CN202700873U - Chip online cleaning device - Google Patents

Abstract

The utility model discloses a chip online cleaning device which comprises an automatic feeding device, an immersing type cleaning device, a spraying type cleaning device and a positioning platform. The immersing type cleaning device comprises an immersion cleaning cabinet and a wind cutting mechanism, a feeding conveying belt and a discharging conveying belt are installed inside the immersion cleaning cabinet, an immersion cleaning pond containing immersion cleaning liquid is installed between the feeding conveying belt and the discharging conveying belt, and a first conveying frame and a second conveying frame are installed in the immersion cleaning pond side by side, wherein the first conveying frame corresponds to the feeding conveying belt, and the second conveying frame corresponds to the discharging conveying belt; and the first conveying frame comprises two pairs of conveying belts which move downwards synchronously and vertically, a sliding board which slides between the first conveying frame and the second conveying frame is installed at an lower portion position between the two pairs of conveying belts, and a stirring mechanism is installed on an upper portion position between the first conveying frame and the second conveying frame, wherein the stirring mechanism is used for stirring chips to the discharging conveying belt relative to the discharging conveying belt. The chip online cleaning device can achieve long-time immersion cleaning and short-time spraying cleaning for chips, and effectively remove large particle pollution and micropollution on the surfaces of chips.

Description

Chip on-line cleaning equipment

Technical field

The utility model relates to a kind of plant equipment for cleaning chip, specifically a kind of immersion type cleaning equipment for cleaning microbe chip.

Background technology

In recent years, the microbial technique development is swift and violent, and microbe chip is widely used in the every field such as biology, medicine.The preparation process of microbe chip is quite strict, in the ways such as production, cutting, transportation, the surface of microbe chip is contaminated easily, and microbe chip as a kind of take micron as the preparation unit workpiece, workpiece must be through strict cleaning in the production, otherwise, even micropollution also can cause the inefficacy of final products device.Therefore, being washed to of microbe chip is important process procedure, and this cleaning process exigent cleanliness factor all.

The purpose of cleaning is to remove surface contamination impurity, comprises organic matter and inorganic matter.These impurity have with state of atom or ionic condition, what have is present in the surface with form of film or particle form.Wherein, organic contamination comprises grease or the fiber that organic solvent residual and people's contact devices, instrument, vessel bring.Inorganic pollution comprises heavy metal gold, copper, iron, chromium etc., and these pollutants have a strong impact on later stage product verification and measurement ratio; Particle contamination then comprises glass dregs, plastic grain, dust, bacterium, microorganism, organic colloid fiber etc., can cause various defectives.Remove the method for polluting and comprise physical cleaning, two kinds of patterns of Chemical cleaning.

The utility model content

The utility model technical issues that need to address provide the chip on-line cleaning equipment that a kind of automaticity is high, cleaning performance is good.

For solving the problems of the technologies described above, the technical scheme that the utility model adopts is:

Chip on-line cleaning equipment, comprise that some rear ends are provided with the soaking-type cleaning device of wind cutting mechanism, described soaking-type cleaning device comprises the cabinet that embathes of sealing, one side of embathing in the cabinet arranges a pair of feed conveyor belt of holding the horizontal movement of chip dual-side that is connected automatic feed mechanism, embathe the discharging conveyer belt of a pair of horizontal movement that the opposite side setting in the cabinet is connected with the wind cutting mechanism, arrange between described feed conveyor belt and the discharging conveyer belt and be loaded with the pond of embathing of embathing liquid, described the first conveying frame that is arranged side by side corresponding feed conveyor belt in the pond that embathes, the second conveying frame of corresponding discharging conveyer belt; Described the first conveying frame comprises by the linking of machine power control holds respectively two pairs of material-conveying belts that a side synchronous vertical of chip moves downward in the feed conveyor belt rear end, what the lower position between the two pairs of material-conveying belts was provided with chip-detecting apparatus slides on slide plate between the first conveying frame and the second conveying frame by the screw slider mechanism controls, described the second conveying frame comprises two pair the material-conveying belts that synchronous vertical move upward identical with the first conveying shelf structure, and the first conveying frame arranges the material toggling mechanism that corresponding discharging conveyer belt toggles it to chip the discharging conveyer belt with upper position between the second conveying frame.

Further improvement of the utility model is: the lower position between the described a pair of feed conveyor belt arranges and promotes chip to the push rod of the first conveying frame motion, one end of push rod connects horizontally disposed cylinder, the middle part of push rod arranges turning cylinder, and the other end of push rod is the arcuate structure of the side of terminal corresponding chip.

Further improvement of the utility model is: the interval arranges the supporting plate of holding sides of chip in correspondence with each other on the material-conveying belt of described the first conveying frame and the second conveying frame, supporting plate on the every pair of material-conveying belt all extends internally and exceeds the side of material-conveying belt inboard, also arranges on the material-conveying belt of each supporting plate top chip is carried out spacing baffle plate; Each of the first conveying frame top held the cross swivel mount that is promoted next chip by push rod to corresponding setting the between the material-conveying belt, the cross swivel mount comprises the rotating shaft that is located between the material-conveying belt, the swivel plate of four orthogonal settings is set on the rotating shaft, and wherein any swivel plate is from stretching out between the material-conveying belt and being overlapped on two supporting plates of correspondence position.

Further improvement of the utility model is: described material toggling structure comprises the driving lever that is vertically connected on horizontally disposed driving cylinder output, and the middle part of driving lever arranges rotating shaft, a side of chip on corresponding the second conveying frame of the free end of driving lever.

Further improvement of the utility model is: the machine power controlling organization of the material-conveying belt of described the first conveying frame and the second conveying frame comprises that a circle that is positioned at two pairs of material-conveying belt upper ends is by the belt of servomotor by the gear driven rotation, four angles of the corresponding material-conveying belt of belt all arrange travelling gear, the below of each travelling gear arranges a bevel gear of rotating synchronously, the drive bevel gear that cooperates with bevel gear drives the driving gear synchronous rotary that is positioned at material-conveying belt top, and the bottom of material-conveying belt arranges driven gear.

The utility model further improves and is: the outside of every pair of material-conveying belt of described the first conveying frame and the second conveying frame be oppositely arranged corresponding with each layer supporting plate in passing through pipeline and intake pump and embathing the pond embathe that liquid is communicated with chip is carried out the hole for water spraying of hydro-peening, the spray angle of described each layer hole for water spraying correspondence chip from top layer the middle transition of aligning chip to the edge of the aligning chip of bottom.

The utility model further improves and is: described wind cutting mechanism comprises that the wind of sealing cuts cabinet, wind is cut the wind that a pair of transportation chip is set in the cabinet and is cut conveyer belt, the top that wind is cut conveyer belt arranges the first air compartment that is connected with some wind wind cutting machines, the first air compartment is communicated with the second air compartment that is positioned at wind and cuts conveyer belt below by intake stack, on the described intake stack pressure-reducing valve is set, the corresponding wind wind cutting of the first air compartment machine place is provided with wind and cuts screen pack, and the wind that is positioned at that the position that the corresponding wind of described the first air compartment and the second air compartment is cut conveyer belt arranges is in correspondence with each other cut the angled tangential air outlet of the vertical plane of conveyer belt and chip.

Further improvement of the utility model is: described chip on-line cleaning equipment comprises that also some rear ends arrange the fountain cleaning device of wind cutting mechanism, described fountain cleaning device comprises the spray cabinets of sealing, top in the spray cabinets arranges the spray conveyer belt of a pair of carries chips dual-side, bottom in the spray cabinets arranges the first spray liquid container of sealing, the first spray liquid container connects two by the spray pipeline of water pump and solenoid control, described two spray pipelines lay respectively at the above and below of the chip that carries of spray conveyer belt and the nozzle of corresponding chip are set, spray conveyer belt bottom arranges the transition container of the raffinate behind the collection spray of a upper end open, and transition container is connected to the first spray liquid container by the pipeline that is provided with screen pack.

Further improvement of the utility model is: also arrange in the spray cabinets of described fountain cleaning device with the first spray liquid container and be arranged in parallel the second spray liquid container that is used for switching spray liquid below transition container.

Further improvement of the utility model is: described chip on-line cleaning equipment also comprises and is positioned at the positioning table that chip is positioned that cleans the line end, described positioning table comprises support, what the following setting of support was corresponding with chip size promotes the lifting table top move up and down by lifting cylinder, the upper surface setting of support is around the detent mechanism that promotes table top, described detent mechanism comprises two adjacent fixed dams that are vertically fixed on rack upper surface, also comprises the active blade by the motion of actuating cylinder driving promotion chip that two relative fixed dams arrange.

Because the technological progress of having adopted technique scheme, the utility model to obtain is:

The cleaning equipment of the utility model design can be realized simultaneously chip soaked and wash and spray is washed, effectively remove bulky grain pollutant and the micropollution of chip surface, and whole cleaning process is carried out in the environment of sealing, non-secondary pollution, rely on the equipment of automation to finish, satisfy the high requirement of high-quality and high-efficiency, automaticity of modern production.

Described soaking-type cleaning device arranges the pond of embathing of sealing, and the device that embathes in the pond all adopts the acid-fast alkali-proof material.The first conveying frame scoops out the chip that come by feed conveyor belt transportation by push rod, and the end of push rod adopts arc structure to promote, and has reduced the active force that makes progress, adopts push rod to shorten simultaneously the stroke of cylinder.Push rod promotes chip, chip is from passing and drop on the swivel plate of cross swivel mount between baffle plate and the supporting plate, swivel plate is along with material-conveying belt moves downward, rotated by the acting in conjunction drive cross swivel mount of material and supporting plate, chip breaks away from the carriage of swivel plate, stable and complete dropping on the supporting plate, by the baffle plate on supporting plate top, chip overcome because of buoyancy may on the problem of floating.Chip reaches the lower end of the first conveying frame, by chip-detecting apparatus, the slide plate receiving chip, slide plate slides with chip transportation to the second conveying frame one side, the supporting plate of the second conveying frame is held chip and is moved upward, and when arriving the corresponding discharging conveyer belt in top, relends and helps material toggling mechanism that chip is stirred to the discharging conveyer belt, the material toggling mechanism design is ingenious rationally, and can be to the chip injury.The material-conveying belt of the first conveying frame and the second conveying frame cooperates realization to be synchronized with the movement by the tooth belt at top, and is simple in structure, reasonable in design, and is convenient to control rate.The hole for water spraying that chip is sprayed in the arranged outside of material-conveying belt, and stepping spray angle is set, further increased and embathed effect, improve the cleannes that chip cleans.

Described fountain cleaning device is enclosed construction, and is not contaminated when guaranteeing spray.The spray conveyer belt that arranges is held two sides of chip, by two spray pipelines up and down spray irrigation is carried out in the above and below of chip, and cleaning process is simple, by water pump and solenoid control cleaning pressure and the water yield, reaches the cleaning requirement of chip.It is reusable by the screen pack filtration that raffinate behind the spray flows into transition container, energy savings.The checkout gear that detects spray liquid situation in the first spray liquid container and the second spray liquid container is set, spray liquid in the first spray liquid container is the time spent again, switches to the second spray liquid container, changes the first spray liquid container, can realize continuous wash, non-stop run.

The high-pressure blast of described wind cutting mechanism is cut screen pack through wind and is entered the first air compartment, part high-pressure blast blows out along the air outlet of the first air compartment, the air knife that forms is striking cover plate at a certain angle, another part high-pressure blast blows out through the air outlet of pressure-reducing valve from the second air compartment along intake stack, forming air knife carries out air-dry to the back side of chip, wind-force is evenly constant, removes the liquid and the part pollutant that remain in chip surface.And the blast of the first air compartment is set greater than the blast of the second air compartment, prevents that chip from being blown afloat.

Described positioning table at first promotes chip on the horizontal plane of detent mechanism by promoting table top, then take two adjacent fixed dams as benchmark, operates two active blade positioning chips, makes things convenient for the operation of pick-up chip in the subsequent technique.

Description of drawings

Fig. 1 is the structural representation of a kind of embodiment of the present utility model;

Fig. 2 is the cabinet internal structure schematic diagram that embathes of the present utility model;

Fig. 3 is the structural representation of the first conveying frame of the present utility model;

Fig. 4 is the partial enlarged drawing of Fig. 3;

Fig. 5 is the structural representation of pusher section of the present utility model;

Fig. 6 is the structural representation of material toggling of the present utility model mechanism;

Fig. 7 is the principle schematic of hole for water spraying part of the present utility model;

Fig. 8 is the internal structure schematic diagram of spray cabinets of the present utility model;

Fig. 9 is the structural representation of wind cutting mechanism of the present utility model;

Figure 10 is the right view of Fig. 9;

Figure 11 is the structural representation of automatic feed mechanism of the present utility model;

Figure 12 is the structural representation of positioning table of the present utility model.

Wherein, 1, feed conveyor belt, 2, the discharging conveyer belt, 3, embathe the pond, 4, the first conveying frame, 5, the second conveying frame, 6, supporting plate, 7, servomotor, 8, belt, 9, gear, 101, travelling gear, 102, bevel gear, 103, bevel gear, 104, drive bevel gear, 105, driving gear, 106, driven gear, 107, material-conveying belt, 108, slide plate, 109, motor, 110, drive cylinder, 111, driving lever, 112, rotating shaft, 113, push rod, 114, cylinder, 115, turning cylinder, 116, the cross swivel mount, 117, rotating shaft, 118, swivel plate, 119, baffle plate, 120, water inlet pipe, 121, the water inlet screen pack, 122, intake pump, 123, pressure-control valve, 124, hole for water spraying, 125, the water spray circuit

21, the first spray liquid container, the 22, second spray liquid container, 23, transition container, 24, the spray conveyer belt, 25, screen pack, 26, magnetic valve, 27, water pump, 28, spray pipeline, 29, nozzle,

31, wind is cut cabinet, and 32, wind cuts conveyer belt, 33, wind wind cutting machine, the 34, first air compartment, the 35, second air compartment, 36, intake stack, 37, pressure-reducing valve, 38, wind cuts screen pack, 39, tangential air outlet,

41, bracing frame, 42, draw-in groove, 43, conveyer belt, 51, support, 52, promote table top, 53, lifting cylinder, 54, fixed dam, 55, active blade, 56, actuating cylinder, A, automatic feed mechanism, B, embathe cabinet, C, wind cutting mechanism, D, spray cabinets, E, positioning table, F, chip.

The specific embodiment

Below in conjunction with embodiment the utility model is described in further details:

Chip on-line cleaning equipment comprises that automatic feed mechanism A, rear end arrange fountain cleaning device, positioning table E that the soaking-type cleaning device of wind cutting mechanism C, rear end arrange identical wind cutting mechanism C.

Described automatic feed mechanism A is arranged on the front end of First on-line cleaning equipment, such as Fig. 1 and shown in Figure 11, automatic feed mechanism A is engaged on the front end of soaking-type cleaning device, supported by bracing frame 41 that feed conveyor belt in a pair of and the soaking-type cleaning device is integrated or the double-chain conveyer belt 43 of split, the draw-in groove 42 that the arranged outside of conveyer belt 43 is fixing, the size of draw-in groove 42 is corresponding with chip size, is used for the chip F that is placed on it is carried out Primary Location.

Described soaking-type cleaning device comprises and embathes cabinet B and wind cutting mechanism C two parts shown in Fig. 2～7.

Describedly embathe cabinet B as shown in Figure 2, a side of embathing in the cabinet B arranges a pair of feed conveyor belt 1 that is connected automatic feed mechanism A, embathes a pair of discharging conveyer belt 2 that the opposite side setting in the cabinet B is connected with wind cutting mechanism C.Feed conveyor belt 1 and discharging conveyer belt 2 are positioned on the same level face, and all are double chain frameworks, and the spacing between its every pair conveyer belt is held respectively the horizontal movement of chip F dual-side all less than the size of chip F during work.Arrange between described feed conveyor belt 1 and the discharging conveyer belt 2 be loaded with embathe liquid embathe pond 3.Embathe the second conveying frame 5 that is arranged side by side the first conveying frame 4 of corresponding feed conveyor belt 1, corresponding discharging conveyer belt 2 in the pond 3.

Described the first conveying frame 4 as shown in Figure 3, comprise two pairs of vertically disposed material-conveying belts 107, the two pairs of material-conveying belts 107 extend along the feedstock direction of feed conveyor belt and arrange, like this, distance between the two pairs of material-conveying belts 107 is corresponding with the spacing of feed conveyor belt 1, at the supporting plate 6 that material-conveying belt 107 arranges in correspondence with each other, can hold chip F and move both vertically.The top of two pairs of material-conveying belts 107 arranges the machine power controlling organization of control material-conveying belt 107 synchronous verticals motion, and this mechanism comprises one around the belt 8 of two pairs of material-conveying belt 107 tops, and described belt 8 is by the cooperate driven rotary of servomotor 7 with gear 9.Gear 9 is arranged on the wherein top of any material-conveying belt, and servomotor 7 corresponding gear 9 are installed in 3 tops of embathing the pond.The top of other material-conveying belts has been provided with the simultaneously fixing pinion of belt of gearing, the belt 8 inboard teeth that match with gear 9, pinion that arrange.Four angles of belt 8 corresponding material-conveying belts all arrange travelling gear 101, and the teeth of travelling gear cooperate with belt, and the below of each travelling gear 101 arranges a bevel gear 102 of rotating synchronously.The drive bevel gear 104 that the side setting of bevel gear 102 cooperates with it, the driving gear 105 of the spur gear structure on the top that is positioned at material-conveying belt 107 of drive bevel gear 104 connections and its synchronous rotary, the bottom of material-conveying belt arranges driven gear 106.Like this, rotatablely moving of belt 8 cooperated by bevel gear pass to every material-conveying belt, make material-conveying belt 107 synchronous verticals upwards or move downward.Among this embodiment, the material-conveying belt 107 in the first conveying frame 4 moves downward synchronously.

Lower position between two pairs of material-conveying belts 107 of the first conveying frame 4 arranges one slide-plate 108, the uniform some apertures of sled surface, on the slide plate 108 also with chip-detecting apparatus.Slide plate 108 is slided between the first conveying frame 4 and the second conveying frame 5 by the screw slider mechanism controls.In order to guarantee the solution corrosion in the not immersed wash pool of motor 109, transmission mechanism such as Fig. 2 and Fig. 3 is set, motor 109 is positioned at and embathes 3 tops, pond, motor 109 cooperates power-conversion for driving the motion of the leading screw rotation between the first conveying frame 4 and the second conveying frame 5 by two groups of bevel gears, the slide block that slides along leading screw is set on the leading screw, and slide block and slide plate 108 are connected to one.

Described the second conveying frame 5 comprises the two pair material-conveying belts 107 identical with the first conveying frame 4 structures, and difference is that these two pairs of material-conveying belts 107 synchronous vertical under the counter-rotating of servomotor 7 drives moves upward.With upper position between the second conveying frame 5 the material toggling mechanism that corresponding discharging conveyer belt toggles it to chip the discharging conveyer belt is set at the first conveying frame 4.Described material toggling structure is shown in Fig. 3 and 6, the horizontally disposed driving cylinder 110 that comprises a side that is arranged on the second conveying frame 5, drive the vertical connection of output of cylinder 110 and the driving lever 111 of discharging conveyer belt level 2, the middle part of driving lever 111 arranges rotating shaft 112, the side of chip F on corresponding the second conveying frame 5 of the free end of driving lever 111.Such as Fig. 6, the output that drives cylinder 110 moves left, and driving lever 111 moves along rotating shaft 112, and free end moves to the right, and the chip F that promotes on the second conveying frame 5 slides into to the right on the discharging conveyer belt 2.

As previously mentioned, the setting supporting plate of holding sides of chip 6 in correspondence with each other in interval on the material-conveying belt of the first conveying frame 4 and the second conveying frame 5.With reference to figure 4, supporting plate 6 on every pair of material-conveying belt is all extended internally exceed the side of material-conveying belt 107 inboards.On the material-conveying belt above each supporting plate, also be provided with chip carried out spacing baffle plate 119, the length of baffle plate can with the material-conveying belt edging, perhaps less than the width of material-conveying belt.Such as Fig. 3 and shown in Figure 5, lower position between a pair of feed conveyor belt 1 arranges and promotes chip to the push rod 113 of the first conveying frame 4 motions, one end of push rod 113 connects horizontally disposed cylinder 114, the middle part of push rod 113 arranges turning cylinder 115, and the other end of push rod 113 is the arcuate structure of the side of terminal corresponding chip F.Such as the motion process of material toggling mechanism, cylinder 114 is to left movement, and push rod 113 rotates along turning cylinder 115, and the curved edge of push rod 113 withstands the side of chip F, and chip F is put under to the right on the first conveying frame 4.In order to make the first conveying frame 4 better be connected chip F, as shown in Figure 4, the corresponding setting held the cross swivel mount 116 that is promoted the chip that comes by push rod between each of the first conveying frame 4 tops is to material-conveying belt.Cross swivel mount 116 comprises the rotating shaft 117 that is located between the material-conveying belt, the swivel plate 118 of four orthogonal settings is set on the rotating shaft 117, the width of swivel plate 118 is less than the width between a pair of material-conveying belt 107, and length is as the criterion can be overlapped on the supporting plate 6.As shown in Figure 4, during work, one of them swivel plate is from stretching out between the material-conveying belt and being overlapped on two supporting plates of material-conveying belt of correspondence position, swivel plate is between supporting plate and baffle plate, chip is promoted by push rod, between supporting plate and baffle plate, pass, and drop on the swivel plate, along with moving downward of material-conveying belt, swivel plate is rotated down by the acting in conjunction of chip and supporting plate, and chip is taken advantage of a situation and broken away from the carriage of swivel plate, and is slipped on the supporting plate, chip is firmly stable between supporting plate and baffle plate, and overcomes the buoyancy that chip may be subject to by baffle plate.Simultaneously, being rotated down of cross swivel mount impels another swivel plate to snap on the last layer supporting plate of material-conveying belt.

The outside layering setting hole for water spraying 124 in correspondence with each other of every pair of material-conveying belt of described the first conveying frame and the second conveying frame, 6 pairs of replies of hole for water spraying 124 and each layer supporting plate chip F carries out hydro-peening in the surface.As shown in Figure 7, the water inlet pipe 120 of one band intake pump 122 is set, the water inlet screen pack 121 that filters embathing liquid is set on the water inlet pipe 120 of intake pump 122 water inlet ends, the water inlet pipe 120 of intake pump 122 water sides arranges the hydro-peening branch road at each layer supporting plate 6 places, on every hydro-peening branch road pressure-control valve 123 is set also, the end of hydro-peening branch road arranges the hole for water spraying 124 of corresponding chip.Intake pump 122 embathes liquid from embathing pond 3 interior extractions after water inlet screen pack 121 filters, from each layer supporting plate 6 chip F is carried out hydro-peening.Wherein, the centre of the spray angle aligned with core sheet of the hole for water spraying of top layer, the edge of the spray angle aligned with core sheet of the hole for water spraying of bottom, the spray angle of the hole for water spraying of middle each layer, the hole for water spraying that progressively is transitioned into as shown in Figure 7 bottom from the center that top layer is aimed at chip is aimed at the edge of chip.

The cabinet rear end of embathing of soaking-type cleaning device arranges wind cutting mechanism C, and wind cutting mechanism C is used for the chip after embathing is carried out cold air drying, removes the surface and embathes liquid.Wind cutting mechanism C comprises that the wind of sealing is cut cabinet 31 as shown in Figure 9 and Figure 10, and wind is cut the cabinet 31 interior wind that the next chip of a pair of linking discharging conveyer belt transportation is set and cut conveyer belt 32.It is the same with the structure of discharging conveyer belt 2 that wind is cut conveyer belt 32.The top that wind is cut conveyer belt 32 arranges the first air compartment 34, the first air compartments 34 corresponding wind wind cutting machine places be connected with some wind wind cutting machines 33 and is provided with wind and cuts screen pack 38, and air-out is stable.Wind is cut conveyer belt below and the second air compartment 35, the first air compartments 34 are set are communicated with the second air compartment 35 by intake stack 36, on the described intake stack 36 pressure-reducing valve 37 is set, and guarantees that the interior blast of the first air compartment 34 is greater than the blast of the second air compartment 35.Described the first air compartment 34 and the second air compartment 35 corresponding wind are cut the position setting tangential air outlet 39 in correspondence with each other of conveyer belt, and as shown in figure 10, described tangential air outlet 39 is positioned at the vertical plane that wind is cut conveyer belt 32, and become 60 degree angles with chip.

Described fountain cleaning device comprises spray cabinets D and wind cutting mechanism C two parts, and wind cutting mechanism C is identical with the structure of soaking-type cleaning device.Described spray cabinets D as shown in Figure 8, the top in the spray cabinets D arranges the side that 24, two spray conveyer belts 24 of a pair of spray conveyer belt are held respectively chip F, the tow sides of chip center's part do not contact with the spray conveyer belt.The below of two the spray conveyer belts 24 in middle part of spray cabinets D arranges the transition container 23 of a upper end open, and the first spray liquid container 21 and the second spray liquid container 22 of sealing is set below the transition container 23.Connect the pipeline with screen pack 25 below the transition container 23, this pipeline is divided into two branch roads, connects respectively the first spray liquid container 21 and the second spray liquid container 22.On described pipeline and two branch roads magnetic valve 26 is set all.Described the first spray liquid container 21 be connected spray liquid container 22 and also all connect a fluid pipeline, on each fluid pipeline magnetic valve 26 is set also, it is a main pipe rail that is provided with water pump 27 that the fluid pipeline gathers, main pipe rail branches into two spray pipelines 28 at spray conveyer belt 24 places, article two, spray pipeline 28 lays respectively at the above and below of the chip F that carries of spray conveyer belt 24, and on two spray pipelines 28 magnetic valve 26 is set also.Described the first spray liquid container and the second spray liquid container arrange the checkout gear that detects the spray liquid situation.During work, spray liquid in the first spray liquid container 21 is transported to spray pipeline 28 by magnetic valve 26 and water pump 27 controls, the tow sides of 29 pairs of chips of nozzle of spray pipeline wash, residual spray liquid after the flushing flows into transition container 23, and the raffinate in the transition container 23 is back in the first spray liquid container 21 after filtering through screen pack 25.Spray liquid in checkout gear detects the first spray liquid container 21 is the time spent again, and magnetic valve 26 control fluid pipelines switch to the second spray liquid container 22, change the first spray liquid container 21, can realize continuous wash, non-stop run.

Described positioning table E is arranged on the rear end of production line, as shown in figure 12.Described positioning table E comprises support 51, and the lifting table top 52 that the following setting of support 51 is corresponding with chip size promotes table top 52 and accepts from the next chip F of a upper equipment transmission.The lower end of lifting table top 52 is fastened on the lifting cylinder 53 on the support 51, and lifting cylinder 53 promotes to promote table tops 52 and moves up and down, thereby the chip F on the transportation lifting table top 52 makes progress or moves downward.The upper surface setting of support 51 is around the detent mechanism that promotes table top 52.Described detent mechanism comprises the fixed dam 54 of two adjacent settings, and fixed dam 54 is vertically fixed on the upper surface of support.The opposite of two fixed dams 54 arranges active blade 55, and active blade is driven towards by the actuating cylinder 56 that is installed in active blade 55 back or deviates from fixed dam 54 and move.

In the utility model owing to be provided with uniform specification, the conveyer belt that overlaps, suitable adjustment all can be done in the quantity of each cleaning device and position, and according to cleaning requirement cleaning liquid is wherein made change, a kind of embodiment as shown in Figure 1 comprises the automatic feed mechanism that arranges in turn, the soaking-type cleaning device of splendid attire acid solution, the fountain cleaning device of splendid attire deionized water, the soaking-type cleaning device of splendid attire aqueous slkali, the fountain cleaning device of splendid attire deionized water, the fountain cleaning device of splendid attire pure water, the fountain cleaning device of splendid attire ultra-pure water, positioning table.But it is worthy of note, be not this a kind of embodiment that enumerates in this specification in the actual production, and in practical operation, should cut the filters such as screen pack to described comprising into water screen pack, screen pack, wind, all do regular detection and replacing together with cleaning liquid etc.

Claims (10)

1. chip on-line cleaning equipment, it is characterized in that: comprise that some rear ends are provided with the soaking-type cleaning device of wind cutting mechanism (C), what described soaking-type cleaning device comprised sealing embathes cabinet (B), one side of embathing in the cabinet (B) arranges a pair of feed conveyor belt (1) of holding the horizontal movement of chip (F) dual-side that is connected automatic feed mechanism (A), embathe the discharging conveyer belt (2) of a pair of horizontal movement that the opposite side setting in the cabinet (B) is connected with wind cutting mechanism (C), arrange between described feed conveyor belt (1) and the discharging conveyer belt (2) be loaded with embathe liquid embathe pond (3), described the first conveying frame (4) that is arranged side by side corresponding feed conveyor belt (1) in the pond (3) that embathes, the second conveying frame (5) of corresponding discharging conveyer belt (2); Described the first conveying frame (4) comprises by the linking of machine power control holds respectively two pairs of material-conveying belts (107) that a side synchronous vertical of chip (F) moves downward in feed conveyor belt (1) rear end, what the lower position between two pairs of material-conveying belts (107) was provided with chip-detecting apparatus slides on slide plate (108) between the first conveying frame (4) and the second conveying frame (5) by the screw slider mechanism controls, described the second conveying frame (5) comprises the material-conveying belt (107) that the two pair synchronous verticals identical with the first conveying frame (1) structure move upward, and the first conveying frame (4) arranges the material toggling mechanism that corresponding discharging conveyer belt (2) toggles it to chip (F) discharging conveyer belt (2) with upper position between the second conveying frame (5).

2. chip on-line cleaning equipment according to claim 1, it is characterized in that: the lower position between the described a pair of feed conveyor belt (1) arranges and promotes chip (F) to the push rod (113) of the first conveying frame (4) motion, one end of push rod (113) connects horizontally disposed cylinder (114), the middle part of push rod (113) arranges turning cylinder (115), and the other end of push rod (113) is the arcuate structure of the side of terminal corresponding chip (F).

3. chip on-line cleaning equipment according to claim 1 and 2, it is characterized in that: the upper interval of the material-conveying belt (107) of described the first conveying frame (4) and the second conveying frame (5) arranges the supporting plate (6) of holding chip (F) side in correspondence with each other, supporting plate (6) on every pair of material-conveying belt (107) all extends internally and exceeds the inboard side of material-conveying belt (107), also arranges on the material-conveying belt (107) of each supporting plate (6) top chip is carried out spacing baffle plate (119); Each of the first conveying frame (4) top held the cross swivel mount (116) that is promoted next chip (F) by push rod (113) to corresponding setting the between the material-conveying belt (107), cross swivel mount (116) comprises the rotating shaft (117) that is located between the material-conveying belt (107), the swivel plate (118) of four orthogonal settings is set on the rotating shaft (117), and one of them swivel plate (118) is from stretching out between the material-conveying belt (107) and overlapping on two supporting plates (6) of correspondence position.

4. chip on-line cleaning equipment according to claim 3, it is characterized in that: described material toggling structure comprises the driving lever (111) that is vertically connected on horizontally disposed driving cylinder (110) output, the middle part of driving lever (111) arranges rotating shaft (112), a side of the upper chip (F) of corresponding the second conveying frame (5) of the free end of driving lever (111).

5. chip on-line cleaning equipment according to claim 4, it is characterized in that: described the first conveying frame (4) comprises that with the machine power controlling organization of the material-conveying belt (107) of the second conveying frame (5) circle that is positioned at two pairs of material-conveying belts (107) upper end is by the belt (8) of servomotor (7) by gear (9) driven rotary, four angles of the corresponding material-conveying belt of belt (8) (107) all arrange travelling gear (101), the below of each travelling gear (101) arranges a bevel gear (103) of rotating synchronously, the drive bevel gear (104) that cooperates with bevel gear (103) drives driving gear (105) synchronous rotary that is positioned at material-conveying belt (107) top, and the bottom of material-conveying belt (107) arranges driven gear (106).

6. chip on-line cleaning equipment according to claim 5, it is characterized in that: the outside of every pair of material-conveying belt (107) of described the first conveying frame (4) and the second conveying frame (5) be oppositely arranged corresponding with each layer supporting plate (6) in passing through pipeline and intake pump (122) and embathing pond embathe that liquid is communicated with chip (F) is carried out to the hole for water spraying (124) of hydro-peening, the spray angle of the corresponding chip of described each layer hole for water spraying (124) (F) from top layer the middle transition of aligning chip (F) to the edge of the aligning chip (F) of bottom.

7. according to claim 1,4,5,6 each described chip on-line cleaning equipment, it is characterized in that: described wind cutting mechanism (C) comprises that the wind of sealing cuts cabinet (31), wind is cut the wind that a pair of transportation chip (F) is set in the cabinet (31) and is cut conveyer belt (32), the top that wind is cut conveyer belt (32) arranges the first air compartment (34) that is connected with some wind wind cutting machines (33), the first air compartment (34) is communicated with the second air compartment (35) that is positioned at wind and cuts conveyer belt (32) below by intake stack (36), pressure-reducing valve (37) is set on the described intake stack (36), the first air compartment (34) corresponding wind wind cutting machine (33) is located to be provided with wind and is cut screen pack (38), and the wind that is positioned at that the position that described the first air compartment (34) and the corresponding wind of the second air compartment (35) are cut conveyer belt (32) arranges is in correspondence with each other cut the angled tangential air outlet (39) of the vertical plane of conveyer belt (32) and chip (F).

8. chip on-line cleaning equipment according to claim 7, it is characterized in that: described chip on-line cleaning equipment comprises that also some rear ends arrange the fountain cleaning device of wind cutting mechanism (C), described fountain cleaning device comprises the spray cabinets (D) of sealing, top in the spray cabinets (D) arranges the spray conveyer belt (24) of a pair of carries chips dual-side, bottom in the spray cabinets (D) arranges the first spray liquid container (21) of sealing, the first spray liquid container (21) connects two by the spray pipeline (28) of water pump (27) and magnetic valve (26) control, described two spray pipelines (28) lay respectively at the above and below of the chip (F) that carries of spray conveyer belt (24) and the nozzle (29) of corresponding chip (F) are set, spray conveyer belt (24) bottom arranges the transition container (23) of the raffinate behind the collection spray of a upper end open, and transition container (23) is connected to the first spray liquid container (21) by the pipeline that is provided with screen pack (25).

9. chip on-line cleaning equipment according to claim 8 is characterized in that: also arrange in the spray cabinets of described fountain cleaning device (D) with the first spray liquid container (21) and be arranged in parallel the second spray liquid container (22) that is used for switching spray liquid in transition container (23) below.

10. according to claim 1 or 9 described chip on-line cleaning equipment, it is characterized in that: described chip on-line cleaning equipment also comprises and is positioned at the positioning table (E) that chip is positioned that cleans the line end, described positioning table (E) comprises support (51), what the following setting of support (51) was corresponding with chip (F) size promotes the lifting table top (52) move up and down by lifting cylinder (53), the upper surface setting of support (51) is around the detent mechanism that promotes table top (52), described detent mechanism comprises two adjacent fixed dams (54) that are vertically fixed on support (51) upper surface, also comprises the active blade (55) by actuating cylinder (56) driving promotion chip (F) motion that two relative fixed dams (54) arrange.

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