CN109808067A - A kind of nanometer micropore sheet metal forming hybrid system - Google Patents

Abstract

The invention discloses a kind of nanometer micropore sheet metal forming hybrid systems, it is related to microwell plate field shaping technique, aim to solve the problem that the technical problem that Manual material feeding causes production efficiency low, its key points of the technical solution are that including microwell plate molding equipment, first storage bin and the second storage bin, conveying pipeline is communicated on first storage bin and the second storage bin, conveying pipeline is connected with the storehouse that feeds intake far from one end of the first storage bin and the second storage bin, storehouse lower section feed intake equipped with high-speed mixer, high-speed mixer is equipped with discharge port, the inner sidewall of discharge port is connected with discharge nozzle, discharge nozzle is equipped with clinker storehouse far from the one end in the storehouse that feeds intake, side of the conveying storehouse far from high-speed mixer is connected with microwell plate molding equipment, first storage bin and the second storage bin are by feedstock transportation to feeding intake in storehouse, then it conveys and enters in clinker storehouse after being sufficiently mixed in high-speed mixer, most Enter microwell plate molding equipment afterwards, starts to process microwell plate, whole process the degree of automation is very high, substantially increases production efficiency.

Description

A kind of nanometer micropore sheet metal forming hybrid system

Technical field

The present invention relates to microwell plate field shaping techniques, more specifically, it relates to which a kind of nanometer micropore sheet metal forming mixes System.

Background technique

Nanometer micropore plate is a kind of high temperature insulating material, is a kind of best material of current heat-proof quality, heat-proof quality Make 3-4 times of the heat-barrier material of traditional fibre class；The material is generally used in heat preservation, the higher occasion of power conservation requirement, or To the occasion using finite thickness of heat-barrier material, it is chiefly used in Ferrous Metallurgy, aluminium industry, chemical industry equipment and electric equipment products etc. Industry field.

The existing Chinese patent application No. is CN201210370011.X provides a kind of high-temperature resistant nano micropore thermal insulation board Dry-forming method, the merging of different material that ratio weighs up is dispersed with stirring in equipment and is stirred dispersion and obtains mixture, It feeds the mixture into the mold of press, the mixture in mold is carried out to be pressed into core material.

But in production, the weighing, stirring, feeding of raw material, molding various processes are all carried out separately, in this way, The more time is just wasted during to raw material transfer, under causing production efficiency relatively low, thus it is to be improved.

Summary of the invention

In view of the deficiencies of the prior art, the present invention intends to provide a kind of nanometer micropore sheet metal forming mixed stocker System has the advantage for improving production efficiency.

To achieve the above object, the present invention provides the following technical scheme that

A kind of nanometer micropore sheet metal forming hybrid system, including microwell plate molding equipment, the first storage bin and the second storage bin, it is described It is communicated with conveying pipeline on first storage bin and the second storage bin, the conveying pipeline is far from the first storage bin and the second storage bin One end is connected with the storehouse that feeds intake, and high-speed mixer is provided with below the storehouse that feeds intake, discharging is offered on the high-speed mixer Mouthful, the inner sidewall of the discharge port is connected with discharge nozzle, and the discharge nozzle is provided with clinker storehouse far from the one end in the storehouse that feeds intake, described Side of the conveying storehouse far from high-speed mixer is connected with microwell plate molding equipment.

By using above-mentioned technical proposal, the first storage bin and the second storage bin are by different feedstock transportation to the storehouse that feeds intake It is interior, then convey and enter in clinker storehouse after being sufficiently mixed in high-speed mixer, finally enter microwell plate molding equipment, microwell plate at Type equipment operation starts to process microwell plate, and whole process the degree of automation is very high, substantially increases production efficiency.

Further, several peep holes are offered on the high-speed mixer, the inner sidewall of the peep hole is provided with Tabula rasa, the light-transmitting plate are transparent.

By using above-mentioned technical proposal, by peep hole can the mixing situation to raw material in high-speed mixer carry out with When monitor.

Further, it is provided with illuminator at the aperture of the peep hole, is connected with light source controller on the illuminator, The light source controller is located on the lateral wall of high-speed mixer.

By using above-mentioned technical proposal, when illuminator distributes light, effectively enhance visual inside high-speed mixer Degree, in this way, easily facilitating the observation of staff.

Further, sensor is connected on the light source controller, the sensor is located at the outside of high-speed mixer On wall.

By using above-mentioned technical proposal, when high-speed mixer is in operating condition, sensor sends out light source controller Signal out, light-source controller controls illuminator issue feux rouges, warn to field personnel；When high-speed mixer stops transporting Row, sensor issue signal to light source controller, and light-source controller controls illuminator issues white light, to remind staff.

Further, the lateral wall of the high-speed mixer is provided with link block, offers on the link block and high speed The handle hole one communicated inside mixing machine, the inner sidewall of the handle hole one are provided with gate, and the both ends of the gate are set respectively It is equipped with rotating bar, the mounting hole that the inner sidewall of the handle hole one offers for rotating bar insertion；The outside of the link block Wall is rotatably connected to the latch segment to offset with gate.

By using above-mentioned technical proposal, when need to the inside of high-speed mixer be overhauled or be cleared up, gate be opened, It by handle hole one, is overhauled or is cleared up convenient for the inside to high-speed mixer, in this way, greatly facilitating the behaviour of staff Make.

Further, the rotating bar is provided with ratchet far from one end of gate, is provided on the ratchet and mutually nibbles with it The fixed link of conjunction, the inner sidewall of the mounting hole offer receiving hole, and the fixed link is located at receiving hole far from one end of ratchet It is interior, spring is provided in the receiving hole, one end of the spring is connected to fixed link, and the other end of the spring is connected to appearance Receive the bottom wall in hole；The fixed link is provided with inclined-plane close to one end of ratchet；The fixed link is provided with close to one end of spring Pull rod, the spring pocket are set to the lateral wall of pull rod, and the handle hole two stretched out for pull rod is offered on the link block, described The diameter of handle hole two is less than the diameter of receiving hole.

By using above-mentioned technical proposal, when gate rotates down, gate drives rotating bar rotation, and rotating bar drives ratchet Rotation, ratchet are mutually abutted with inclined-plane, apply thrust to inclined-plane, to apply thrust to fixed link, fixed link carries out spring Compression；When fixed link rotates, and inclined-plane and ratchet are mutually disengaged, fixed link blocks ratchet, ratchet is fixed, thus to machine Door is fixed, and by aforesaid operations, can operate the angle that gate rotates down.

Further, the fixed link is arranged with rubber ring close to one end of ratchet, and the inner ring of the rubber ring is located at oblique On face, outer ring and the ratchet of the rubber ring offset.

By using above-mentioned technical proposal, rubber ring sleeve is located at fixed link, and reduction fixed link is mutually pushed against with inclined-plane to be produced Raw abrasion.

Further, the lateral wall of the gate is provided with sealing ring, offers on the gate and sets for sealing ring Mounting groove.

By using above-mentioned technical proposal, when gate is located at the inner sidewall of handle hole one, gate squeezes sealing ring, Sealing ring blocks the gap between the inner sidewall and gate of handle hole one, effectively improves the sealing effect of high-speed mixer Fruit.

Further, the sealing ring is internally provided with deformation cavity, and several and deformation is offered on the sealing ring The stomata that cavity communicates.

By using above-mentioned technical proposal, when sealing ring is squeezed, the volume of deformation cavity reduces, and air passes through stomata Discharge is reinforced the close connection between sealing ring and one inner sidewall of handle hole, is further increased so as to improve the deformation of sealing ring Sealing effect.

In conclusion the invention has the following advantages:

1, it is communicated with conveying pipeline on the first storage bin and the second storage bin, conveying pipeline is far from the first storage bin and the second storage bin One end be connected with the storehouse that feeds intake, high-speed mixer is provided with below the storehouse that feeds intake, discharge port is offered on high-speed mixer, discharge The inner sidewall of mouth is connected with discharge nozzle, and discharge nozzle is provided with clinker storehouse far from the one end in the storehouse that feeds intake, and conveying storehouse is far from mixed at high speed The side of machine is connected with microwell plate molding equipment, and the first storage bin and the second storage bin are by different feedstock transportation to the storehouse that feeds intake It is interior, then convey and enter in clinker storehouse after being sufficiently mixed in high-speed mixer, finally enter microwell plate molding equipment, microwell plate at Type equipment operation starts to process microwell plate, and whole process the degree of automation is very high, substantially increases production efficiency；

2, sealing ring is internally provided with deformation cavity, offers several stomatas communicated with deformation cavity on the sealing ring, When sealing ring is squeezed, the volume of deformation cavity reduces, and air is discharged by stomata, so as to improve the deformation of sealing ring, adds Close connection between one inner sidewall of strong sealing ring and handle hole, further increases sealing effect.

Detailed description of the invention

Fig. 1 is a kind of overall structure diagram of nanometer micropore sheet metal forming hybrid system in embodiment；

Fig. 2 is in embodiment for embodying the dismantling schematic diagram of relationship between light-transmitting plate and high-speed mixer；

Fig. 3 is in embodiment for embodying the dismantling schematic diagram of connection relationship between gate and link block；

Fig. 4 is in embodiment for embodying the dismantling schematic diagram of connection relationship between fixed link and ratchet；

Fig. 5 is in embodiment for embodying the dismantling schematic diagram of connection relationship between gate and sealing ring.

In figure: 1, microwell plate molding equipment；2, the first storage bin；21, the second storage bin；22, conveying pipeline；3, feed intake storehouse； 4, high-speed mixer；41, discharge port；411, discharge nozzle；42, peep hole；421, light-transmitting plate；43, illuminator；431, light source control Device；432, sensor；441, link block；441, handle hole one；4411, mounting hole；4412, receiving hole；4413, spring；5, machine Door；51, latch segment；52, rotating bar；53, ratchet；6, fixed link；61, inclined-plane；611, rubber ring；62, pull rod；621, handle hole Two；7, sealing ring；71, mounting groove；72, deformation cavity；73, stomata；8, clinker storehouse.

Specific embodiment

Below in conjunction with attached drawing, invention is further described in detail.

Embodiment:

A kind of nanometer micropore sheet metal forming hybrid system, referring to Fig.1 comprising microwell plate molding equipment 1, the first storage bin 2 and Storage has different raw materials, the first storage bin 2 and second respectively in two storage bins 21, the first storage bin 2 and the second storage bin 21 Conveying pipeline 22 is communicated on storage bin 21, conveying pipeline 22 is connected with far from one end of the first storage bin 2 and the second storage bin 21 Feed intake storehouse 3, and conveying pipeline 22 and the storehouse 3 that feeds intake are interconnected, and the lower section in the storehouse 3 that feeds intake is provided with high-speed mixer 4, high-speed mixer 4 Lower end offer discharge port 41, the inner sidewall of discharge port 41 has been bolted to connection discharge nozzle 411, and discharge nozzle 411 is remote The one end for separating out material mouth 41 is connected with clinker storehouse 8, side of the clinker storehouse 8 far from high-speed mixer 4 by pipeline and microwell plate at Type equipment 1 is interconnected；When whole system in the running, the raw material in the first storage bin 2 and in the second storage bin 21 are defeated It send and enters the storehouse 3 that feeds intake by conveying pipeline 22 under the action of pumping, high-speed mixer 4, high-speed mixer are then entered out of feed intake storehouse 3 After 4 pairs of raw materials are sufficiently mixed, raw material is discharged from discharge port 41, enters clinker storehouse 8 by discharge nozzle 411, in delivery pump Under effect, mixed raw material enters microwell plate molding equipment 1, is normally produced.

Referring to Fig. 2, several peep holes 42 are offered on high-speed mixer 4, are equipped with light-transmitting plate in several peep holes 42 421, light-transmitting plate 421 is transparent, through light-transmitting plate 421 it can be observed that the mixing situation of 4 inside raw material of high-speed mixer；It is high The lateral wall of fast mixing machine 4 is fixedly connected with LED Color-changing lamp by screw, and LED Color-changing lamp is as illuminator 43, LED Color-changing lamp Upper to have light source controller 431 by connection, light source controller 431 is bolted to connection in the outer of high-speed mixer 4 On side wall, the opening and closing of LED Color-changing lamp are controlled by light source controller 431, by LED Color-changing lamp to high-speed mixer 4 inside is irradiated, convenient for more clearly observing；The lateral wall of high-speed mixer 4 is provided with sensor 432 by screw, When high-speed mixer 4 in the running, sensor 432 to light source controller 431 issue signal, light source controller 431 control LED become Colored lights issues feux rouges, and just in operation, when high-speed mixer 4 shuts down, sensor 432 is to light source controller for caution device 431 issue signal, and light source controller 431 controls LED Color-changing lamp and issues white light, is irradiated to the inside of high-speed mixer 4.

Referring to Fig. 2 and Fig. 3, the lateral wall of high-speed mixer 4 is provided with link block 44 by welding, opens up on link block 44 There is the handle hole 1 being connected with inside high-speed mixer 4, the inner sidewall of handle hole 1 is provided with gate 5, gate 5 Both ends pass through welding respectively and are provided with rotating bar 52, and the inner sidewall of handle hole 1 offers the peace being inserted into for rotating bar 52 Hole 4411 is filled, rotating bar 52 can rotate on the axial direction of handle hole 1, and when rotating bar 52 rotates, rotating bar 52 is driven Gate 5 rotates upwardly and downwardly；The latch segment to offset with the lateral wall of gate 5 is connected with by pin rotation on the lateral wall of link block 44 51, when gate 5 blocks handle hole 1, latch segment 51 carries out locking to gate 5, to limit rotating bar 52 along installation The axial direction in hole 4411 rotates.

Referring to Fig. 3 and Fig. 4, the one end of rotating bar 52 far from gate 5 is provided with ratchet 53 by welding, mounting hole 4411 Inner sidewall offers receiving hole 4412, and the fixed link 6 matched with ratchet 53 is inserted in receiving hole 4412, and fixed link 6 is stretched out One end of receiving hole 4412 is provided with inclined-plane 61, and one end that fixed link 6 is inserted into receiving hole 4412 is provided with spring 4413, spring 4413 one end is connected to fixed link 6, and the other end of spring 4413 is connected to the bottom wall of receiving hole 4412；Fixed link 6 leans on short round One end of spring 4413 is sheathed on the lateral wall of pull rod 62 by being welded and connected with pull rod 62, spring 4413, on high-speed mixer 4 The handle hole 2 621 stretched out for pull rod 62 is offered, the diameter of handle hole 2 621 is less than the diameter of receiving hole 4412；Work as machine When door 5 rotates down, gate 5 drives rotating bar 52 to rotate, and rotating bar 52 drives ratchet 53 to rotate, process of the ratchet 53 in rotation In, it offseting with the inclined-plane 61 in fixed link 6, ratchet 53 applies thrust to fixed link 6, and fixed link 6 is moved into receiving hole 4412, Spring 4413 is compressed simultaneously.

Referring to Fig. 4, fixed link 6 is arranged with rubber ring 611 close to one end of ratchet 53, and rubber ring 611 is bound round in fixed link 6 On, the inner ring and inclined-plane 61 of rubber ring 611 mutually push against, and the lateral wall of rubber ring 611 is mutually abutted with ratchet 53.

Referring to Fig. 5, the surrounding cementation of gate 5 has sealing ring 7, and the mounting groove being embedded in for sealing ring 7 is offered on gate 5 71, sealing ring 7 blocks gate 5 and the gap before one 441 inner sidewall of handle hole, improves the sealing of high-speed mixer 4 Effect；The inside of sealing ring 7 offers deformation cavity 72, and the stomata 73 communicated with deformation cavity 72 is offered on sealing ring 7, when When gate 5 is located at the inner sidewall of handle hole 1, sealing ring 7 is squeezed, and the volume of deformation cavity 72 reduces, concurrent deformation Air in cavity 72 claps discharge out of stomata 73, is conducive to the deformation of sealing ring 7, improves in sealing ring 7 and handle hole 1 Close connection between side wall.

Working principle is as follows:

When that need to process to nanometer micropore plate, the raw material of the first storage bin 2 and the second storage bin 21 is defeated by conveying pipeline 22 It is sent to and feeds intake in storehouse 3, then raw material carries out high-speed mixer 4, and high-speed mixer 4 is operated, is sufficiently mixed to raw material, mixes After the completion, raw material is discharged from discharge port 41, enters clinker storehouse 8 by discharge nozzle 411, is stored in clinker storehouse 8, in delivery pump Under effect, mixed raw material is transported in microwell plate molding equipment 1 out of clinker storehouse 8, and microwell plate molding equipment 1 operates, and is opened Begin processing microwell plate.

During high-speed mixer 4 operates, sensor 432 issues signal, light source controller to light source controller 431 431 control LED Color-changing lamps issue feux rouges, warn to field personnel；When high-speed mixer 4 is out of service, sensor 432 pairs of light source controllers 431 issue signal, and light source controller 431 controls LED Color-changing lamp and issues white light, at this point, staff can Gate 5 is opened, the inside of high-speed mixer 4 is cleared up.

When operating to gate 5, gate 5 is rotated down, gate 5 drives rotating bar 52 to rotate, and rotating bar 52 drives Ratchet 53 rotates, and ratchet 53 is connected on inclined-plane 61, applies pressure to fixed link 6, and fixed link 6 is moved into receiving hole 4412, Spring 4413 is compressed simultaneously；Rotating tension bar 62, so that inclined-plane 61 is detached from ratchet 53, in this way, fixed link 6 and 53 phase of ratchet Mutually cooperation, is fixed ratchet 53, the rotation of ratchet 53 is limited, gate 5 to be fixed.

This specific embodiment is only explanation of the invention, is not limitation of the present invention, those skilled in the art Member can according to need the modification that not creative contribution is made to the present embodiment after reading this specification, but as long as at this All by the protection of Patent Law in the scope of the claims of invention.

Claims (9)

1. a kind of nanometer micropore sheet metal forming hybrid system, including microwell plate molding equipment (1), the first storage bin (2) and the second storage Feed bin (21), it is characterised in that: be communicated with conveying pipeline (22), institute on first storage bin (2) and the second storage bin (21) It states conveying pipeline (22) to be connected with the storehouse that feeds intake (3) far from one end of the first storage bin (2) and the second storage bin (21), the storehouse that feeds intake (3) it is provided with below high-speed mixer (4), offers discharge port (41), the discharge port on the high-speed mixer (4) (41) inner sidewall is connected with discharge nozzle (411), and the discharge nozzle (411) is provided with ripe far from the one end of high-speed mixer (4) Feed bin (8), the clinker storehouse (8) are connected far from the side of high-speed mixer (4) with microwell plate molding equipment (1).

2. a kind of nanometer micropore sheet metal forming hybrid system according to claim 1, it is characterised in that: the high-speed mixer (4) it is offered on several peep holes (42), the inner sidewall of the peep hole (42) is provided with light-transmitting plate (421), the light-transmitting plate (421) it is transparent.

3. a kind of nanometer micropore sheet metal forming hybrid system according to claim 2, it is characterised in that: the peep hole (42) Aperture at be provided with illuminator (43), be connected with light source controller (431), the light source controller on the illuminator (43) (431) on the lateral wall of high-speed mixer (4).

4. a kind of nanometer micropore sheet metal forming hybrid system according to claim 3, it is characterised in that: the light source controller (431) it is connected on sensor (432), the sensor (432) is located on the lateral wall of high-speed mixer (4).

5. a kind of nanometer micropore sheet metal forming hybrid system according to claim 1, it is characterised in that: the high-speed mixer (4) lateral wall is provided with link block (44), and the behaviour communicated with (4) inside high-speed mixer is offered on the link block (44) Make hole one (441), the inner sidewall of the handle hole one (441) is provided with gate (5), and the both ends of the gate (5) are respectively set Have rotating bar (52), the mounting hole (4411) that the inner sidewall of the handle hole one (441) offers for rotating bar (52) insertion； The lateral wall of the link block (44) is rotatably connected to the latch segment (51) to offset with gate (5).

6. a kind of nanometer micropore sheet metal forming hybrid system according to claim 5, it is characterised in that: the rotating bar (52) One end far from gate (5) is provided with ratchet (53), is provided with meshed fixed link (6), institute on the ratchet (53) The inner sidewall for stating mounting hole (4411) offers receiving hole (4412), and the fixed link (6) is located at far from the one end of ratchet (53) In receiving hole (4412), it is provided with spring (4413) in the receiving hole (4412), one end of the spring (4413) is connected to The other end of fixed link (6), the spring (4413) is connected to the bottom wall of receiving hole (4412)；The fixed link (6) is close to spine One end of wheel (53) is provided with inclined-plane (61)；The fixed link (6) is provided with pull rod (62), institute close to the one end of spring (4413) The lateral wall that spring (4413) is sheathed on pull rod (62) is stated, the behaviour stretched out for pull rod (62) is offered on the link block (44) Make hole two (621), the diameter of the handle hole two (621) is less than the diameter of receiving hole (4412).

7. a kind of nanometer micropore sheet metal forming hybrid system according to claim 6, it is characterised in that: the fixed link (6) One end close to ratchet (53) is arranged with rubber ring (611), and the inner ring of the rubber ring (611) is located on inclined-plane (61), described The outer ring of rubber ring (611) offsets with ratchet (53).

8. a kind of nanometer micropore sheet metal forming hybrid system according to claim 7, it is characterised in that: the gate (5) Lateral wall is provided with sealing ring (7), and the mounting groove (71) set for sealing ring (7) is offered on the gate (5).

9. a kind of nanometer micropore sheet metal forming hybrid system according to claim 8, it is characterised in that: the sealing ring (7) Be internally provided with deformation cavity (72), several stomatas communicated with deformation cavity (72) are offered on the sealing ring (7) (73)。