CN210356996U - Configuration system of building binder - Google Patents

Abstract

The utility model discloses a configuration system of binder for building, it includes solution storage tank, water source, first blending tank, powder storage tank, powder loading hopper, forces dispenser, emulsification pump and second blending tank. Has the advantages that: the utility model has simple connection relation and easy realization; obtaining a uniform mixed liquid finished product; the powder is ensured to be completely dissolved, the bonding strength is improved, and the construction engineering quality is further improved; the stirring time is short, so that the construction waiting time is shortened, and the engineering construction efficiency is improved; the production cost is reduced.

Description

Configuration system of building binder

The technical field is as follows:

the utility model relates to a configuration system, in particular to configuration system of binder for building.

Background art:

the facing brick adhesive, the composite board adhesive and the like sold in the market at present are all powder components, the powder must be added with rubber powder to increase the adhesive strength, and the rubber powder is a powder formed by drying various emulsions and adding ash to the remaining solid, so that water must be added when the powder adhesive is used, the powder adhesive is forcibly and uniformly stirred for 2 to 3 minutes by a stirring device, and the powder adhesive is uniformly stirred after standing for 3 to 5 minutes to be used; wherein, the standing for 3-5 minutes is to fully dissolve the rubber powder contained in the binder (i.e. the rubber powder returns to the emulsion state), and the stirring is to completely and uniformly disperse the dissolved rubber powder in the mortar; but because the dissolution speed of the rubber powder is low, the time for dissolving and preparing the binder on site is longer, so that the construction waiting time is increased, and the engineering construction efficiency is reduced; meanwhile, whether the rubber powder is completely dissolved or not can not be judged, and if the rubber powder is not completely dissolved, the bonding strength is reduced, so that the construction engineering quality is greatly reduced.

The utility model has the following contents:

an object of the utility model is to provide a relation of connection is simple, and has guaranteed the configuration system of binder for building of misce bene.

The utility model discloses by following technical scheme implement: a configuration system of a building binder comprises a solution storage tank, a water source, a first mixing tank, a powder storage tank, a powder feeding hopper, a forced dispersion machine, an emulsification pump and a second mixing tank, wherein a liquid outlet of the solution storage tank and the water source are both communicated with a liquid inlet of the first mixing tank through pipelines; a discharge port of the powder storage tank is communicated with a feed port of the powder feeding hopper through a pipeline, the discharge port of the powder feeding hopper and a liquid outlet of the first mixing tank are both communicated with a feed port of the forced dispersion machine through pipelines, a flow regulating valve is arranged on the pipeline between the powder feeding hopper and the forced dispersion machine, and a first shut-off valve is arranged on the pipeline between the first mixing tank and the forced dispersion machine; the liquid outlet of the forced dispersion machine is communicated with the liquid inlet of the emulsification pump through a pipeline, and the liquid outlet of the emulsification pump is respectively communicated with the first mixing tank, the second mixing tank and a liquid outlet pipe through pipelines; a second shut-off valve is arranged on a pipeline between the first mixing tank and the emulsification pump, and a third shut-off valve is arranged on a pipeline between the second mixing tank and the emulsification pump; a fourth shutoff valve is arranged on the liquid outlet pipe; the liquid outlet of the second mixing tank is communicated with the feed inlet of the forced dispersion machine through a pipeline, and a fifth shutoff valve is arranged on the pipeline between the second mixing tank and the forced dispersion machine.

Further, the solution storage tank comprises an emulsion storage tank and an antifoaming agent storage tank.

Further, the solution storage tank also comprises an anti-freezing solution storage tank.

Further, the powder storage tank comprises a starch ether storage tank and a hydroxypropyl methyl cellulose storage tank.

The utility model has the advantages that: 1. the utility model has simple connection relation and easy realization; the mixed liquid in the first mixing tank is conveyed to a forced dispersion machine to be mixed with the powder conveyed by a powder feeding hopper, then the mixed liquid is emulsified and dispersed by an emulsification pump and then circulated to the first mixing tank and/or the second mixing tank to be mixed circularly, and finally a uniform mixed liquid finished product is obtained; the powder is ensured to be completely dissolved, the bonding strength is improved, and the construction engineering quality is further improved; 2. the obtained mixed liquid finished product is transported to the site and directly stirred and mixed with the silt for use, so that the mixed liquid finished product can be used only by uniformly stirring once on the construction site, the stirring time is short, the construction waiting time is further shortened, and the engineering construction efficiency is improved; the production cost is reduced.

Description of the drawings:

in order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic view of the overall structure of the embodiment of the present invention.

The system comprises a solution storage tank 1, an emulsion storage tank 1.1, a defoaming agent storage tank 1.2, an antifreezing solution storage tank 1.3, a water source 2, a first mixing tank 3, a powder storage tank 4, a starch ether storage tank 4.1, a hydroxypropyl methyl cellulose storage tank 4.2, a powder feeding hopper 5, a forced dispersion machine 6, an emulsification pump 7, a second mixing tank 8, a liquid outlet pipe 9, a flow regulating valve 10, a first shut-off valve 11, a second shut-off valve 12, a third shut-off valve 13, a fourth shut-off valve 14 and a fifth shut-off valve 15.

The specific implementation mode is as follows:

as shown in fig. 1, a system for dispensing a building adhesive comprises a solution storage tank 1, a water source 2, a first mixing tank 3, a powder storage tank 4, a powder hopper 5, a forced dispersion machine 6, an emulsification pump 7 and a second mixing tank 8, wherein the solution storage tank 1 comprises an emulsion storage tank 1.1, an antifoaming agent storage tank 1.2 and an antifreezing solution storage tank 1.3; the liquid outlet of the emulsion storage tank 1.1, the liquid outlet of the defoaming agent storage tank 1.2, the liquid outlet of the antifreeze storage tank 1.3 and the water source 2 are communicated with the liquid inlet of the first mixing tank 3 through pipelines; the powder storage tank 4 comprises a starch ether storage tank 4.1 and a hydroxypropyl methyl cellulose storage tank 4.2; the discharge hole of the starch ether storage tank 4.1 and the discharge hole of the hydroxypropyl methyl cellulose storage tank 4.2 are both communicated with the feed inlet of the powder hopper 5 through pipelines; a discharge port of the powder feeding hopper 5 and a liquid outlet of the first mixing tank 3 are both communicated with a feed port of the forced dispersion machine 6 through pipelines, a flow regulating valve 10 is arranged on the pipeline between the powder feeding hopper 5 and the forced dispersion machine 6, and a first shut-off valve 11 is arranged on the pipeline between the first mixing tank 3 and the forced dispersion machine 6; the liquid outlet of the forced dispersion machine 6 is communicated with the liquid inlet of the emulsification pump 7 through a pipeline, and the liquid outlet of the emulsification pump 7 is respectively communicated with a first mixing tank 3, a second mixing tank 8 and a liquid outlet pipe 9 through pipelines; a second shut-off valve 12 is arranged on a pipeline between the first mixing tank 3 and the emulsification pump 7, and a third shut-off valve 13 is arranged on a pipeline between the second mixing tank 8 and the emulsification pump 7; a fourth shut-off valve 14 is arranged on the liquid outlet pipe 9; the liquid outlet of the second mixing tank 8 is communicated with the feed inlet of the forced dispersion machine 6 through a pipeline, and a fifth shut-off valve 15 is arranged on the pipeline between the second mixing tank 8 and the forced dispersion machine 6.

The working process is as follows: adding the emulsion in the emulsion storage tank 1.1, the defoaming agent in the defoaming agent storage tank 1.2, the antifreezing solution in the antifreezing solution storage tank 1.3 and water into the first mixing tank 3, and adding the starch ether in the starch ether storage tank 4.1 into the powder hopper 5; then, opening a first shut-off valve 11, a forced dispersion machine 6, an emulsification pump 7, a second shut-off valve 12 and a flow regulating valve 10; the mixed liquid in the first mixing tank 3 is sent to a forced dispersion machine 6, the starch ether in a powder hopper 5 slowly flows into the forced dispersion machine 6 to be mixed and dispersed with the mixed liquid, then the mixed liquid is fully and uniformly mixed through an emulsification pump 7, after the starch ether is added, a second shut-off valve 12 is closed, a third shut-off valve 13 is opened, hydroxypropyl methyl cellulose is added into the powder hopper 5, the hydroxypropyl methyl cellulose in the powder hopper 5 is controlled to be slowly added into the forced dispersion machine 6 through a flow regulating valve 10, the time for adding the hydroxypropyl methyl cellulose into the forced dispersion machine 6 is consistent with the time for flowing the mixed liquid from the first mixing tank 3 to a second mixing tank 8, the hydroxypropyl methyl cellulose and the mixed liquid are fully mixed, when the mixed liquid in the first mixing tank 3 completely enters the second mixing tank 8, the first shut-off valve 11 is closed, opening the fifth shut-off valve 15, mixing the mixed liquid in the second mixing tank 8 for 20 minutes in a circulating manner to obtain a mixed liquid finished product, finally closing the third shut-off valve 13, opening the fourth shut-off valve 14, and conveying the mixed liquid finished product out of the liquid outlet pipe 9; the powder is ensured to be completely dissolved, the bonding strength is improved, and the construction engineering quality is further improved; the obtained mixed liquid finished product is transported to the site and directly stirred and mixed with the silt for use, so that the mixed liquid finished product can be used only by uniformly stirring once on the construction site, the stirring time is short, the construction waiting time is further shortened, and the engineering construction efficiency is improved; the production cost is reduced; when all mixed liquid finished products are conveyed out of the configuration system, the forced dispersion machine 6, the emulsification pump 7, the fourth shut-off valve 14 and the fifth shut-off valve 15 are closed.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (4)

1. A configuration system of a building binder is characterized by comprising a solution storage tank, a water source, a first mixing tank, a powder storage tank, a powder feeding hopper, a forced dispersion machine, an emulsification pump and a second mixing tank, wherein a liquid outlet of the solution storage tank and the water source are both communicated with a liquid inlet of the first mixing tank through pipelines; a discharge port of the powder storage tank is communicated with a feed port of the powder feeding hopper through a pipeline, the discharge port of the powder feeding hopper and a liquid outlet of the first mixing tank are both communicated with a feed port of the forced dispersion machine through pipelines, a flow regulating valve is arranged on the pipeline between the powder feeding hopper and the forced dispersion machine, and a first shut-off valve is arranged on the pipeline between the first mixing tank and the forced dispersion machine; the liquid outlet of the forced dispersion machine is communicated with the liquid inlet of the emulsification pump through a pipeline, and the liquid outlet of the emulsification pump is respectively communicated with the first mixing tank, the second mixing tank and a liquid outlet pipe through pipelines; a second shut-off valve is arranged on a pipeline between the first mixing tank and the emulsification pump, and a third shut-off valve is arranged on a pipeline between the second mixing tank and the emulsification pump; a fourth shutoff valve is arranged on the liquid outlet pipe; the liquid outlet of the second mixing tank is communicated with the feed inlet of the forced dispersion machine through a pipeline, and a fifth shutoff valve is arranged on the pipeline between the second mixing tank and the forced dispersion machine.

2. The system of claim 1, wherein the solution tank comprises an emulsion tank and a defoamer tank.

3. The system as claimed in claim 2, wherein the solution tank further comprises an anti-freezing solution tank.

4. A construction adhesive dispensing system as claimed in any one of claims 1 to 3, wherein said powder reservoirs comprise starch ether reservoirs and hydroxypropyl methylcellulose reservoirs.

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