CN215727330U - Efficient concrete block detecting system - Google Patents

Abstract

The utility model discloses a high-efficiency concrete block detection system, which comprises a block detection device and a waste collection device, wherein the block detection device comprises a block conveyor belt and a pressure test machine, the automatic detection device comprises a clamping mechanism for building blocks, wherein a strength test platform is arranged in the middle section of each building block conveyor belt, the building block conveyor belts are circulated and passed through the strength test platform, a pressure tester and the clamping mechanism for building blocks are arranged on the strength test platform, the two clamping mechanisms for building blocks are arranged on two sides of each building block conveyor belt, a plate surface cleaning mechanism is arranged on a return path of each building block conveyor belt, a waste collection device comprises a waste collection cart, and the waste collection cart is pushed and placed at the left end of each building block conveyor belt.

Description

Efficient concrete block detecting system

Technical Field

The utility model relates to the technical field of building material detection, in particular to a high-efficiency concrete block detection system.

Background

Concrete block is a building material commonly used in building construction, concrete block need carry out the sampling test after every batch production and confirm that it accords with the building demand, during concrete block detects, strength detection is the most important detection project, concrete block's strength detection generally all goes on pressure test equipment, strength detection is a destructive test, after the test, concrete block can directly be cracked, when carrying out next time detection again, need clean the detection workstation earlier, because every batch waits to examine concrete block quantity can be more, the last unloading that makes a round trip and clean and occupy a large amount of time, cause detection efficiency not high.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art and provide a high-efficiency concrete block detection system.

In order to achieve the purpose, the utility model adopts the following technical scheme:

the utility model provides an efficient concrete block detecting system, includes building block detection device, garbage collection device, building block detection device includes the regular fixture of building block conveyer belt, pressure test machine, building block conveyer belt middle section position is equipped with the strength test platform, the building block conveyer belt circulates from the strength test platform and passes, pressure test machine, the regular fixture of building block install on the strength test platform, two the regular fixture of building block divides and arranges building block conveyer belt both sides, install the clean mechanism of face on the building block conveyer belt return path, the garbage collection device includes the garbage collection shallow, the garbage collection shallow pushes away puts at building block conveyer belt left end.

The building block conveyer belt is the plate chain formula conveyer belt, be equipped with a plurality of driving plates on the building block conveyer belt, be connected with the support boss on the strength test platform, leave the clearance between driving plate and the support boss upper flat face, be connected with a plurality of clean pappus on the terminal surface under the driving plate.

The pressure testing machine is provided with a testing machine head, a pressure testing assembly is connected to the testing machine head in a lifting mode, and the pressure testing assembly is arranged right above the supporting boss.

The building block arranging and clamping mechanism comprises a clamping cylinder and L-shaped clamping plates, the L-shaped clamping plates are connected to the piston rod end of the clamping cylinder, the L-shaped clamping plates of the two building block arranging and clamping mechanisms are oppositely arranged, and a frame-shaped inner space can be formed between the two L-shaped clamping plates.

The cleaning mechanism of face installs in building block conveyer belt left end below position, the cleaning mechanism of face includes clean subassembly of scraper blade, the clean brush wheel of face is installed at the clean subassembly back of scraper blade, the clean subassembly of scraper blade is including clean scraper blade, spring holder, scraper blade push rod, the articulated installation of clean scraper blade lower extreme, the spring holder is installed in clean scraper blade below, be equipped with the spring hole in the spring holder, install the spring in the spring hole, scraper blade push rod upper end offsets with clean scraper blade, scraper blade push rod lower extreme links to each other with the spring.

The waste collecting cart is provided with a waste bucket, and the waste bucket covers the working area of the plate surface cleaning mechanism.

The waste collecting device further comprises a transmission sprinkling collecting tank, the transmission sprinkling collecting tank is connected to the left end face of the supporting boss, and the transmission sprinkling collecting tank is installed in an inclined mode.

The utility model has the beneficial effects that: the concrete block circulation detection device is reasonable in layout, automatic detection experiments and residue removal can be realized in the concrete block circulation process, operation of the concrete block circulation detection device and operation of the concrete block circulation detection device are not interfered with each other, detection efficiency is greatly improved, and the requirement for rapid detection of blocks in batches can be met.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a side view structural view of the block detecting device of the present invention;

FIG. 3 is a top layout view of the block organizer of the present invention;

FIG. 4 is a schematic view of the mounting of the plate surface cleaning mechanism and the support boss of the present invention;

FIG. 5 is an enlarged view taken at A in FIG. 4;

FIG. 6 is a schematic view showing the structure of a blade cleaning assembly of the present invention.

In the figure: the building block detection device comprises a building block detection device 1, a building block conveyor belt 11, a transmission plate 111, cleaning fluff 112, a strength test platform 12, a support boss 121, a pressure test machine 13, a test head 131, a pressure test assembly 132, a building block arranging and clamping mechanism 14, a clamping cylinder 141, an L-shaped clamping plate 142, a plate surface cleaning mechanism 15, a scraper cleaning assembly 151, a cleaning scraper 1511, a spring seat 1512, a spring hole 1513, a spring 1514, a scraper push rod 1515, a plate surface cleaning brush wheel 152, a waste collection device 2, a waste collection cart 21, a waste bucket 211 and a transmission sprinkling collection tank 22.

Detailed Description

The present invention will be further described with reference to the following drawings and detailed description, wherein the descriptions of "left", "right", etc. refer to fig. 1 for reference:

as shown in fig. 1 to 6, a high-efficiency concrete block detection system comprises a block detection device 1 and a waste collection device 2, wherein the block detection device 1 comprises a block conveyor belt 11, a pressure tester 13 and a block arranging and clamping mechanism 14, a strength test platform 12 is arranged at the middle section of the block conveyor belt 11, the block conveyor belt 11 circulates and passes through the strength test platform 12, blocks are circulated on the block conveyor belt 11 and flow to the strength test platform 12 to perform a strength test experiment, the pressure tester 13 and the block arranging and clamping mechanism 14 are arranged on the strength test platform 12, the pressure tester 13 provides pressure for the strength test of the blocks, the block arranging and clamping mechanism 14 has the arranging and positioning functions of the blocks, the two block arranging and clamping mechanisms 14 are respectively arranged at two sides of the block conveyor belt 11, and a plate surface cleaning mechanism 15 is arranged on the return path of the block conveyor belt 11, the waste collecting device 2 comprises a waste collecting cart 21, the waste collecting cart 21 is pushed and placed at the left end of the block conveyor belt 11, the utility model adopts a circulating strength detection mode, after the concrete block is subjected to a strength detection experiment at the position of the strength testing platform 12, broken building blocks do not need to be managed, the broken building blocks flow along with the building block conveyor belt 11, the building block conveyor belt 11 is in anticlockwise transmission, the waste collection trolley 21 is just arranged at the return end point of the building block conveyor belt 11, thus, along with the circulation of the block conveyor belt 11, the broken slag of the blocks after the experiment can be automatically dropped into the waste collection cart 21 for collection, the block conveyor belt 11 after the dropping is cleaned by the plate surface cleaning mechanism 15, the surface of the block conveyor belt 11 is kept clean, no residue is left, this kind of circulation formula intensity detection mode can significantly reduce the time of building block material and clean mesa from top to bottom, promotes detection efficiency, can satisfy the demand that the building block short-term test in batches.

The building block conveyor belt 11 is a plate chain type conveyor belt, a plurality of transmission plates 111 are arranged on the building block conveyor belt 11, a supporting boss 121 is connected on the strength testing platform 12, a gap is reserved between the transmission plates 111 and the upper plane of the supporting boss 121, the gap is small, so that the normal transmission of the building block conveyor belt 11 cannot be influenced, the supporting boss 121 plays a bottom supporting role in a detection experiment, during the detection experiment, the pressure testing machine 13 can press the building block together with the transmission plates 111 on the supporting boss 121 to perform the strength test (during the strength test, the deformation of the building block conveyor belt 11 is small, the transmission plates 111 are made of metal plates, the strength is high, the influence of the pressure test cannot be influenced), a plurality of cleaning bristles 112 are connected on the lower end face of the transmission plates 111, a small gap is reserved between the transmission plates 111 and the transmission plates 111, after the experiment, broken building block slag can fall onto the supporting boss 121 and cannot be cleaned, the next experiment can be influenced, the cleaning bristles 112 play a role of cleaning the supporting bosses 121, and along with the transmission of the block conveyor belt 11, the cleaning bristles 112 can sweep over the tops of the supporting bosses 121 to sweep ash.

The pressure testing machine 13 is provided with a testing machine head 131, the testing machine head 131 is connected with a pressure testing component 132 in a lifting mode, the pressure testing component 132 is arranged right above the supporting boss 121, the pressure testing component 132 can be replaced, and a plane continuous pressurizing experiment and an impact pressurizing strength experiment can be performed.

The block arranging and clamping mechanism 14 comprises a clamping cylinder 141 and L-shaped clamping plates 142, the L-shaped clamping plates 142 are connected to the piston rod end of the clamping cylinder 141, the L-shaped clamping plates 142 are pushed out by the clamping cylinder 141 to arrange and clamp blocks, the L-shaped clamping plates 142 of the two block arranging and clamping mechanisms 14 are installed oppositely, a frame-shaped inner space can be formed between the two L-shaped clamping plates 142, when the blocks are loaded, the positions of the blocks are deviated definitely, in order to ensure the accuracy of experimental data, the blocks need to be subjected to pressure experiments at the same positions, the block arranging and clamping mechanism 14 can play a role in correcting and positioning the positions of the blocks, the directions of the blocks are positioned through the frame-shaped inner space formed between the two L-shaped clamping plates 142, meanwhile, the two L-shaped clamping plates 142 also play a clamping role, and the blocks are prevented from being moved under force in the pressure experiment process.

The board cleaning mechanism 15 is installed at a position below the left end of the block conveyor belt 11, the block conveyor belt 11 is driven anticlockwise, the left end of the block conveyor belt 11 is a starting position of a return stroke, most of building block ash on the block conveyor belt 11 automatically drops, but the transmission plate 111 has residual adhered ash, in order to ensure the cleaning of the block conveyor belt 11, board cleaning needs to be performed through the board cleaning mechanism 15, the board cleaning mechanism 15 comprises a scraper cleaning component 151 and a board cleaning brush wheel 152, the board cleaning brush wheel 152 is installed at the rear of the scraper cleaning component 151, board scraping cleaning is performed firstly, then secondary cleaning is performed through the board cleaning brush wheel 152, the cleaning quality is ensured, the scraper cleaning component 151 comprises a cleaning scraper 1511, a spring seat 1512 and a scraper push rod 1515, the cleaning scraper 1511 is made of hard plastics and can perform the function of cleaning scraper, the surface of the transmission plate 111 cannot be damaged, the lower end of the cleaning scraper 1511 is hinged to be installed, installation and replacement of the cleaning scraper 1511 are facilitated, the spring seat 1512 is installed below the cleaning scraper 1511, a spring hole 1513 is arranged in the spring seat 1512, a spring 1514 is installed in the spring hole 1513, the upper end of a scraper push rod 1515 abuts against the cleaning scraper 1511, the lower end of the scraper push rod 1515 is connected with the spring 1514, the spring 1514 pushes the scraper push rod 1515 upwards, the scraper push rod 1515 jacks up the cleaning scraper 1511, the head of the cleaning scraper 1511 is in contact with the transmission plate 111 to be cleaned, the cleaning scraper 1511 is in elastic contact, and when large resistance is applied, the cleaning scraper 1511 can descend, and the cleaning scraper 1511 is prevented from being broken.

Be equipped with waste bin 211 on the garbage collection shallow 21, waste bin 211 covers the clean 15 work areas of face, and the lime-ash under the cleaning can fall and collect in waste bin 211, and garbage collection shallow 21 can freely remove, is convenient for dump of building block disintegrating slag.

The waste collection device 2 further comprises a conveying and sprinkling collection tank 22, a gap is formed between the driving plate 111 and the driving plate 111 of the block conveyor 11, thus, the phenomenon that the gap is spilled inevitably occurs in the circulation process of the slag of the experimental building blocks, in order to ensure the normal movement of the block conveyor belt 11, the utility model designs the transmission sprinkling collecting tank 22 to take the scattered slag, the transmission sprinkling collecting tank 22 covers the circulation stroke of the block slag, so that the scattered slag can be effectively collected, meanwhile, the transmission sprinkling collecting tank 22 is connected to the left end face of the supporting boss 121, ash residues which are cleaned on the table top of the supporting boss 121 can be collected on the transmission sprinkling collecting tank 22, the transmission sprinkling collecting tank 22 is installed in an inclined mode, the lowest point position is connected with an external discharging pipeline, the pipeline is a hose and can be in butt joint with the waste bucket 211, and the collected slag can be subjected to centralized processing.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (7)

1. The utility model provides an efficient concrete block detecting system, includes building block detection device (1), garbage collection device (2), its characterized in that: the building block detection device (1) comprises a building block conveyor belt (11), a pressure testing machine (13) and a building block arranging and clamping mechanism (14), wherein an intensity testing platform (12) is arranged in the middle section of the building block conveyor belt (11), the building block conveyor belt (11) is passed through the intensity testing platform (12) in an upward circulation mode, the pressure testing machine (13) and the building block arranging and clamping mechanism (14) are installed on the intensity testing platform (12), the building block arranging and clamping mechanism (14) are arranged on two sides of the building block conveyor belt (11) in a row, a board surface cleaning mechanism (15) is installed on a return path of the building block conveyor belt (11), the waste collection device (2) comprises a waste collection trolley (21), and the waste collection trolley (21) is pushed at the left end of the building block conveyor belt (11).

2. A high efficiency concrete block detection system as claimed in claim 1 wherein: the building block conveying belt is characterized in that the building block conveying belt (11) is a plate chain type conveying belt, a plurality of transmission plates (111) are arranged on the building block conveying belt (11), a supporting boss (121) is connected to the strength testing platform (12), a gap is reserved between the transmission plates (111) and the upper plane of the supporting boss (121), and a plurality of cleaning bristles (112) are connected to the lower end face of each transmission plate (111).

3. A high efficiency concrete block detection system as claimed in claim 2 wherein: the pressure testing machine is characterized in that a testing machine head (131) is arranged on the pressure testing machine (13), a pressure testing component (132) is connected to the testing machine head (131) in a lifting mode, and the pressure testing component (132) is arranged right above the supporting boss (121).

4. A high efficiency concrete block detection system as claimed in claim 1 wherein: the building block arranging and clamping mechanism (14) comprises a clamping cylinder (141) and L-shaped clamping plates (142), the L-shaped clamping plates (142) are connected to the piston rod end of the clamping cylinder (141), the L-shaped clamping plates (142) of the two building block arranging and clamping mechanisms (14) are oppositely arranged, and a frame-shaped inner space can be formed between the two L-shaped clamping plates (142).

5. A high efficiency concrete block detection system as claimed in claim 1 wherein: clean mechanism (15) of face is installed in building block conveyer belt (11) left end below position, clean mechanism (15) of face is including the clean subassembly of scraper blade (151), face cleaning brush wheel (152), the clean brush wheel of face (152) is installed at the clean subassembly of scraper blade (151) back track, the clean subassembly of scraper blade (151) is including cleaning scraper blade (1511), spring holder (1512), scraper blade push rod (1515), the articulated installation of cleaning scraper blade (1511) lower extreme, spring holder (1512) is installed in cleaning scraper blade (1511) below, be equipped with spring hole (1513) in spring holder (1512), install spring (1514) in spring hole (1513), scraper blade push rod (1515) upper end offsets with cleaning scraper blade (1511), scraper blade push rod (1515) lower extreme links to each other with spring (1514).

6. A high efficiency concrete block detection system as claimed in claim 5 wherein: be equipped with waste material bucket (211) on garbage collection shallow (21), waste material bucket (211) cover face cleaning mechanism (15) work area.

7. A high efficiency concrete block detection system as claimed in claim 2 wherein: the waste collecting device (2) further comprises a transmission sprinkling collecting tank (22), the transmission sprinkling collecting tank (22) is connected to the left end face of the supporting boss (121), and the transmission sprinkling collecting tank (22) is installed in an inclined mode.

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