CN212964420U - Concrete road surface production is with anti rupture strength test device of brick - Google Patents

Abstract

The utility model discloses a concrete road surface production is with anti intensity test device of rolling over of brick relates to concrete road surface technical field. This concrete road surface production is with anti breaking strength test device of brick, comprising a base plate, the top surface welding of bottom plate installs hydraulic stem and side frame, the top surface welding of side frame installs the roof, the second spout has been seted up to the inside of side frame, the inside slidable mounting of second spout has the second slider, the top welded mounting of hydraulic stem has the diaphragm, one side of diaphragm runs through side frame and second slider and extends to the opposite side of side frame, the third spout has been seted up to the inside of diaphragm, the internal rotation of third spout installs two-way threaded rod, the third slider is installed to the screw thread on the two-way threaded rod, the second motor is installed in one side outer wall welding of diaphragm. The utility model discloses can carry out anti breaking strength to the different stress points on brick body surface and detect, guarantee the stringency of anti breaking strength data as far as.

Description

Concrete road surface production is with anti rupture strength test device of brick

Technical Field

The utility model relates to a concrete road surface technical field specifically is a concrete road surface production is with anti rupture strength test device of brick.

Background

Concrete is a general name of composite materials which are prepared by mixing gel materials, aggregates and water according to a proper proportion and then are hardened for a certain time, and is the artificial civil engineering and construction material with the largest usage amount in the world. The concrete has high hardness, wide raw material sources and low cost, and is widely used for buildings, roads, military engineering, nuclear power plants and other structures.

The brick body that uses concrete production can be used for road surface laying, but need carry out the test of flexural strength to the brick body that concrete material made before laying, estimate out a life on general in proper order, but does not have on the existing market to this test development equipment specially, and the staff uses simple and crude work such as hammer to detect mostly.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a concrete road surface production is with anti rupture strength test device of brick to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a brick bending strength testing device for concrete pavement production comprises a bottom plate, a hydraulic rod and a side frame are welded on the outer surface of the top of the bottom plate, a top plate is welded on the outer surface of the top of the side frame, a second chute is formed in the side frame, a second sliding block is slidably mounted in the second chute, a transverse plate is welded on the top end of the hydraulic rod, one side of the transverse plate penetrates through the side frame and the second sliding block and extends to the other side of the side frame, a third chute is formed in the transverse plate, a bidirectional threaded rod is rotatably mounted in the third chute, a third sliding block is threadedly mounted on the bidirectional threaded rod, a second motor is welded on the outer wall of one side of the transverse plate, an output shaft of the second motor penetrates through the transverse plate and is welded with the bidirectional threaded rod, a clamping plate is welded on the top of the third sliding block, the number of the clamping plates is two and is correspondingly set, the brick body is arranged between the clamping plates and clamped with the clamping fixing groove, and the transverse slow moving adjusting mechanism is arranged above the bottom plate.

Preferably, horizontal slow movement guiding mechanism includes gear belt, first motor, main carousel, vice carousel and backup pad, and the top surface welded mounting of roof has the backup pad, and the quantity of backup pad is two, rotates respectively in the backup pad and installs main carousel and vice carousel, and the rear side outer surface welded mounting of backup pad has first motor, and the output shaft of first motor runs through the backup pad and with main carousel welded mounting, is provided with gear belt between main carousel and the vice carousel, and main carousel passes through gear belt and is connected with vice carousel transmission.

Preferably, a first sliding groove is formed in the top plate, and a first sliding block is slidably mounted in the first sliding groove.

Preferably, the outer surface of the top of the first sliding block is welded with a connecting block, the outer surface of the top of the connecting block is welded with a gear block, and a gear on the outer surface of the top of the gear block is meshed with a gear on a gear belt.

Preferably, the outer surface of the bottom of the first sliding block is welded with a metal ejector rod, and the metal ejector rod is positioned right above the brick body.

Preferably, the bottom outer surface of the bottom plate is rotatably provided with a roller.

Compared with the prior art, the beneficial effects of the utility model are that:

the device for testing the flexural strength of the brick for concrete pavement production is used by matching the structures of the second motor, the clamping plate, the clamping fixed groove, the third sliding block, the third sliding chute and the like, can quickly and stably clamp concrete bricks with different sizes, provides convenience for the subsequent detection of the flexural strength of the bricks, the brick body to be detected can be quickly lifted through the matching of the structures such as the second sliding groove, the second sliding block, the transverse plate, the hydraulic rod and the like, so that the brick body is quickly close to the working range of the detection device, and finally, through the matching of the structures such as the gear belt, the first motor, the main turntable, the auxiliary turntable and the like, the metal ejector rod can be moved to adjust the stress point of the brick body, and the rigor of the final bending strength data is ensured as much as possible by detecting the bending strengths of different stress points of the brick body.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a front view of the present invention;

fig. 3 is a side view of the first motor of the present invention.

In the figure: the device comprises a transverse slow movement adjusting mechanism 1, a gear belt 101, a first motor 102, a main rotary table 103, a secondary rotary table 104, a supporting plate 105, a top plate 2, a metal ejector rod 3, a first sliding block 4, a first sliding groove 5, a second sliding groove 6, a second sliding block 7, a transverse plate 8, a hydraulic rod 9, a side frame 10, a third sliding block 11, a third sliding groove 12, a bidirectional threaded rod 13, a bottom plate 14, a second motor 15, a clamping plate 16, a brick body 17, a clamping fixing groove 18, a connecting block 19, a gear block 20 and a roller 21.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides a technical solution: a brick bending strength test device for concrete pavement production comprises a bottom plate 14, a hydraulic rod 9 and a side frame 10 are welded on the outer surface of the top of the bottom plate 14, a top plate 2 is welded on the outer surface of the top of the side frame 10, a second chute 6 is arranged inside the side frame 10, a second slider 7 is arranged inside the second chute 6 in a sliding manner, a transverse plate 8 is welded on the top end of the hydraulic rod 9, one side of the transverse plate 8 penetrates through the side frame 10 and the second slider 7 and extends to the other side of the side frame 10, a third chute 12 is arranged inside the transverse plate 8, a bidirectional threaded rod 13 is rotatably arranged inside the third chute 12, a third slider 11 is arranged on the bidirectional threaded rod 13 in a threaded manner, a second motor 15 is welded on the outer wall of one side of the transverse plate 8, an output shaft of the second motor 15 penetrates through the transverse plate 8 and is welded with the bidirectional threaded rod 13, a clamping plate 16 is welded, the number of the clamping plates 16 is two, the clamping plates 16 are correspondingly arranged, clamping fixing grooves 18 are formed in the clamping plates 16, brick bodies 17 are arranged between the clamping plates 16, the brick bodies 17 are clamped with the clamping fixing grooves 18, a transverse slow moving adjusting mechanism 1 is arranged above the bottom plate 14, the transverse slow moving adjusting mechanism 1 comprises a gear belt 101, a first motor 102, a main rotary table 103, an auxiliary rotary table 104 and a supporting plate 105, the outer surface of the top plate 2 is welded with the supporting plate 105, the number of the supporting plate 105 is two, the main rotary table 103 and the auxiliary rotary table 104 are respectively rotatably arranged on the supporting plate 105, the outer surface of the rear side of the supporting plate 105 is welded with the first motor 102, an output shaft of the first motor 102 penetrates through the supporting plate 105 and is welded with the main rotary table 103, the gear belt 101 is arranged between the main rotary table 103 and the auxiliary rotary table 104, and the, the inside of the top plate 2 is provided with a first chute 5, the inside of the first chute 5 is slidably provided with a first slide block 4, the outer surface of the top of the first slide block 4 is welded with a connecting block 19, the outer surface of the top of the connecting block 19 is welded with a gear block 20, a gear on the outer surface of the top of the gear block 20 is meshed with a gear on a gear belt 101, the outer surface of the bottom of the first slide block 4 is welded with a metal ejector rod 3, the metal ejector rod 3 is positioned right above a brick body 17, the outer surface of the bottom plate 14 is rotatably provided with a roller 21, and through the matching use of structures such as a second motor 15, a clamping plate 16, a clamping fixing groove 18, a third slide block 11, a third chute 12 and the like, concrete bricks with different sizes can be quickly and stably clamped, convenience is provided for the subsequent detection work of the anti-folding strength of bricks, the, the model of the second motor 15 is Y355L2-2, use through the cooperation of structures such as second spout 6, second slider 7, diaphragm 8 and hydraulic stem 9, can make the brick body 17 that needs to detect go up and down fast, make its quick working range who approaches detection device, finally, use through the cooperation of structures such as gear belt 101, first motor 102, main carousel 103 and vice carousel 104, can remove metal ejector pin 3 to this stress point of adjustment brick body, through the detection to the different stress point rupture strengths of the brick body, with this rigidness of guaranteeing final rupture strength data as far as possible.

The working principle is as follows: the staff moves the brick body 17, place in the joint fixed slot 18 on the grip block 16, start second motor 15, drive two-way threaded rod 13 and rotate, drive third slider 11 and remove after that, thereby make grip block 16 press from both sides the brick body 17 tightly, start hydraulic stem 9 after that, it carries out the lifting to drive diaphragm 8, when the surface of the brick body 17 contacts with metal ejector pin 3, close hydraulic stem 9, start first motor 102, at the mode through gear belt 101, the transmission mode and the gear engagement of main turntable 103 and auxiliary turntable 104, finally drive metal ejector pin 3 and remove, thereby adjust the stress point of the brick body 17, carry out the bending strength detection of different stress points.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a concrete road surface production is with anti rupture of brick strength test device, includes bottom plate (14), its characterized in that: the hydraulic rod (9) and the side frame (10) are welded and installed on the outer surface of the top of the bottom plate (14), the top plate (2) is welded and installed on the outer surface of the top of the side frame (10), the second sliding groove (6) is formed in the side frame (10), the second sliding block (7) is installed in the second sliding groove (6) in a sliding mode, the transverse plate (8) is welded and installed on the top end of the hydraulic rod (9), one side of the transverse plate (8) penetrates through the side frame (10) and the second sliding block (7) and extends to the other side of the side frame (10), the third sliding groove (12) is formed in the transverse plate (8), the bidirectional threaded rod (13) is installed in the third sliding groove (12) in a rotating mode, the third sliding block (11) is installed on the bidirectional threaded rod (13) in a threaded mode, the second motor (15) is welded and installed on the outer wall of one side of the transverse plate (8), and the output, clamping plates (16) are welded and mounted at the tops of the third sliding blocks (11), the number of the clamping plates (16) is two, the clamping plates (16) are correspondingly arranged, clamping fixing grooves (18) are formed in the clamping plates (16), brick bodies (17) are arranged between the clamping plates (16), the brick bodies (17) are clamped with the clamping fixing grooves (18), and a transverse slow moving adjusting mechanism (1) is arranged above the bottom plate (14).

2. The device for testing the flexural strength of the brick for producing the concrete pavement according to claim 1, which is characterized in that: horizontal slow movement guiding mechanism (1) includes gear belt (101), first motor (102), main carousel (103), vice carousel (104) and backup pad (105), the top surface welded mounting of roof (2) has backup pad (105), the quantity of backup pad (105) is two, rotate respectively on backup pad (105) and install main carousel (103) and vice carousel (104), the rear side outer surface welded mounting of backup pad (105) has first motor (102), the output shaft of first motor (102) runs through backup pad (105) and with main carousel (103) welded mounting, be provided with gear belt (101) between main carousel (103) and vice carousel (104), main carousel (103) are connected with vice carousel (104) transmission through gear belt (101).

3. The device for testing the flexural strength of the brick for producing the concrete pavement according to claim 1, which is characterized in that: first spout (5) have been seted up to the inside of roof (2), and the inside slidable mounting of first spout (5) has first slider (4).

4. The device for testing the flexural strength of the brick for producing the concrete pavement according to claim 3, which is characterized in that: connecting block (19) are installed in the welding of the top surface of first slider (4), gear block (20) are installed in the welding of the top surface of connecting block (19), and the gear on gear block (20) top surface sets up with the gear engagement on gear belt (101).

5. The device for testing the flexural strength of the brick for producing the concrete pavement according to claim 4, which is characterized in that: the outer surface of the bottom of the first sliding block (4) is provided with a metal ejector rod (3) in a welding mode, and the metal ejector rod (3) is located right above the brick body (17).

6. The device for testing the flexural strength of the brick for producing the concrete pavement according to claim 1, which is characterized in that: and the outer surface of the bottom plate (14) is rotatably provided with a roller (21).

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