CN205373804U - Detection apparatus for concrete block - Google Patents

Abstract

The utility model discloses a detection apparatus for concrete block, which comprises a frame, the delivery board has been placed in the activity in the frame, install the translational drive apparatus of control delivery board translation in the frame, top that the frame is located the delivery board is equipped with the high depth sensor that detects of going on respectively to waiting to detect product middle part and both sides position on the delivery board, three depth sensor interval side by side set up, install the controller of control translational drive apparatus work in the frame, three depth sensor's output is connected with the input of above -mentioned controller, the output and the translational drive apparatus control connection of controller. Compared with the prior art, can measure concrete product middle part through three height sensor and reach the height that is in the middle part both sides, adopt non -contact methods of measurement, can not treat the concrete product production of detection during the measurement and warp perhaps damagedly, a whole measurement process need not artificial the participation to be judged, makes and detects the precision height, has improved finished product yield greatly.

Description

A kind of detecting device of concrete segment

Technical field

This utility model relates to a kind of detecting device, particularly to a kind of detecting device that the height of mortar amount in concrete block forming mould is detected.

Background technology

Concrete segment concrete placer when molding is the middle part place that molding materials casts directly over mould molding chamber, and pass through the mobility of the vibration to mould and molding materials, make a large amount of molding materials being in molding chamber middle part place can flow to the both sides of molding chamber, finally make forming cavity indoor be full of molding materials.But, the molding materials of forming cavity indoor is usually because the difference of the water content of molding materials, granular size and frequency of vibration can cause molding chamber molding materials skewness, namely the degree of depth of the molding materials of regional area is high, the degree of depth of the molding materials of regional area is low, thus causing the size of shaped article that deviation occurs, do not meet regular specification, make the finished product yield of shaped article reduce.Thus, the packed height of forming cavity indoor molding materials all can be detected before entering next process after filling by the material that forming cavity is indoor.

The existing detection method to forming cavity indoor molding materials height is all be insert molded in the molding materials at chamber middle part and position, both sides by detection workman with detection ruler, and whether the distribution that can obtain forming cavity indoor molding materials by these three groups of data is uniform.But, this kind of contact type measurement mode not only results in the product not being fully cured molding and deforms or damaged when measuring, and whether qualified detecting is determined by detection workman, exist and cause for the difference of examination criteria identification not standard compliant product to be recognized as the hidden danger that detection is qualified and then the problem that the finished product yield that there is shaped article declines because difference detects workman.

In view of this, existing drawbacks described above is furtherd investigate by the present inventor, is then produced by this case.

Utility model content

The purpose of this utility model is to provide the detecting device of a kind of concrete segment, directly contact with product and cause product to deform or the problem of breakage solving detection part in prior art, and eliminate and not standard compliant product is thought cause the problem that finished product yield declines by certified products.

The technical solution of the utility model is such that the detecting device of a kind of concrete segment, including frame, in frame, movable being placed with can alternating translational, and for the delivery board that product to be detected is placed, above-mentioned frame is provided with the translation driving device controlling delivery board translation, above-mentioned frame is positioned at the depth transducer being arranged over the height of product middle part to be detected on delivery board and position, both sides is detected respectively of delivery board, three depth transducer spacing side by side are arranged, the orientation of three depth transducers and the translation direction of delivery board are arranged in a mutually vertical manner, above-mentioned frame is provided with the controller controlling translation driving device work, the outfan of three depth transducers is connected with the input of controller noted above, the outfan of controller noted above controls to be connected with translation driving device.

Above-mentioned frame includes base and is fixed on above base, and the first rail bar extended along the translation direction of delivery board and the second rail bar, above-mentioned first rail bar and the second rail bar relative spacing are arranged, being respectively provided with the placement lath that the translation direction along delivery board extends on above-mentioned first rail bar and the relative opposite of the second rail bar, the both sides of above-mentioned delivery board are correspondingly placed on two placement laths respectively.

Above-mentioned translation driving device includes several cylinder drivers, each cylinder driver is arranged along the conveying direction interval of delivery board, above-mentioned cylinder driver includes the first cylinder and the second cylinder, with the conveying direction of delivery board for from front to back, the cylinder body moveable hinge of above-mentioned first cylinder is contained on above-mentioned first rail bar, and in being inclined upwardly setting, the piston rod free end of above-mentioned first cylinder is arranged backwards, and the leading flank phase para-position of the piston rod free end of the first cylinder and delivery board is arranged；The cylinder body of above-mentioned second cylinder is movably articulated on above-mentioned second rail bar, and in being inclined upwardly setting, the piston rod free end of above-mentioned second cylinder is arranged backwards, and the leading flank phase para-position of the piston rod free end of the second cylinder and delivery board is arranged.

Above-mentioned frame also includes testing stand, above-mentioned testing stand has the first column, the second column and the installation crossbeam being connected between the first column and the second column, above-mentioned base and above-mentioned first and second rail bar are between above-mentioned first column and the second column, above-mentioned installation crossbeam is in above above-mentioned first rail bar and the second rail bar, three above-mentioned depth transducers are installed on the same side installing crossbeam, and the measurement end of three above-mentioned depth transducers is arranged down.

Above-mentioned first column is provided with control chamber, controller noted above is arranged in above-mentioned control chamber, the end face of above-mentioned control chamber is provided with alarm lamp and speaker, being provided with the LCDs for showing three height sensor values on the one side of above-mentioned control chamber, the outfan of controller noted above electrically connects with above-mentioned alarm lamp, above-mentioned speaker and above-mentioned LCDs respectively.

Three above-mentioned depth transducers are movably arranged on above-mentioned installation crossbeam respectively in the way of translating along the length direction installing crossbeam.

Above-mentioned delivery board is provided with several, and each delivery board is arranged along the conveying direction interval of delivery board.

After adopting such scheme, the detecting device of a kind of concrete segment of the present utility model, during use, concrete product to be detected is placed on delivery board, translation driving device drives delivery board to move to three height sensor orientation, when delivery board moves to three height sensors, three height sensors are triggered, the position of concrete product middle part to be detected and the both sides that mediate can be detected by three height sensors respectively, now three height sensor sensings to signal can send to controller, controller contrasts according to the signal of three height sensors, quit work if the numerical value of three height sensors controls translation driving device beyond controller when setting numerical value, now staff can learn that the concrete product of this detection is defective.Compared with prior art, detecting device of the present utility model, concrete product middle part and the height of the both sides, position that mediate can be measured by three height sensors, without contacting with concrete product to be detected, adopt contactless measurement, concrete product to be detected will not be deformed during measurement or damaged；Meanwhile, a whole measurement process, without artificially participating in judging, makes detection precision high, substantially increases finished product yield, it is to avoid conventionally employed artificial judgement testing result causes the problem causing finished product yield to reduce because artificial origin makes bad Product checking qualified.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

Detailed description of the invention

The detecting device of a kind of concrete segment of the present utility model, as shown in Figure 1, including frame, in frame, movable being placed with can alternating translational, and for the delivery board 1 that product to be detected is placed, frame is provided with the translation driving device controlling delivery board 1 translation, frame is positioned at the depth transducer 2 being arranged over the height of product middle part to be detected on delivery board 1 and position, both sides is detected respectively of delivery board 1, three depth transducer 2 spacing side by side are arranged, the orientation of three depth transducers 2 and the translation direction of delivery board 1 are arranged in a mutually vertical manner, frame is provided with the controller (not shown in FIG.) controlling translation driving device work, the outfan of three depth transducers 2 is connected with the input of controller, the outfan of controller controls to be connected with translation driving device.

Preferably: frame includes base 31, it is fixed on the first rail bar 32 and the second rail bar 33 above base 31, and testing stand, with the conveying direction of delivery board 1 for by front to mode, first rail bar 32 and the second rail bar 33 are arranged in left and right relative spacing, first rail bar 32 is in left side, second rail bar 33 is in right side, first rail bar 32 and the second rail bar 33 direction all along the longitudinal direction extend, the right flank of the first rail bar 32 and the left surface of the second rail bar 33 it is respectively provided with and extends along the longitudinal direction, and the placement lath 321 being oppositely arranged, 331, the left and right sides of delivery board 1 is correspondingly placed at two placement laths 321 respectively, on 331.

nullDescribed testing stand has the first column 341、Second column 342 and the installation crossbeam 343 being connected between the first column 341 and the second column 342，Base 31 and first、Two rail bars 32、33 are between the first column 341 and the second column 342，First column 341 is in outside the left side of the first rail bar 32，Second column 342 is in outside the right side of the second rail bar 33，Crossbeam 343 is installed be in above the first rail bar 32 and the second rail bar 33，Three depth transducers 2 are all fixedly mounted on the leading flank installing crossbeam 343，Three depth transducer 2 left and right directions intervals are arranged side by side，And three the measurement end of depth transducer 2 arrange down，The middle part phase para-position of depth transducer concrete product to be detected with on delivery board at position of mediating coordinates，It is in a left side、The left and right sides phase para-position of the depth transducer at right both sides place concrete product to be detected with on delivery board respectively coordinates.Separately, in this utility model, three depth transducers 2 can also be movably arranged on installation crossbeam 343 along the mode that the length direction installing crossbeam 343 moves, particularly: install and crossbeam 343 is convexly equipped with the slide rail extended along the length direction installing crossbeam 343, each depth transducer 2 is provided with the slide block being slidably matched with slide rail, what utilize slide block and slide rail coordinates manually adjustable depth transducer 2 in the position installed on crossbeam 343, in order to various sizes of concrete segment is measured.

Described translation driving device includes several cylinder drivers, each cylinder driver is arranged along conveying direction (i.e. fore-and-aft direction) interval of delivery board 1, each cylinder driver all includes the first cylinder 41 and the second cylinder 42, the cylinder body moveable hinge of the first cylinder 41 is contained in the right side wall of the first rail bar 32, and first the cylinder body of cylinder 41 in being inclined upwardly setting, namely cylinder body can swing up and down, the piston rod free end of the first cylinder 41 is arranged backwards, and first the piston rod free end of cylinder 41 be in the front side of delivery board 1, and arrange with the left side phase para-position of delivery board 1 leading flank；The cylinder body moveable hinge of the second cylinder 42 is contained on the left side wall on the second rail bar 33, and in being inclined upwardly setting, first cylinder 41 and the second cylinder 42 are in placement lath 321 and place between lath 331, the piston rod free end of the second cylinder 42 is arranged backwards, and second the piston rod free end of cylinder 42 be in the front side of delivery board 1, and arrange with the right side phase para-position of delivery board 1 leading flank.During use, first delivery board 1 is placed on the rear of first cylinder driver, first and second cylinder stretches out, first and second cylinder is pushed into delivery board 1 and pushes backward, and pushes to the rear of second cylinder driver, and first and second cylinder of second cylinder driver stretches out, delivery board 1 is pushed by first and second cylinder of second cylinder driver more backward, and push to the rear of the 3rd cylinder driver, and operate successively, can to the conveying backward of delivery board 1.In this utility model, in order to facilitate the conveying to delivery board 1 of each cylinder driver, the first cylinder 41 and the second cylinder 42 are in placement lath 321 and place between lath 322.During use, in order to facilitate the conveying to delivery board 1 of each cylinder driver, the piston rod free end of first and second cylinder of each cylinder driver is installed with pushing block 411,421, and pushing block 411,421 contacts with the bottom of delivery board 1 leading flank cooperation, utilize pushing block can facilitate the cylinder propelling movement to delivery board.

The top place of the first described column 341 is provided with control chamber 5, in this control chamber 5, controller (not shown) is installed, the outfan of three depth transducers 2 is all connected with the input of controller, the outfan of controller controls to be connected with translation driving device, namely being mounted on controlling the cylinder body electromagnetic valve of cylinder operation on each first cylinder and each second cylinder, each cylinder body electromagnetic valve is all connected with the outfan of controller；Namely after three depth transducers 2 are triggered, the signal of three depth transducers 2 is sent respectively to controller, and controller receives signal, and signal is compared, and finally obtains a result, controls each electromagnetic valve work according to result.In this utility model, depth transducer and controller with the use of electric control principle adopts is known electric control principle, be not repeated at this.

nullThe detecting device of a kind of concrete segment of the present utility model，During use，First delivery board 1 is placed on the first of first cylinder driver being in frame front end、The rear of two cylinders，And first、The piston rod free end end of two cylinders contacts with the leading flank of delivery board 1，Again concrete product 100 to be detected is placed on delivery board 1，First cylinder driver promotes delivery board 1 backward，When delivery board 1 moves to the second cylinder driver，Because of first、The cylinder body of two cylinders is movably hinged，The gravity now utilizing delivery board and concrete product can by first、Two cylinders are pressed downward against，Make first、Two cylinders are in the lower section of delivery board 1，When delivery board crosses second cylinder driver，The first of second cylinder driver、Two cylinder returns are inclined upwardly，The first of second cylinder driver、The piston rod free end end of two cylinders contacts，Second cylinder driver starts，Delivery board is moved rearwards by again，The such sequential working of each cylinder driver，When delivery board 1 is delivered to below three height sensors 2，Three height sensors 2 are triggered，The position of concrete product 100 middle part to be detected and the both sides that mediate can be detected by three height sensors 2 respectively，The signal that now three height sensors 2 sense can send to controller，Controller contrasts according to the signal of three height sensors，Now when the numerical value of three height sensors controls the cylinder body closed electromagnetic valve of each cylinder beyond controller when setting numerical value，Each first、Two cylinders quit work，Now staff can learn that the concrete product of this detection is defective.

Detecting device of the present utility model, concrete product middle part and the height of the both sides, position that mediate can be measured by three height sensors, without contacting with concrete product to be detected, adopt contactless measurement, concrete product to be detected will not be deformed during measurement or damaged；Meanwhile, a whole measurement process, without artificially participating in judging, makes detection precision high, substantially increases finished product yield, it is to avoid conventionally employed artificial judgement testing result causes the problem causing finished product yield to reduce because artificial origin makes bad Product checking qualified；Separately, first and second cylinder is movably hinged installation, and in being inclined upwardly setting, and the mounting means of this first and second cylinder will not hinder in the conveying of delivery board, and makes the conveying of delivery board smooth and easy.

In this utility model, this translation driving device is not limited to the air cylinder driven mode of the present embodiment, it is possible to adopting the type of drive that motor coordinates with conveyer belt, any mode that delivery board can carry out translation conveying all can substitute the cylinder driver of the present embodiment.

In this utility model, the end face of this control chamber 5 is provided with alarm lamp 6 and speaker (not shown in FIG.), being provided with the LCDs (not shown) for showing three height sensor 2 numerical value on the one side of control chamber 5, the outfan of controller electrically connects with alarm lamp 6, speaker and LCDs respectively；So, when concrete product 100 to be detected does not meet standard, controller is except controlling each first and second cylinder and quitting work, also can control alarm lamp 6 luminescence and speaker sounding, then, staff can quickly learn that concrete product to be detected is detected underproof information；Separately, can being shown by the measured value of three height sensors 2 by LCDs, so, staff can directly learn concrete product 100 to be detected is at which region existing defects.

In this utility model, this delivery board 1 can arrange several in use, and each delivery board 1 is arranged along the fore-and-aft direction interval of frame, so, make three height sensors multiple concrete products to be detected can be continuously performed detection successively by each delivery board, improve detection efficiency.

Above-described embodiment and graphic and non-limiting product form of the present utility model and style, any person of an ordinary skill in the technical field is to its suitably change done or modifies, and all should be regarded as without departing from patent category of the present utility model.

Claims (7)

1. the detecting device of a concrete segment, it is characterized in that: include frame, in frame, movable being placed with can alternating translational, and for the delivery board that product to be detected is placed, above-mentioned frame is provided with the translation driving device controlling delivery board translation, above-mentioned frame is positioned at the depth transducer being arranged over the height of product middle part to be detected on delivery board and position, both sides is detected respectively of delivery board, three depth transducer spacing side by side are arranged, the orientation of three depth transducers and the translation direction of delivery board are arranged in a mutually vertical manner, above-mentioned frame is provided with the controller controlling translation driving device work, the outfan of three depth transducers is connected with the input of controller noted above, the outfan of controller noted above controls to be connected with translation driving device.

2. the detecting device of a kind of concrete segment according to claim 1, it is characterized in that: above-mentioned frame includes base and is fixed on above base, and the first rail bar extended along the translation direction of delivery board and the second rail bar, above-mentioned first rail bar and the second rail bar relative spacing are arranged, being respectively provided with the placement lath that the translation direction along delivery board extends on above-mentioned first rail bar and the relative opposite of the second rail bar, the both sides of above-mentioned delivery board are correspondingly placed on two placement laths respectively.

3. the detecting device of a kind of concrete segment according to claim 2, it is characterized in that: above-mentioned translation driving device includes several cylinder drivers, each cylinder driver is arranged along the conveying direction interval of delivery board, above-mentioned cylinder driver includes the first cylinder and the second cylinder, with the conveying direction of delivery board for from front to back, the cylinder body moveable hinge of above-mentioned first cylinder is contained on above-mentioned first rail bar, and in being inclined upwardly setting, the piston rod free end of above-mentioned first cylinder is arranged backwards, and first the leading flank phase para-position of piston rod free end and delivery board of cylinder arrange；The cylinder body of above-mentioned second cylinder is movably articulated on above-mentioned second rail bar, and in being inclined upwardly setting, the piston rod free end of above-mentioned second cylinder is arranged backwards, and the leading flank phase para-position of the piston rod free end of the second cylinder and delivery board is arranged.

4. the detecting device of a kind of concrete segment according to claim 2, it is characterized in that: above-mentioned frame also includes testing stand, above-mentioned testing stand has the first column, the second column and the installation crossbeam being connected between the first column and the second column, above-mentioned base and above-mentioned first and second rail bar are between above-mentioned first column and the second column, above-mentioned installation crossbeam is in above above-mentioned first rail bar and the second rail bar, three above-mentioned depth transducers are installed on the same side installing crossbeam, and the measurement end of three above-mentioned depth transducers is arranged down.

5. the detecting device of a kind of concrete segment according to claim 4, it is characterized in that: above-mentioned first column is provided with control chamber, controller noted above is arranged in above-mentioned control chamber, the end face of above-mentioned control chamber is provided with alarm lamp and speaker, being provided with the LCDs for showing three height sensor values on the one side of above-mentioned control chamber, the outfan of controller noted above electrically connects with above-mentioned alarm lamp, above-mentioned speaker and above-mentioned LCDs respectively.

6. the detecting device of a kind of concrete segment according to claim 4, it is characterised in that: three above-mentioned depth transducers are movably arranged on above-mentioned installation crossbeam respectively in the way of translating along the length direction installing crossbeam.

7. the detecting device of a kind of concrete segment according to claim 1, it is characterised in that: above-mentioned delivery board is provided with several, and each delivery board is arranged along the conveying direction interval of delivery board.