CN109490088A - A kind of pipe of cement resistance to compression force checking device - Google Patents

Abstract

The present invention provides a kind of pipe of cement resistance to compression force checking devices, including device noumenon, described device ontology is connected with external PLC controller and receives the control of the PLC controller, described device ontology includes pedestal, support plate and testing agency, a pair of support plate is symmetrically located in the top two sides of the pedestal, and the testing agency is located between a pair of support plate；The pedestal includes base body, supertronic wedge block, the first position-limit mechanism and the second position-limit mechanism, the top two sides of the base body connect the bottom of the support plate, the front and the back side of the base body are separately connected the supertronic wedge block, the present invention can very easily roll pipe of cement to be measured to limiting inside detection slot and detect, high degree of automation, labor intensity is reduced, detection efficiency is improved, also improves detection accuracy.

Description

A kind of pipe of cement resistance to compression force checking device

Technical field

The present invention relates to pipe of cement detection device technical field, in particular to a kind of pipe of cement resistance to compression force checking device.

Background technique

It with reinforcing bar is material that pipe of cement, which is with cement, a kind of preset pipeline manufactured with the principle of electric pole centrifugal force. Pipe of cement is also known as cement pressure pipe, concrete reinforced pipe, it can be used as urban construction and builds sewer pipe in base, can be with blowdown Water, the upper hose and farmland motor-pumped well used in flood control draining and some special factories and miness, is also commonly used under small bridge, plays The effect of support and water flowing.Pipe of cement is mostly embedded in inside groove, and covering is banketed above, and road may be used as by the upper surface of banketing The purposes such as section, bridge require pipe of cement to have certain compressive resistance.It follows that in the use process of pipe of cement, for The compressive resistance detection of pipe of cement is particularly important.And the detection in currently available technology for pipe of cement compressive resistance is perfect not enough, The degree of automation is low, time-consuming and laborious, and detection efficiency is low, and detection accuracy is inadequate.Pipe of cement is mobile to carry not than cumbersome simultaneously Just, the difficulty of detection is also increased.

Summary of the invention

(1) the technical issues of solving

To solve the above-mentioned problems, the present invention provides a kind of pipe of cement resistance to compression force checking device, can very easily by Pipe of cement to be measured is rolled to being limited inside detection slot and being detected, and high degree of automation reduces labor intensity, mentions Detection efficiency has been risen, detection accuracy is also improved.

(2) technical solution

A kind of pipe of cement resistance to compression force checking device, including device noumenon, described device ontology and external PLC controller phase Connect and receive the control of the PLC controller, described device ontology includes pedestal, support plate and testing agency, described in a pair Support plate is symmetrically located in the top two sides of the pedestal, and the testing agency is located between a pair of support plate；The bottom Seat includes base body, supertronic wedge block, the first position-limit mechanism and the second position-limit mechanism, and the top two sides of the base body connect The bottom of the support plate is connect, the front and the back side of the base body are separately connected the supertronic wedge block, the pedestal sheet The top of body it is placed in the middle be equipped with the detection slot being recessed inwardly, the detection slot is located between a pair support plate, the detection In the underface of the testing agency, first position-limit mechanism is located on the inside of the front of the detection slot slot position, and described second Position-limit mechanism is located on the inside of the back side of the detection slot, and first position-limit mechanism and second position-limit mechanism are horizontal opposite Claim, the height of first position-limit mechanism and second position-limit mechanism is no more than the depth of the detection slot.

Further, the testing agency includes crossbeam, stamping cylinder, upper pressed sheet, lower pressed sheet is gentle rushes spring, institute State being horizontally placed between a pair of support plate for crossbeam level, the stamping cylinder bottom for being fixedly installed in the crossbeam placed in the middle The punch rod in portion, the stamping cylinder through the crossbeam and extends downwardly, the end connection of the punch rod of the stamping cylinder The upper pressed sheet, the lower pressed sheet are located at the underface of the upper pressed sheet, several buffer springs be located at it is described under Between pressed sheet and the upper pressed sheet, the quantity of several buffer springs is four, one end of four buffer springs Connect the top quadrangle of the lower pressed sheet, the bottom four corners phase of the other end of four buffer springs and the upper pressed sheet Connection, the lower pressed sheet are located at the surface of the detection slot.

Further, the stamping cylinder selects the mini cylinder of MA stainless steel, and the stamping cylinder receives the PLC control The control signal of device output simultaneously drives its punch rod to make downward motion, so that the lower pressed sheet is pressed to pipe of cement to be measured Above；Under original state, the punch rod of the stamping cylinder is in fully collapsed condition.

Further, first position-limit mechanism includes the first telescope motor, the first I-shaped connector, the first lantern ring and the One limit wedge block, first telescope motor front inside for being fixedly installed in the detection slot placed in the middle, described first stretches The end of first telescopic rod of contracting motor connects the first I-shaped connector, and a transverse part of the first I-shaped connector connects The first telescopic rod of first telescope motor is connect, the two sides of another transverse part of the first I-shaped connector are respectively provided with one First lantern ring, first lantern ring it is horizontally slidable be set in the upper surface of described first I-shaped connector, described first The outer surface connection of lantern ring the first limit wedge block；First telescope motor selects E135-M2 type linear motor, described First telescope motor receives the control signal of the PLC controller output and its first telescopic rod is driven to make stretching motion, thus The first limit wedge block is released and is in contact with pipe of cement to be measured；Under original state, the first of first telescope motor Telescopic rod is in fully collapsed condition.

Further, second position-limit mechanism includes the second telescope motor, the second I-shaped connector, the second lantern ring and the Two limit wedge blocks, second telescope motor back side inside for being fixedly installed in the detection slot placed in the middle, described second stretches The end of second telescopic rod of contracting motor connects the second I-shaped connector, and a transverse part of the second I-shaped connector connects The second telescopic rod of second telescope motor is connect, the two sides of another transverse part of the second I-shaped connector are respectively provided with one Second lantern ring, second lantern ring it is horizontally slidable be set in the upper surface of described second I-shaped connector, described second The outer surface connection of lantern ring the second limit wedge block, the second limit wedge block and the first limit wedge block are horizontal Relatively；Second telescope motor selects E135-M2 type linear motor, and second telescope motor receives the PLC controller The control signal of output simultaneously drives its second telescopic rod to make stretching motion, thus by it is described second limit wedge block release with it is to be measured Pipe of cement is in contact；Under original state, the second telescopic rod of second telescope motor is in fully collapsed condition.

Further, described device ontology is powered by external power supply, and external power supply is the PLC controller, described first Telescope motor, second telescope motor and the stamping cylinder provide operating voltage.

Further, second telescope motor works asynchronously and having the same flexible with first telescope motor Amount.

(3) beneficial effect

The present invention provides a kind of pipe of cement resistance to compression force checking devices, before detection, pass through positive supertronic wedge block, bottom First limit wedge block of seat ontology, the first position-limit mechanism, can very easily roll pipe of cement to be measured to detection slot Face, and detect finish, by the second position-limit mechanism second limit wedge block, base body, the back side supertronic wedge block, can be non- Pipe of cement to be measured is easily often rotated out into detection slot, it is time saving and energy saving, the artificial mobile difficulty carried is greatly reduced, is saved Manual labor improves detection efficiency；By the first position-limit mechanism and the second position-limit mechanism, when pipe of cement dropping place to be measured is in inspection When surveying the inside of slot, operation PLC controller end controls the work that the first telescope motor and the second telescope motor synchronize, and first is flexible First limit wedge block is released and is in contact with the front of pipe of cement to be measured by the first telescopic rod of motor, while the second telescope motor The second telescopic rod the second limit wedge block released touched with the back face of pipe of cement to be measured, pipe of cement to be measured limit is being examined The middle for surveying slot avoids pipe of cement generation movement to be measured in detection process and influences detection accuracy and detection efficiency, promoted Stability and reliability, at the same before detection can be manually adjusted by the first lantern ring and the second lantern ring the first limit wedge block and The position of second limit wedge block uses so as to meet the demand that the pipe of cement to be measured of different length is limited and detected It haves a wide reach；By testing agency include crossbeam, stamping cylinder, upper pressed sheet, lower pressed sheet is gentle rushes spring, pipe of cement to be measured Limit finishes, and operation PLC controller end control stamping cylinder work, the punch rod of stamping cylinder extends downwards will be under lower pressed sheet It is depressed into the upper surface of pipe of cement to be measured, the different stamping presses of stamping cylinder can be set separately to realize the resistance to compression to pipe of cement to be measured Power detection, manipulation is simple, and easy to use, high degree of automation improves detection efficiency, since punch rod is in the work for covering setting After making stroke, for stamping cylinder because inertia will not stop working at once, punch rod will continue to a distance of advancing down, in order to avoid Detection accuracy and detection effect are influenced, increases upper pressed sheet and buffer spring, buffer spring between lower pressed sheet and punch rod The extra stroke of absorbable punch rod, improves the stability and reliability of detection, has ensured detection accuracy and detection efficiency；Its Simple in sturcture, ingenious in design, system power dissipation is low, fast response time, stability and good reliability, has good practicability and can Scalability can be widely used for other occasions that industrial tube compressive resistance detects automatically.

Detailed description of the invention

Fig. 1 is a kind of external structure schematic diagram of pipe of cement resistance to compression force checking device according to the present invention.

Fig. 2 is a kind of base exterior structural schematic diagram of pipe of cement resistance to compression force checking device according to the present invention.

Fig. 3 is a kind of pedestal detailed construction schematic diagram of pipe of cement resistance to compression force checking device according to the present invention.

Fig. 4 is a kind of testing agency's detailed construction schematic diagram of pipe of cement resistance to compression force checking device according to the present invention.

Specific embodiment

Embodiment according to the present invention is described in further detail with reference to the accompanying drawing.

In conjunction with FIG. 1 to FIG. 4, a kind of pipe of cement resistance to compression force checking device, including device noumenon, device noumenon and outside PLC controller is connected and receives the control of PLC controller, and device noumenon includes pedestal 1, support plate 2 and testing agency 3, and one The top two sides of pedestal 1 are symmetrically located in support plate 2, testing agency 3 is located between a pair of of support plate 2；Pedestal 1 includes pedestal The top two sides of ontology 11, supertronic wedge block 12, the first position-limit mechanism 13 and the second position-limit mechanism 14, base body 11 connect branch The bottom of fagging 2, the front and the back side of base body 11 are separately connected supertronic wedge block 12, and the top of base body 11 is placed in the middle Equipped with the detection slot 111 being recessed inwardly, detection slot 111 is located between a pair of of support plate 2, and detection slot 111 is located at testing agency 3 Underface, the first position-limit mechanism 13 are located at the front inside of detection slot 111, and the second position-limit mechanism 14 is located at the back of detection slot 111 On the inside of face, the first position-limit mechanism 13 and the second position-limit mechanism 14 are horizontal symmetrical, the first position-limit mechanism 13 and the second position restrainer The height of structure 14 is no more than the depth of detection slot 111, and the first position-limit mechanism 13 includes the first telescope motor 131, the first I-shaped Connector 132, the first lantern ring 133 and the first limit wedge block 134, the first telescope motor 131 it is placed in the middle be fixedly installed in detection The front inside of slot 111, the end of the first telescopic rod 1311 of the first telescope motor 131 connect the first I-shaped connector 132, the One transverse part of one I-shaped connector 132 connects the first telescopic rod 1311 of the first telescope motor 131, the first I-shaped connector The two sides of 132 another transverse part are respectively provided with first lantern ring 133, the first lantern ring 133 it is horizontally slidable be set in first The upper surface of I-shaped connector 132, outer surface connection the first limit wedge block 134 of the first lantern ring 133, the second position-limit mechanism 14 packet Include the second telescope motor 141, the second I-shaped connector 142, the second lantern ring 143 and the second limit wedge block 144, the second flexible electricity On the inside of the back side for being fixedly installed in detection slot 111 placed in the middle of machine 141, the end of the second telescopic rod 1411 of the second telescope motor 141 Portion connects the second I-shaped connector 142, and a transverse part of the second I-shaped connector 142 connects the second of the second telescope motor 141 Telescopic rod 1411, the two sides of another transverse part of the second I-shaped connector 142 are respectively provided with second lantern ring 143, the second lantern ring 143 horizontally slidable are set in the upper surface of second I-shaped connector 142, the second limit of outer surface connection of the second lantern ring 143 Wedge block 144, the second limit wedge block 144 and the first limit wedge block 134 are horizontal opposite；Testing agency 3 includes crossbeam 31, punching Air cylinder 32, upper pressed sheet 33, lower pressed sheet 34 and buffer spring 35, crossbeam 31 is horizontal to be horizontally placed between a pair of of support plate 2, The punch rod 321 of the bottom for being fixedly installed in crossbeam 31 placed in the middle of stamping cylinder 32, stamping cylinder 32 is simultaneously downward through crossbeam 31 Stretch out, the end of the punch rod 321 of stamping cylinder 32 connects upper pressed sheet 33, lower pressed sheet 34 be located at upper pressed sheet 33 just under Side, for several buffer springs 35 positioned at lower pressed sheet 34 and upper pressed sheet 33 between, the quantity of several buffer springs 35 is four, four One end of root buffer spring 35 connects the top quadrangle of lower pressed sheet 34, the other end of four buffer springs 35 and upper pressed sheet 33 Bottom four corners be connected, lower pressed sheet 34 is located at the surface of detection slot 111；First telescope motor 131, the second telescope motor 141 and stamping cylinder 32 be electrical connected with the output end of PLC controller, device noumenon is powered by external power supply, external power supply Operating voltage is provided for PLC controller, the first telescope motor 131, the second telescope motor 141 and stamping cylinder 32.

Since the height of the first position-limit mechanism 13 is no more than the depth of detection slot 111, and the first flexible electricity under original state First telescopic rod 1311 of machine 131 is in complete retracted position, therefore along positive supertronic wedge block 12,11 and of base body First limit wedge block 134 of the first position-limit mechanism 13, can very easily roll pipe of cement 4 to be measured to detection slot 111 The inside, it is time saving and energy saving, the artificial mobile difficulty carried is greatly reduced, manual labor is saved, improves detection efficiency.

4 dropping place of pipe of cement to be measured moves the first lantern ring 133 and the second lantern ring 143 respectively, can adjust the first limit wedge block 134 and second limit wedge block 144 position, the demand that the pipe of cement to be measured 5 of different length is limited and detected can be met, Use scope is broad.Adjustment finishes, and device noumenon and PLC controller is accessed external power supply, into working condition.Operate PLC Controller end controls the work synchronous with the second telescope motor 141 of the first telescope motor 131.First telescope motor 131 and second Telescope motor 141 selects E135-M2 type linear motor, the first telescope motor 131 and the second driving simultaneously of telescope motor 141 the One telescopic rod 1311 and the second telescopic rod 1411 extend and extend equal amount, and the first telescopic rod 1311 releases the first limit wedge block 134 are in contact with the front of pipe of cement 4 to be measured, and the second telescopic rod 1411 releases the second limit wedge block 144 and pipe of cement 4 to be measured Back face touching, to ensure that pipe of cement 4 to be measured is located at inspection by pipe of cement 4 to be measured limit in the middle of detection slot 111 The underface for surveying mechanism 3 also avoids the generation of pipe of cement 4 movement to be measured in detection process and influences detection accuracy and detection effect Rate improves stability and reliability.

The limit of pipe of cement 4 to be measured finishes, and control stamping cylinder 32 in operation PLC controller end works, and stamping cylinder 32 is selected The mini cylinder of MA stainless steel, using special-shaped Bidirectional seal structure, compact dimensions, compact is easy for installation, and cylinder strength Height, anticorrosive, service life is more permanent.Under original state, the punch rod 321 of stamping cylinder 32 is in fully collapsed condition, After stamping cylinder 32 is started to work, lower pressed sheet 34 is pressed to the upper of pipe of cement 4 to be measured by the elongation downwards of driving punch rod 321 The different stamping presses of stamping cylinder 32 can be set separately to realize that the compressive resistance to pipe of cement 4 to be measured detects in face, and manipulation is simple Single, easy to use, high degree of automation improves detection efficiency.Since punch rod 321 is after covering the impulse stroke of setting, For stamping cylinder 32 because inertia will not stop working at once, punch rod 321 will continue to a distance of advancing down, in order to avoid influencing Detection accuracy and detection effect increase upper pressed sheet 33 and buffer spring 35, buffering between lower pressed sheet 34 and punch rod 321 Spring 35 can absorb the extra stroke of punch rod 321, improves the stability and reliability of detection, has ensured detection accuracy and inspection Survey efficiency.

Detection finishes, and operation PLC controller end controls the first telescope motor 131, the second telescope motor 141 and stamping cylinder 32 reset, along the second position-limit mechanism 14 second limit wedge block 144, base body 11, the back side supertronic wedge block 12, can Pipe of cement 4 to be measured is very easily rotated out into detection slot 111, it is time saving and energy saving, the artificial mobile difficulty carried is greatly reduced, Save manual labor.

The present invention provides a kind of pipe of cement resistance to compression force checking devices, before detection, pass through positive supertronic wedge block, bottom First limit wedge block of seat ontology, the first position-limit mechanism, can very easily roll pipe of cement to be measured to detection slot Face, and detect finish, by the second position-limit mechanism second limit wedge block, base body, the back side supertronic wedge block, can be non- Pipe of cement to be measured is easily often rotated out into detection slot, it is time saving and energy saving, the artificial mobile difficulty carried is greatly reduced, is saved Manual labor improves detection efficiency；By the first position-limit mechanism and the second position-limit mechanism, when pipe of cement dropping place to be measured is in inspection When surveying the inside of slot, operation PLC controller end controls the work that the first telescope motor and the second telescope motor synchronize, and first is flexible First limit wedge block is released and is in contact with the front of pipe of cement to be measured by the first telescopic rod of motor, while the second telescope motor The second telescopic rod the second limit wedge block released touched with the back face of pipe of cement to be measured, pipe of cement to be measured limit is being examined The middle for surveying slot avoids pipe of cement generation movement to be measured in detection process and influences detection accuracy and detection efficiency, promoted Stability and reliability, at the same before detection can be manually adjusted by the first lantern ring and the second lantern ring the first limit wedge block and The position of second limit wedge block uses so as to meet the demand that the pipe of cement to be measured of different length is limited and detected It haves a wide reach；By testing agency include crossbeam, stamping cylinder, upper pressed sheet, lower pressed sheet is gentle rushes spring, pipe of cement to be measured Limit finishes, and operation PLC controller end control stamping cylinder work, the punch rod of stamping cylinder extends downwards will be under lower pressed sheet It is depressed into the upper surface of pipe of cement to be measured, the different stamping presses of stamping cylinder can be set separately to realize the resistance to compression to pipe of cement to be measured Power detection, manipulation is simple, and easy to use, high degree of automation improves detection efficiency, since punch rod is in the work for covering setting After making stroke, for stamping cylinder because inertia will not stop working at once, punch rod will continue to a distance of advancing down, in order to avoid Detection accuracy and detection effect are influenced, increases upper pressed sheet and buffer spring, buffer spring between lower pressed sheet and punch rod The extra stroke of absorbable punch rod, improves the stability and reliability of detection, has ensured detection accuracy and detection efficiency；Its Simple in sturcture, ingenious in design, system power dissipation is low, fast response time, stability and good reliability, has good practicability and can Scalability can be widely used for other occasions that industrial tube compressive resistance detects automatically.

The above-described embodiments are merely illustrative of preferred embodiments of the present invention, not to structure of the invention Think and range is defined.Without departing from the design concept of the invention, ordinary people in the field is to technology of the invention The all variations and modifications that scheme is made, should all drop into protection scope of the present invention, the claimed technology contents of the present invention, It is all described in the claims.

Claims (7)

1. a kind of pipe of cement resistance to compression force checking device, including device noumenon, described device ontology is connected with external PLC controller Connecing and receive the control of the PLC controller, it is characterised in that: described device ontology includes pedestal, support plate and testing agency, A pair of support plate is symmetrically located in the top two sides of the pedestal, the testing agency be located at a pair of support plate it Between；The pedestal includes base body, supertronic wedge block, the first position-limit mechanism and the second position-limit mechanism, the base body Top two sides connect the bottom of the support plate, and the front and the back side of the base body are separately connected the supertronic wedge block, The top of the base body it is placed in the middle be equipped with the detection slot being recessed inwardly, the detection slot be located at a pair support plate it Between, the detection slot is located at the underface of the testing agency, and first position-limit mechanism is located in the front of the detection slot Side, second position-limit mechanism are located on the inside of the back side of the detection slot, first position-limit mechanism and second position restrainer Structure is that level is symmetrical, and the height of first position-limit mechanism and second position-limit mechanism is no more than the depth of the detection slot Degree.

2. a kind of pipe of cement resistance to compression force checking device according to claim 1, it is characterised in that: the testing agency includes Crossbeam, stamping cylinder, upper pressed sheet, lower pressed sheet are gentle to rush spring, and the crossbeam level is horizontally placed on a pair of support plate Between, the stamping cylinder bottom for being fixedly installed in the crossbeam placed in the middle, the punch rod of the stamping cylinder is through described Crossbeam simultaneously extends downwardly, and the end of the punch rod of the stamping cylinder connects the upper pressed sheet, and the lower pressed sheet is located at institute The underface of pressed sheet is stated, several buffer springs are between the lower pressed sheet and the upper pressed sheet, Ruo Gansuo The quantity for stating buffer spring is four, and one end of four buffer springs connects the top quadrangle of the lower pressed sheet, four The other end of the buffer spring is connected with the bottom four corners of the upper pressed sheet, and the lower pressed sheet is located at the detection slot Surface.

3. a kind of pipe of cement resistance to compression force checking device according to claim 1, it is characterised in that: the stamping cylinder is selected The mini cylinder of MA stainless steel, the stamping cylinder receive the control signal of the PLC controller output and its punch rod are driven to make Downward motion, so that the lower pressed sheet is pressed to the upper surface of pipe of cement to be measured；Under original state, the stamping cylinder is rushed Compression bar is in fully collapsed condition.

4. a kind of pipe of cement resistance to compression force checking device according to claim 1, it is characterised in that: first position-limit mechanism It is placed in the middle including the first telescope motor, the first I-shaped connector, the first lantern ring and the first limit wedge block, first telescope motor The front inside for being fixedly installed in the detection slot, the end connection described the of the first telescopic rod of first telescope motor One I-shaped connector, a transverse part of the first I-shaped connector connect the first telescopic rod of first telescope motor, institute The two sides for stating another transverse part of the first I-shaped connector are respectively provided with first lantern ring, and first lantern ring can be horizontal sliding Dynamic is set in the upper surface of described first I-shaped connector, the outer surface connection of first lantern ring the first limit wedge shape Block；First telescope motor selects E135-M2 type linear motor, and it is defeated that first telescope motor receives the PLC controller Control signal out simultaneously drives its first telescopic rod to make stretching motion, so that the first limit wedge block be released and water to be measured Mud pipe is in contact；Under original state, the first telescopic rod of first telescope motor is in fully collapsed condition.

5. a kind of pipe of cement resistance to compression force checking device according to claim 1, it is characterised in that: second position-limit mechanism It is placed in the middle including the second telescope motor, the second I-shaped connector, the second lantern ring and the second limit wedge block, second telescope motor The back side for being fixedly installed in the detection slot on the inside of, the end of the second telescopic rod of second telescope motor connection described the Two I-shaped connectors, a transverse part of the second I-shaped connector connect the second telescopic rod of second telescope motor, institute The two sides for stating another transverse part of the second I-shaped connector are respectively provided with second lantern ring, and second lantern ring can be horizontal sliding Dynamic is set in the upper surface of described second I-shaped connector, the outer surface connection of second lantern ring the second limit wedge shape Block, the second limit wedge block are opposite with the first limit wedge block level；Second telescope motor selects E135-M2 Type linear motor, second telescope motor receive the control signal of the PLC controller output and drive its second telescopic rod Make stretching motion, is in contact to releasing the second limit wedge block with pipe of cement to be measured；Under original state, described second Second telescopic rod of telescope motor is in fully collapsed condition.

6. a kind of pipe of cement resistance to compression force checking device according to claim 1, it is characterised in that: described device ontology is by outer Portion's power supply power supply, external power supply are the PLC controller, first telescope motor, second telescope motor and the punching Air cylinder provides operating voltage.

7. a kind of pipe of cement resistance to compression force checking device according to claim 5, it is characterised in that: second telescope motor It works asynchronously with first telescope motor and stroke having the same.