CN210500769U - Material taking device for composite heat-insulation concrete - Google Patents

Abstract

A material taking device for composite heat-preservation concrete relates to the technical field of concrete sand pumping equipment and comprises a rack, a cylinder, stirring equipment, a driving mechanism, a protective shell, a lifting mechanism, a connecting mechanism and a material taking mechanism, the lifting mechanism comprises two groups of lifting components, a mounting plate and two groups of connecting plates, one ends of the two groups of lifting components are connected with the driving mechanism, the other ends of the two groups of lifting components are respectively and symmetrically arranged at the front end part and the rear end part of the mounting plate by taking the center shaft of the mounting plate as an axis, this extracting device of compound insulation concrete can be through elevating system's effect, makes to take out husky equipment and can take out husky material of taking out fast to the compound insulation concrete in the barrel, does not need the staff directly to take off the husky equipment and directly takes out husky material to the compound insulation concrete in the barrel, and the physical power that the staff consumed is less, is suitable for taking out of compound insulation concrete of present and uses in the material link.

Description

Material taking device for composite heat-insulation concrete

Technical Field

The utility model belongs to the technical field of the technique of husky equipment is taken out to concrete and specifically relates to a extracting device of compound incubation concrete.

Background

The composite self-insulation building block made of the composite heat-insulation concrete is a commercial concrete building block which is formed by taking a high-performance commercial concrete hollow building block as a shell and filling light heat-insulation materials such as foamed commercial concrete or polystyrene foamed plastic and the like in a cavity of the hollow building block aiming at the development situation of the current novel wall material industry and by enabling the building block shell and the heat-insulation materials to be integrally injected through a production process, and integrates the building enclosure and heat-insulation functions.

When preparing this compound self preservation temperature building block, get the material after need just stirring compound insulation concrete, and at this moment, the staff all is inside the barrel that compound insulation concrete after will stirring with equipment such as pump sand directly inserted and then get the material to compound insulation concrete and take out husky, and this kind of mode of taking out husky is comparatively troublesome, need the staff to take equipment such as this pump sand for a long time and take the material action of taking out husky, long-term in the past, can consume staff's very much physical power, be not suitable for compound insulation concrete use in getting the material link.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a composite heat preservation concrete's extracting device is provided, it can be through elevating system's effect, makes to take out husky equipment and can take out husky material fast to the composite heat preservation concrete in the barrel, does not need the staff directly to take out husky material of taking out that the equipment of should taking out husky directly takes out husky material to the composite heat preservation concrete in the barrel, and the physical power that the staff consumed is less, is suitable for using in the material link of taking of composite heat preservation concrete today.

In order to solve the technical problem, the utility model discloses the technical scheme who adopts is: a taking device for composite heat-insulating concrete comprises a rack, a barrel, stirring equipment, a driving mechanism, a protective shell, a lifting mechanism, a connecting mechanism and a taking mechanism, wherein the stirring equipment is arranged at the bottom of the barrel, one end of the rack is connected to the side portion of the barrel, the other end of the rack is connected to the driving mechanism, the driving mechanism penetrates through the protective shell and is connected to the lifting mechanism, the connecting mechanism is installed on the lifting mechanism, the taking mechanism is further arranged at the top of the lifting mechanism, the taking mechanism penetrates through the lifting mechanism and is connected with the connecting mechanism, the lifting mechanism comprises two groups of lifting assemblies, a mounting plate and two groups of connecting plates, one ends of the two groups of lifting assemblies are connected to the driving mechanism, the other ends of the two groups of lifting assemblies are symmetrically installed at the front end portion and the rear end portion of the mounting plate respectively by, a connecting mechanism is arranged between the two groups of connecting plates.

The lifting assembly comprises a screw rod and a screw rod sliding block, one end of the screw rod is connected to the driving mechanism, the other end of the screw rod is in threaded connection with the screw rod sliding block, and the screw rod sliding block is installed at the end portion of the installation plate.

The connecting mechanism comprises two groups of connecting assemblies and a bottom plate, one ends of the two groups of connecting assemblies are connected onto the connecting plate, the other ends of the two groups of connecting assemblies are connected to the side portion of the bottom plate, and the top of the bottom plate is connected to the bottom of the screw rod through a ball bearing.

Coupling assembling includes slide rail, slider, connecting rod and axle sleeve, the lateral part of connecting plate is located to the slide rail, and sliding connection has the slider on the slide rail, is connected with the one end of connecting rod on the slider, and the other end of connecting rod is connected in the lateral part of bottom plate, and the middle part of connecting rod still is equipped with the axle sleeve.

The material taking mechanism comprises a sand pumping pump, two sand pumping pipes, a sand collecting tank and a sand pumping head, wherein the output end of the sand pumping pump is connected to one ends of the two sand pumping pipes, the other ends of the two sand pumping pipes penetrate through shaft sleeves respectively and are connected to the input end of the sand collecting tank, and the output end of the sand collecting tank is connected to the sand pumping head.

Actuating mechanism includes motor, gear A and two sets of gear B, the motor is installed in the frame, and the motor shaft of motor is down and pass the protective housing and connect in gear A, uses gear A's axis to be equipped with two sets of gear B as the axle center symmetry on the gear A, and two sets of gear B's middle part is fixed connection in two sets of lead screws respectively.

The utility model provides a composite heat preservation concrete's extracting device, it can be through elevating system's effect, makes to take out husky equipment and can take out husky material fast to the composite heat preservation concrete in the barrel, does not need the staff directly to take out husky material of taking out of the direct composite heat preservation concrete to the barrel of this equipment that takes out husky, and the physical power that the staff consumed is less, is suitable for using in the material link of taking of composite heat preservation concrete today.

Drawings

Fig. 1 is a schematic structural view of the composite heat-insulating concrete taking device of the present invention;

fig. 2 is the utility model discloses the inside schematic structure of composite heat preservation concrete's extracting device's protective housing.

Detailed Description

As shown in fig. 1-2, a material taking device for composite thermal insulation concrete comprises a frame 1, a barrel 2, a stirring device 3, a driving mechanism, a protective shell 5, a lifting mechanism, a connecting mechanism and a material taking mechanism, wherein the stirring device 3 is arranged at the bottom of the barrel 2, one end of the frame 1 is connected to the side portion of the barrel 2, the other end of the frame 1 is connected to the driving mechanism, the driving mechanism passes through the protective shell 5 and is connected to the lifting mechanism, the connecting mechanism is mounted on the lifting mechanism, the material taking mechanism is further arranged at the top of the lifting mechanism, the material taking mechanism passes through the lifting mechanism and is connected to the connecting mechanism, the lifting mechanism comprises two groups of lifting components, a mounting plate 603 and two groups of connecting plates 604, one ends of the two groups of lifting components are connected to the driving mechanism, and the other ends of the two groups of lifting components, two groups of connecting plates 604 are symmetrically arranged on the side of the mounting plate 603 by taking the central axis of the mounting plate 603 as an axis, and a connecting mechanism is arranged between the two groups of connecting plates 604.

The lifting assembly comprises a screw rod 601 and a screw rod sliding block 602, one end of the screw rod 601 is connected to the driving mechanism, the other end of the screw rod 601 is in threaded connection with the screw rod sliding block 602, and the screw rod sliding block 602 is installed at the end of the mounting plate 603.

The connecting mechanism comprises two groups of connecting components and a bottom plate 705, one ends of the two groups of connecting components are connected to the connecting plate 604, the other ends of the two groups of connecting components are connected to the side of the bottom plate 705, and the top of the bottom plate 705 is connected to the bottom of the screw rod 601 through a ball bearing.

The connecting assembly comprises a sliding rail 701, a sliding block 702, a connecting rod 703 and a shaft sleeve 704, the sliding rail 701 is arranged on the side portion of the connecting plate 604, the sliding block 702 is connected onto the sliding rail 701 in a sliding mode, one end of the connecting rod 703 is connected onto the sliding block 702, the other end of the connecting rod 703 is connected onto the side portion of the bottom plate 705, and the shaft sleeve 704 is further arranged in the middle of the connecting rod 703.

The material taking mechanism comprises a sand pumping pump 801, two sand pumping pipes 802, a sand collecting tank 803 and a sand pumping head 804, wherein the output end of the sand pumping pump 801 is connected to one ends of the two sand pumping pipes 802, the other ends of the two sand pumping pipes 802 penetrate through a shaft sleeve 704 respectively and are connected to the input end of the sand collecting tank 803, and the output end of the sand collecting tank 803 is connected to the sand pumping head 804.

Actuating mechanism includes motor, gear A and two sets of gear B, the motor is installed in frame 1, and the motor shaft of motor is down and pass protective housing 5 and connect in gear A, uses gear A's axis to be equipped with two sets of gear B as the axis symmetry on gear A, and two sets of gear B's middle part difference fixed connection is in two sets of lead screws 601.

The specific implementation process is as follows: the worker firstly starts the motor, drives the gear A connected with the motor to rotate through the rotation of the motor shaft of the motor, drives the gear B meshed with the gear B to rotate through the rotation of the gear A, transfers the rotation of the screw rod 601 connected with the screw rod 601 through the rotation of the gear B, further enables the screw rod slide block 602 in threaded connection with the screw rod 601 to slide along the length direction of the screw rod 601, further changes the height of the material taking mechanism, when the sand pumping head 804 moves to the interior of the composite heat insulation concrete in the barrel 2, the worker immediately starts the sand pumping pump 801, the composite heat insulation concrete sequentially passes through the sand collecting tank 803 and the sand pumping pipe 802 from the sand pumping head 804 to enter the sand pumping pump 801 through the action of the sand pumping pump 801, when the sand pumping is finished, the motor shaft of the motor is immediately started to rotate reversely, further enables the sand pumping mechanism to directly move out of the barrel 2, and the sand pumping mechanism can pass through the action of the lifting, make and take out husky equipment and can take out husky material of getting fast to the compound incubation concrete in barrel 2, do not need the staff directly to take off the husky equipment of should taking out and directly take out husky material of getting to the compound incubation concrete in barrel 2, the physical power that the staff consumed is less, is suitable for using in the material link of getting of compound incubation concrete today.

The above-mentioned embodiments are merely preferred embodiments of the present invention, and should not be considered as limitations of the present invention, and the protection scope of the present invention should be defined by the technical solutions described in the claims, and includes equivalent alternatives of technical features in the technical solutions described in the claims. Namely, equivalent alterations and modifications within the scope of the invention are also within the scope of the invention.

Claims (6)

1. The utility model provides a composite heat preservation concrete's extracting device which characterized in that: the automatic feeding device comprises a rack, a barrel, stirring equipment, a driving mechanism, a protective shell, a lifting mechanism, a connecting mechanism and a material taking mechanism, wherein the stirring equipment is arranged at the bottom of the barrel, one end of the rack is connected to the lateral part of the barrel, the other end of the rack is connected to the driving mechanism, the driving mechanism penetrates through the protective shell and is connected to the lifting mechanism, the connecting mechanism is installed on the lifting mechanism, the material taking mechanism is further arranged at the top of the lifting mechanism, the material taking mechanism penetrates through the lifting mechanism and is connected with the connecting mechanism, the lifting mechanism comprises two groups of lifting components, an installation plate and two groups of connecting plates, one ends of the two groups of lifting components are connected to the driving mechanism, the other ends of the two groups of lifting components are symmetrically installed at the front end part and the rear, a connecting mechanism is arranged between the two groups of connecting plates.

2. The composite heat-insulating concrete taking device as claimed in claim 1, wherein: the lifting assembly comprises a screw rod and a screw rod sliding block, one end of the screw rod is connected to the driving mechanism, the other end of the screw rod is in threaded connection with the screw rod sliding block, and the screw rod sliding block is installed at the end portion of the installation plate.

3. The composite heat-insulating concrete taking device as claimed in claim 2, wherein: the connecting mechanism comprises two groups of connecting assemblies and a bottom plate, one ends of the two groups of connecting assemblies are connected onto the connecting plate, the other ends of the two groups of connecting assemblies are connected to the side portion of the bottom plate, and the top of the bottom plate is connected to the bottom of the screw rod through a ball bearing.

4. The composite heat-insulating concrete taking device as claimed in claim 3, wherein: coupling assembling includes slide rail, slider, connecting rod and axle sleeve, the lateral part of connecting plate is located to the slide rail, and sliding connection has the slider on the slide rail, is connected with the one end of connecting rod on the slider, and the other end of connecting rod is connected in the lateral part of bottom plate, and the middle part of connecting rod still is equipped with the axle sleeve.

5. The composite heat-insulating concrete taking device as claimed in claim 4, wherein: the material taking mechanism comprises a sand pumping pump, two sand pumping pipes, a sand collecting tank and a sand pumping head, wherein the output end of the sand pumping pump is connected to one ends of the two sand pumping pipes, the other ends of the two sand pumping pipes penetrate through shaft sleeves respectively and are connected to the input end of the sand collecting tank, and the output end of the sand collecting tank is connected to the sand pumping head.

6. The composite heat-insulating concrete taking device as claimed in claim 5, wherein: actuating mechanism includes motor, gear A and two sets of gear B, the motor is installed in the frame, and the motor shaft of motor is down and pass the protective housing and connect in gear A, uses gear A's axis to be equipped with two sets of gear B as the axle center symmetry on the gear A, and two sets of gear B's middle part is fixed connection in two sets of lead screws respectively.

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