CN212646283U - Brick resistance to compression detection device for building with clamping device - Google Patents

Abstract

The utility model provides a brick resistance to compression detection device for building with clamping device, including the feeding funnel, first belt mechanism, second belt mechanism, detection mechanism, be equipped with a second belt mechanism between per two adjacent first belt mechanisms, first belt mechanism and second belt mechanism all are located between feeding funnel and the detection mechanism, first belt mechanism is used for carrying brick for building to detection mechanism department, second belt mechanism is used for putting positive brick for building, detection mechanism is used for detecting the compressive property of brick for building, be equipped with third belt mechanism in it and be used for detecting the photosensitive sensor that brick for building reached predetermined detection position, photosensitive sensor circuit connection has the controller, the controller is used for controlling first belt mechanism, second belt mechanism, third belt mechanism and detection mechanism open and stop. The utility model discloses can realize detecting when the brick for the polylith building, and the testing process adopts intelligent control, and is more continuous, and detection efficiency is higher.

Description

Brick resistance to compression detection device for building with clamping device

Technical Field

The utility model belongs to resistance to compression detection area, specifically speaking are a brick resistance to compression detection device for building with clamping device.

Background

In the building industry, a large amount of bricks are needed, and for buildings with different heights, the compression resistance requirements of the used bricks are different, so that the compression resistance of the bricks needs to be detected. At present, present resistance to compression detection device all can't detect polylith brick simultaneously, be a brick resistance to compression detection device for building that application number is CN201720838541.0, CN201821007911.7 disclose, and it all can't realize continuous detection, detects at every turn and all need cooperate with the manual work, and is very inconvenient.

SUMMERY OF THE UTILITY MODEL

The utility model provides a brick resistance to compression detection device for building with clamping device for solve the defect among the prior art.

The utility model discloses a following technical scheme realizes:

the utility model provides a brick resistance to compression detection device for building with clamping device, including the feeding funnel, first belt mechanism, second belt mechanism, detection mechanism, be equipped with a second belt mechanism between per two adjacent first belt mechanisms, first belt mechanism and second belt mechanism all are located between feeding funnel and the detection mechanism, first belt mechanism is used for carrying brick for building to detection mechanism department, second belt mechanism is used for putting positive brick for building, detection mechanism is used for detecting the compressive property of brick for building, be equipped with third belt mechanism in it and be used for detecting the photosensitive sensor that brick for building reached predetermined detection position, photosensitive sensor circuit connection has the controller, the controller is used for controlling first belt mechanism, second belt mechanism, third belt mechanism and detection mechanism open and stop.

As above a building brick resistance to compression detection device with clamping device, detection mechanism include the equal open-ended box body from top to bottom, be equipped with in the box body with the lifter of first belt mechanism one-to-one, the expansion end of lifter all is equipped with pressure sensor, is equipped with the clamping mechanism who is used for pressing from both sides tight building brick in the box body.

As to the building brick compression resistance detection device with the clamping device, the support plates are fixedly installed at the movable ends of the lifting rods, and the pressure sensor is arranged on one surface, facing the third belt mechanism, of the support plates.

As above a brick resistance to compression detection device for building with clamping device, clamping mechanism include with the telescopic link of second belt mechanism one-to-one, the both sides of telescopic link are equipped with the clamp plate respectively, the clamp plate passes through the connecting rod articulated connection with the expansion end of the telescopic link that corresponds respectively, be equipped with in the box body with clamp plate complex horizontal migration guide.

As above a brick resistance to compression detection device for building with clamping device, the horizontal migration guide include the slider, the penetrating spout of several is seted up at the inner wall back of box body, the slider all is located the back of the clamp plate that corresponds, the slider all is located the spout that corresponds and sliding fit with it.

As above a brick resistance to compression detection device for building with clamping device, third belt mechanism include the band pulley, the back top and the bottom of box body all set up with the groove that passes through of first belt mechanism one-to-one, the band pulley all is located the inslot that passes through that corresponds, two band pulleys that correspond from top to bottom pass through the belt and connect, power device is connected to the one end in two above-mentioned band pulleys.

According to the building brick compression resistance detection device with the clamping device, the power device is the motor which is connected with the controller circuit, the V belt wheel is fixedly installed at the output end of the motor, the V belt wheel which is the same as the V belt wheel at the output end of the motor is fixedly installed at one end of the two belt wheels which vertically correspond to each other, and the two corresponding V belt wheels are connected through the V belt.

As to the building brick compression resistance detection device with the clamping device, the discharging direction of the box body is provided with the discharging hopper.

The utility model has the advantages that: the utility model can realize the simultaneous detection of a plurality of building bricks, the detection process adopts intelligent control, the detection efficiency is higher, a worker pours a brick body to be detected into a feeding hopper, the feeding hopper is obliquely arranged as shown in the figure, the brick body moves towards the first belt mechanism under the action of gravity and then falls on the feeding hopper to be sent to the detection mechanism, the second belt mechanism is used for preventing the brick body from transversely standing between two adjacent first belt mechanisms, the brick body transversely standing at the end part can deflect when the brick body rotates so as to conform to the first belt mechanisms, when the photosensitive sensor detects that the brick body reaches a detection position, a signal is transmitted to the controller, the controller stops the corresponding first belt mechanism to save energy, the detection mechanism carries out compression resistance detection on the brick body, after the detection is finished, the controller enables the third belt mechanism to work to move the brick body out, so that the next batch of bricks can be detected, and the labor capacity of workers can be effectively reduced.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive labor.

Fig. 1 is a schematic structural diagram of the present invention; FIG. 2 is a schematic view of the structure of the detecting mechanism; FIG. 3 is an enlarged view of the view from the direction A of FIG. 2; FIG. 4 is an enlarged view of section I of FIG. 2; fig. 5 is a schematic view of the actual usage state of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

A brick compression resistance detection device for a building with a clamping device is disclosed in the figure, and comprises a feeding hopper 1, first belt mechanisms 2, second belt mechanisms 3 and a detection mechanism 4, wherein a second belt mechanism 3 is arranged between every two adjacent first belt mechanisms 2, the first belt mechanisms 2 and the second belt mechanisms 3 are both positioned between the feeding hopper 1 and the detection mechanism 4, the first belt mechanisms 2 are used for conveying building bricks to the detection mechanism 4, the second belt mechanisms 3 are used for righting the building bricks, the detection mechanism 4 is used for detecting the compression resistance of the building bricks, a third belt mechanism 5 and a photosensitive sensor 8 used for detecting whether the building bricks reach a preset detection position are arranged in the detection mechanism, the photosensitive sensor 8 is in circuit connection with a controller 9, the controller 9 is used for controlling the first belt mechanisms 2, the second belt mechanisms 3, the third belt mechanisms 5 and the detection mechanism 4 to be started or stopped, is fixedly arranged at one side of the front surface of the box body 6. The utility model discloses can realize detecting simultaneously to polylith building brick, and the testing process adopts intelligent control, it is more continuous, detection efficiency is higher, the workman pours into in the hopper 1 into one fill the brick body that needs to detect, hopper 1 slant sets up, as shown in figure 4, under the action of gravity, the brick body moves to first belt mechanism 2 direction, fall on it afterwards and be sent to detection mechanism 4, second belt mechanism 3 is used for preventing the brick body from transversely standing between two adjacent first belt mechanism 2, can make the brick body transversely standing at its tip take place the deflection when it rotates, thereby comply with first belt mechanism 2, when photosensitive sensor 8 detects the brick body and reachs the detection position, carry signal to controller 9, controller 9 makes corresponding first belt mechanism 2 stop work, so as to save the energy, detection mechanism 4 carries out the resistance to compression detection to the brick body, after the detection is accomplished, the controller 9 enables the third belt mechanism 5 to work to move out the bricks, so that the next batch of bricks can be detected, and the labor amount of workers can be effectively reduced.

Particularly, as shown in fig. 2, this embodiment detection mechanism 4 including equal open-ended box body 6 from top to bottom, be equipped with in the box body 6 with the lifter 7 of 2 one-to-one of first belt mechanism, optional electric push rod, hydraulic stem, hydro-cylinder or cylinder, with 9 circuit connection of controller, the preceding fixed connection of inner wall of one end and box body 6, stiff end up during the in-service use, the expansion end of lifter 7 all is equipped with pressure sensor 10, be equipped with the clamping mechanism who is used for pressing from both sides tight building brick in the box body 6. Photosensitive sensor 8 locates the top of lifter 7, the ejection of compact direction of brick for building promptly, when photosensitive sensor 8 detected light signal and changes, passes controller 9 with the signal back, and even the 7 extensions of lifter are controlled 9 to continuously record pressure sensor 10 and the pressure load after the brick for building contacts.

Specifically, as shown in fig. 2, the movable ends of the lifting rod 7 in this embodiment are both fixedly mounted with a support plate 11, and the pressure sensor 10 is disposed on a surface of the support plate 11 facing the third belt mechanism 5. This structure can be convenient for pressure sensor 10's installation, and extension board 11 can cover on the building brick, can prevent during 7 extensions of lifter, and the building brick is turned on one's side because of the uneven emergence of atress.

Further, as shown in fig. 2 or 3, the clamping mechanism according to this embodiment includes a telescopic rod 12 corresponding to the second belt mechanism 3, which are longitudinally disposed, and fixed rods thereof are connected to the back surface of the inner wall of the box body 6 through a support, and may also be connected to the controller 9 through an electric push rod, a hydraulic rod, an oil cylinder or an air cylinder, and pressing plates 13 are disposed on both sides of the telescopic rod 12, respectively, and the pressing plates 13 are hinged to the movable ends of the corresponding telescopic rods 12 through connecting rods 14, respectively, and a horizontal movement guide member is disposed in the box body 6 and engaged with the pressing plates 13. When all photosensitive sensor 8 all detected building brick, controller 9 made telescopic link 12 extend, 13 horizontal migration of clamp plate, the extension back, the relative distance between the face that compresses tightly of two adjacent clamp plates 13, the face that compresses tightly that is located the clamp plate 13 in the outside and the distance between the 6 inner walls of box body are the same to guarantee that all building brick homoenergetic in the box body 6 are compressed tightly.

Furthermore, as shown in fig. 2, the horizontal moving guide of the present embodiment includes a sliding block 15, a plurality of through sliding grooves 16 are formed on the back surface of the inner wall of the box body 6, the sliding blocks 15 are all located on the back surface of the corresponding pressing plate 13, and the sliding blocks 15 are all located in the corresponding sliding grooves 16 and are in sliding fit therewith. This structure can restrict clamp plate 13 and only can be horizontal motion, and the dust or the piece that drop among the building brick removal process also can drop box body 6 through spout 16, can not influence the removal of slider 15, can set up a dustbin in 6 below of box body for accept the piece.

Further, as shown in fig. 4, the third belt mechanism 5 described in this embodiment includes belt wheels, which are not shown in the figure, the top and the bottom of the back surface of the box body 6 are both provided with through grooves 17 corresponding to the first belt mechanism 2 one by one, the belt wheels are located in the corresponding through grooves 17, the two belt wheels corresponding up and down are connected through a belt 18, the inner ring of the belt 18 is in contact fit with the box body 6, and one end of the two belt wheels is connected to a power device. This structure can shift out the building brick through the detection in the box body 6 outside the box body 6.

Further, as shown in fig. 4, the power device of the present embodiment is a motor 19 electrically connected to the controller 9, a V-belt pulley 20 is fixedly mounted at an output end of the motor 19, a V-belt pulley 20 identical to the V-belt pulley 20 at the output end of the motor 19 is fixedly mounted at one end of the two corresponding upper and lower belt pulleys, and the two corresponding V-belt pulleys 20 are connected by a V-belt 21. The motor 19 is fixedly arranged on the back of the box body 6, so that the brick body can be prevented from contacting and colliding with the brick body, and the brick body can be conveniently maintained by workers.

Furthermore, as shown in fig. 1, a discharging hopper 22 is disposed in the discharging direction of the box body 6 according to the embodiment. The brick after this structure can avoid detecting directly drops in subaerial, along hopper 22 landing down, can reduce the impaired probability of the brick body, also is favorable to keeping the detection zone clean and tidy.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims (8)

1. The utility model provides a brick resistance to compression detection device for building with clamping device, includes feeding funnel (1), first belt mechanism (2), second belt mechanism (3), detection mechanism (4), its characterized in that: be equipped with a second belt mechanism (3) between per two adjacent first belt mechanism (2), first belt mechanism (2) and second belt mechanism (3) all are located between feeding funnel (1) and detection mechanism (4), first belt mechanism (2) are used for carrying brick for building to detection mechanism (4) department, second belt mechanism (3) are used for setting up brick for building, detection mechanism (4) are used for detecting the compressive property of brick for building, be equipped with third belt mechanism (5) and be used for detecting photosensitive sensor (8) whether brick for building reaches predetermined detection position in it, photosensitive sensor (8) circuit connection has controller (9), controller (9) are used for controlling first belt mechanism (2), second belt mechanism (3), third belt mechanism (5) and detection mechanism (4) open and stop.

2. The building brick compression-resistance detection device with the clamping device as claimed in claim 1, wherein: detection mechanism (4) including upper and lower equal open-ended box body (6), be equipped with in box body (6) with lifter (7) of first belt mechanism (2) one-to-one, the expansion end of lifter (7) all is equipped with pressure sensor (10), is equipped with the clamping mechanism who is used for pressing from both sides tight building brick in box body (6).

3. The building brick compression-resistance detection device with the clamping device as claimed in claim 2, wherein: the movable ends of the lifting rods (7) are fixedly provided with support plates (11), and the pressure sensor (10) is arranged on one surface, facing the third belt mechanism (5), of the support plates (11).

4. The building brick compression-resistance detection device with the clamping device as claimed in claim 2, wherein: clamping mechanism include with telescopic link (12) of second belt mechanism (3) one-to-one, the both sides of telescopic link (12) are equipped with clamp plate (13) respectively, clamp plate (13) pass through connecting rod (14) articulated connection with the expansion end of telescopic link (12) that correspond respectively, be equipped with in box body (6) with clamp plate (13) complex horizontal migration guide.

5. The building brick compression-resistance detection device with the clamping device as claimed in claim 4, wherein: the horizontal migration guide piece include slider (15), several penetrating spout (16) are seted up to the inner wall back of box body (6), slider (15) all are located the back of corresponding clamp plate (13), slider (15) all are located corresponding spout (16) and with it sliding fit.

6. The building brick compression-resistant detection device with the clamping device as claimed in claim 2, 3, 4 or 5, wherein: the third belt mechanism (5) comprises belt wheels, the top and the bottom of the back surface of the box body (6) are provided with through grooves (17) which correspond to the first belt mechanism (2) one by one, the belt wheels are located in the corresponding through grooves (17), the two belt wheels which correspond up and down are connected through a belt (18), and one end of each of the two belt wheels is connected with a power device.

7. The building brick compression-resistance detection device with the clamping device as claimed in claim 6, wherein: the power device is a motor (19) which is connected with a circuit of the controller (9), the output end of the motor (19) is fixedly provided with a V belt wheel (20), one end of the two belt wheels which correspond to each other up and down is fixedly provided with a V belt wheel (20) which is the same as the V belt wheel (20) at the output end of the motor (19), and the two corresponding V belt wheels (20) are connected through a V belt (21).

8. The building brick compression-resistant detection device with the clamping device as claimed in claim 2, 3, 4 or 5, wherein: and a discharging hopper (22) is arranged in the discharging direction of the box body (6).

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