CN204549452U - Phenolaldehyde moulding compound is with drawing materials device - Google Patents

Abstract

The utility model discloses a kind of phenolaldehyde moulding compound with drawing materials device, aim to provide a kind of phenolaldehyde moulding compound of increasing work efficiency with drawing materials device, its drip irrigation device is that the raw material after pulverizing through comminutor is inhaled into feed pipe through the negative pressure of turbine air suctiton ventilator, flowing into drawing in batch can through feed pipe, because the first inlet point and negative pressure mouth lay respectively at the relative both sides of drawing batch can, and the baffle plate for blocking negative pressure mouth is being provided with near negative pressure mouth place, therefore the raw material after pulverizing can not be inhaled in negative pressure mouth, and be inhaled into and draw in batch can by the raw material after pulverizing by the direct blanking of the first discharge duct in attemperation apparatus, therefore this draws that materials device is convenient to be directly maneuvered into the raw material after pulverizing in attemperation apparatus from comminutor, achieve the automation of manufacturing line, reduce labour intensity and the productive costs of operator, effectively improve production efficiency, be conducive to market competition.

Description

Phenolaldehyde moulding compound is with drawing materials device

Technical field

The utility model relates to phenolaldehyde moulding compound manufacture field, and more particularly, it relates to a kind of phenolaldehyde moulding compound with drawing materials device.

Background technology

Phenolaldehyde moulding compound be with themoplasticity or thermosetting phenolic resin for matrix, add the thermosetting plastic that organic and inorganic filler and other compounding ingredient are processed into.Phenol resin and molding compound thereof are the kinds of suitability for industrialized production the earliest in synthetic resin, plastics, so far the history of existing nearly over one hundred year.Raw material sources based on them are wider, production technology and equipment simple, molding processibility is good, price is cheaper, and very excellent resistance to heat, mechanical property, electrical property, thermal behavior, ablation property, chemical nature and radiation resistance can be obtained by all means, especially there is good flame retardance, low rate of being fuming, little generation pernicious gas, become mechanical, electric, building, mining, national defence and the indispensable material of other industrial circle.

The operation such as when producing phenolaldehyde moulding compound, need through being pulverized by raw material, being in harmonious proportion evenly, barreling, thermosetting, cooling, pulverizing are shaping, collect pack in granular phenolaldehyde moulding compound finished product the most at last.Because raw material has comparatively multiple types, therefore need to be in harmonious proportion evenly after raw material is pulverized, but in prior art, need the raw material hand haulage after by pulverizing in attemperation apparatus after crushed at raw material, and first hand haulage needs the material collection after reducing mechanism, then be transported to next step operation place, pour the raw material after pulverizing into attemperation apparatus, inefficiency, is unfavorable for production control cost.

Utility model content

For the deficiency that prior art exists, the purpose of this utility model is to provide a kind of phenolaldehyde moulding compound of increasing work efficiency with drawing materials device.

For achieving the above object, the utility model provides following technical scheme: a kind of phenolaldehyde moulding compound is with drawing materials device, comprise be provided with the first cavity volume draw batch can, the described batch can that draws includes the first discharge port and the first inlet point and negative pressure mouth, described first discharge port is positioned at the bottom of drawing batch can, described first inlet point and negative pressure mouth lay respectively at the relative both sides of drawing batch can top, the described batch can that draws is provided with first discharge duct through with the first cavity volume in the first discharge port place, the described batch can that draws is provided with the feed pipe through with the first cavity volume in the first inlet point place, be provided with the baffle plate for blocking negative pressure mouth near negative pressure mouth place in described first cavity volume, the described batch can that draws is provided with turbine air suctiton ventilator in negative pressure mouth place, described turbine air suctiton ventilator comprises the ventilation inlet that is connected with negative pressure mouth and towards the first air outlet drawn outside batch can.

Described baffle plate is connected to and draws batch can madial wall top.

Described first air outlet is connected with the first discharge pipe, the other end of described first discharge pipe is connected with filtrate tank, described filtrate tank is provided with the second cavity volume, described filtrate tank includes the second discharge port and the second inlet point and the second air outlet, described second discharge port is positioned at the bottom of filtrate tank, described second inlet point is positioned at the top of filtrate tank, described second air outlet is positioned at the centre of filtrate tank top end face, described first discharge pipe is connected to the second inlet point and the second cavity volume is through, described first discharge pipe and filtrate tank are tangent vibrational power flow, the extension of described first discharge pipe in filtrate tank twist, described filtrate tank is provided with second discharge duct through with the second cavity volume in the second discharge port place.

Be provided with isolation bucket in described filtrate tank, leave gap between the outer wall of described isolation bucket and the inwall of filtrate tank, described isolation bucket opening is arranged towards the second air outlet.

Described filtrate tank is provided with second discharge pipe through with the second cavity volume in the second air outlet place, and described second discharge pipe one end extends in isolation bucket, and the other end is provided with high pressure air suctiton ventilator.

A kind of phenolaldehyde moulding compound is with drawing materials device, comprise be provided with the first cavity volume draw batch can, the described batch can that draws includes the first discharge port and the first inlet point and negative pressure mouth, described first discharge port is positioned at the bottom of drawing batch can, described first inlet point and negative pressure mouth lay respectively at the relative both sides of drawing batch can top, the described batch can that draws is provided with first discharge duct through with the first cavity volume in the first discharge port place, the described batch can that draws is provided with the feed pipe through with the first cavity volume in the first inlet point place, be provided with the baffle plate for blocking negative pressure mouth near negative pressure mouth place in described first cavity volume, the described batch can that draws is provided with turbine air suctiton ventilator in negative pressure mouth place, described turbine air suctiton ventilator comprises the ventilation inlet that is connected with negative pressure mouth and towards the first air outlet drawn outside batch can.By adopting technique scheme, raw material after pulverizing through comminutor is inhaled into feed pipe through the negative pressure of turbine air suctiton ventilator, flowing into drawing in batch can through feed pipe, because the first inlet point and negative pressure mouth lay respectively at the relative both sides of drawing batch can, and the baffle plate for blocking negative pressure mouth is being provided with near negative pressure mouth place, therefore the raw material after pulverizing can not be inhaled in negative pressure mouth, and be inhaled into and draw in batch can by the raw material after pulverizing by the direct blanking of the first discharge duct in attemperation apparatus, therefore this draws that materials device is convenient to be directly maneuvered into the raw material after pulverizing in attemperation apparatus from comminutor, achieve the automation of manufacturing line, reduce labour intensity and the productive costs of operator, effectively improve production efficiency, be conducive to market competition.

Accompanying drawing explanation

Fig. 1 is the utility model phenolaldehyde moulding compound structural representation drawing materials device;

Fig. 2 is the perspective view of filtrate tank.

Reference numeral: 1, draw batch can; 11, the first cavity volume; 12, the first discharge port; 13, the first inlet point; 14, negative pressure mouth; 15, the first discharge duct; 16, feed pipe; 17, baffle plate; 2, turbine air suctiton ventilator; 21, ventilation inlet; 22, the first air outlet; 3, filtrate tank; 31, the second cavity volume; 32, the second discharge port; 33, the second inlet point; 34, the second air outlet; 35, the first discharge pipe; 36, the second discharge duct; 37, bucket is isolated; 38, the second discharge pipe; 4, high pressure air suctiton ventilator.

Detailed description of the invention

With reference to Fig. 1, Fig. 2, the utility model phenolaldehyde moulding compound is described further with drawing materials device embodiment.

A kind of phenolaldehyde moulding compound is with drawing materials device, comprise be provided with the first cavity volume 11 draw batch can 1, the described batch can 1 that draws includes the first discharge port 12 and the first inlet point 13 and negative pressure mouth 14, described first discharge port 12 is positioned at the bottom of drawing batch can 1, described first inlet point 13 lays respectively at the relative both sides of drawing batch can 1 top with negative pressure mouth 14, the described batch can 1 that draws is provided with first discharge duct 15 through with the first cavity volume 11 in the first discharge port 12 place, the described batch can 1 that draws is provided with the feed pipe 16 through with the first cavity volume 11 in the first inlet point 13 place, be provided with the baffle plate 17 for blocking negative pressure mouth 14 near negative pressure mouth 14 place in described first cavity volume 11, the described batch can 1 that draws is provided with turbine air suctiton ventilator 2 in negative pressure mouth 14 place, described turbine air suctiton ventilator 2 comprises the ventilation inlet 21 that is connected with negative pressure mouth 14 and towards the first air outlet 22 drawn outside batch can 1.Raw material after pulverizing through comminutor is inhaled into feed pipe 16 through the negative pressure of turbine air suctiton ventilator 2, flowing into drawing in batch can 1 through feed pipe 16, because the first inlet point 13 and negative pressure mouth 14 lay respectively at the relative both sides of drawing batch can 1, and the baffle plate 17 for blocking negative pressure mouth 14 is being provided with near negative pressure mouth 14 place, therefore the raw material after pulverizing can not be inhaled in negative pressure mouth 14, and be inhaled into draw in batch can 1 by the raw material after pulverizing by the first discharge duct 15 directly blanking in attemperation apparatus, therefore need to be placed in above attemperation apparatus by drawing batch can 1, and comminutor can be placed in below attemperation apparatus, structure design is effective and reasonable.Therefore this draws that materials device is convenient to be directly maneuvered into the raw material after pulverizing in attemperation apparatus from comminutor, and achieves the automation of manufacturing line, reduces labour intensity and the productive costs of operator, effectively improve production efficiency, be conducive to market competition.

Described baffle plate 17 is connected to and draws batch can 1 madial wall top.Therefore baffle plate 17 with draw the opening that batch can 1 madial wall formed and just arrange down, be conducive to avoiding the raw material suck pulverizing because turbine air suctiton ventilator 2 power is higher after.

Described first air outlet 22 is connected with the first discharge pipe 35, the other end of described first discharge pipe 35 is connected with filtrate tank 3, described filtrate tank 3 is provided with the second cavity volume 31, described filtrate tank 3 includes the second discharge port 32 and the second inlet point 33 and the second air outlet 34, described second discharge port 32 is positioned at the bottom of filtrate tank 3, described second inlet point 33 is positioned at the top of filtrate tank 3, described second air outlet 34 is positioned at the centre of filtrate tank 3 top end face, described first discharge pipe 35 be connected to the second inlet point 33 and the second cavity volume 31 through, described first discharge pipe 35 is tangent vibrational power flow with filtrate tank 3, described first extension of discharge pipe 35 in filtrate tank 3 twist, described filtrate tank 3 is provided with second discharge duct 36 through with the second cavity volume 31 in the second discharge port 32 place.Because turbine air suctiton ventilator 2 can suck entering the part powder raw material drawn in batch can 1, discharged by the first air outlet 22, the wind of therefore being discharged by turbine air suctiton ventilator 2 enters in filtrate tank 3 by the first discharge pipe 35, because the first discharge pipe 35 and filtrate tank 3 are in tangent vibrational power flow, and the first extension of discharge pipe 35 in filtrate tank 3 twist, therefore the raw material of powdery moves twist along the inwall of filtrate tank 3 bottom filtrate tank 3, because air specific weight is less than the raw material of powdery, therefore air cannot be driven in filtrate tank 3, therefore the raw material of powdery can fall along the inwall of filtrate tank 3, finally fall into bottom filtrate tank 3, facilitate the raw material of powdery from the second discharge duct 36 blanking in attemperation apparatus, therefore the filtrate tank 3 being connected to the first discharge pipe 35 is conducive to filtering out the powder raw material extracted out by turbine air suctiton ventilator 2, improve raw material availability, avoid the waste that causes damage.

Be provided with isolation bucket 37 in described filtrate tank 3, leave gap between the outer wall of described isolation bucket 37 and the inwall of filtrate tank 3, described isolation bucket 37 opening is arranged towards the second air outlet 34.The raw material of powdery can along the gap between the inwall of filtrate tank 3 and the outer wall of isolation bucket 37 to whereabouts, until fall into bottom filtrate tank 3, the whereabouts of raw material in filtrate tank 3 that therefore can not affect powdery is collected, and is conducive to avoiding the raw material of powdery to discharge from the second air outlet 34 in filtrate tank 3 civil strike drift.

Described filtrate tank 3 is provided with second discharge pipe 38 through with the second cavity volume 31 in the second air outlet 34 place, and described second discharge pipe 38 one end extends in isolation bucket 37, and the other end is provided with high pressure air suctiton ventilator 4.High pressure air suctiton ventilator 4 is conducive to strengthening the negative pressure in filtrate tank 3, improve overall filtrate efficiency of drawing materials device, and the raw material of powdery can along the gap between the inwall of filtrate tank 3 and the outer wall of isolation bucket 37 to whereabouts, therefore the raw material of powdery can not fall in isolation bucket 37, to keep in filtrate tank 3, while negative pressure state, also the raw material of powdery to be discharged from the second discharge pipe 38 so second discharge pipe 38 one end extends to isolation bucket 37 inherence.

Claims (5)

1. a phenolaldehyde moulding compound is with drawing materials device, it is characterized in that: comprise be provided with the first cavity volume draw batch can, the described batch can that draws includes the first discharge port and the first inlet point and negative pressure mouth, described first discharge port is positioned at the bottom of drawing batch can, described first inlet point and negative pressure mouth lay respectively at the relative both sides of drawing batch can top, the described batch can that draws is provided with first discharge duct through with the first cavity volume in the first discharge port place, the described batch can that draws is provided with the feed pipe through with the first cavity volume in the first inlet point place, be provided with the baffle plate for blocking negative pressure mouth near negative pressure mouth place in described first cavity volume, the described batch can that draws is provided with turbine air suctiton ventilator in negative pressure mouth place, described turbine air suctiton ventilator comprises the ventilation inlet that is connected with negative pressure mouth and towards the first air outlet drawn outside batch can.

2. phenolaldehyde moulding compound according to claim 1 is with drawing materials device, it is characterized in that: described baffle plate is connected to and draws batch can madial wall top.

3. phenolaldehyde moulding compound according to claim 1 and 2 is with drawing materials device, it is characterized in that: described first air outlet is connected with the first discharge pipe, the other end of described first discharge pipe is connected with filtrate tank, described filtrate tank is provided with the second cavity volume, described filtrate tank includes the second discharge port and the second inlet point and the second air outlet, described second discharge port is positioned at the bottom of filtrate tank, described second inlet point is positioned at the top of filtrate tank, described second air outlet is positioned at the centre of filtrate tank top end face, described first discharge pipe is connected to the second inlet point and the second cavity volume is through, described first discharge pipe and filtrate tank are tangent vibrational power flow, the extension of described first discharge pipe in filtrate tank twist, described filtrate tank is provided with second discharge duct through with the second cavity volume in the second discharge port place.

4. phenolaldehyde moulding compound according to claim 3 is with drawing materials device, it is characterized in that: be provided with isolation bucket in described filtrate tank, leaves gap between the outer wall of described isolation bucket and the inwall of filtrate tank, and described isolation bucket opening is arranged towards the second air outlet.

5. phenolaldehyde moulding compound according to claim 4 is with drawing materials device, it is characterized in that: described filtrate tank is provided with second discharge pipe through with the second cavity volume in the second air outlet place, described second discharge pipe one end extends in isolation bucket, and the other end is provided with high pressure air suctiton ventilator.