the discharge end of described Quick feeding device (11) is provided with described meausring apparatus (2), the described vibra feeder (12) that can feed intake to described meausring apparatus (2) is provided with at the inferoanterior of the discharge end of described Quick feeding device (11), the below of the discharge end of described Quick feeding device (11) is provided with described delivery sheet (13), described delivery sheet (13), can tangential movement or horizontal axis rotate, to make sizing material can directly by the discharge end of Quick feeding device (11), fall into meausring apparatus (2), or make material be delivered to vibra feeder (12) from the discharge end of Quick feeding device (11) through delivery sheet (13), by vibra feeder (12), material is sent into meausring apparatus (2).

2. material poidometer according to claim 1, it is characterized in that: be also provided with sieve plate (15) in the top of described vibra feeder (12), the top between described delivery sheet (13) and sieve plate (15) is also provided with striker plate (14); Described striker plate (14), sieve plate (15) all can tangential movement or horizontal axis rotate, by the discharge end of Quick feeding device (11), directly can fall into meausring apparatus (2)/or fall into meausring apparatus (2) through striker plate (14) to make sizing material; Or make material from the discharge end of Quick feeding device (11) after delivery sheet (13) to sieve plate (15), fall into vibra feeder (12), by vibra feeder (12), material is sent into meausring apparatus (2).

3. material poidometer according to claim 2, it is characterized in that: at described delivery sheet (13), one end of the discharge end of described Quick feeding device (11) is provided with the delivery sheet driving mechanism that described delivery sheet (13) axle can be driven to rotate, at described sieve plate (15), the sieve plate driving mechanism that described sieve plate (15) axle can be driven to rotate is set away from one end of described vibra feeder (12), at described striker plate (14), one end of described delivery sheet (13) driving mechanism and described sieve plate driving mechanism is provided with the striker plate driving mechanism that described striker plate (14) rotating shaft can be driven dynamic.

4. material poidometer according to claim 3, it is characterized in that: when described sieve plate (15) moves to and contacts with vibra feeder (12), by the vibrations of vibra feeder (12), the residual material in sieve plate (15) mesh is shaken off.

5. material poidometer according to claim 4, it is characterized in that: described meausring apparatus (2) comprises weighing steelframe (21), LOAD CELLS (22), scale hooper (23), described LOAD CELLS (22) is fixed on the horizontal segment of described weighing steelframe (21), described LOAD CELLS (22) is fixed with described scale hooper (23), described scale hooper (23) has the bucket-shaped structure of hollow of upper and lower opening, the lower open end place of described scale hooper (23) is provided with hopper door assembly (24), hopper door assembly (24) can be opened and close, with make scale hooper (23) can removal or store material.

6. material poidometer according to claim 5, it is characterized in that: described hopper door assembly (24) comprises symmetrical expression that two fans split can axial rotation spade door (241), spade door (241) comprises the base plate of rectangle, the vertical trapezoidal left plate being fixed on the described base plate left and right sides and trapezoidal right plate and vertical be arranged between described left plate and described right plate and be fixed on the backboard of described floor rear, correspondingly on described left plate and described right plate is provided with rotating shaft through hole.

7. material poidometer according to claim 6, it is characterized in that: be also provided with dustproof room in the top of described meausring apparatus (2), described delivery sheet (13), striker plate (14), sieve plate (15), vibra feeder (12) are arranged in dustproof room, the feeding end of described Quick feeding device (11) is arranged at outside described dustproof room, the discharge end of described Quick feeding device (11) is arranged on the top of the indoor or outdoors of described dustproof room, and described vibra feeder (12) is partly or entirely arranged in dustproof room.

8. material poidometer according to claim 7, it is characterized in that: the below of described scale hooper (23) is provided with splicing bucket (4), the weighing steelframe (21) of described meausring apparatus (2) is also provided with the described discharge seal closure (25) for setting up discharge seal channel between described scale hooper (23) and described splicing bucket (4), described discharge seal closure (25) comprises at least partly for can the telescopic cover (251) of axial stretching structure and the cover body driving mechanism that drives described telescopic cover (251) to stretch, described telescopic cover (251) is detachably fixed on described weighing steelframe (21), the telescopic end of described telescopic cover (251) can be connected with splicing bucket (4) removable seal.

9. material poidometer according to claim 8, it is characterized in that: described material poidometer (2) also comprises dust-proof labyrinth (26), described dust-proof labyrinth (26) is made up of the first seal pad (261) be fixed on the outer wall of described scale hooper (23) and the second seal pad (262) be fixed on described discharge seal closure (25), one end away from described scale hooper (23) of described first seal pad (261) and one end away from described discharge seal closure (25) of described second seal pad (262) are pressed close to, and, one end away from described scale hooper (23) of described first seal pad (261) is folded to described second seal pad (262), one end away from described discharge seal closure (25) of described second seal pad (262) is folded to described first seal pad (261), gap is formed at the end of pressing close to of described first seal pad (261) and described second seal pad (262).

10. material poidometer according to claim 9, is characterized in that: be provided with suction port (3) on the top of described dustproof room.

11. material poidometers according to claim 10, it is characterized in that: described material poidometer also comprises electric control system, described electric control system connects described Quick feeding device (11), described vibra feeder (12), described delivery sheet driving mechanism, described sieve plate driving mechanism and described striker plate driving mechanism, and the weighing process performed by described electric control system comprises the following steps:

S20, control described delivery sheet (13) and turn to the side of described Quick feeding device (11) to abdicate described in charging space, controlling described striker plate (14) turns to described Quick feeding device (11) to fall into described vibra feeder (12) to prevent charging, then starts described feed arrangement (1) and feeds intake to described meausring apparatus (2);

S30, described Quick feeding device (11) to be dosed to described meausring apparatus (2) requirement to certainty ratio after, control described delivery sheet (13) and turn to the described vibra feeder (12) that sizing material can be led, controlling described striker plate (14) turns to described vibra feeder (12) side to abdicate charging space, control the side that described sieve plate (15) turns to described Quick feeding device (11), meanwhile, control described Quick feeding device (11) driving mechanism time delay to shut down;

S40, start described vibra feeder (12) to described meausring apparatus (2) supplement charging, supplement be fed to requirement after control described vibra feeder (12) shut down.

12. material poidometers according to claim 11, it is characterized in that: described spade door (241) is also provided with spade door drive mechanism, described electric control system also connects described LOAD CELLS (22), described spade door drive mechanism and described cover body driving mechanism, and the weighing process performed by described electric control system also comprises the following steps:

Performing the step S10 before step S20, control two of described hopper door assembly (24) fans spade door (241) and close;

In random time section in the implementation of step S10 to step S40, control described discharge seal closure (25) and close to set up described discharge seal channel;

Performing the step S50 after step S40, monitor after the charging of weighing described scale hooper (23) in reaches desired value via described LOAD CELLS (22), control described hopper door assembly (24) two fan the described spade door (241) of splitting and open to described splicing bucket (4) discharge, via described LOAD CELLS (22) monitor described scale hooper (23) interior sizing material emptying after, control described hopper door assembly (24) the two fans described spade door (241) of splitting close.