CN207841872U - A kind of novel online perfusion equipment - Google Patents

Abstract

A kind of novel online perfusion equipment disclosed by the utility model, deaeration cooling device, mixed cell, the buffer cell of deaeration cooling device, material B including material A, material A is sent into mixed cell after the deaeration cooling device vacuum defoamation cooling by material A, and material B is also fed into mixed cell after the deaeration cooling device vacuum defoamation of material B cooling；After material A and material B are mixed in mixed cell, buffer unit is sent into through being sent to perfusing hole by the buffer unit, is perfused through row.The utility model has following features：1. colloid and curing agent pass through vacuum filter deaeration, cooling and mixing, whole to be intervened without external air.2. links have pressure, temperature and traffic monitoring, system that can carry out automatic governing, meet duty requirements.3. heating and cooling fast response time, fully ensure that rapid increase and the decline of colloid problem.4. can deaeration be carried out to colloid and curing agent online, to realize the cast of serialization.

Description

A kind of novel online perfusion equipment

Technical field

The utility model is related to glue injection equipment technical field, more particularly to a kind of novel online perfusion equipment.

Background technology

It may know that a kind of device and method of cast resin continuous degassing from DE4222695A1.When pouring practice, resin Or curing agent, also filler is such as sometimes：Silica flour, the dolomite ground, aluminium oxide etc. and dyestuff, it is necessary to mix simultaneously vacuum Degassing.There is required property with the product such as electric insulation part that this resin mold core is poured into a mould in this way.In addition to there is processing work The case where field manufactures resin/filler or curing agent/filler mixture and is fed to end user, also has final processor to need certainly It is intermittently operated that oneself, which manufactures resin/filler or curing agent/filler mixture, general both of which,.

By finally processing this processing, generally first component is de-gassed, just prepare a collection of confession in this way The material of processor.If material, from processing workshop, this material must also arrive first certain temperature then vacuum outgas, this Working method causes uneconomic operating interruptions, because having to wait for the stock of next group after being finished a batch of material.For this purpose, a batch of material Amount generally to work by day enough one to two class of use, the remaining time is preferably to carry out filling dispensing again and mixed again at night It closes.Doing so basin and mixer will correspondingly be designed big.Castable is constantly provided at any time if realized, it is necessary to standby There is additional charging mixer.This charging mixer is arranged in before basin, and the material come out from basin sends to processing.In addition to wanting Having outside corresponding expenditure of construction, also requires there are larger material reserves, such material, which will wait for longer time just, can go to process, Sometimes this time is up to 1 hour.The time shelved before processing is longer.In addition, when using the degassing mixer conduct of so-called thin layer When the charging mixer of above-mentioned one kind, because thin layer degassing mixer outflux outflow has preferably taken off the mixture of gas not It returns, is mixed with the material not yet to deaerate very well, to make the degassing of mixture need longer time as charging disconnectedly.

In many instillation process, the instillation process being perfused such as blade, it is desirable that cast resin temperature excessively high (cannot such as be less than 28 DEG C), it is significantly less than deaeration temperature (such as 60 DEG C).To meet instillation process requirement, need to stand cooling, to reduce deaeration Effect also increases storage utensil, occupies workshop.

Utility model content

In order to solve the above-mentioned technical problem, the utility model provides a kind of novel online perfusion equipment, to improve Production efficiency.

In order to realize that the goal of the invention of the utility model, the technical solution adopted in the utility model are as follows：

A kind of novel online perfusion equipment, which is characterized in that deaeration cooling device, material B including material A take off Cooling device, mixed cell, buffer cell are steeped, material A is sent into mixed after the deaeration cooling device vacuum defoamation cooling by material A Unit is closed, material B is also fed into mixed cell after the deaeration cooling device vacuum defoamation of material B cooling；Material A and material B After being mixed in mixed cell, buffer unit is sent into through being sent to perfusing hole by the buffer unit, is perfused through row.

In a preferred embodiment of the utility model, the deaeration cooling device of the material A includes the first glue bucket, adds The discharge port of thermal, the first vacuum filter tank, the first cooling device, the first glue bucket is connected by the first feeding pump and pipeline It is connected to the entrance of the tube side of the heating device, the outlet of the tube side of the heating device is connected to the first vacuum mistake by pipeline The vacuum orifice of feed inlet at the top of filter tank, first vacuum filter tank top connects the first vacuum pump by pipeline, described The discharge port of first vacuum filter pot bottom connects the first of one first threeway Pneumatic valve by the first pump and pipeline, and described the It is provided with a first filter in one vacuum filter tank, passes through first filter into the material in first vacuum filter tank It is filtered；Second mouthful of first threeway Pneumatic valve is connected to the feed inlet of first vacuum filter tank by reflux pipeline, The third mouth of the first threeway Pneumatic valve is connected to the feed inlet of first cooling device, first cooling by pipeline The discharge port of device is connect by first flowmeter and pipeline with the feed inlet of the mixing arrangement.

In a preferred embodiment of the utility model, the deaeration cooling device of the material B, the material B's is de- It includes the second glue bucket, the second vacuum filter tank, the second cooling device to steep cooling device, and the discharge port of the first glue bucket passes through the Two feeding pumps and pipeline are connected to the feed inlet of the second vacuum filter tank top, and second vacuum filter tank top vacuumizes Mouth connects the second vacuum pump by pipeline, and the discharge port of the second vacuum filter pot bottom passes through the second pump and pipeline connection one The first of second threeway Pneumatic valve is provided with one second filter in second vacuum filter tank, true into described second Material in empty filtering tank is filtered by the second filter；Second mouthful of second threeway Pneumatic valve is connected by reflux pipeline To the feed inlet of second vacuum filter tank, the third mouth of the second threeway Pneumatic valve is connected to described second by pipeline The discharge port of the feed inlet of cooling device, second cooling device passes through second flowmeter and pipeline and the mixing arrangement Feed inlet connects.

In a preferred embodiment of the utility model, the first threeway Pneumatic valve and the second threeway Pneumatic valve are Threeway gas control ball valve.

In a preferred embodiment of the utility model, the first filter and the second filter are gauze packing mistake Filter.

In a preferred embodiment of the utility model, on the shell side of the heating device, the first vacuum filter tank, It is mounted on temperature sensor on second vacuum filter tank, the first cooling device and the second cooling device.

In a preferred embodiment of the utility model, in first vacuum pump and first vacuum filter tank Pipeline on pipeline between vacuum orifice between second vacuum pump and the vacuum orifice of second vacuum filter tank On be mounted on pressure gauge.

As a result of technical solution as above, the operation principle of the utility model is：Colloid (material A) is by first Material pump enters in the tube side of heating device, and certain temperature is heated to by the hot water in heating device shell side, then enters first Vacuum filter tank recycles the first filter inside the first vacuum filter tank by colloidal dispersions, is taken off to reach vacuum filter Steep effect.On the one hand the colloid for having taken off bubble is cooled down by the first pump and the first threeway Pneumatic valve into the first cooling device, another Aspect can also be back to the first vacuum filter tank by the first threeway Pneumatic valve and carry out vacuum filter deaeration again.It is cold into first But the colloid of device is sent out after being cooled to assigned temperature.

Curing agent (material B) enters the second vacuum filter tank by the second feeding pump, recycles in the second vacuum filter tank Second filter in face is by colloidal dispersions, to reach vacuum filter deaeration effect.The curing agent of bubble has been taken off on the one hand by the Two pumps and the second threeway Pneumatic valve are cooled down into the second cooling device, on the other hand can also be flowed back by the second threeway Pneumatic valve Vacuum filter deaeration is carried out again to the second vacuum filter tank.Into the second cooling device colloid be cooled to assigned temperature after give Go out.

The curing agent that the colloid and the second cooling device sent out by the first cooling device are sent out is sent into mixed cell and is mixed together It closes, is re-fed into buffer unit after mixing and is sent out by buffer unit.

Compared with prior art, the utility model has following features：

1. colloid and curing agent pass through vacuum filter deaeration, cooling and mixing, whole to be intervened without external air.

2. the utility model links have pressure, temperature and traffic monitoring, system that can carry out automatic governing, meet work Condition demand.

3. heating and cooling fast response time, fully ensure that rapid increase and the decline of colloid problem.

4. the utility model can carry out deaeration to colloid and curing agent online, to realize the cast of serialization.

Description of the drawings

Fig. 1 is the structural schematic diagram of the novel online perfusion equipment of kind of the utility model.

Specific implementation mode

Referring to Fig. 1, a kind of novel online perfusion equipment shown in figure, including it is divided into the deaeration cooling dress of material A It sets and the deaeration cooling device of material B and mixed cell 51, buffer unit 53.

The deaeration cooling device of material A include glue bucket 1, feeding pump 2, heating device 3, vacuum filter tank 7, delivery pump 10, Cooling device 11；Feeding pump 2 is installed in the discharge port of glue bucket 1, temperature sensor 4 is installed on heating device 3.Heating device 3 outlet is connected to the feed inlet at 7 top of vacuum filter tank by pipeline 5, and the vacuum orifice at 7 top of vacuum filter tank passes through pipe Line 6 connects vacuum pump 15, and pressure gauge 16 is equipped on the pipeline 6 between vacuum pump 15 and the vacuum orifice of vacuum filter tank 7.

The discharge port of 7 bottom of vacuum filter tank connects the first of a threeway gas control ball valve 18 by pump 10 and pipeline 17, A filter 8 is provided in vacuum filter tank 7, filter 8 is gauze packing filter.Temperature is installed on vacuum filter tank 7 Spend sensor 9.

Carry out deaeration is filtered by filter 8 into the material in vacuum filter tank 7.

Second mouthful of feed inlet that vacuum filter tank 7 is connected to by reflux pipeline 19 of threeway gas control ball valve 18, three ventilations The third mouth of ball-handling valve 18 is connected to the feed inlet of cooling device 11 by pipeline 20, and the discharge port of cooling device 11 passes through flow Meter 13 and pipeline 21 are connected to the feed inlet of mixed cell 51.Temperature sensor 12 is installed on cooling device 11.

The deaeration cooling device of material B includes glue bucket 31, feeding pump 32, vacuum filter tank 35, delivery pump 38, cooling device 39；Feeding pump 32 is installed in the outlet of glue bucket 31, feeding pump 32 by pipeline 33 be connected to 35 top of vacuum filter tank into The vacuum orifice of material mouth, 35 top of vacuum filter tank connects vacuum pump 42 by pipeline 34, in vacuum pump 42 and vacuum filter tank Pressure gauge 43 is installed on pipeline 34 between 35 vacuum orifice.

The discharge port of 35 bottom of vacuum filter tank connects the first of a threeway gas control ball valve 45 by pump 38 and pipeline 44, A filter 36 is provided in vacuum filter tank 35, filter 36 is gauze packing filter.It is installed on vacuum filter tank 35 There is temperature sensor 37.

Carry out deaeration is filtered by filter 36 into the material in vacuum filter tank 35.

Second mouthful of feed inlet that vacuum filter tank 35 is connected to by reflux pipeline 46 of threeway gas control ball valve 45, three ventilations The third mouth of ball-handling valve 45 is connected to the feed inlet of cooling device 39 by pipeline 47, and the discharge port of cooling device 39 passes through flow Meter 41 and pipeline 48 are connected to the feed inlet of mixed cell 51.Temperature sensor 40 is installed on cooling device 39.

Material A and material B by deaeration, cooling treatment enter mixed cell 51, and mixed material is filled by buffering It sets 53 and is delivered to perfusing hole, be perfused through row.

Claims (7)

1. a kind of novel online perfusion equipment, which is characterized in that the deaeration of deaeration cooling device, material B including material A Cooling device, mixed cell, buffer cell, material A are sent into mixing after the deaeration cooling device vacuum defoamation cooling by material A Unit, material B are also fed into mixed cell after the deaeration cooling device vacuum defoamation of material B cooling；Material A and material B exist After being mixed in mixed cell, it is sent into buffer unit and is sent to perfusing hole by the buffer unit, be perfused through row.

2. a kind of novel online perfusion equipment as described in claim 1, which is characterized in that the deaeration of the material A is cold But device includes the first glue bucket, heating device, the first vacuum filter tank, the first cooling device, the discharge port of the first glue bucket The entrance of the tube side of the heating device is connected to by the first feeding pump and pipeline, the outlet of the tube side of the heating device is logical The feed inlet that pipeline is connected to the first vacuum filter tank top is crossed, the vacuum orifice of first vacuum filter tank top passes through pipe Line connects the first vacuum pump, and the discharge port of the first vacuum filter pot bottom connects one first threeway by the first pump and pipeline The first of Pneumatic valve is provided with a first filter in first vacuum filter tank, into first vacuum filter tank Interior material is filtered by first filter；Second mouthful of first threeway Pneumatic valve is connected to described by reflux pipeline The third mouth of the feed inlet of one vacuum filter tank, the first threeway Pneumatic valve is connected to first cooling device by pipeline Feed inlet, the discharge port of first cooling device passes through first flowmeter and pipeline and the feed inlet of the mixing arrangement connects It connects.

3. a kind of novel online perfusion equipment as claimed in claim 2, which is characterized in that the deaeration of the material B is cold But device, the deaeration cooling device of the material B include the second glue bucket, the second vacuum filter tank, the second cooling device, and described the The discharge port of one glue bucket is connected to the feed inlet of the second vacuum filter tank top by the second feeding pump and pipeline, and described second is true Vacuum orifice at the top of empty filtering tank connects the second vacuum pump by pipeline, and the discharge port of the second vacuum filter pot bottom is logical It crosses the second pump and pipeline connects the first of one second threeway Pneumatic valve, one second mistake is provided in second vacuum filter tank Filter is filtered into the material in second vacuum filter tank by the second filter；The of second threeway Pneumatic valve The third mouth of two mouthfuls of feed inlets that second vacuum filter tank is connected to by reflux pipeline, the second threeway Pneumatic valve is logical Cross the feed inlet that pipeline is connected to second cooling device, the discharge port of second cooling device by second flowmeter and Pipeline is connect with the feed inlet of the mixing arrangement.

4. a kind of novel online perfusion equipment as claimed in claim 3, which is characterized in that the first threeway Pneumatic valve It is threeway gas control ball valve with the second threeway Pneumatic valve.

5. a kind of novel online perfusion equipment as claimed in claim 3, which is characterized in that the first filter and the Tow filtrator is gauze packing filter.

6. a kind of novel online perfusion equipment as claimed in claim 3, which is characterized in that in the shell of the heating device Temperature biography is mounted on Cheng Shang, the first vacuum filter tank, the second vacuum filter tank, the first cooling device and the second cooling device Sensor.

7. a kind of novel online perfusion equipment as claimed in claim 3, which is characterized in that first vacuum pump with On pipeline between the vacuum orifice of first vacuum filter tank and second vacuum pump and second vacuum filter tank Vacuum orifice between pipeline on be mounted on pressure gauge.