CN212739693U - Concrete block carrying and compression resistance testing system - Google Patents

Abstract

The utility model relates to a concrete block carrying and compression resistance testing system, which is provided with a maintenance station, a testing station and a carrying station, wherein the maintenance station comprises a placing bracket, and a testing device is arranged on the testing station; the transport station includes handling device, handling device includes the moving platform who advances by driving motor drive, the relative slip platform that sets up at the moving platform both ends and rotate the regulation pole that sets up on the slip platform that corresponds by second motor drive, the slip direction of slip platform sets up with moving platform's direction of movement is perpendicular, all be equipped with relative setting and be used for getting on each regulation pole, put the splint of concrete piece, splint on each regulation pole are driven the cylinder lift through two respectively and are set up on the regulation pole that corresponds, each splint and moving platform's upper surface parallel arrangement, the splint that two relative settings form with the regulation pole and are used for pressing from both sides the clamp of getting the concrete piece and get the chamber. The utility model discloses the transport that carries out the concrete piece that can automize shifts and tests, and is practical high-efficient.

Description

Concrete block carrying and compression resistance testing system

Technical Field

The utility model relates to a concrete piece transport and resistance to compression test system.

Background

The concrete is one of the most important civil engineering materials in the present generation, and is an artificial stone material prepared by mixing a cementing material, granular aggregate (also serving as aggregate), water, an additive and a blending material which are added if necessary according to a certain proportion, uniformly stirring, densely molding, curing and hardening. One of the main indexes of concrete quality is compressive strength, which is directly proportional to the strength of cement used for concrete, and calculated according to a formula, when the cement-cement ratio is equal, the compressive strength of the concrete prepared by high-grade cement is much higher than that of the concrete prepared by low-grade cement. In order to test the influence of different water-cement ratios on the concrete strength, the quality of the concrete is ensured, the concrete blocks with different water-cement ratios are required to be subjected to compressive strength test, when the strength test is carried out, the concrete blocks are generally carried to a press machine through manual work and then are tested, the concrete blocks are carried out and stacked through manual work after the test is completed, the manpower is greatly consumed, and the carrying and compressive testing efficiency is extremely low, so that the concrete is very inconvenient.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an degree of automation is high, practical efficient concrete piece transport and resistance to compression test system.

Realize the utility model discloses the technical scheme of purpose is: the utility model relates to a concrete piece transport and resistance to compression test system has the maintenance station that is used for placing and maintaining the concrete piece, is used for carrying out the resistance to compression test to the concrete piece test station and is used for carrying the concrete piece on the maintenance station to the transport station of test station, the maintenance station includes the support of placing a plurality of concrete pieces, be equipped with on the test station and be used for carrying out the resistance to compression test with getting the concrete piece of getting from pressing from both sides the intracavity;

the carrying station comprises a carrying device used for carrying a concrete block on a placing support to a press machine, the carrying device comprises a moving platform driven by a driving motor to advance, sliding platforms arranged at two ends of the moving platform oppositely and arranged on the moving platform in a sliding mode through driving of a first motor, adjusting rods arranged on the corresponding sliding platforms in a rotating mode through driving of a second motor, the sliding direction of the sliding platforms is perpendicular to the moving direction of the moving platform, clamping plates which are arranged oppositely and used for taking and placing the concrete block are arranged on each adjusting rod, the clamping plates on each adjusting rod are arranged on the corresponding adjusting rods through lifting of two driving cylinders respectively, each clamping plate is arranged in parallel with the upper surface of the moving platform, and clamping cavities for clamping the concrete block are formed by the two clamping plates and the adjusting rods.

The conveyer belt that the chamber was got to the clamp by third motor drive, just being used for with concrete piece propelling movement to the lift on the above-mentioned support of placing is equipped with, the conveyer belt is gone up and down by a plurality of first cylinder drive and is set up on placing the support, and each first cylinder is fixed to be set up on placing the support, places and is equipped with the backup pad that is used for supporting the concrete piece on the support relatively, and the extending direction of backup pad is the same with the direction of delivery of conveyer belt, forms the lift region that can supply to carry the area lift between the backup pad of relative setting.

The support plate is L-shaped, the support plate is provided with a plurality of adjusting holes, the support is provided with a plurality of screw holes corresponding to the adjusting holes, each screw hole is vertically aligned, an adjusting bolt is arranged in each screw hole, and the support plate is fixed on the support after the adjusting bolt penetrates through the adjusting holes.

Each all be equipped with the lift groove on adjusting the pole, relative setting drive actuating cylinder and fix respectively at the up end and the lower terminal surface in lift groove, each flexible end that drives actuating cylinder all is equipped with the elevator, all fixes being equipped with telescopic cylinder on each elevator, and each splint are fixed to be set up at telescopic cylinder's flexible end, and each splint are got, are put the concrete piece through telescopic cylinder's drive.

And each clamping plate is provided with a limiting block for pre-positioning the concrete block.

The two sides of the moving platform are relatively provided with edge aligning devices for aligning stacked concrete blocks, the edge aligning devices and the carrying devices are positioned on different sides of the moving platform, each edge aligning device comprises a second cylinder fixed on the side of the moving platform, a lifting platform fixed at the telescopic end of the second cylinder, a third cylinder fixed on the lifting platform and a pressing plate fixed at the telescopic end of the third cylinder, the telescopic direction of each second cylinder is perpendicular to the upper surface of the moving platform, the telescopic direction of the third cylinder is parallel to the upper surface of the moving platform, the extending direction of the lifting platform is parallel to the extending direction of the moving platform, the pressing plate is perpendicular to the lifting platform, and the extending direction of the pressing plate is the same as the extending direction of the lifting platform.

The press comprises a test platform used for placing the concrete block taken from the clamping cavity, a hydraulic cylinder used for continuously pressing the concrete block and a control platform used for controlling the pressure applied by the hydraulic cylinder, the hydraulic cylinder is fixed above the test platform, the telescopic end of the hydraulic cylinder is opposite to the test platform, a plurality of guide rods are fixedly arranged between the test platform and the hydraulic cylinder, the output end of the hydraulic cylinder is fixedly provided with a pressing plate, the pressing plate is provided with through holes which correspond to the guide rods and can be penetrated by the guide rods, the pressing plate is arranged on the test platform in a lifting way by the driving of the hydraulic cylinder and the matching of the guide rods and the through holes, the control platform is internally provided with a control module electrically connected with the hydraulic cylinder, a display used for displaying the pressure application condition of the hydraulic cylinder and a power supply used for supplying power to the control module and the display, the display is electrically connected with the control module, and the display and the control module are both electrically connected with the power supply.

Be equipped with on the above-mentioned test platform and be used for accepting, conveying clamp gets the loading attachment of the concrete piece to test platform of intracavity, loading attachment is including fixing the material loading support at the test platform side, first conveyer belt, conveying platform and being used for concrete piece propelling movement to test platform's first push pedal, first conveyer belt rotates through fourth motor drive and sets up on the material loading support, conveying platform is fixed to be set up on first conveyer belt, conveying platform is last to be fixed to be equipped with the fourth cylinder of the first push pedal propelling movement concrete piece of drive to test platform, the fixed flexible end that sets up at the fourth cylinder of first push pedal, first push pedal is through the drive propelling movement concrete piece of fourth cylinder.

The two sides of the feeding support are provided with cleaning devices for cleaning the testing platform, each cleaning device comprises a fifth cylinder fixed on the two sides of the testing platform and cleaning brushes fixed at the telescopic ends of the fifth cylinders, an area for the first push plate to push concrete blocks to pass through is reserved between the cleaning brushes on the two sides of the feeding support, and each cleaning brush is driven by the fifth cylinder to brush impurities off the testing platform.

Still be equipped with the unloader that is used for taking out the concrete that the test was accomplished on above-mentioned test platform, unloader is including fixed sixth cylinder that is equipped with on test platform, fix the second push pedal on the sixth cylinder, fix the unloading support on test platform and rotate the second conveyer belt that sets up on the unloading support by fifth motor drive, second push pedal and second conveyer belt set up respectively in test platform's both sides, and loading attachment and unloader are located test platform's different sides, and the second push pedal is through the drive of sixth cylinder with concrete piece propelling movement to second conveyer belt.

The utility model discloses has positive effect: (1) the utility model discloses a set up maintenance station and test station and place concrete piece maintenance and compression resistance test, and through set up the transport station between maintenance station and test station, the concrete piece on will placing the support through the handling device on the transport station is carried, the pile up neatly, shift and the material loading, carry out the compression resistance test through the press after the material loading is accomplished, the problem of inefficiency that causes when the mode through mechanized automation is effectual replaced artifical transport, great accent the convenience and the high efficiency of compression resistance test, the high efficiency of detection has also been guaranteed when using manpower sparingly in material resources, convenient and practical.

(2) The utility model discloses a set the handling device to the rotation of adjusting the pole and the lift of the relative splint that set up, press from both sides the concrete piece through the relative slip of splint, transfer the concrete piece to moving platform through the rotation of adjusting the pole and stack, the effectual inconvenience of replacing when the artifical concrete piece of taking, can swiftly and the efficient carry out the transfer of concrete piece and lay, high-efficient practical.

(3) The utility model discloses a set the backup pad to the L type, support the concrete piece through the relative backup pad that sets up and carry out the regulation of backup pad height through the cooperation of adjusting the hole and placing screw on the support, can adjust upper and lower adjacent backup pad according to the size of concrete piece, can adapt to not unidimensional concrete piece, have better controllability and suitability, convenient high efficiency.

(4) The utility model discloses a set up the elevator in the lift inslot, set up telescopic cylinder on the elevator, drive the flexible of splint through telescopic cylinder, through driving the mutual slip that actuating cylinder drove splint to can the safety and stability carry out centre gripping, shift and orderly the stacking to the concrete piece, have better stability and security, practical high-efficient.

(5) The utility model discloses a set up the stopper on splint, the stopper on the splint can carry out prepositioning and spacing to the concrete piece on the one hand, and on the other hand also can guarantee the stability of concrete piece at the pivoted in-process, and is safe high-efficient and practical.

(6) The utility model discloses a set up flush limit device in moving platform's both sides, through second cylinder control lift cylinder, lean on the clamp plate through third cylinder control, can effectually flatten each concrete piece on the one hand and press neatly, and on the other hand when moving platform shifts, through the pressure of leaning on by the clamp plate, can guarantee that the concrete piece can not take place to drop, and is safe high-efficient.

(7) The utility model discloses a set the press to test platform, pneumatic cylinder and control platform's connection, can be through the effectual control pneumatic cylinder of control platform to the pressure that the concrete piece was exerted, in addition, set up the guide arm and guide the clamp plate and push down, can guarantee exerting pressure completely to the upper surface of concrete piece on the one hand, on the other hand also can be effectual lead to the clamp plate and spacing, high-efficient practical.

(8) The utility model discloses a set up loading attachment on test platform, drive first push pedal on transmission platform and the transmission platform through the first driving band on the material loading support under with concrete piece propelling movement to pneumatic cylinder to guarantee exerting pressure completely of pressure surface, safe high efficiency and practicality.

(9) The utility model discloses a set up cleaning device in the both sides of material loading support, clear away piece and miscellaneous material on the drive test platform of cleaning brush through fifth cylinder drive, high-efficient practical.

(10) The utility model discloses a set up the sixth cylinder and promote the second push pedal and drive the concrete piece and push to the unloading support on test platform to carry out the unloading, high-efficient practical with the concrete piece through the second conveyer belt on the unloading support.

Drawings

In order that the present invention may be more readily and clearly understood, the following detailed description of the present invention is given in conjunction with the accompanying drawings, in which

FIG. 1 is a front view of the overall structure of the concrete handling and compression testing system of the present invention;

FIG. 2 is a schematic view of the overall structure of the concrete handling and compression testing system of the present invention;

FIG. 3 is a schematic view of the overall structure of the placement frame of the present invention;

FIG. 4 is an enlarged view taken at A in FIG. 3;

fig. 5 is a schematic view of the overall structure of the carrying device of the present invention;

FIG. 6 is an enlarged view at B in FIG. 5;

fig. 7 is a schematic view of the overall structure of the press according to the present invention;

fig. 8 is a schematic view of the overall structure of the middle test platform of the present invention.

Detailed Description

Referring to fig. 1 to 8, the utility model discloses have the maintenance station that is used for placing and maintaining the concrete piece, be used for carrying out the compression test to the concrete piece test station to the test station and be used for carrying the concrete piece on the maintenance station to the transport station of test station, the maintenance station includes the support 1 of placing a plurality of concrete pieces, be equipped with on the test station and be used for carrying out the compression test with the concrete piece of getting from getting to press from both sides and getting the intracavity concrete piece, the standard test piece of concrete piece is the cube test piece of length of side 150 mm;

the handling station comprises a handling device 2 for handling the concrete mass on the placing support 1 to a press, the carrying device 2 comprises a moving platform 21 driven by a driving motor to advance, sliding platforms 23 which are oppositely arranged at two ends of the moving platform 21 and are driven by a first motor 22 to slide on the moving platform 21, and adjusting rods 25 which are driven by a second motor 24 to rotate and are arranged on the corresponding sliding platforms 23, wherein the sliding direction of the sliding platforms 23 is perpendicular to the moving direction of the moving platform 21, clamping plates 255 which are oppositely arranged and used for taking and placing concrete blocks are arranged on each adjusting rod 25, the clamping plates 255 on each adjusting rod 25 are respectively arranged on the corresponding adjusting rods 25 in a lifting mode through two driving cylinders 252, each clamping plate 255 is arranged in parallel with the upper surface of the moving platform 21, and the two clamping plates 255 which are oppositely arranged and the adjusting rods 25 form a clamping cavity for clamping the concrete blocks;

the bottom of the sliding platform 23 is provided with a sliding chute, the moving platform 21 is provided with a sliding rail correspondingly matched with the sliding chute, the side edge of the moving platform 21 is provided with a rack, the first motor 22 is provided with a gear in transmission fit with the rack, and the sliding platform 23 is arranged on the moving platform 21 in a sliding manner through the transmission fit of the first motor 22 and the rack and the fit of the sliding rail and the sliding chute;

the maintenance station is arranged in a maintenance room, all the placing supports 1 are located in the maintenance room, a spraying device for moisturizing and maintaining concrete blocks is arranged in the maintenance room, the humidity in the maintenance room is guaranteed by spraying the concrete blocks through the spraying device, each maintenance frame is provided with a humidity measuring instrument, the controllability of the humidity in the maintenance room is guaranteed through the humidity measuring instrument, the testing station is located in a measuring room, a press machine is placed in the measuring room, a transportation passageway is arranged between the measuring room and the maintenance room, and the carrying device 2 is located on the transportation passageway;

the placing support 1 is provided with a conveying belt 11 which is driven by a third motor and used for pushing concrete blocks to the clamping cavity in a lifting mode, the conveying belt 11 is driven by a plurality of first cylinders 12 to be arranged on the placing support 1 in a lifting mode, each first cylinder 12 is fixedly arranged on the placing support 1, supporting plates 13 used for supporting the concrete blocks are oppositely arranged on the placing support 1, the extending direction of each supporting plate 13 is the same as the conveying direction of the conveying belt 11, and a lifting area for the conveying belt 11 to lift is formed between the oppositely arranged supporting plates 13;

the supporting plate 13 is L-shaped, the supporting plate 13 is provided with an adjusting hole 131, the placing support 1 is provided with a plurality of screw holes 14 corresponding to the adjusting hole 131, the screw holes 14 are vertically aligned, an adjusting bolt is arranged in each screw hole 14, and the supporting plate 13 is fixed on the placing support 1 after the adjusting bolt penetrates through the adjusting hole 131;

each adjusting rod 25 is provided with a lifting groove 251, the oppositely arranged driving cylinders 252 are respectively fixed on the upper end surface and the lower end surface of the lifting groove 251, the telescopic end of each driving cylinder 252 is provided with a lifting block 253, each lifting block 253 is fixedly provided with a telescopic cylinder 254, each clamping plate 255 is fixedly arranged at the telescopic end of the telescopic cylinder 254, and each clamping plate 255 is driven by the telescopic cylinder 254 to fetch and place concrete blocks;

each clamping plate 255 is provided with a limiting block 256 for pre-positioning a concrete block;

two sides of the moving platform 21 are oppositely provided with edge aligning devices for aligning stacked concrete blocks, the edge aligning devices and the carrying device 2 are positioned on different sides of the moving platform 21, each edge aligning device comprises a second cylinder 26 fixed on the side of the moving platform 21, a lifting platform 27 fixed on the telescopic end of the second cylinder 26, a third cylinder 28 fixed on the lifting platform 27, and a pressing plate 29 fixed on the telescopic end of the third cylinder 28, the telescopic direction of each second cylinder 26 is perpendicular to the upper surface of the moving platform 21, the telescopic direction of the third cylinder 28 is parallel to the upper surface of the moving platform 21, the extending direction of the lifting platform 27 is parallel to the extending direction of the moving platform 21, the pressing plate 29 is perpendicular to the lifting platform 27, and the extending direction of the pressing plate 29 is the same as the extending direction of the lifting platform 27;

the press machine comprises a test platform 3, a hydraulic cylinder 31 and a control platform 7, wherein the test platform 3 is used for placing and taking concrete blocks in a clamping cavity, the hydraulic cylinder 31 is used for continuously applying pressure to the concrete blocks, the control platform 7 is used for controlling the pressure application of the hydraulic cylinder 31, the hydraulic cylinder 31 is fixed above the test platform 3, the telescopic end of the hydraulic cylinder 31 is right opposite to the test platform 3, a plurality of guide rods 33 are fixedly arranged between the test platform 3 and the hydraulic cylinder 31, a pressing plate 32 is fixedly arranged at the output end of the hydraulic cylinder 31, the test platform 3 and the pressing plate 32 are cleaned up before compression testing, through holes which correspond to the guide rods 33 and can be penetrated by the guide rods 33 are arranged on the pressing plate 32, the pressing plate 32 is arranged on the test platform 3 through the driving of the hydraulic cylinder 31 and the matching of the guide rods 33 and the through holes in a lifting mode, a control module which is electrically, The display is electrically connected with the control module, the display and the control module are both electrically connected with the power supply, the hydraulic cylinder 31 is controlled by the control module to apply pressure, and the pressure-applied readings are displayed on the display screen, so that the pressure is regulated and controlled according to the readings displayed on the display screen, and the stressed deformation of the concrete block can be seen on the display screen;

the test platform 3 is provided with a feeding device 4 for receiving and conveying the concrete blocks in the clamping cavity to the test platform 3, the feeding device 4 comprises a feeding support 41 fixed on the side edge of the test platform 3, a first conveying belt 42, a conveying platform 43 and a first push plate 45 for pushing the concrete blocks to the test platform 3, the first conveying belt 42 is rotationally driven by a fourth motor and arranged on the feeding support 41, the conveying platform 43 is fixedly arranged on the first conveying belt 42, the conveying platform 43 is fixedly provided with a fourth air cylinder 44 for driving the first push plate 45 to push the concrete blocks to the test platform 3, the first push plate 45 is fixedly arranged at the telescopic end of the fourth air cylinder 44, and the first push plate 45 is driven by the fourth air cylinder 44 to push the concrete blocks to the lower part of the hydraulic cylinder 31;

cleaning devices 5 for cleaning the test platform 3 are arranged on two sides of the feeding support 41, each cleaning device 5 comprises a fifth cylinder 51 fixed on two sides of the test platform 3 and a cleaning brush 52 fixed on the telescopic end of each fifth cylinder 51, an area through which the first push plate 45 can push concrete blocks to pass is reserved between the cleaning brushes 52 on the two sides of the feeding support 41, each cleaning brush 52 is driven by the fifth cylinder 51 to brush impurities off the test platform 3, and a waste material box for receiving crushed materials and impurities is arranged on the other side of the test platform 3, so that environmental pollution is avoided;

still be equipped with the unloader 6 that is used for the concrete that the test was accomplished to take out on the test platform 3, unloader 6 is including fixed sixth cylinder 63 that is equipped with on test platform 3, fix second push pedal 64 on sixth cylinder 63, fix unloading support 61 on test platform 3 and rotate the second conveyer belt 62 that sets up on unloading support 61 by fifth motor drive, second push pedal 64 and second conveyer belt 62 set up the both sides at test platform 3 respectively, and loading attachment 4 and unloader 6 are located test platform 3's different sides, and second push pedal 64 is through the drive of sixth cylinder 63 with concrete piece propelling movement to second conveyer belt 62.

The utility model discloses a theory of operation: when the utility model is used, after the conveying belt 11 is lifted up and down through the first cylinder 12, the conveying belt 11 is contacted with the bottom surface of the concrete block, the concrete block is conveyed to the oppositely arranged clamping plates 255 after the conveying belt 11 is driven to rotate by the third motor, the concrete block is clamped tightly by the oppositely arranged driving cylinders 252, the adjusting rods 25 are rotated by the driving of the second motor 24 after being clamped tightly, the rotating adjusting rods 25 stretch out the clamping plates 255 by driving the telescopic cylinders 254 and place the concrete block on the moving platform 21 by the driving of the driving cylinders 252, the concrete block is piled, then the pressing plates 3229 are pressed tightly on the concrete block by the driving of the second cylinder 26 on the edge aligning device and the driving of the third cylinder 28, and the pressing effect can be played on the concrete block in the moving process of the moving platform 21, thereby avoiding the concrete block from sliding off in the transportation process, carry the concrete piece to material support 41 through splint 255 after moving platform 21 removes to the measuring room, place the concrete piece at drive platform, then control platform 7 begins groove accuse pneumatic cylinder 31 to push down through first push pedal 45 with concrete piece propelling movement to pneumatic cylinder 31 under, push down and stop to push down after the default, and with pneumatic cylinder 31 lifting, drive cleaning brush 52 and clean test platform 3 through fifth cylinder 51, push away the concrete piece through second push pedal 64 on the sixth cylinder 63 after cleaning the completion, and convey the concrete piece out test platform 3 through second conveyer belt 62, high efficiency is practical.

The above-mentioned embodiments, further detailed description of the objects, technical solutions and advantages of the present invention, it should be understood that the above-mentioned embodiments are only specific embodiments of the present invention, and are not intended to limit the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (10)

1. The utility model provides a concrete piece transport and resistance to compression test system which characterized in that: the concrete block compression testing device comprises a curing station, a testing station and a carrying station, wherein the curing station is used for placing and curing concrete blocks, the testing station is used for carrying out compression testing on the concrete blocks, the carrying station is used for carrying the concrete blocks on the curing station to the testing station, the curing station comprises a placing support (1) used for placing a plurality of concrete blocks, and a press machine used for carrying out compression testing on the concrete blocks taken from a clamping cavity is arranged on the testing station;

the conveying station comprises a conveying device (2) used for conveying concrete blocks on a placing support (1) to a press machine, the conveying device (2) comprises a moving platform (21) driven by a driving motor to advance, sliding platforms (23) which are oppositely arranged at two ends of the moving platform (21) and are driven by a first motor (22) to slide on the moving platform (21), adjusting rods (25) driven by a second motor (24) to rotate on the corresponding sliding platforms (23), the sliding direction of the sliding platforms (23) is perpendicular to the moving direction of the moving platform (21), clamping plates (255) which are oppositely arranged and used for taking and placing the concrete blocks are arranged on the adjusting rods (25), the clamping plates (255) on the adjusting rods (25) are respectively arranged on the corresponding adjusting rods (25) in a lifting mode through two driving cylinders (252), each clamping plate (255) is arranged in parallel with the upper surface of the movable platform (21), and the two clamping plates (255) which are arranged oppositely and the adjusting rod (25) form a clamping cavity for clamping a concrete block.

2. The concrete block handling and compression testing system of claim 1, wherein: it is equipped with by the third motor drive, and is used for getting conveyer belt (11) of chamber to the clamp with the concrete piece propelling movement to placing to place support (1) ascending and descending placing support (1) on to place support (1) by a plurality of first cylinder (12) drive, and each first cylinder (12) are fixed to be set up on placing support (1), place support (1) and go up and down relatively being equipped with backup pad (13) that are used for supporting the concrete piece, and the extending direction of backup pad (13) is the same with the direction of delivery of conveyer belt (11), forms the lift region that can supply to carry and send area (11) to go up and down between backup pad (13) that set up relatively.

3. The concrete block handling and compression testing system of claim 2, wherein: backup pad (13) are the L type, and are equipped with regulation hole (131) on backup pad (13), it is equipped with a plurality of screw (14) that correspond with regulation hole (131) on support (1) to place, vertical alignment in each screw (14), has set adjusting bolt in screw (14), and adjusting bolt passes behind regulation hole (131) to fix backup pad (13) on placing support (1).

4. The concrete block handling and compression testing system of claim 3, wherein: all be equipped with lift groove (251) on each regulation pole (25), the relative actuating cylinder (252) that sets up fixes respectively at the up end and the terminal surface down of lift groove (251), and the flexible end that each actuating cylinder (252) were driven all is equipped with elevator block (253), all fixes being equipped with telescopic cylinder (254) on each elevator block (253), and each splint (255) are fixed to be set up the flexible end at telescopic cylinder (254), and each splint (255) are got, are put the concrete piece through telescopic cylinder (254) drive.

5. The concrete block handling and compression testing system of claim 4, wherein: each clamping plate (255) is provided with a limiting block (256) for pre-positioning a concrete block.

6. The concrete block handling and compression testing system of claim 1, wherein: the side aligning device comprises a second air cylinder (26) fixed on the side of the moving platform (21), a lifting platform (27) fixed at the telescopic end of the second air cylinder (26), a third air cylinder (28) fixed on the lifting platform (27), and a pressure plate (29) fixed at the telescopic end of the third air cylinder (28), wherein the telescopic direction of each second air cylinder (26) is perpendicular to the upper surface of the moving platform (21), the telescopic direction of the third air cylinder (28) is parallel to the upper surface of the moving platform (21), the extending direction of the lifting platform (27) is parallel to the extending direction of the moving platform (21), and the pressure plate (29) is perpendicular to the lifting platform (27), and the extension direction of the pressure plate (29) is the same as that of the lifting platform (27).

7. The concrete block handling and compression testing system of claim 1, wherein: the press machine comprises a test platform (3) used for placing and taking concrete blocks in a self-clamping cavity, a hydraulic cylinder (31) used for continuously pressing the concrete blocks and a control platform (7) used for controlling the pressure applied by the hydraulic cylinder (31), wherein the hydraulic cylinder (31) is fixed above the test platform (3), the telescopic end of the hydraulic cylinder (31) is just opposite to the test platform (3), a plurality of guide rods (33) are fixedly arranged between the test platform (3) and the hydraulic cylinder (31), a pressing plate (32) is fixedly arranged at the output end of the hydraulic cylinder (31), through holes which correspond to the guide rods (33) and can be penetrated by the guide rods (33) are arranged on the pressing plate (32), the pressing plate (32) is arranged on the test platform (3) through the driving of the hydraulic cylinder (31) and the matching lifting of the guide rods (33) and the through holes, and a control module used for being electrically connected with the hydraulic cylinder (31) is arranged in the, The hydraulic control system comprises a display for displaying the pressure application condition of the hydraulic cylinder (31) and a power supply for supplying power to the control module and the display, wherein the display is electrically connected with the control module, and the display and the control module are both electrically connected with the power supply.

8. The concrete block handling and compression testing system of claim 7, wherein: the test platform (3) is provided with a feeding device (4) for receiving and conveying the concrete blocks in the clamping cavity to the test platform (3), loading attachment (4) including fixing material loading support (41) at test platform (3) side, first conveyer belt (42), conveying platform (43) and be used for first push pedal (45) with concrete piece propelling movement to test platform (3), first conveyer belt (42) rotate through fourth motor drive and set up on material loading support (41), conveying platform (43) are fixed to be set up on first conveyer belt (42), conveying platform (43) are gone up and are fixed to be equipped with fourth cylinder (44) of first push pedal (45) propelling movement concrete piece to test platform (3) of drive, first push pedal (45) are fixed to be set up the flexible end at fourth cylinder (44), first push pedal (45) are through the drive propelling movement concrete piece of fourth cylinder (44).

9. The concrete block handling and compression testing system of claim 8, wherein: the utility model discloses a concrete block cleaning device, including the first push pedal (45) of confession between the cleaning brush (52) of material loading support (41), the both sides of material loading support (41) are equipped with cleaning device (5) that are used for clean test platform (3), cleaning device (5) are including fixing fifth cylinder (51) in test platform (3) both sides and fixing cleaning brush (52) at the flexible end of each fifth cylinder (51), leave the region that can supply first push pedal (45) propelling movement concrete block to pass between cleaning brush (52) of material loading support (41) both sides, and each cleaning brush (52) carry out the brush-removing of impurity to test platform (3) through the drive of fifth cylinder (51).

10. The concrete block handling and compression testing system of claim 9, wherein: still be equipped with unloader (6) that are used for taking out the concrete that the test was accomplished on test platform (3), unloader (6) are including fixed sixth cylinder (63) that is equipped with on test platform (3), fix second push pedal (64) on sixth cylinder (63), fix unloading support (61) on test platform (3), and rotate second conveyer belt (62) that set up on unloading support (61) by fifth motor drive, second push pedal (64) and second conveyer belt (62) set up respectively in the both sides of test platform (3), and loading attachment (4) and unloader (6) are located the different sides of test platform (3), and second push pedal (64) are through sixth cylinder (63) drive with concrete piece propelling movement to second conveyer belt (62).

Images