CN112180070A

CN112180070A - Concrete slump detection case equipment

Info

Publication number: CN112180070A
Application number: CN202011119053.7A
Authority: CN
Inventors: 于贵辉
Original assignee: Taizhou Jiaojiang Monte Intelligent Equipment Co ltd
Current assignee: Taizhou Jiaojiang Monte Intelligent Equipment Co ltd
Priority date: 2020-10-19
Filing date: 2020-10-19
Publication date: 2021-01-05

Abstract

The invention discloses concrete slump detection box equipment which comprises a detection box, wherein a detection cavity is formed in the detection box, a feeding mechanism is arranged on the upper side of the detection box, the feeding mechanism comprises a concrete box, a concrete wall is formed in the concrete box, and the concrete wall is used for storing concrete. The invention has the advantages of low cost, simple structure, high automation degree and suitability for large-area popularization.

Description

Concrete slump detection case equipment

Technical Field

The invention relates to the field of detection boxes, in particular to a concrete slump detection box device.

Background

When the concrete is cast in site, in order to ensure the concrete quality, the slump test of the concrete is required to be carried out, and whether the slump of the concrete meets the site construction requirements or not is checked. At present, field personnel randomly do concrete slump tests on the ground, the concrete slump tests are performed before the concrete slump tests by filling and vibrating for many times, the operation is complicated, the construction sites are different, the test results are different due to different ground conditions, the test result errors are large due to different operation habits of the test personnel, the judgment on the concrete quality is influenced, the pouring quality of the concrete is further influenced, and therefore the concrete slump tests are still required to be continuously researched on the unified ground.

Disclosure of Invention

The invention aims to solve the technical problem of providing a concrete slump detection box device, and overcomes the defects of complex ground condition, complex operation, irregular operation and the like of the traditional concrete slump test.

The invention is realized by the following technical scheme.

The invention relates to a concrete slump detection box device which comprises a detection box, wherein a detection cavity is formed in the detection box, a feeding mechanism is arranged on the upper side of the detection box and comprises a concrete box, a concrete wall is formed in the concrete box and used for storing concrete, an electromagnet is embedded in the inner wall of the lower side of the concrete wall, an opening and closing chute is formed in the right side of the electromagnet, the opening and closing chute is formed in the concrete box, an opening and closing slide block is slidably arranged in the opening and closing chute, an opening and closing pressure spring is fixedly arranged at the left end of the opening and closing slide block, the left end of the opening and closing pressure spring is fixedly connected with the inner wall of the left side of the opening and closing chute, an opening and closing baffle is fixedly arranged at the right end of the opening and closing slide block and used for sealing the opening and closing hole, and a corner motor penetrates through the inner wall of the, the inclined sliding hole is formed in the connecting base, a detection conical barrel is fixedly arranged at the lower end of the connecting base, a detection conical cavity is formed in the detection conical barrel and communicated with the inclined sliding hole, and the feeding mechanism is used for conveying concrete to the interior of the detection conical cavity; the right side of the feeding mechanism is provided with a vibration detection mechanism, the vibration detection mechanism comprises a corner motor which is embedded in the upper right end of the detection box, the corner motor is controlled by a corner motor shaft, an iron fixing rod is fixedly arranged at the upper end of the corner motor shaft, a height signal line is fixedly arranged at the right end of the iron fixing rod, one end of the height signal line, which is far away from the iron fixing rod, is fixedly connected with the right end of a height detector, the height detector is used for detecting whether current passes through the inside of the height signal line, the left end of the height detector is fixedly provided with three connecting rods, the three connecting rods are all fixedly connected with a power supply, the power supply is embedded in the detection box, the connecting rods at the upper side can contact with the inside of the detection cavity, the left end of the iron fixing rod is fixedly provided with an iron, the concrete slump detection device is characterized in that a hinge block is fixedly arranged at the upper end of the iron slide rod, the hinge block is movably hinged with a reciprocating connecting rod, a rotating chute is formed in the reciprocating connecting rod, a rotating sliding plate is arranged in the rotating chute in a sliding manner, the rotating sliding plate is fixedly connected with a lifting motor shaft, the lifting motor shaft is controlled by a lifting motor to rotate, the lifting motor is fixedly connected with a support rod, the lower end of the support rod is fixedly connected with the iron fixing rod, and the vibration detection mechanism is used for vibrating concrete and detecting slump; the utility model discloses a detection case, including detection case, lead screw motor control has lead screw motor shaft, the fixed lead screw that is equipped with in lead screw motor shaft upper end, lead screw and thread bush threaded connection, the fixed connecting rod that is equipped with in thread bush left end, connecting rod and right angle groove sliding connection, the right angle groove is seted up inside the detection case, the connecting rod left end with detect awl bucket fixed connection, slump mechanism is used for control detect the perpendicular take-off of awl bucket.

Preferably, it is left the connecting rod left end is fixed and is equipped with the width galvanometer, the width galvanometer is used for detecting whether inside electric current that has of width signal line passes through, the fixed width signal line that is equipped with in width galvanometer left end, width signal line is equipped with two altogether, two width signal line is kept away from the one end of width galvanometer is fixed respectively and is equipped with iron and detects piece and iron push pedal, iron detects the fixed horizontal hydraulic stem that is equipped with in piece left end, horizontal hydraulic stem is removed by horizontal hydraulic cylinder control, horizontal hydraulic cylinder inlays to be located detect incasement portion.

Preferably, both ends are fixed respectively about the iron push pedal and are equipped with the slider that resets and initiative slider, initiative slider and initiative spout sliding connection, the initiative spout is seted up in inside the detection case, the slider that resets and the spout sliding connection that resets, the fixed pressure spring that resets that is equipped with in slider rear end resets, reset pressure spring rear end with the spout rear side inner wall fixed connection that resets, the fixed stay cord that resets that is equipped with in slider rear end resets, the stay cord that resets twines in the rope sheave outside that resets, rope sheave and the reset motor shaft fixed connection that resets, the reset motor shaft is rotated by the control of reset motor, reset motor inlays to be located inside the detection case.

The invention has the beneficial effects that: the concrete slump detection device can detect the concrete slump in a mechanical matching mode, has obvious effects on convenient operation and operation normative improvement, is internally provided with the feeding mechanism part which can feed a conical barrel and is convenient for the next vibration, and the vibration detection mechanism part can vibrate the concrete and detect the concrete slump, so that the operation is more normative, and the slump mechanism part can normatively cause the concrete to slump. The invention has the advantages of low cost, simple structure, high automation degree and suitability for large-area popularization.

Drawings

In order to more clearly illustrate the embodiments of the 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, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic view of the embodiment of the present invention in the direction of A-A in FIG. 1;

FIG. 3 is a schematic view of the embodiment of the present invention in the direction B-B in FIG. 1;

FIG. 4 is a schematic view of the embodiment of the present invention in the direction D-D in FIG. 3;

FIG. 5 is a schematic view of the embodiment of the present invention in the direction of C-C in FIG. 1;

FIG. 6 is an enlarged schematic view of the embodiment of the present invention shown in FIG. 5 at E.

Detailed Description

The invention will now be described in detail with reference to fig. 1-6, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The concrete slump detection box equipment disclosed by the attached figures 1-6 comprises a detection box 10, wherein a detection cavity 11 is formed in the detection box 10, a feeding mechanism 61 is arranged on the upper side of the detection box 10, the feeding mechanism 61 comprises a concrete box 42, a concrete wall 43 is formed in the concrete box 42, the concrete wall 43 is used for storing concrete, an electromagnet 44 is embedded in the inner wall of the lower side of the concrete wall 43, an opening and closing chute 45 is formed in the right side of the electromagnet 44, the opening and closing chute 45 is formed in the concrete box 42, an opening and closing slide block 47 is arranged in the opening and closing chute 45 in a sliding manner, an opening and closing pressure spring 46 is fixedly arranged at the left end of the opening and closing slide block 47, an opening and closing baffle 48 is fixedly arranged at the right end of the opening and closing slide block 47, and the opening and closing baffle 48 is used for sealing an opening and closing hole 49, the corner motor 29 penetrates through the inner wall of the lower side of the concrete wall 43 to enable the concrete wall 43 to be communicated with the oblique sliding hole 51, the oblique sliding hole 51 is formed in the connecting base 50, the detection conical barrel 19 is fixedly arranged at the lower end of the connecting base 50, the detection conical cavity 20 is formed in the detection conical barrel 19, the detection conical cavity 20 is communicated with the oblique sliding hole 51, the feeding mechanism 61 is used for conveying concrete into the detection conical cavity 20, when the corner detection device is used, concrete is manually placed in the concrete wall 43, the electromagnet 44 is electrified to attract the opening and closing slide block 47, the opening and closing slide block 47 moves leftwards, the opening and closing pressure spring 46 is compressed, the opening and closing slide block 47 drives the opening and closing baffle plate 48 to move leftwards, concrete flows through the opening and closing hole 49 and the oblique sliding hole 51 to fall into the detection conical cavity 20, the electromagnet 44 is not attracted any more when power is off, the opening and closing compression spring 46 returns to normal, the opening and closing slide block 47 moves rightwards under the action of the elasticity of the opening and closing compression spring 46, and the opening and closing slide block 47 drives the opening and closing baffle plate 48 to move rightwards so that the inclined slide hole 51 is not communicated with the concrete wall 43 any more; the right side of the feeding mechanism 61 is provided with a vibration detection mechanism 62, the vibration detection mechanism 62 comprises a corner motor 29 embedded in the upper right end of the detection box 10, the corner motor 29 is controlled by a corner motor shaft 30, an iron fixing rod 31 is fixedly arranged at the upper end of the corner motor shaft 30, a height signal line 28 is fixedly arranged at the right end of the iron fixing rod 31, one end of the height signal line 28, which is far away from the iron fixing rod 31, is fixedly connected with the right end of a height detector 18, the height detector 18 is used for detecting whether current passes through the inside of the height signal line 28, the left end of the height detector 18 is fixedly provided with a connecting rod 27, the three connecting rods 27 are all fixedly connected with a power supply 17, the power supply 17 is embedded in the detection box 10, and the connecting rod 27 at the upper side can contact with the inside of the detection cavity 11, the left end of the iron fixed rod 31 is fixedly provided with an iron sliding sleeve 41, the iron sliding sleeve 41 is connected with an iron sliding rod 39 in a sliding manner, the upper end of the iron sliding rod 39 is fixedly provided with a hinged block 38, the hinged block 38 is movably hinged with a reciprocating connecting rod 37, a rotating sliding groove 36 is formed in the reciprocating connecting rod 37, a rotating sliding plate 35 is arranged in the rotating sliding groove 36 in a sliding manner, the rotating sliding plate 35 is fixedly connected with a lifting motor shaft 34, the lifting motor shaft 34 is controlled by a lifting motor 33 to rotate, the lifting motor 33 is fixedly connected with a supporting rod 32, the lower end of the supporting rod 32 is fixedly connected with the iron fixed rod 31, the vibration detection mechanism 62 is used for vibrating and detecting slump of concrete, and when the concrete is used, the corner motor 29 controls the corner motor shaft 30 to rotate back and forth in a small-angle reciprocating manner, the corner motor shaft 30 passes through the iron fixed, the lifting motor 33 controls the lifting motor shaft 34 to rotate, the lifting motor shaft 34 drives the rotating sliding plate 35 to rotate, the rotating sliding plate 35 drives the reciprocating connecting rod 37 to rotate around the lifting motor shaft 34, meanwhile, the rotating sliding plate 35 slides in the rotating chute 36, the reciprocating connecting rod 37 drives the iron sliding rod 39 to slide up and down in the iron sliding sleeve 41 through the hinge block 38, and the iron sliding rod 39 enters the detection conical cavity 20 through the inclined sliding hole 51 to vibrate concrete; the utility model discloses a vibration detection mechanism 62 downside is equipped with slump mechanism 63, slump mechanism 63 is including inlaying the lead screw motor 23 of locating detection case 10 inside, lead screw motor 23 control has lead screw motor shaft 24, the fixed lead screw 25 that is equipped with in lead screw motor shaft 24 upper end, lead screw 25 and thread bush 26 threaded connection, the fixed connecting rod 27 that is equipped with in thread bush 26 left end, connecting rod 27 and right angle groove 52 sliding connection, right angle groove 52 is seted up in detection case 10 inside, connecting rod 27 left end with detect awl bucket 19 fixed connection, slump mechanism 63 is used for controlling detect awl bucket 19 and rise and fall perpendicularly, during the use, lead screw motor 23 control this moment lead screw motor 23 rotates, lead screw motor 23 drives lead screw 25 rotates, lead screw 25 transmission gives thread bush 26, thread bush 26 passes through connecting rod 27 drives feeding mechanism 61 upward movement, the connecting rod 27 moves upward within the angled slot 52 to the uppermost end of the angled slot 52 and then rotates forward about the lead screw motor shaft 24.

Beneficially, it is left the connecting rod 27 left end is fixed with width galvanometer 16, width galvanometer 16 is used for detecting whether inside current that has of width signal line 15 passes through, width galvanometer 16 left end is fixed with width signal line 15, width signal line 15 is equipped with two altogether, two width signal line 15 is kept away from width galvanometer 16's one end is fixed respectively and is equipped with iron and detects piece 14 and iron push pedal 53, iron detects 14 left end and is fixed and is equipped with horizontal hydraulic stem 13, horizontal hydraulic stem 13 is controlled by horizontal hydraulic cylinder 12 and removes, horizontal hydraulic cylinder 12 inlays to be located detect inside the case 10.

Beneficially, both ends are fixed respectively about iron push pedal 53 and are equipped with reset slider 59 and initiative slider 22, initiative slider 22 and initiative spout 21 sliding connection, initiative spout 21 is seted up inside detection case 10, reset slider 59 and reset spout 60 sliding connection, the fixed pressure spring 58 that resets that is equipped with in slider 59 rear end, reset pressure spring 58 rear end with reset spout 60 rear side inner wall fixed connection, the fixed stay cord 57 that resets that is equipped with in slider 59 rear end, the stay cord 57 that resets twines in the rope sheave 56 outside that resets, the rope sheave 56 that resets and reset motor shaft 55 fixed connection, reset motor shaft 55 is rotated by reset motor 54 control, reset motor 54 inlays to be located inside detection case 10.

Initial state: the opening and closing pressure spring 46 is in a normal state, the resetting pressure spring 58 is in a compressed state, the electromagnet 44 is in a power-off state, and the lower end of the detection conical barrel 19 is in contact with the inner wall of the lower side of the detection cavity 11.

The using method comprises the following steps: when the slump of concrete needs to be detected, the concrete is manually placed in the concrete wall 43, the electromagnet 44 is electrified to attract the opening and closing slide block 47, the opening and closing slide block 47 moves leftwards, the opening and closing pressure spring 46 is compressed, the opening and closing slide block 47 drives the opening and closing baffle plate 48 to move leftwards, the concrete flows through the opening and closing hole 49 and the oblique sliding hole 51 and falls into the detection conical cavity 20, the electromagnet 44 is not electrified to attract the opening and closing slide block 47 any more, the opening and closing pressure spring 46 is recovered to be normal, the opening and closing slide block 47 moves rightwards under the elastic action of the opening and closing pressure spring 46, the opening and closing slide block 47 drives the opening and closing baffle plate 48 to move rightwards; the corner motor 29 controls the corner motor shaft 30 to rotate back and forth in a reciprocating manner at a small angle, the corner motor shaft 30 drives the iron slide bar 39 to rotate through the iron fixed rod 31 and the iron sliding sleeve 41, the lifting motor 33 controls the lifting motor shaft 34 to rotate, the lifting motor shaft 34 drives the rotating sliding plate 35 to rotate, the rotating sliding plate 35 drives the reciprocating connecting rod 37 to rotate around the lifting motor shaft 34, meanwhile, the rotating sliding plate 35 slides inside the rotating sliding chute 36, the reciprocating connecting rod 37 drives the iron slide bar 39 to slide up and down inside the iron sliding sleeve 41 through the hinge block 38, the iron slide bar 39 enters the detection conical cavity 20 through the inclined sliding hole 51 to vibrate concrete, and the vibration detection mechanism 62 resets after the concrete vibration is finished; repeating the above operations until the interior of the detection cone barrel 19 is full of concrete, controlling the rotation of the screw motor 23 by the screw motor 23 at the moment, driving the screw 25 to rotate by the screw motor 23, driving the screw 25 to the threaded sleeve 26, driving the feeding mechanism 61 to move upwards by the threaded sleeve 26 through the connecting rod 27, moving the connecting rod 27 upwards in the right-angle groove 52 to the uppermost end of the right-angle groove 52, and then rotating forwards around the screw motor shaft 24 until the concrete is still collapsed; after the concrete slump is finished, the corner motor shaft 30 drives the iron slide bar 39 to rotate through the iron fixing rod 31 and the iron sliding sleeve 41, the lifting motor 33 controls the lifting motor shaft 34 to rotate, the lifting motor shaft 34 drives the rotating sliding plate 35 to rotate, the rotating sliding plate 35 drives the reciprocating connecting rod 37 to rotate around the lifting motor shaft 34, meanwhile, the rotating sliding plate 35 slides in the rotating sliding chute 36, the reciprocating connecting rod 37 drives the iron slide bar 39 to slide downwards in the iron sliding sleeve 41 through the hinge block 38, when the iron slide bar 39 contacts the concrete with the slump, the circuit between the power supply 17 and the height detector 18 is conducted, the height detector 18 sends a stop signal, the lifting motor 33 stops controlling the lifting motor shaft 34 to rotate after receiving the stop signal, all components in the vibration detection mechanism 62 reset after recording the height of the concrete slump, and the horizontal hydraulic cylinder 12 controls the horizontal hydraulic rod 13 to, the horizontal hydraulic rod 13 drives the iron detection block 14 to move rightwards, when the iron detection block 14 contacts the concrete which is slump, a circuit between the power supply 17 and the width galvanometer 16 is conducted, the width galvanometer 16 sends a stop signal, the horizontal hydraulic cylinder 12 stops controlling the horizontal hydraulic rod 13 to move rightwards after receiving the stop signal, the horizontal hydraulic cylinder 12 controls the horizontal hydraulic rod 13 to reset after recording the concrete slump width, the reset motor 54 controls the reset motor shaft 55 to rotate, the reset motor shaft 55 drives the reset rope pulley 56 to rotate, the reset pull rope 57 is unfolded at the outer side of the reset rope pulley 56, the elastic force of the reset pressure spring 58 is recovered, the reset slide block 59 moves forwards under the elastic force of the reset pressure spring 58, the reset slide block 59 drives the iron push plate 53 to move forwards, when the iron push plate 53 contacts the concrete which is slump, the circuit between the power supply 17 and the width galvanometer 16 is conducted, and the, the reset motor 54 stops controlling the rotation of the reset motor shaft 55 after receiving the stop signal, the reset motor 54 continues controlling the rotation of the reset motor shaft 55 after recording the concrete slump length, the reset motor shaft 55 continues driving the reset rope pulley 56 to rotate, the reset pull rope 57 continues to be unfolded outside the reset rope pulley 56, the reset pressure spring 58 continues to be recovered to be normal, the reset slide block 59 moves forward under the elastic action of the reset pressure spring 58, the reset slide block 59 drives the iron push plate 53 to move forward, the iron push plate 53 pushes the slump concrete to the front, then the concrete is manually cleaned, and the equipment resets after the cleaning is finished.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims

1. The utility model provides a concrete slump detects case equipment, includes the detection case, its characterized in that: the detection box is internally provided with a detection cavity, the upper side of the detection box is provided with a feeding mechanism, the feeding mechanism comprises a concrete box, the concrete box is internally provided with a concrete wall, the concrete wall is used for storing concrete, an electromagnet is embedded in the inner wall of the lower side of the concrete wall, the right side of the electromagnet is provided with an opening and closing chute, the opening and closing chute is provided with the interior of the concrete box, an opening and closing slide block is slidably arranged in the opening and closing chute, an opening and closing pressure spring is fixedly arranged at the left end of the opening and closing slide block, the left end of the opening and closing pressure spring is fixedly connected with the inner wall of the left side of the opening and closing chute, an opening and closing baffle plate is fixedly arranged at the right end of the opening and closing slide block and used for closing an opening and closing hole, the corner motor penetrates through the, a detection cone barrel is fixedly arranged at the lower end of the connecting base, a detection cone cavity is formed in the detection cone barrel and communicated with the inclined sliding hole, and the feeding mechanism is used for conveying concrete to the interior of the detection cone cavity; the right side of the feeding mechanism is provided with a vibration detection mechanism, the vibration detection mechanism comprises a corner motor which is embedded in the upper right end of the detection box, the corner motor is controlled by a corner motor shaft, an iron fixing rod is fixedly arranged at the upper end of the corner motor shaft, a height signal line is fixedly arranged at the right end of the iron fixing rod, one end of the height signal line, which is far away from the iron fixing rod, is fixedly connected with the right end of a height detector, the height detector is used for detecting whether current passes through the inside of the height signal line, the left end of the height detector is fixedly provided with three connecting rods, the three connecting rods are all fixedly connected with a power supply, the power supply is embedded in the detection box, the connecting rods at the upper side can contact with the inside of the detection cavity, the left end of the iron fixing rod is fixedly provided with an iron, the concrete slump detection device is characterized in that a hinge block is fixedly arranged at the upper end of the iron slide rod, the hinge block is movably hinged with a reciprocating connecting rod, a rotating chute is formed in the reciprocating connecting rod, a rotating sliding plate is arranged in the rotating chute in a sliding manner, the rotating sliding plate is fixedly connected with a lifting motor shaft, the lifting motor shaft is controlled by a lifting motor to rotate, the lifting motor is fixedly connected with a support rod, the lower end of the support rod is fixedly connected with the iron fixing rod, and the vibration detection mechanism is used for vibrating concrete and detecting slump; the utility model discloses a detection case, including detection case, lead screw motor control has lead screw motor shaft, the fixed lead screw that is equipped with in lead screw motor shaft upper end, lead screw and thread bush threaded connection, the fixed connecting rod that is equipped with in thread bush left end, connecting rod and right angle groove sliding connection, the right angle groove is seted up inside the detection case, the connecting rod left end with detect awl bucket fixed connection, slump mechanism is used for control detect the perpendicular take-off of awl bucket.

2. The concrete slump detection box device according to claim 1, wherein: left the connecting rod left end is fixed and is equipped with the width galvanometer, the width galvanometer is used for detecting whether inside electric current of width signal line passes through, the fixed width signal line that is equipped with in width galvanometer left end, the width signal line is equipped with two altogether, two the width signal line is kept away from the one end of width galvanometer is fixed respectively and is equipped with iron and detects piece and iron push pedal, iron detects the fixed horizontal hydraulic stem that is equipped with in piece left end, horizontal hydraulic stem is removed by horizontal hydraulic cylinder control, horizontal hydraulic cylinder inlays to be located inside the detection case.

3. The concrete slump detection box device according to claim 1, wherein: the utility model discloses a detection case, including iron push pedal, driving slide block, restoring slide block rear end, restoring slide block rear side inner wall fixed connection, restoring slide block rear end is fixed with the stay cord that resets, the stay cord that resets twines in the rope sheave outside that resets, restoring slide block and restoring motor shaft fixed connection, the restoring motor shaft is rotated by the control of restoring motor, restoring motor inlays to be located inside the detection case.