CN112834355B - Concrete test block uninterrupted detection line - Google Patents

Abstract

The utility model relates to an incessant detection line of concrete test block, it includes workstation and pressure test machine, one side that the workstation was arranged in to pressure test machine just hugs closely each other with the workstation, the support frame has set firmly on the workstation, be equipped with the arm on the support frame, the arm moves along vertical direction and horizontally direction, the tip that the arm is close to pressure test machine is equipped with fixture, one side that the workstation was kept away from to pressure test machine is equipped with the conveyer belt. The arm does the pay-off of mutually supporting along vertical direction and horizontal direction, the motion of unloading, drive fixture motion, the centre gripping that will place a plurality of concrete test blocks that await measuring on the workstation one by one is transported the pressure test machine, carry out pressure test to the concrete test block through the pressure test machine, the concrete test block after the test, lift it off by fixture, transport the concrete test block through the conveyer belt, realize the automatic pressure test of concrete test block, this application has the effect that reduces operator intensity of labour.

Description

Concrete test block uninterrupted detection line

Technical Field

The application relates to the field of concrete test block detection, in particular to an uninterrupted detection line for concrete test blocks.

Background

The concrete test block generally refers to a concrete block, and when the block is used as a building main body material, the radionuclide limit of the block is in accordance with the regulation of building material radionuclide limit. The common concrete is an artificial stone material formed by mixing cement, coarse aggregate (broken stone or pebble), fine aggregate (sand), additive and water and hardening. The sand and the stone play a role of a framework in the concrete and inhibit the shrinkage of the cement, and the cement and the water form cement paste which is wrapped on the surfaces of the coarse and fine aggregates and fills gaps among the aggregates. The cement paste has a lubricating effect before hardening, so that the concrete mixture has good working performance, and the aggregates are cemented together after hardening to form a strong whole. The concrete press is mainly used for testing the compressive strength of building material test blocks such as concrete, cement, high-strength bricks, refractory materials and the like.

The traditional Chinese patent with the bulletin number of CN204269483U discloses a concrete block pressure testing device, which comprises a base, a lower cross beam and a maintenance box are installed on the base, a support column is respectively installed at each of the left end and the right end of the lower cross beam, an upper cross beam is installed between the two support columns, a screw rod is installed in the middle of the upper cross beam, a hand wheel is installed at the top of the screw rod, an upper pressure plate is installed at the bottom of the screw rod, an adjusting screw is installed between the screw rod and the upper pressure plate, an oil cylinder is installed on the lower cross beam, a lower pressure plate is installed at the top of the oil cylinder, a pressure sensor is installed on the lower pressure plate, an oil pipe is installed at the bottom of the oil cylinder, the other end of the oil pipe is connected with a motor, the motor is installed in the maintenance box, a display plate is installed on the upper portion of the maintenance box, a display screen and a button are installed on the display plate, a scale is installed on the support column at the left end of the lower cross beam, and a maintenance door is installed on the maintenance box.

To the above-mentioned correlation technique, the inventor thinks that above-mentioned concrete block pressure test device has convenient operation, simple, advantage that the measuring accuracy is high, the quality of concrete product of reaction that can be accurate, but the operator needs artifical manual to carry out material loading, unloading to the concrete test block, because the concrete test block has certain quality, and then leads to operator's intensity of labour great.

Disclosure of Invention

In order to reduce operator's intensity of labour, this application provides an incessant detection line of concrete test block.

The application provides a concrete test block uninterrupted detection line adopts following technical scheme:

the utility model provides an incessant detection line of concrete test block, includes workstation and pressure test machine, and pressure test machine arranges one side of workstation in and hugs closely each other with the workstation, has set firmly the support frame on the workstation, is equipped with the arm on the support frame, and the arm is followed vertical direction and horizontally direction motion, and the arm is close to the tip of pressure test machine and is equipped with fixture, and one side that the workstation was kept away from to pressure test machine is equipped with the conveyer belt.

Through adopting above-mentioned technical scheme, the arm is along vertical direction and the horizontal direction pay-off of mutually supporting, the motion of unloading, and then drive fixture motion, the centre gripping that will place a plurality of concrete test blocks that await measuring on the workstation one is transported the pressure test machine, carry out pressure test to the concrete test block through the pressure test machine, the concrete test block after the test, lift it off by fixture, transport away the concrete test block through the conveyer belt, realize the automatic pressure test of concrete test block, the effect that has reduction operator intensity of labour.

Optionally, an oscillation device is arranged between the pressure testing machine and the conveyor belt, the oscillation device includes an oscillation frame, an oscillation plate is arranged on the oscillation frame, a plurality of oscillation springs are arranged at one end of the oscillation plate close to the oscillation frame, the oscillation springs are connected with the oscillation plate and the oscillation frame, and an oscillation motor is fixedly arranged at one end of the oscillation plate close to the oscillation frame.

Through adopting above-mentioned technical scheme, the concrete test block after the test of pressure test machine, be transported on the oscillation device by arm and fixture, the vibration of vibrating motor this moment, drive the concrete test block vibration above the vibration board when driving the vibration board vibration, the vibrating spring plays the effect of connecting and supporting the vibration board, if the concrete test block after the extrusion of pressure test machine before the crack appears, through the vibration of vibration board, can make the crackle on the concrete test block more obvious, whether the follow-up observation concrete test block that can be more convenient of messenger's operator tests qualifiedly.

Optionally, flanges are fixedly arranged at edges of one end, far away from the oscillating frame, of the oscillating plate.

Through adopting above-mentioned technical scheme, the flange plays and prevents that the concrete test block from the effect of sliding down on the vibration board when vibrating the concrete test block to the vibration board.

Optionally, an arched metal net is fixedly arranged on the rib, and the unfolding direction of the metal net is perpendicular to the connecting direction of the pressure testing machine and the conveyor belt.

Through adopting above-mentioned technical scheme, the concrete test block is arranged in the metal mesh vibration, and the metal mesh plays the effect that further prevents the concrete test block vibration from shaking the board from the top of shaking the board.

Optionally, a thrust cylinder is arranged on the oscillating frame, a thrust rod is fixedly arranged at an end of an output shaft of the thrust cylinder, and the thrust rod is arranged above the oscillating plate.

Through adopting above-mentioned technical scheme, after the concrete test block vibration on the board that shakes, the output shaft motion of thrust cylinder this moment drives the distance rod to the direction motion of concrete test block, with the direction promotion of concrete test block to the conveyer belt, and then realizes the automatic discharge of concrete test block on the board that shakes, further reduces operator's intensity of labour.

Optionally, one end of the thrust rod, which is close to the conveyor belt, is provided with a buffer sheet.

Through adopting above-mentioned technical scheme, the buffer piece has elasticity, and when the distance rod contacted on the concrete test block, the buffer piece was arranged in between distance rod and the concrete test block, and the buffer piece relaxed and absorbed the impact force between distance rod and the concrete test block this moment, played the effect of protection distance rod and concrete test block.

Optionally, one end of the thrust rod close to the oscillation plate is provided with a thrust brush, and one end of the thrust brush, far away from the thrust rod, is mutually abutted to the top surface of the oscillation plate.

Through adopting above-mentioned technical scheme, the vibrating plate can pile up the incomplete miscellaneous and the incomplete piece of some concrete on the vibrating plate at the in-process of vibrating concrete test block, and the thrust brush is along with the simultaneous motion of distance rod this moment, will vibrate the incomplete miscellaneous and the incomplete piece of concrete on the plate and sweep out the vibrating plate together, remains the clean and tidy nature of vibrating plate top all the time.

Optionally, the clamping mechanism comprises a horizontal clamping cylinder, the clamping cylinder is fixedly connected with the end portion of the mechanical arm, the output shafts at the two ends of the clamping cylinder are respectively and fixedly provided with a clamping plate, and the ends, close to each other, of the two clamping plates are fixedly provided with a buffer piece.

Through adopting above-mentioned technical scheme, the centre gripping cylinder motion drives two grip blocks and makes opening or closed motion simultaneously, through mutually supporting between two grip blocks, realizes the centre gripping to the concrete test block, and the bolster has elasticity, and when grip block centre gripping concrete test block, the bolster is arranged in between grip block and the concrete test block, and the bolster has alleviated the impact force between grip block and the concrete test block, plays the effect of protection grip block and concrete test block.

Optionally, a clamping brush is fixedly arranged at the bottom end of the clamping cylinder body, and when the clamping plate clamps the concrete test block, the clamping brush is mutually abutted against the test surface of the pressure test machine.

By adopting the technical scheme, the clamping hairbrush moves along with the movement of the clamping air cylinder, after the pressure testing machine tests the concrete test block, some concrete residues and residual blocks are usually left on the pressure testing machine, at the moment, the clamping hairbrush moves along with the clamping air cylinder, the concrete residues and the residual blocks on the testing surface of the pressure testing machine are swept out of the testing surface, and the tidiness above the testing surface is kept all the time.

Optionally, a transparent protection plate is fixedly arranged on the pressure tester, the two protection plates are respectively arranged on two sides of the pressure tester, and the protection plate is arranged above the test surface of the pressure tester and keeps a distance from the test surface of the pressure tester.

Through adopting above-mentioned technical scheme, pressure test machine is in the engineering of extrusion test concrete test block, if the quality of concrete test block is too poor, can not withstand pressure test machine's pressure, in case the concrete test block explodes out, the guard plate plays the possibility that reduces the concrete fragment and splashes out this moment, plays the effect of protection operator operation safety.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the mechanical arm carries out mutually matched feeding and discharging motions along the vertical direction and the horizontal direction so as to drive the clamping mechanism to move, a plurality of concrete test blocks to be tested which are placed on the workbench are clamped and conveyed to the pressure testing machine one by one, the pressure testing machine is used for carrying out pressure testing on the concrete test blocks, the tested concrete test blocks are unloaded by the clamping mechanism, the concrete test blocks are conveyed away by the conveying belt, the automatic pressure testing of the concrete test blocks is realized, and the effect of reducing the labor intensity of operators is achieved;

2. the concrete test block tested by the pressure testing machine is transported to the oscillating device by the mechanical arm and the clamping mechanism, the oscillating motor vibrates to drive the oscillating plate to vibrate and drive the concrete test block on the oscillating plate to vibrate at the same time, the oscillating spring plays a role in connecting and supporting the oscillating plate, if the concrete test block extruded by the pressure testing machine has cracks, the cracks on the concrete test block can be more obvious through the vibration of the oscillating plate, and an operator can more conveniently observe whether the concrete test block is qualified or not in the follow-up process;

3. after the concrete test block on the oscillating plate vibrates, the output shaft of the thrust cylinder moves to drive the thrust rod to move towards the direction of the concrete test block, so that the concrete test block is pushed towards the conveyor belt, the automatic discharging of the concrete test block on the oscillating plate is realized, and the labor intensity of an operator is further reduced.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present application.

Fig. 2 is a partially enlarged view of a in fig. 1.

Fig. 3 is a partially enlarged view of B in fig. 1.

Fig. 4 is a front view of the oscillation motor in the embodiment of the present application.

Description of reference numerals: 1. a work table; 2. a support frame; 3. a mechanical arm; 31. a horizontal cylinder; 32. a first connecting plate; 33. a first limiting rod; 34. a vertical cylinder; 35. a second connecting plate; 36. a second limiting rod; 4. a clamping mechanism; 41. a clamping cylinder; 42. a clamping plate; 43. a buffer member; 44. clamping the hairbrush; 5. a pressure testing machine; 51. a protection plate; 6. an oscillation device; 61. an oscillating frame; 62. an oscillating plate; 621. blocking edges; 622. a metal mesh; 63. an oscillating spring; 64. an oscillating motor; 65. a thrust cylinder; 66. a thrust rod; 67. a buffer sheet; 68. a thrust brush; 7. and (4) a conveyor belt.

Detailed Description

The present application is described in further detail below with reference to all of the figures.

The embodiment of the application discloses an uninterrupted detection line for concrete test blocks.

Referring to fig. 1, the uninterrupted detection line for the concrete test blocks comprises a workbench 1, wherein a support frame 2 is fixedly connected to the workbench 1, a mechanical arm 3 is mounted on the support frame 2, and a clamping mechanism 4 is mounted at the end part of the mechanical arm 3. The operator places the concrete test block that awaits measuring on workstation 1, through mutually supporting of arm 3 and fixture 4, realizes the automatic transportation process of concrete test block. A pressure testing machine 5, an oscillating device 6 and a conveyor belt 7 are sequentially installed on one side of the workbench 1, a concrete test block is subjected to pressure testing through the pressure testing machine 5, the concrete test block after testing is further subjected to oscillation optimization through the oscillating device 6, and finally the concrete test block is conveyed to the conveyor belt 7, so that the uninterrupted detection process of the concrete test block is realized.

Referring to fig. 1 and 2, the mechanical arm 3 moves in the vertical direction and the horizontal direction, thereby realizing the process of loading and unloading the concrete test block. The mechanical arm 3 comprises a horizontal cylinder 31, the horizontal cylinder 31 is horizontally and fixedly connected to the support frame 2, a first connecting plate 32 is fixedly arranged on an output hand of the horizontal cylinder 31, movement of the first connecting plate 32 along the horizontal direction is achieved through movement of the horizontal cylinder 31, and the movement direction of the first connecting plate 32 is consistent with that of the horizontal cylinder 31.

Referring to fig. 1 and 2, the first limiting rods 33 which are consistent with the first connecting plate 32 in the moving direction are connected to the support frame 2 in a sliding manner, the first limiting rods 33 are symmetrically distributed on two sides of the horizontal cylinder 31 and fixedly connected with the first connecting plate 32, and the stability of the first connecting plate 32 in movement is further improved through the mutual matching between the first limiting rods 33 and the first connecting plate 32.

Referring to fig. 1 and 2, a vertical cylinder 34 is fixedly arranged in the middle of the bottom end of the first connecting plate 32, a second connecting plate 35 is fixedly arranged on an output shaft of the vertical cylinder 34, movement of the second connecting plate 35 in the vertical direction is achieved through movement of the vertical cylinder 34, and the movement direction of the second connecting plate 35 is consistent with the movement direction of the vertical cylinder 34.

Referring to fig. 1 and 2, the first connecting plate 32 is slidably connected with two second limiting rods 36 which are consistent with the second connecting plate 35 in the moving direction, the two second limiting rods 36 are symmetrically distributed on two sides of the vertical cylinder 34 and are fixedly connected with the second connecting plate 35, and the stability of the second connecting plate 35 in the moving process is further improved through the mutual matching of the two second limiting rods 36 and the second connecting plate 35.

Referring to fig. 1 and 2, the clamping mechanism 4 is fixedly connected to one side of the second connecting plate 35 close to the pressure testing machine 5, the clamping mechanism 4 includes a horizontal clamping cylinder 41, and the clamping cylinder 41 is fixedly connected to one end of the second connecting plate 35 close to the pressure testing machine 5. Horizontal clamping plates 42 are fixedly arranged on output shafts at two ends of the clamping cylinder 41 respectively, the two clamping plates 42 can move in an opening or closing mode simultaneously through movement of the output shafts of the clamping cylinder 41, and finally clamping of the concrete test block is achieved through mutual matching of the two clamping plates 42. Through the cooperation between arm 3 and fixture 4, will place on workstation 1 a plurality of concrete test blocks that await measuring centre gripping transport pressure test machine 5 one on, carry out pressure test to the concrete test block through pressure test machine 5, the concrete test block after the test is lifted it off by arm 3 and fixture 4 again, realizes the automatic pressure test of concrete test block, reduces operator's intensity of labour.

Referring to fig. 2, an elastic buffer 43 is fixedly disposed at an end of each of the two clamping plates 42 adjacent to each other. When the clamping plate 42 clamps the concrete test block, the buffer member 43 is arranged between the clamping plate 42 and the concrete test block, and the buffer member 43 relieves the impact force between the clamping plate 42 and the concrete test block, thereby protecting the clamping plate 42 and the concrete test block.

Referring to fig. 2, a horizontal clamping brush 44 is fixedly installed at a bottom end of a cylinder body of the clamping cylinder 41, and the clamping brush 44 moves along with the movement of the clamping cylinder 41. When the holding plate 42 holds the concrete test block, the holding brush 44 abuts against the test surface of the pressure tester 5. After the concrete test block is tested by the pressure tester 5, if some concrete residue and residual block remain on the pressure tester 5, the clamping brush 44 moves along with the clamping cylinder 41, so that the concrete residue and residual block on the testing surface of the pressure tester 5 are swept out of the testing surface of the pressure tester 5, and the tidiness above the testing surface is kept.

Referring to fig. 1, a pressure tester 5 is disposed on one side of a table 1 and is in close contact with the table 1, and a test surface of the pressure tester 5 is disposed on the same horizontal plane as an upper surface of the table 1. Two transparent protective plates 51 are fixedly arranged on the pressure tester 5, and the two protective plates 51 are respectively arranged on two sides of the pressure tester 5 close to the workbench 1 and the oscillating device 6. In the process of extruding and testing the concrete test block by the pressure testing machine 5, if the quality of the concrete test block is poor, the pressure of the pressure testing machine 5 cannot be withstood, once the concrete test block is exploded, the protection plate 51 plays a role in reducing the possibility that concrete fragments are splashed out, and the operation safety of an operator is further protected.

Referring to fig. 1, the protection plate 51 is disposed above the testing surface of the pressure testing machine 5 and is spaced from the testing surface of the pressure testing machine 5, so that the robot arm 3 and the clamping mechanism 4 can conveniently place the concrete test block on the testing surface of the pressure testing machine 5.

Referring to fig. 1 and 3, the oscillation device 6 includes an oscillation frame 61, the oscillation frame 61 is disposed adjacent to the pressure tester 5, a horizontal oscillation plate 62 is disposed on the oscillation frame 61, and a top surface of the oscillation plate 62 is disposed in the same horizontal plane as a test surface of the pressure tester 5. Four vertical oscillating springs 63 are fixedly arranged at one end of the oscillating plate 62 close to the oscillating frame 61, the four oscillating springs 63 are respectively arranged at four corners of the bottom end of the oscillating plate 62, and the oscillating springs 63 are connected with the oscillating plate 62 and the oscillating frame 61.

Referring to fig. 3 and 4, an oscillating motor 64 is fixedly arranged at a central position of the oscillating plate 62 near one end of the oscillating frame 61, a concrete test block tested by the pressure testing machine 5 is transported to the oscillating plate 62 by the mechanical arm 3 and the clamping mechanism 4, and the oscillating motor 64 vibrates to drive the oscillating plate 62 to vibrate and simultaneously drive the concrete test block on the oscillating plate 62 to vibrate. If the concrete test block extruded by the pressure testing machine 5 has cracks, the cracks on the concrete test block can be more obvious through the vibration of the oscillating plate 62, so that an operator can more conveniently observe whether the concrete test block is tested qualified or not.

Referring to fig. 3, two edges of one end of the oscillating plate 62, which is far away from the oscillating frame 61, are fixedly provided with flanges 621, and when the oscillating plate 62 vibrates a concrete sample, the flanges 621 prevent the concrete sample from sliding down from the oscillating plate 62.

Referring to fig. 3, an arched metal net 622 is fixedly disposed on the rib 621, an unfolding direction of the metal net 622 is perpendicular to a connecting line direction of the pressure testing machine 5 and the conveyor belt 7, the concrete block vibrates in the metal net 622, and the metal net 622 further prevents the concrete block from vibrating out of the vibrating plate 62 from above the vibrating plate 62, so as to protect the operation safety of an operator.

Referring to fig. 3, a horizontal thrust cylinder 65 is fixedly provided on the oscillating frame 61, a thrust rod 66 disposed above the end of the oscillating plate 62 is fixedly provided at the end of the output shaft of the thrust cylinder 65, and the thrust rod 66 is horizontal. After the concrete test block on the oscillating plate 62 vibrates, the output shaft of the thrust cylinder 65 moves to drive the thrust rod 66 to move towards the direction of the concrete test block, so that the concrete test block is pushed towards the conveyor belt 7, and the automatic discharge of the concrete test block on the oscillating plate 62 is realized.

Referring to fig. 3, one end of the thrust rod 66 close to the conveyor belt 7 is fixedly provided with an elastic buffer sheet 67, when the thrust rod 66 contacts the concrete test block, the buffer sheet 67 is arranged between the thrust rod 66 and the concrete test block, and the buffer sheet 67 relaxes and absorbs the impact force between the thrust rod 66 and the concrete test block, so as to protect the thrust rod 66 and the concrete test block.

Referring to fig. 3, a horizontal push brush 68 is fixed to an end of the push rod 66 adjacent to the oscillation plate 62, and an end of the push brush 68 remote from the push rod 66 is abutted against a top surface of the oscillation plate 62. In the process of vibrating the concrete test block, the vibrating plate 62 accumulates some concrete residues and lumps on the vibrating plate 62, and at this time, the thrust brush 68 moves along with the thrust rod 66 to sweep the concrete residues and lumps on the vibrating plate 62 out of the vibrating plate 62, so that the tidiness of the upper part of the vibrating plate 62 is always kept.

Referring to fig. 3, the top conveying surface of the conveyor belt 7 and the top surface of the oscillating plate 62 are located in the same horizontal plane, and the vibrated concrete test block is conveyed to the conveyor belt 7 through the motion cooperation of the thrust cylinder 65 and the thrust rod 66, so that the uninterrupted detection of the concrete test block is realized.

The embodiment of the application provides an implementation principle of an uninterrupted detection line for concrete test blocks as follows: an operator firstly puts concrete test blocks needing to be subjected to pressure testing on the workbench 1 in sequence, the concrete test blocks are sequentially clamped on a testing surface of a pressure testing machine 5 through the mutually matched motion of the mechanical arm 3 and the clamping mechanism 4, the pressure testing machine 5 is used for carrying out pressure testing on the concrete test blocks in sequence, after the pressure testing is carried out, the concrete test blocks are transported to the oscillating plate 62 through the clamping match of the mechanical arm 3 and the clamping mechanism 4 again, the concrete test blocks are subjected to oscillation processing, the vibrated concrete test blocks are transported to the conveyor belt 7 through the motion match between the thrust cylinder 65 and the thrust rod 66, and the uninterrupted detection of the concrete test blocks is realized.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (7)

1. The utility model provides an incessant detection line of concrete test block which characterized in that: the device comprises a workbench (1) and a pressure testing machine (5), wherein the pressure testing machine (5) is arranged on one side of the workbench (1) and is tightly attached to the workbench (1), a support frame (2) is fixedly arranged on the workbench (1), a mechanical arm (3) is arranged on the support frame (2), the mechanical arm (3) moves along the vertical direction and the horizontal direction, a clamping mechanism (4) is arranged at the end part, close to the pressure testing machine (5), of the mechanical arm (3), a conveying belt (7) is arranged at one side, far away from the workbench (1), of the pressure testing machine (5), an oscillating device (6) is arranged between the pressure testing machine (5) and the conveying belt (7), the oscillating device (6) comprises an oscillating frame (61), an oscillating plate (62) is arranged on the oscillating frame (61), a thrust air cylinder (65) is arranged on the oscillating frame (61), a thrust rod (66) is arranged at the end part, far away from an output shaft of the thrust air cylinder (65), the thrust rod (66) is arranged above the oscillating plate (62) and is arranged on the oscillating plate (62), a thrust rod (66) is arranged above the oscillating plate (66) and arranged at the end, a position, a thrust rod (68) close to the oscillating plate (62) is arranged at one end, a brush (68) close to the oscillating plate (68) is arranged at the oscillating plate (68), the end, the oscillating plate (68) and a clamping mechanism (41) is arranged at the top of the clamping mechanism (41) and comprises a brush clamping mechanism, a brush (41) fixed to the brush cylinder body (41) fixed on the brush cylinder body, when the clamping plate (42) clamps the concrete test block, the clamping brush (44) is abutted against the testing surface of the pressure testing machine (5).

2. The uninterrupted detection line for concrete test blocks of claim 1, wherein: the vibration plate (62) is provided with a plurality of vibration springs (63) at one end close to the vibration frame (61), the vibration springs (63) are connected with the vibration plate (62) and the vibration frame (61), and a vibration motor (64) is fixedly arranged at one end of the vibration plate (62) close to the vibration frame (61).

3. The uninterrupted detection line for concrete test blocks as claimed in claim 2, wherein: and flanges (621) are fixedly arranged on the edges of one end of the oscillating plate (62) far away from the oscillating frame (61).

4. The uninterrupted detection line for concrete test blocks as claimed in claim 3, wherein: an arched metal net (622) is fixedly arranged on the flange (621), and the unfolding direction of the metal net (622) is perpendicular to the connecting line direction of the pressure testing machine (5) and the conveying belt (7).

5. The uninterrupted detection line for concrete test blocks of claim 1, wherein: and a buffer sheet (67) is arranged at one end of the thrust rod (66) close to the conveyor belt (7).

6. The uninterrupted detection line for concrete test blocks as claimed in claim 1, wherein: the clamping cylinder (41) is fixedly connected with the end part of the mechanical arm (3), the clamping plates (42) are fixedly arranged on output shafts at two ends of the clamping cylinder (41) respectively, and the buffer parts (43) are fixedly arranged at one ends, close to each other, of the two clamping plates (42).

7. The uninterrupted detection line for concrete test blocks of claim 1, wherein: the pressure tester (5) is fixedly provided with transparent protection plates (51), the two protection plates (51) are respectively arranged on two sides of the pressure tester (5), and the protection plates (51) are arranged above the testing surface of the pressure tester (5) and keep a certain distance from the testing surface of the pressure tester (5).

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