KR101935350B1 - Construction system for using repairing mortar - Google Patents

Abstract

The present invention relates to a construction system for using repairing mortar, and more specifically, by using the construction system using repairing mortar organically connected with a loading part, a transporting part, a mixing part, a pumping part, a control member, and a discharging part, thereby improving the efficiency of work to input the repairing mortar into the loading part located in a separated position to a construction position and to be able to smoothly control manufacturing of repairing member using repairing mortar and discharging quantity just to simply control a discharging device by a user on the construction place, improving working environment to prevent dust generated as loading, transporting, and discharging repair mortar from scattering, and improving the quality and reliability of repairing member.

Description

Technical Field [0001] The present invention relates to a repair mortar construction system,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a maintenance mortar construction system, and more particularly, to an automated repair mortar construction system that can be applied to maintenance and construction using mortar at construction and construction sites.

Generally, maintenance mortar is a mixture of cement, sand and admixture at a certain ratio. Conventional construction systems using construction masonry or construction mortar to transport construction mortars and repair mortars and water to a work site at a certain rate. The construction was carried out by installing, repairing or reinforcing the construction material.

Such a conventional construction system requires a lot of working time and labor and requires a separate space at the worksite, which is difficult to apply to a large-scale construction site and deteriorates the working environment due to dust of the repair mortar during the mixing process. Further, it is difficult to achieve uniform quality control and reliability depending on the operator, and the construction cost is increased and the work efficiency is significantly lowered.

In order to solve such a problem, Korean Utility Model No. 20-0379204 discloses a method of transporting dry mortar to a bulk car or a crane, filling the silo into a silo, and then transferring the mortar to a continuous mixer connected to the hose using a powder- Next, the maintenance material produced by automatically mixing an appropriate amount of water and dry mortar by a continuous mixer is discharged by a continuous pump, the hose is connected to the continuous pump, and the repair material is poured into the building structure through a shotcrete gun connected to the end of the hose And to provide a construction and maintenance system for a construction repair material.

Korean Patent No. 10-0452594 discloses a method of mixing dry mortar with water in a mixing housing with compressed air through a conveying hose connected to the dry mortar after storing dry mortar in a silo, Discloses a rebar corrosion repair apparatus using a horizontal continuous mixing type silo system including a pumping member.

In such a conventional construction system, the powdered state maintenance mortar stored in the silo is transferred to the mixer by using the air pressure. For this reason, it is necessary to apply considerable pressure to the inside of the silo in order to smoothly transfer the maintenance mortar, and it is necessary to consider the durability against the pressure when manufacturing the silo. Therefore, the manufacturing cost and weight of the silo also increase, and problems arise in carrying and installing the construction system to the construction site. In addition, since the maintenance mortar is a mixture of cement and sand at a certain ratio, separation of cement and sand occurs depending on the weight of the powder during transportation, thereby ensuring uniform quality and reliability of the manufactured repair material. Further, in the conventional system as described above, since the entire process is continuously and automatically performed after the repair mortar is loaded on the silo, when the operator does not perform the operation constantly or each process is not maintained at a constant speed, Problems such as clogging occur. In order to prevent such a problem, a worker must manually adjust each process manually, so that a lot of troubles occur in the work, and a problem arises that labor is wasted.

Accordingly, the present invention provides a method of manufacturing a reinforced concrete mortar, comprising: A first conveying unit installed at a lower portion of the stacking unit; A second transfer unit connected to the first transfer unit; A mixing unit connected to the second transfer unit and having a discharge unit at a lower portion thereof; A pump unit located in a discharge portion of the mixing portion; A transfer member connected to the pump unit at one end; And a discharging unit connected to the other end of the conveying member, wherein the first conveying unit conveys the maintenance mortar falling down to the lower portion of the loading unit to the second conveying unit using a screw coupled with a rotary shaft and a spiral blade, The conveying part press-feeds the maintenance mortar conveyed by the first conveying part to introduce the maintenance mortar into the mixing part, and the mixing part mixes the repair mortar inputted by the second conveying part with water to generate a maintenance material, The present invention provides a maintenance mortar installation system that pumped a repairing material discharged from a discharge port and transfers the repairing material to an installation site through the transfer member and discharges the transferred repairing material by an opening and closing operation.

However, the problems to be solved by the present invention are not limited to the above-mentioned problems, and other matters not mentioned can be clearly understood by those skilled in the art from the following description.

In order to accomplish the object of the present invention as described above,

A loading section including an inner space on which the repair mortar is loaded; A first conveying unit installed at a lower portion of the stacking unit; A second transfer unit connected to the first transfer unit; A mixing unit connected to the second transfer unit and having a discharge unit; A pump unit located in a discharge portion of the mixing portion; And a discharge unit connected to the pump unit,

Wherein the first transfer part transfers the repair mortar dropped to the lower part of the loading part to a second transfer part using a screw, the second transfer part press-feeds the repair mortar transferred by the first transfer part, The mixing section mixes the repair mortar introduced by the second transfer section with water to generate a maintenance material. The pump section pumps the repair material discharged from the discharge section of the mixing section and transfers the maintenance material to the construction site. The discharge section is transported The present invention also provides a maintenance mortar construction system that allows a repair material to be discharged.

According to one embodiment of the present invention, the mixing unit further includes a first sensing member, and when the total amount of the maintenance mortar, water, and the generated maintenance material exceeds a predetermined amount in the mixing unit, Thereby automatically stopping the operation of the maintenance mortar.

According to another embodiment of the present invention, the pump unit further includes a second sensing member, and the second sensing member automatically stops the operation of the pump unit when the amount of the maintenance material loaded in the pump unit exceeds a predetermined amount The present invention relates to a maintenance mortar construction system.

The maintenance mortar construction system of the present invention can reduce the manufacturing cost and the weight of the loading part by using screws for transferring the powdered state repair mortar into the first conveying part, which is different from the existing construction system, It is possible to improve the installation convenience and to prevent the components of the boss mortar such as cement and sand from being separated according to the density when the maintenance mortar is conveyed and to secure the uniform quality and reliability of the manufactured repair material.

Further, since the sensing member is further included in at least one of the mixing section and the pump section, the operation of all or part of the construction system can be automatically performed according to the operation speed of each process, And the operator at the construction site can prevent problems such as overflow or clogging of the repairing material that may occur in each part of the construction system by simply operating the discharge unit.

The maintenance mortar construction system of the present invention can reduce the manufacturing cost and the weight of the loading part by using screws for transferring the powdered state repair mortar into the first conveying part, which is different from the existing construction system, It is possible to improve the installation convenience and to prevent the components of the boss mortar such as cement and sand from being separated according to the density when the maintenance mortar is conveyed and to secure the uniform quality and reliability of the manufactured repair material.

Further, since the sensing member is further included in at least one of the mixing section and the pump section, the operation of all or part of the construction system can be automatically performed according to the operation speed of each process, And the operator at the construction site can prevent problems such as overflow or clogging of the repairing material that may occur in each part of the construction system by simply operating the discharge unit.

1 is a flowchart showing a maintenance mortar construction system of the present invention.
FIG. 2 illustrates a maintenance mortar construction system according to an embodiment of the present invention.
3 illustrates a first transfer unit according to an embodiment of the present invention.
4 illustrates a first transfer unit according to another embodiment of the present invention.
5 is an enlarged view of a connection portion between a first transfer unit and a second transfer unit according to an embodiment of the present invention.

According to one aspect of the present invention, there is provided a method of manufacturing a cement mortar, comprising: A first conveying unit installed at a lower portion of the stacking unit; A second transfer unit connected to the first transfer unit; A mixing unit connected to the second transfer unit and having a discharge unit; A pump unit located in a discharge portion of the mixing portion; And a discharge unit connected to the pump unit,

Wherein the first transfer part transfers the repair mortar dropped to the lower part of the loading part to a second transfer part using a screw, the second transfer part press-feeds the repair mortar transferred by the first transfer part, The mixing section mixes the repair mortar introduced by the second transfer section with water to generate a maintenance material. The pump section pumps the repair material discharged from the discharge section of the mixing section and transfers the maintenance material to the construction site. The discharge section is transported And a discharge port for discharging the maintenance agent.

According to one embodiment of the present invention, the mixing unit further includes a first sensing member, and when the total amount of the maintenance mortar, water, and the generated maintenance material exceeds a predetermined amount in the mixing unit, Thereby automatically stopping the operation of the maintenance mortar.

According to another embodiment of the present invention, the pump unit further includes a second sensing member, and the second sensing member automatically stops the operation of the pump unit when the amount of the maintenance material loaded in the pump unit exceeds a predetermined amount The present invention relates to a maintenance mortar construction system.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings in order to facilitate understanding of the present invention. However, the following examples are provided only for the purpose of easier understanding of the present invention, and the present invention is not limited by the following examples.

As shown in FIG. 2, the loading unit 100 of the present invention is formed with a loading space having a predetermined capacity for loading the maintenance mortar therein.

In one specific embodiment, the loading unit 100 has a charging port 110 through which the maintenance mortar is charged, and the charged mortar is accumulated in the lower portion of the loading unit 100 by gravity.

The gate 120 may be further provided with a gate 120 to be opened and closed at a lower portion thereof and the amount of the repair mortar to be supplied to the first transfer portion 200 may be adjusted by opening / have. The shape of the mounting part 100 may be a prismatic shape, a cylindrical shape, a prismatic shape, or the like. However, the shape of the mounting part 100 is not particularly limited. The material of the mounting part 100 is not particularly limited, desirable.

2 and 3, the screw 210 is positioned at a lower portion of the loading unit 100 and the loading unit 100 is installed at a lower portion of the loading unit 100. The first feeding unit 200 includes a screw 210, The mortar is rotated in the axial direction to transfer the repair mortar to the second conveyance part. The screw 210 may be operated by a driving device 220 such as a motor, an engine, or the like.

In one specific embodiment, the screw 210 is not limited thereto, but may be a spiral screw in the form of a combined spiral blade and a rotary shaft member.

3, the screw 210 may be installed horizontally with the ground. However, as shown in FIG. 4, the height of the portion connected to the second conveyance unit 300 may be lowered So that the conveying efficiency of the repair mortar can be increased.

The second transfer part 300 of the present invention transfers the repair mortar transferred from the first transfer part to the mixing part 400 using compressed air.

As shown in FIG. 2, the second transfer unit 300 may include a transfer device 310 and a first hose member 320. The conveying device 310 generates compressed air and press-feeds the maintenance mortar introduced into the second conveyance part 300 to the mixing part 400. The first hose member 320 is used as a conveying path for the repair mortar and may be suitably selected in size and length depending on the conveying distance, the conveyance amount, or the working environment.

5, the portion where the repair mortar is inserted in the second transfer part 300 is made to have a diameter of the diameter of the screw 210, so that a part of the screw 210 can be engaged with the screw 210. As shown in FIG. . In this case, the maintenance mortar can be easily pushed into the second conveyance part 300 and the inside of the second conveyance part can be sealed by the engagement, thereby preventing the pressure of air in the second conveyance part 300 from being lowered And it is possible to increase the transport efficiency and distance of the repair mortar.

The mixing part 400 of the present invention mixes water at a predetermined ratio into the repair mortar conveyed from the second conveyance part to generate a maintenance material and transmits the generated maintenance material to the pump part 500 through the discharge part 410 .

In one specific embodiment, the mixing section 400 includes a mixing device 420, which is commonly used, such as a screw or a mixer, whereby the maintenance material can be produced by mixing the charged mortar and water.

In one embodiment, the mixing unit 400 of the present invention may further include a first sensing member 430. The first sensing member 430 senses the total amount of the repair mortar, water, and the generated repair material in the mixing unit, and automatically stops the operation of the first conveyance unit when the total amount exceeds the set amount.

In one specific embodiment, the first sensing member 430 may be a device such as a sensor capable of sensing the total amount of maintenance mortar, water, and generated repair material in the mixing portion 400, to be.

The first sensing member 430 senses the amount of materials such as maintenance mortar, water, and generated repair material accumulated in the mixing unit 400 according to the conveyance speed of the maintenance mortar, the mixing / production speed of the maintenance material, and the discharge speed , The operation of the first conveyance unit is automatically stopped or operated according to the amount of the material, so that it is possible to prevent the material in the mixing unit 400 from being clogged or overflowing.

The pump unit 500 of the present invention is operated when the maintenance material discharged from the mixing unit 400 is charged. The pump unit 500 presses the pump unit 510 and the second hose member 520 to the discharge unit 600 under a predetermined pressure.

In one specific embodiment, the pumping device 510 may be a continuous pump, and the second hose member 520 may be used as a conveying path for the maintenance material and may have a size and length depending on the conveying distance, Can be appropriately selected.

The pump unit 500 may be positioned below the discharge unit 410 of the mixing unit 400 to easily receive the maintenance material from the mixing unit 400. In other words,

In one embodiment, the pump unit 500 of the present invention may further include a second sensing member 530. The second sensing member 530 senses the total amount of the maintenance material loaded into the pump unit 500 and automatically stops the operation of the mixing unit 400 when the total amount exceeds the set amount.

In one specific embodiment, the second sensing member 530 is a device such as a sensor capable of sensing the amount of the maintenance material loaded into the pump portion, and is preferably a level sensor.

The second sensing member 530 senses the amount of the maintenance material applied to the pump unit according to the filling speed or the application speed of the repair material or closes the discharge unit 600 at the construction site by the operator, And stops or activates the negative operation.

In a specific embodiment, when the amount of the maintenance material loaded into the pump unit 500 exceeds a predetermined amount and the second sensing member 530 senses this, the operation of the mixing unit 400 is automatically stopped The mixing unit 400 stops the operation of the mixing unit 400 so that materials such as maintenance mortar, water and the generated maintenance material are accumulated on the mixing unit 400. The first sensing unit 430 senses the same, It is possible to prevent the material from being clogged or clogged in each step of the continuous construction system.

The discharge unit 600 of the present invention can perform construction, construction, repair, or reinforcement of the construction structure by discharging the repair material transferred from the pump unit 500 to the outside by an opening and closing operation of an operator.

In one specific embodiment, the discharge unit 600 may include a nozzle or a gun having an opening / closing device at the discharge end.

In one embodiment, the loading unit 100, the first transfer unit 200, the second transfer unit 300, the mixing unit 400, and the pump unit 500 of the present invention may be appropriately selected depending on the environment and conditions of the installation site Position.

100: loading part 110: inlet
120: gate 200: first transfer part
210: screw 300: second transfer part
310: transfer device 320: first hose member
400: mixing part 410: discharging part
420: mixing device 430: first sensing member
500: pump unit 510: pump device
520: second hose member 530: second sensing member
600:

Claims (4)

A loading section including an inner space on which the repair mortar is loaded;
A first conveying unit installed at a lower portion of the stacking unit;
A second transfer unit connected to the first transfer unit;
A mixing unit connected to the second transfer unit and having a discharge unit;
A pump unit located in a discharge portion of the mixing portion; And
And a discharge unit connected to the pump unit,
The first transfer part transfers the repair mortar falling to the lower part of the loading part to the second transfer part using a screw,
The second transfer part is formed by screwing a portion of the repair mortar into the diameter of the screw so that a part of the screw is engaged and inserted, and the repair mortar transferred by the first transfer part is pushed into the mixing part,
Wherein the mixing unit mixes the repair mortar charged by the second transfer unit with water to produce a repair material,
Wherein the pump unit pumps the repair material discharged from the discharge unit of the mixing unit and transfers the pump to a construction site,
Wherein the discharge unit discharges the repair material transferred by the opening and closing operation of the worker. The method according to claim 1,
Wherein the mixing unit further includes a first sensing member,
Wherein the first sensing member automatically stops operation of the first conveyance unit when the total amount of the repair mortar, water, and the generated repair material exceeds a predetermined amount in the mixing unit. 3. The method of claim 2,
The pump unit further includes a second sensing member,
Wherein the second sensing member automatically stops the operation of the pump unit when the amount of the maintenance material loaded in the pump unit exceeds a predetermined amount. The method of claim 3,
Wherein at least one of the first sensing member and the second sensing member is a level sensor.

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