CN108996262A - A kind of high throughput powder transfer device - Google Patents

Abstract

The present invention provides a kind of high-throughput powder transfer device, the high throughput powder transfer device includes one first batch can (1) and a vibration generating mechanism (2), first batch can (1) includes a locker room (11), one transfer passage (12) and a discharge port (13), the locker room (11) is to store powder to be conveyed, the transfer passage (12) is connected to the discharge port (13) to the locker room, the vibration generating mechanism (2) is connected with first batch can (1) and the oblique upper for driving first batch can (1) towards the discharge port (13) direction vibrates, realize that conveying capacity is controllable, demand with high accuracy, it is suitble to laboratory or conceptual phase to use.

Description

A kind of high throughput powder transfer device

Technical field

The invention belongs to powder conveying technical fields.More particularly it relates to a kind of high throughput powder transfer device.

Background technique

With popularizing for high-throughput concept, occurs the device of a large amount of powder conveyings in the market, but most of is conveying capacity mistake It is big or too small, precision is low, be not suitable for laboratory or conceptual phase and use, conveying capacity needed for can not meet research (0.001g~ Between 500g) and demand with high accuracy.The height of precision depends in the uniformity coefficient and unit time of powder conveying load Powder conveying amount, the fewer precision of powder conveying amount in the unit time is higher.Screw feeding be due to that can compress powder on the market, There is frictional force between powder, the powder of screw rod every revolution can accumulate a certain amount of just discharge, and uniformity is poor, leads to precision It is low.

So, it is now desired to a kind of conveying capacity is controllable, precision is high, the high-throughput powder that is suitble to laboratory or conceptual phase to use Body conveying device.

Summary of the invention

That the purpose of the present invention is to provide a kind of conveying capacities is controllable, precision is high, laboratory or conceptual phase is suitble to use High-throughput powder transfer device.

The present invention solves technical solution used by this technical problem: providing a kind of high-throughput powder transfer device, institute Stating high-throughput powder transfer device includes one first batch can (1) and a vibration generating mechanism (2), the first batch can (1) packet A locker room (11), a transfer passage (12) and a discharge port (13) are included, the locker room (11) is to be conveyed to store Powder, the transfer passage (12) are connected to the discharge port (13) to the locker room (11), the vibration generating mechanism (2) with First batch can (1) is connected and the oblique upper for driving first batch can (1) towards the discharge port (13) direction vibrates.

Compared with the existing technology, the invention has the following advantages that first batch can (1) is logical with the independent conveying Road (12) prevents a variety of powder common-use tunnels from causing experimental material contaminated.The vibration generating mechanism (2) and first material Tank (1) be connected and drive first batch can (1) towards the discharge port (13) direction oblique upper vibrate, make contact powder to Preceding movement, the vibration generating mechanism (2) can adjust the amount and speed of conveying by adjusting its Oscillation Amplitude.The present invention provides A kind of high-throughput powder transfer device that suitable laboratory or conceptual phase use, conveying capacity is controllable, control precision is high.

Specifically, first batch can (1) further includes a vibrating reed (14), and the transfer passage (12) is located at the storage The lower section of room (11), the vibrating reed (14) are set between the locker room (11) and the transfer passage (12), the vibration Generating mechanism (2) drives first batch can (1) vibrating reed (14) vibration when vibrating.Described in the vibrating reed (14) utilizes The vibration force of vibration generating mechanism (2) is vibrated, and powder smooth delivery of power is made, and solves powder in the locker room (11) bottom end stress It concentrates, is easy the problem of arch camber is blocked so as to cause the powder.

Specifically, first batch can (1) further includes mistake sieve (15), and described cross sieve (15) are set to the locker room (11) locker room on one (112) and once locker room (114), the lower locker room are separated into and by the locker room (11) (114) it is connected to the transfer passage (12).Cross sieve (15) are made using the vibration force of the vibration generating mechanism (2) Powder crosses sieve (15) by described, increases the uniformity of powder, improves delivery precision.

Specifically, first batch can (1) further includes batch can switch (16), and the batch can switch (16) goes out described in At material mouth (13), to selectively close off or open the discharge port (13).

Specifically, the high-throughput powder transfer device further includes a batch can fixture (3), and the batch can fixture (3) is set to On the vibration generating mechanism (2), the batch can fixture (3) is to clamp first batch can (1), the batch can fixture (3) First batch can (1) is fixed on the vibration generating mechanism (2), the energy of vibration is made to be passed to first batch can (1) on, first batch can (1) is driven to convey the powder.

Specifically, the transfer passage (12) is horizontally disposed.The transfer passage (12) is the transfer passage of straight, flat, The consistency for being conducive to keep the forward speed of vibration of the powder, improves delivery precision.

Specifically, the high-throughput powder transfer device further includes a splice jug (4), and the splice jug (4) is set to described The lower section of discharge port (13), to the powder exported received from the discharge port (13).

Specifically the high-throughput powder transfer device further includes a Weighing mechanism (5), and the Weighing mechanism (5) is to claim Measure the weight of the splice jug (4).

Specifically, the high-throughput powder transfer device further includes one first damper mechanism (6), first damper mechanism (6) it is set to the lower section of the Weighing mechanism (5), to buffer the vibration of the Weighing mechanism (5) and the splice jug (4).

Specifically, the high-throughput powder transfer device further includes an elevating mechanism (7), the elevating mechanism (7) to The vibration generating mechanism (2) is driven to rise or fall.

Specifically, the high-throughput powder transfer device further includes one second damper mechanism (60), the second vibration damping machine Structure (60) is set between the elevating mechanism (7) and the vibration generating mechanism (2).

Specifically, the elevating mechanism (7) includes: a lifter plate (71), and the lifter plate (71) and the vibration occur Mechanism (2) is connected and a lift drive mechanism (72), the output shaft and the lifter plate of the lift drive mechanism (72) (71) it is connected, to drive the lifter plate (71) to rise or fall.

Specifically, the high-throughput powder transfer device further include: a batch can rest stand (82), the batch can rest stand (82) it is placed at least one second batch can (10), a manipulator (84), the manipulator (84) places first batch can (1) To on the batch can rest stand (82), and will in second batch can (10) placement to the vibration generating mechanism (2) and with institute State vibration generating mechanism (2) be connected and a code reader (86), the code reader (86) to identify first batch can (1) and Second batch can (10).

Detailed description of the invention

Fig. 1 is the first stereoscopic schematic diagram of high-throughput powder transfer device of the invention.

Fig. 2 is the sectional view of the first batch can of high-throughput powder transfer device of the invention.

Fig. 3 is the enlarged drawing of part B in Fig. 2.

Fig. 4 is the first batch can stereoscopic schematic diagram of high-throughput powder transfer device of the invention.

Fig. 5 is the enlarged drawing of part A in Fig. 4.

Fig. 6 is the sectional view of high-throughput powder transfer device of the invention.

Fig. 7 is the first enlarged drawing of C portion in Fig. 6.

Fig. 8 is the second enlarged drawing of C portion in Fig. 6.

Fig. 9 is the second stereoscopic schematic diagram of high-throughput powder transfer device of the invention.

Figure label: locker room under the first batch can of 1-, the second batch can of 10-, the locker room 11-, the upper locker room 112-, 114-, 12- transfer passage, 13- discharge port, 14- vibrating reed, 15- cross sieve, 16- batch can switch, 2- vibration generating mechanism, 3- batch can folder Tool, 4- splice jug, 5- Weighing mechanism, the first damping of 6-, the second damping of 60-, 7- elevating mechanism, 71- lifter plate, 72- lift drive mechanism, 82- batch can rest stand, 84- manipulator, 86- code reader.

Specific embodiment

In order to deepen the understanding of the present invention, below in conjunction with embodiment and attached drawing, the invention will be further described, should The examples are only for explaining the invention, is not intended to limit the scope of the present invention..

In the present embodiment, as shown in Figure 1, a kind of realization conveying capacity is moderate, high-throughput powder transfer device with high accuracy 100 include one first batch can 1 and a vibration generating mechanism 2.First batch can 1 include a locker room 11, a transfer passage 12 with An and discharge port 13.Locker room 11 is connected to discharge port 13 to locker room 11, deposits to store powder to be conveyed, transfer passage 12 Storage chamber 11 has independent transfer passage 12, prevents a variety of powder common-use tunnels for storing powder to be conveyed, the first batch can 1 Cause experimental material contaminated.Transfer passage 12 is horizontally disposed, is the transfer passage of straight, flat, is conducive to the vibration for keeping powder The consistency for moving forward speed, improves delivery precision.Vibration generating mechanism 2 is connected with the first batch can 1 and drives the first material The oblique upper in tank 1 towards 13 direction of discharge port vibrates, and moves forward the powder of contact, vibration generating mechanism 2 can be by adjusting electricity The size of pressure adjusts the speed of conveying.

As shown in Fig. 2, the first batch can 1 further includes that sieve 15, excessively a sieve 15 excessively is set to locker room 11 in the present embodiment Interior and locker room 11 is separated on one locker room 112 and once locker room 114, lower locker room 114 connects with transfer passage 12 It is logical.Cross sieve 15 makes powder by sieve using the vibration force of vibration generating mechanism 2, increases the uniformity of powder, improves Delivery precision.

Fig. 3 is the enlarged drawing of part B in Fig. 2, and as shown in Figure 2 and Figure 3, the first batch can 1 further includes a vibration in the present embodiment Movable plate 14, transfer passage 12 are located at the lower section of locker room 11, and vibrating reed 14 is set between locker room 11 and transfer passage 12, vibration Generating mechanism 2 drive the first batch can 1 vibrate when vibrating reed 14 vibrate, vibrating reed 14 using the vibration force of vibration generating mechanism 2 come Vibration.Make powder smooth delivery of power, solves powder and concentrated in 11 bottom end stress of locker room, be easy what arch camber was blocked so as to cause powder Problem.

Fig. 5 is the enlarged drawing of part A in Fig. 4.Such as Fig. 4, Fig. 5, the first batch can 1 further includes that a batch can is opened in the present embodiment 16 are closed, batch can switch 16 is set at discharge port 13, to selectively close off or open discharge port 13.

In the present embodiment, high-throughput powder transfer device 100 further includes a batch can fixture 3 and one second damper mechanism 60.Batch can fixture 3 is set on vibration generating mechanism 2, and batch can fixture 3 is to clamp the first batch can 1, and batch can fixture 3 is the first material Tank 1 is fixed on vibration generating mechanism 2, is passed to the energy of vibration on the first batch can 1, and the first batch can 1 of driving conveys powder. Second damper mechanism 60 is set between elevating mechanism 7 and vibration generating mechanism 2, and the second damping 60 occurs to buffering vibration The vibration that mechanism 2 generates the other structures in addition to the first batch can 1 and batch can fixture 3.

As shown in fig. 6, in another embodiment, high-throughput powder transfer device 200 further includes a splice jug 4, one weighing Mechanism 5 and one first damper mechanism 6.Splice jug 4 is set to the lower section of discharge port 13, to the powder exported received from discharge port 13 Body.Weight of the Weighing mechanism 5 to weigh powder in splice jug 4 and its splice jug 4, passes through the high-precision weighing of Weighing mechanism 5 The feedback of sensor adjusts in real time or stops vibration, controls powder conveying amount, so that delivery precision is very high.The One damper mechanism 6 is set to the lower section of Weighing mechanism 5, to buffer the vibration of Weighing mechanism 5 and splice jug 4.High-throughput powder is defeated Send device 200 includes an elevating mechanism 7 again, and elevating mechanism 7 includes a lifter plate 71 and a lift drive mechanism 72, lifter plate 71 are connected with vibration generating mechanism 2, and the output shaft of lift drive mechanism 72 is connected with lifter plate 71, to drive on lifter plate 71 It rises or declines.Elevating mechanism 7 is convenient for after rising to drive vibration generating mechanism 2 and the first batch can 1 thereon to rise or fall Splice jug 4 is put to 13 lower section of discharge port or is taken away from below discharge port 13, its discharge port 13 is located at splicing after the decline of the first batch can 1 The opening of tank 4.

Vibration generating mechanism 4 adjusts the size of the amplitude of vibration by the size of voltage, and Fig. 7 is the of C portion in Fig. 6 One enlarged drawing, schematic diagram when display 4 amplitude of vibration generating mechanism is big and powder output doses is big, Fig. 8 is also C portion in Fig. 6 The second enlarged drawing, it is shown that 4 amplitude of vibration generating mechanism is small and the schematic diagram of powder output doses hour.

As shown in figure 9, in another embodiment, high-throughput powder transfer device 300 further includes a batch can rest stand 82, one Manipulator 84 and a code reader 86, batch can rest stand 82 are placed at least one second batch can 10, and manipulator 84 is by the first batch can 1 Place on batch can rest stand 82, and by the second batch can 10 place on vibration generating mechanism 2 and with 2 phase of vibration generating mechanism Even, code reader 86 clamps second on batch can rest stand 82 by manipulator 84 to identify the first batch can 1 and the second batch can 10 Batch can 2 replaces powder type, and code reader 86 is allowed to carry out data acquisition, and computer carries out integrated arrangement, realizes high-throughput powder Dispensing.

Compared with the existing technology, the invention has the following advantages that the present invention provides and a kind of meets laboratory or conceptual phase The high-throughput powder transfer device of the demand of high, the more autonomous channel of required conveying capacity, precision, solves that conveying capacity is excessive or mistake It is small, precision is low, channel is single or the powder conveying apparatus of Multi-channel crossed is not suitable for laboratory or conceptual phase and uses, meet Not conveying capacity (between 0.001g~500g), technical problem with high accuracy needed for laboratory or conceptual phase.Mechanism hair Conveying capacity needed for bright high-throughput powder transfer device not only meets laboratory or conceptual phase, precision height, more autonomous channels Demand, additionally it is possible to increase the additional functions such as ingredient, data acquisition, the various experimental wares of dual-purpose are performed fully automatic.It can apply It is ground in some new and high technology materials such as lithium ion battery, medicine bioengineering, quotient's performance ceramic material, new energy materials and composite materials Study carefully industry, laboratory or conceptual phase is suitble to carry out investigation of materials and small lot production.

It should be understood that the above is only a preferred embodiment of the present invention, the scope of the patents of the invention cannot be therefore limited, It is all to utilize equivalent structure or equivalent flow shift made by description of the invention and accompanying drawing content, it is applied directly or indirectly in Other related technical areas are included within the scope of the present invention.

Claims (13)

1. a kind of high throughput powder transfer device, the high throughput powder transfer device include:

One first batch can (1), first batch can (1) include a locker room (11), a transfer passage (12) and a discharge port (13), the locker room (11) is connected to the discharge port (13) extremely to store powder to be conveyed, the transfer passage (12) The locker room (11)；And

One vibration generating mechanism (2), the vibration generating mechanism (2) are connected with first batch can (1) and drive described first The oblique upper in batch can (1) towards the discharge port (13) direction vibrates.

2. high throughput powder transfer device as described in claim 1, which is characterized in that first batch can (1) further includes one Vibrating reed (14), the transfer passage (12) are located at the lower section of the locker room (11), and the vibrating reed (14) is set to described deposit Between storage chamber (11) and the transfer passage (12), the vibration generating mechanism (2) drives the first batch can (1) vibration when institute State vibrating reed (14) vibration.

3. high throughput powder transfer device as described in claim 1, which is characterized in that first batch can (1) further includes one It crosses sieve (15), described cross sieve (15) are set in the locker room (11), and the locker room (11) are separated on one and are deposited Storage chamber (112) and once locker room (114), the lower locker room (114) are connected to the transfer passage (12).

4. high throughput powder transfer device as described in claim 1, which is characterized in that first batch can (1) further includes one Batch can switchs (16), and the batch can switch (16) is set at the discharge port (13), described to selectively close off or open Discharge port (13).

5. high throughput powder transfer device as described in claim 1, which is characterized in that the high throughput powder transfer device is also Including a batch can fixture (3), the batch can fixture (3) is set on the vibration generating mechanism (2), and the batch can fixture (3) is used To clamp first batch can (1).

6. high throughput powder transfer device as described in claim 1, which is characterized in that transfer passage (12) level is set It sets.

7. high throughput powder transfer device as described in claim 1, which is characterized in that the high throughput powder transfer device is also Including a splice jug (4), the splice jug (4) is set to the lower section of the discharge port (13), to received from the discharge port (13) powder exported.

8. high throughput powder transfer device as claimed in claim 7, which is characterized in that the high throughput powder transfer device is also Including a Weighing mechanism (5), weight of the Weighing mechanism (5) to weigh the splice jug (4).

9. high throughput powder transfer device as claimed in claim 8, which is characterized in that the high throughput powder transfer device is also Including one first damper mechanism (6), first damper mechanism (6) is set to the lower section of the Weighing mechanism (5), to buffer State the vibration of Weighing mechanism (5) and the splice jug (4).

10. high throughput powder transfer device as described in claim 1, which is characterized in that the high throughput powder transfer device It further include an elevating mechanism (7), the elevating mechanism (7) is to drive the vibration generating mechanism (2) to rise or fall.

11. high throughput powder transfer device as claimed in claim 10, which is characterized in that the high throughput powder transfer device It further include one second damper mechanism (60), second damper mechanism (60) is set to the elevating mechanism (7) and the vibration is sent out Between life structure (2).

12. high throughput powder transfer device as claimed in claim 10, which is characterized in that the elevating mechanism (7) includes:

One lifter plate (71), the lifter plate (71) are connected with the vibration generating mechanism (2)；And

The output shaft of one lift drive mechanism (72), the lift drive mechanism (72) is connected with the lifter plate (71), to The lifter plate (71) is driven to rise or fall.

13. high throughput powder transfer device according to claim 1, it is characterised in that: the high throughput powder conveying dress It sets further include:

One batch can rest stand (82), the batch can rest stand (82) are placed at least one second batch can (10)；

One manipulator (84), the manipulator (84) place first batch can (1) to the batch can rest stand (82), and It will be connected in second batch can (10) placement to the vibration generating mechanism (2) and with the vibration generating mechanism (2)；And

One code reader (86), the code reader (86) is to identify first batch can (1) and second batch can (10).