CN111272203A - Industrial control equipment test system - Google Patents
Industrial control equipment test system Download PDFInfo
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- CN111272203A CN111272203A CN202010066975.XA CN202010066975A CN111272203A CN 111272203 A CN111272203 A CN 111272203A CN 202010066975 A CN202010066975 A CN 202010066975A CN 111272203 A CN111272203 A CN 111272203A
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- 238000012360 testing method Methods 0.000 title claims abstract description 34
- 230000035939 shock Effects 0.000 claims abstract description 69
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims abstract description 43
- 238000010521 absorption reaction Methods 0.000 claims abstract description 23
- 230000033001 locomotion Effects 0.000 claims description 20
- 230000000694 effects Effects 0.000 claims description 19
- 238000005096 rolling process Methods 0.000 claims description 15
- 244000309464 bull Species 0.000 claims description 11
- 239000006096 absorbing agent Substances 0.000 claims description 10
- 230000008859 change Effects 0.000 claims description 9
- 210000003437 trachea Anatomy 0.000 claims description 5
- 238000002347 injection Methods 0.000 claims description 2
- 239000007924 injection Substances 0.000 claims description 2
- 238000010998 test method Methods 0.000 claims 1
- 238000005516 engineering process Methods 0.000 description 12
- 238000011161 development Methods 0.000 description 7
- 238000004891 communication Methods 0.000 description 6
- 238000001514 detection method Methods 0.000 description 4
- 230000005540 biological transmission Effects 0.000 description 3
- 238000001816 cooling Methods 0.000 description 3
- 230000002457 bidirectional effect Effects 0.000 description 2
- 238000012423 maintenance Methods 0.000 description 2
- 230000006855 networking Effects 0.000 description 2
- 230000008054 signal transmission Effects 0.000 description 2
- 230000004075 alteration Effects 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 230000007547 defect Effects 0.000 description 1
- 230000007613 environmental effect Effects 0.000 description 1
- 238000010438 heat treatment Methods 0.000 description 1
- 238000007689 inspection Methods 0.000 description 1
- 230000010354 integration Effects 0.000 description 1
- 238000004519 manufacturing process Methods 0.000 description 1
- 238000005259 measurement Methods 0.000 description 1
- 230000007246 mechanism Effects 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 238000005457 optimization Methods 0.000 description 1
- 238000004886 process control Methods 0.000 description 1
- 238000010992 reflux Methods 0.000 description 1
- 238000004092 self-diagnosis Methods 0.000 description 1
- 238000004088 simulation Methods 0.000 description 1
- 239000000243 solution Substances 0.000 description 1
- 238000006467 substitution reaction Methods 0.000 description 1
- 239000002699 waste material Substances 0.000 description 1
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01D—MEASURING NOT SPECIALLY ADAPTED FOR A SPECIFIC VARIABLE; ARRANGEMENTS FOR MEASURING TWO OR MORE VARIABLES NOT COVERED IN A SINGLE OTHER SUBCLASS; TARIFF METERING APPARATUS; MEASURING OR TESTING NOT OTHERWISE PROVIDED FOR
- G01D11/00—Component parts of measuring arrangements not specially adapted for a specific variable
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01D—MEASURING NOT SPECIALLY ADAPTED FOR A SPECIFIC VARIABLE; ARRANGEMENTS FOR MEASURING TWO OR MORE VARIABLES NOT COVERED IN A SINGLE OTHER SUBCLASS; TARIFF METERING APPARATUS; MEASURING OR TESTING NOT OTHERWISE PROVIDED FOR
- G01D11/00—Component parts of measuring arrangements not specially adapted for a specific variable
- G01D11/30—Supports specially adapted for an instrument; Supports specially adapted for a set of instruments
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05K—PRINTED CIRCUITS; CASINGS OR CONSTRUCTIONAL DETAILS OF ELECTRIC APPARATUS; MANUFACTURE OF ASSEMBLAGES OF ELECTRICAL COMPONENTS
- H05K7/00—Constructional details common to different types of electric apparatus
- H05K7/20—Modifications to facilitate cooling, ventilating, or heating
- H05K7/2029—Modifications to facilitate cooling, ventilating, or heating using a liquid coolant with phase change in electronic enclosures
- H05K7/20345—Sprayers; Atomizers
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- Engineering & Computer Science (AREA)
- Microelectronics & Electronic Packaging (AREA)
- General Physics & Mathematics (AREA)
- Thermal Sciences (AREA)
- Testing Electric Properties And Detecting Electric Faults (AREA)
- Testing Resistance To Weather, Investigating Materials By Mechanical Methods (AREA)
Abstract
The invention relates to the technical field of industrial control equipment, and discloses an industrial control equipment testing system, a system carrier is provided with a shock absorption groove, a shock absorption column is arranged in the shock absorption groove, a shock absorption spring is arranged on the shock absorption column, an extension column is arranged on the shock absorption spring, an auxiliary spring is arranged on the auxiliary groove, a support column is arranged on the auxiliary spring, a temperature control groove is arranged on the system carrier, a connecting hole is arranged on the system carrier, an air pipe is arranged in the connecting hole, an air bag is arranged in the temperature control groove, an air hole is arranged on the air bag, a water hole is arranged in the temperature control groove, a system box is arranged on the system carrier, and a backflow hole is arranged on the system carrier, so that a moving wheel can drive the system carrier to move back and forth and left and right, the shock absorption column is connected with the shock absorption groove through screw, and water is injected into the temperature control groove, the air bag extrudes the water, the water is sprayed out of the water holes and is sprayed on the system box, and the system box is cooled by the water.
Description
Technical Field
The invention relates to the technical field of industrial control equipment, in particular to a test system of industrial control equipment.
Background
Industrial control equipment is required for large data volume, high-rate transmission such as images, voice signals, etc., and a combination of ethernet and a control network, which is currently popular in the commercial field, is urged. The networking wave of the industrial control equipment integrates various current popular technologies such as an embedded technology, multi-standard industrial control network interconnection, a wireless technology and the like, so that the development space of the industrial control field is expanded, and a new development opportunity is brought. With the development of computer technology, communication technology and control technology, the traditional control field is undergoing an unprecedented revolution and starts to develop towards networking. The structure of the control device has been developed from the first CCS (computer centralized control device), to the second generation DCS (distributed control device), to the now popular FCS (field bus control device).
In the 40 s, process control was based on pneumatic standard signals of 3-15 PSI. Since 4-20 mA analog signals are used, the analog controller is widely applied, but not all the sensing instruments and the driving devices use uniform 4-20 mA signals. In the 70 s, centralized control was generated due to the pioneering use of computers in the fields of detection, analog control, and logic control. In the 80 s, due to the appearance of microprocessors, industrial instruments are promoted to enter a digital and intelligent era, 4-20 mA analog signal transmission is gradually replaced by digital communication, and in addition, the development of integration of functions such as control, scheduling, optimization, decision and the like is promoted due to the rapid development of distributed control and network technology. However, most of the mechanisms such as detection, transmission, execution and the like are connected by analog signals, and the transmission mode is a one-to-one structure, so that the wiring is complex, the engineering cost is high, the maintenance is difficult, the signal transmission precision is low, the interference is easy to happen, and the interchangeability of instruments is poor, so that the function of an upper-layer system is hindered. On the other hand, because the functions of the intelligent instrument far exceed those of a field simulation instrument, if the measuring range and the zero point are remotely set, the working state of the instrument realizes self diagnosis, and multi-parameter measurement, compensation for environmental influence and the like can be carried out. Therefore, the development of intelligent instruments and control equipment requires digital communication between the upper layer system and the field instrument. In order to overcome the technical bottleneck of the DCS system and further meet the field requirements, the fieldbus technology has come to be a bidirectional serial, digital, multi-node communication network, also called as field bottom-layer device control network (infra), actually connecting the field intelligent devices and the automation control devices. Unlike Internet, Intranet and other types of information networks, the control network is directly oriented to the production process, and thus requires high real-time, reliability, data integrity and availability. To meet these characteristics, the fieldbus simplifies the standard network protocol, omitting some intermediate layers, including only layer 3 in the ISO/OSI7 layer model: a physical layer, a data link layer, and an application layer. Fieldbus in the beginning of its development, companies have proposed their fieldbus protocols. The IEC group voted 31.12.1999 and established 8 buses as international fieldbus standards, including CANBus, ProfitBus, InterBus-S, ModBus, FOUNDA-TIONFieldbus, and others. On the basis of this, a new fieldbus control system fcs is formed. It integrates digital communication technology, computer technology, automatic control technology, network technology and intelligent instrument, etc. and radically breaks through the limitation of traditional point-to-point analog signal or digital-analog signal control, so that it forms a fully-dispersed, fully-digitalized, intelligent, bidirectional, interconnected, multivariable and multi-contact communication and control equipment. The corresponding control network structure also changes greatly. The typical structure of FCS is divided into 3 layers: a device layer, a control layer and an information layer.
The existing control state is before operation, the existing control equipment is inspected, and therefore a test system of the industrial control equipment is used, the test system of the industrial control equipment can perform all-dimensional inspection on the industrial control equipment, and operation of the industrial control equipment is ensured to be free from errors.
Disclosure of Invention
Technical problem to be solved
Aiming at the defects of the prior art, the invention provides the test system of the industrial control equipment, which has the advantages of cooling and the like and solves the problem of heating of electronic elements of the test system of the traditional industrial control equipment.
(II) technical scheme
In order to achieve the purpose, the invention provides the following technical scheme: an industrial control equipment test system comprises a system carrier, wherein a handle groove is formed in the system carrier, a rotating groove is formed in the handle groove, a rotating rod is arranged in the rotating groove, a pull rod is arranged on the rotating rod, a holding rod is arranged on the pull rod, a finger groove is formed in the holding rod, a movable groove is formed in the system carrier, a movable ring is arranged in the movable groove, a rolling groove is formed in the movable ring, a moving wheel is arranged in the rolling groove, a shock absorption groove is formed in the system carrier, a shock absorption column is arranged in the shock absorption groove, a shock absorption spring is arranged on the shock absorption column, an extending column is arranged on the shock absorption spring, an auxiliary spring is arranged on the auxiliary groove, a support column is arranged on the auxiliary spring, a temperature control groove is formed in the system carrier, a connecting hole is formed in the system carrier, an air pipe is arranged in the connecting hole, an air bag is, the system carrier is provided with a backflow hole.
Preferably, the system carrier is hollow rectangular structure, and the system carrier is industrial control equipment test system's carrier, and system carrier level is placed subaerial, and the handle groove is the rectangular channel, and the handle groove has two, and two handle grooves are located the front and back both sides lateral wall face of system carrier respectively, and the turn-trough is circular groove, and the turn-trough has two, and two turn-troughs are located the left and right sides internal face in handle groove respectively, and the bull stick is cylindrical structure, and the bull stick is located about both ends and all is located two turn-troughs, and the bull stick is in the same place with the turn-trough joint.
Preferably, the pull rod is cylindrical structure, and the pull rod has two, and two pull rods are close to the one end wall of bull stick and the excircle wall fixed mounting of bull stick together, and two pull rods are located both ends about the bull stick respectively, and the holding rod is cylindrical structure, and the holding rod is located between two pull rods, and both ends wall is in the same place with the excircle wall fixed mounting of two pull rods about the holding rod, indicates that the groove is the arc recess, indicates that the groove is located the excircle wall of holding rod.
Preferably, the movable groove is circular slot, and the movable groove has four, and four movable grooves all are located four corners of the lower wall of system carrier, have seted up the internal thread on the interior round wall of four movable grooves, and the activity ring is cylindrical structure, has seted up the external screw thread on the excircle wall of activity ring, and the activity ring is in the same place with activity groove threaded connection, and the rolling groove is two-thirds spherical groove, and the rolling groove is located the lower wall center department of activity ring, and the motion wheel is spherical structure, and the motion wheel is in the same place with the rolling groove joint, and the motion wheel can roll in the rolling groove.
Preferably, the shock absorbing groove is a circular groove, the shock absorbing groove is located at the center of the lower wall surface of the system carrier, an internal thread is arranged on the inner circular wall surface of the shock absorbing groove, the shock absorbing column is of a cylindrical structure, an external thread is arranged on the outer circular wall surface of the shock absorbing column, the shock absorbing column is in threaded connection with the shock absorbing groove, the upper wall surface of the shock absorbing spring is fixedly installed with the lower wall surface of the shock absorbing column, the shock absorbing spring is located at the center of the lower wall surface of the shock absorbing column, the extension column is of a cross-shaped structure, the cross section of the extension column is circular, the outer circular wall surface of the extension column is fixedly installed with the lower wall surface of the shock absorbing spring, the cross-shaped intersection point of the extension column is located at the center of the lower wall surface of the shock absorbing spring, an auxiliary groove is arranged on the extension column, the auxiliary grooves are four, the upper end of the auxiliary spring is located in the auxiliary groove, the upper wall surface of the auxiliary spring is fixed with the groove bottom wall surface of the auxiliary groove, the support column is of a cylindrical structure, and the upper wall surface of the support column is fixedly installed with the lower wall surface of the auxiliary spring.
Preferably, the control by temperature change groove is the chamber of cross section rectangle, the control by temperature change groove is located the inside of system carrier, the shape in control by temperature change groove is the same with the shape of system carrier, even the hole is the circular port, even on the antetheca face of hole position and system carrier, even the hole has run through the front side internal face in control by temperature change groove and the preceding lateral wall face of system carrier, even the hole has been linked through the outside of system carrier and the inside in control by temperature change groove, the trachea is the cavity pipeline, tracheal excircle wall is in the same place with the interior round wall fixed mounting in even the hole, the trachea extends to the control by temperature change inslot portion always, the gasbag is the hollow rectangle structure, the gasbag is placed on the.
Preferably, the air hole is a circular hole, the air hole is positioned on the front side wall surface of the air bag, the air hole penetrates through the inner side wall surface and the outer side wall surface of the front side wall surface of the air bag, the air hole is communicated with the inside of the air bag and the inside of the temperature control groove, the inner circular wall surface of the air hole and the outer circular wall surface of the air pipe are fixedly arranged together, the air pipe extends into the air bag, the water holes are circular holes, the water holes penetrate through the inner wall surface of the temperature control groove and the inner wall surface of the system carrier, the four water holes are respectively arranged on the front, the rear, the left and the right inner wall surfaces of the system carrier, the system box is arranged on the inner wall surface of the bottom of the system carrier, the lower wall surface of the system box is fixedly arranged with the inner wall surface of the bottom of the system carrier, the backflow hole is a circular hole, and the backflow hole is, and the backflow hole penetrates through the bottom wall surface of the system carrier and the inner wall surface of the temperature control tank, and the backflow hole is communicated with the inside of the system carrier and the inside of the temperature control tank.
(III) advantageous effects
Compared with the prior art, the invention provides a test system of industrial control equipment, which has the following beneficial effects:
1. this industrial control equipment's test system, through filling the air to the trachea, make the gasbag be full of, to pouring water in the temperature control groove, the gasbag is extruded water, water is followed the water hole blowout and is sprinkled on the system box, water cools down to the system box, thereby make the electronic component in industrial control equipment's test system can be cooled down when using, avoided the problem that industrial control equipment's test system's work detection efficiency descends, the test system's that has improved industrial control equipment detection accuracy.
2. This industrial control equipment's test system, through filling the air to the trachea for the gasbag is full of, annotates water in to the temperature control groove, and the gasbag is extruded water, and water is spilled on the system box from the water hole blowout, and water cools down to the system box, and water flows into the temperature control inslot portion again from the backward flow hole, forms the circulation, can be by the cooling of continuation from the test system who makes industrial control equipment, thereby improves cooling efficiency, has ensured industrial control equipment's test system's operation.
3. This industrial control equipment's test system flows in the control by temperature change inslot portion again from the backward flow hole through water, forms the circulation to make hydroenergy enough exist always with the box in, avoided the waste of water resource, improved the utilization ratio of water resource.
4. This industrial control equipment's test system through the pulling holding rod for the bull stick is at the bull stick internal rotation, thereby makes the holding rod pulled out, thereby makes workman handling system carrier more convenient, has improved handling efficiency simultaneously.
5. This industrial control equipment's test system through rotatory movable ring for the motion wheel passes through movable ring and system carrier fixed mounting together, makes the motion wheel can drive system carrier and carry out all around side-to-side movement, thereby makes this automobile body can remove at any time, can not move in the place that can promote, has saved workman's physical power.
6. This industrial control equipment's test system for through rotatory shock absorber post, make shock absorber post and shock absorber groove threaded connection be in the same place, thereby make the system carrier by support column jack-up, thereby make shock absorber spring and secondary spring reduce the vibrations that produce when can be to industrial control equipment's test system operation, reduced vibrations and damaged industrial control equipment's test system electronic component.
7. This industrial control equipment's test system through rotatory movable ring for the motion wheel passes through movable ring and system carrier fixed mounting together, makes the motion wheel can drive system carrier and carry out the side-to-side movement all around, and rotatory post of moving away to avoid possible earthquakes makes the post of moving away to avoid possible earthquakes and moves away to avoid possible earthquakes groove threaded connection together, thereby makes system carrier by support column jack-up, makes the post of moving away to avoid possible earthquakes and motion wheel can dismantle equipment and maintenance at any time, has improved the life of part.
Drawings
FIG. 1 is a perspective view of the present invention;
FIG. 2 is a perspective view of the present invention;
FIG. 3 is a perspective view of the present invention;
FIG. 4 is a front cross-sectional view of the structure of the present invention;
FIG. 5 is a partial schematic view of A of FIG. 1;
fig. 6 is a partial schematic view of B in fig. 3.
In the figure: the system comprises a system carrier 1, a handle groove 2, a rotary groove 3, a rotary rod 4, a pull rod 5, a holding rod 6, a finger groove 7, a movable groove 8, a movable ring 9, a rolling groove 10, a motion wheel 11, a shock absorption groove 12, a shock absorption column 13, a shock absorption spring 14, an extension column 15, an auxiliary groove 16, an auxiliary spring 17, a support column 18, a temperature control groove 19, a connecting hole 20, an air pipe 21, a system box 22, an air bag 23, an air hole 24, a water hole 25 and a reflux hole 26.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1-6, the present invention is an industrial control equipment testing system, including a system carrier 1, the system carrier 1 is a hollow rectangular structure, the system carrier 1 is a carrier of an industrial control equipment testing system, the system carrier 1 is horizontally placed on the ground, the system carrier 1 is provided with two handle slots 2, the handle slots 2 are rectangular slots, the two handle slots 2 are respectively located on the front and rear side wall surfaces of the system carrier 1, the handle slots 2 are provided with rotating slots 3, the rotating slots 3 are circular slots, the rotating slots 3 are two, the two rotating slots 3 are respectively located on the left and right side inner wall surfaces of the handle slots 2, the rotating slots 3 are provided with rotating rods 4, the rotating rods 4 are cylindrical structures, the rotating rods 4 are located in the two rotating slots 3 at the left and right ends, the rotating rods 4 are clamped with the rotating slots 3, the rotating rods 4 can rotate in the rotating slots 3, the rotating rod 4 is provided with pull rods 5, the pull rods 5 are of cylindrical structures, the number of the pull rods 5 is two, one end wall surface of each pull rod 5, which is close to the rotating rod 4, is fixedly installed with the outer circle wall surface of the rotating rod 4, the two pull rods 5 are respectively positioned at the left end and the right end of the rotating rod 4, the pull rod 5 is provided with a holding rod 6, the holding rod 6 is of a cylindrical structure, the holding rod 6 is positioned between the two pull rods 5, the left end wall surface and the right end wall surface of the holding rod 6 are fixedly installed with the outer circle wall surfaces of the two pull rods 5, the holding rod 6 is provided with finger grooves 7, the finger grooves 7 are arc-shaped grooves, the finger grooves 7 are positioned on the outer circle wall surfaces of the holding rod 6, the finger grooves 7 can facilitate people to hold the holding rod 6, the system carrier 1 is provided with movable grooves 8, the movable grooves 8 are circular grooves, the number of the movable grooves 8 are four, the four, a movable ring 9 is arranged in the movable groove 8, the movable ring 9 is of a cylindrical structure, an external thread is arranged on the excircle wall surface of the movable ring 9, the movable ring 9 is in threaded connection with the movable groove 8, a rolling groove 10 is arranged on the movable ring 9, the rolling groove 10 is a two-thirds spherical groove, the rolling groove 10 is positioned at the center of the lower wall surface of the movable ring 9, a movable wheel 11 is arranged in the rolling groove 10, the movable wheel 11 is of a spherical structure, the movable wheel 11 is clamped with the rolling groove 10, the movable wheel 11 can roll in the rolling groove 10, the movable wheel 11 can drive the system carrier 1 to move back and forth and left and right, a shock-absorbing groove 12 is arranged on the system carrier 1, the shock-absorbing groove 12 is a circular groove, the shock-absorbing groove 12 is positioned at the center of the lower wall surface of the system carrier 1, an internal thread is arranged on the inner circle wall surface of the shock-absorbing groove 12, a shock-absorbing column 13, the shock absorbing column 13 is connected with the shock absorbing groove 12 by screw threads, the shock absorbing column 13 is provided with a shock absorbing spring 14, the upper wall surface of the shock absorbing spring 14 is fixedly installed with the lower wall surface of the shock absorbing column 13, the shock absorbing spring 14 is positioned at the center of the lower wall surface of the shock absorbing column 13, the shock absorbing spring 14 is provided with an extending column 15, the extending column 15 is of a cross structure, the cross section of the extending column 15 is circular, the excircle wall surface of the extending column 15 is fixedly installed with the lower wall surface of the shock absorbing spring 14, the cross intersection point of the extending column 15 is positioned at the center of the lower wall surface of the shock absorbing spring 14, the extending column 15 is provided with auxiliary grooves 16, the auxiliary grooves 16 are circular grooves, the auxiliary grooves 16 are positioned on the excircle wall surface of the extending column 15, the number of the auxiliary grooves 16 is four, the four auxiliary grooves 16 are respectively positioned at one end of the extending column 15, which is far away from the center intersection, the upper wall surface of the auxiliary spring 17 is fixed with the bottom wall surface of the auxiliary groove 16, a support column 18 is arranged on the auxiliary spring 17, the support column 18 is of a cylindrical structure, the upper wall surface of the support column 18 is fixedly installed with the lower wall surface of the auxiliary spring 17, the support column 18 is in contact with the ground, a temperature control groove 19 is arranged on the system carrier 1, the temperature control groove 19 is a cavity with a rectangular cross section, the temperature control groove 19 is positioned inside the system carrier 1, the shape of the temperature control groove 19 is the same as that of the system carrier 1, a connecting hole 20 is arranged on the system carrier 1, the connecting hole 20 is a circular hole, the connecting hole 20 is positioned on the front wall surface of the system carrier 1, the connecting hole 20 penetrates through the front side inner wall surface of the temperature control groove 19 and the front side wall surface of the system carrier 1, the connecting hole 20 is communicated with the outside of the system carrier 1 and the inside of the temperature control groove 19, an air pipe 21 is arranged in the connecting hole, the air pipe 21 extends to the inside of the temperature control groove 19, the air bag 23 is arranged in the temperature control groove 19, the air bag 23 is of a hollow rectangular structure, the air bag 23 is of an existing structure and is not described herein, the inside of the air bag 23 can be inflated, the air bag 23 is placed on the bottom wall surface of the temperature control groove 19, the air bag 23 is provided with an air hole 24, the air hole 24 is a circular hole, the air hole 24 is located on the front side wall surface of the air bag 23, the air hole 24 penetrates through the inner side wall surface and the outer side wall surface of the front side wall surface of the air bag 23, the air hole 24 is communicated with the inside of the air bag 23 and the inside of the temperature control groove 19, the inner side wall surface of the air hole 24 is fixedly installed with the outer side wall surface of the air pipe 21, the air pipe 21 extends to the inside of the air bag 23, the water holes 25 are circular holes, the water holes 25 penetrate through the inner wall surface of, the system carrier 1 is provided with a system box 22, the system box 22 is of a rectangular structure, the system box 22 is located on the inner wall surface of the bottom of the system carrier 1, the lower wall surface of the system box 22 is fixedly installed with the inner wall surface of the bottom of the system carrier 1, the system box 22 is a box body of a control device, the inside of the system box 22 is an electronic component part of the control device, the system carrier 1 is provided with a backflow hole 26, the backflow hole 26 is a circular hole, the backflow hole 26 is located on the bottom wall surface of the system carrier 1, the backflow hole 26 penetrates through the bottom wall surface of the system carrier 1 and the inner wall surface of the temperature control groove 19, and the backflow hole 26 is communicated with the inside of the system carrier 1 and the inside of.
The working principle is as follows:
when using, through pulling holding rod 6, make bull stick 4 at 3 internal rotations of rotary trough, thereby make the holding rod 6 pulled out, thereby it is more convenient to make workman transport system carrier 1, through rotatory activity ring 9, make motion wheel 11 be in the same place through activity ring 9 and system carrier 1 fixed mounting, make motion wheel 11 can drive system carrier 1 and carry out the side-to-side movement around going on, rotatory shock absorber post 13, make shock absorber post 13 and shock absorber groove 12 threaded connection be in the same place, thereby make system carrier 1 by the jack-up of support column 18, through pouring into the air pipe 21, make gasbag 23 be full of, to the water injection in the temperature control groove 19, gasbag 23 extrudes water, water is sprinkled on system box 22 from water hole 25 blowout, water cools down system box 22, water flows into temperature control groove 19 inside again from backward flow hole 26, form the circulation.
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 (7)
1. A test system of an industrial control device, comprising a system carrier (1), characterized in that: the system carrier (1) is provided with a handle groove (2), the handle groove (2) is internally provided with a rotary groove (3), the rotary groove (3) is internally provided with a rotary rod (4), the rotary rod (4) is provided with a pull rod (5), the pull rod (5) is provided with a holding rod (6), the holding rod (6) is provided with a finger groove (7), the system carrier (1) is provided with a movable groove (8), the movable groove (8) is internally provided with a movable ring (9), the movable ring (9) is provided with a rolling groove (10), the rolling groove (10) is internally provided with a moving wheel (11), the system carrier (1) is provided with a shock absorption groove (12), the shock absorption groove (12) is internally provided with a shock absorption column (13), the shock absorption column (13) is provided with a shock absorption spring (14), the shock absorption spring (14) is provided with an extension column (15), the auxiliary groove (16) is provided with an auxiliary spring (17), and the auxiliary, a temperature control groove (19) is formed in the system carrier (1), a connecting hole (20) is formed in the system carrier (1), an air pipe (21) is arranged in the connecting hole (20), an air bag (23) is arranged in the temperature control groove (19), an air hole (24) is formed in the air bag (23), a water hole (25) is formed in the temperature control groove (19), a system box (22) is arranged on the system carrier (1), and a backflow hole (26) is formed in the system carrier (1).
2. The test system of an industrial control device according to claim 1, wherein: the system carrier (1) is of a hollow rectangular structure, the system carrier (1) is a carrier of an industrial control equipment test system, the system carrier (1) is horizontally placed on the ground, the handle grooves (2) are rectangular grooves, the number of the handle grooves (2) is two, the two handle grooves (2) are respectively positioned on the front side wall surface and the rear side wall surface of the system carrier (1), the rotating grooves (3) are circular grooves, the number of the rotating grooves (3) is two, the two rotating grooves (3) are respectively positioned on the inner wall surfaces of the left side and the right side wall surfaces of the handle grooves (2), the rotating rods (4) are of a cylindrical structure, the rotating rods (4) are positioned in the two rotating grooves (3) at the left end and the right end, the rotating rods (4) are clamped with the rotating grooves (3), the pull rods (5) are of a cylindrical structure, the pull rods (5) are two, the wall surfaces of one ends, close to the rotating rods (4), of the two pull rods (5) are fixedly installed with the outer circle, two pull rods (5) are respectively located both ends about bull stick (4), and holding rod (6) are cylindrical structure, and holding rod (6) are located between two pull rods (5), and holding rod (6) about both ends wall and the excircle wall fixed mounting of two pull rods (5) be in the same place, indicate groove (7) to be the arc recess, indicate groove (7) to be located the excircle wall of holding rod (6).
3. The test system of an industrial control device according to claim 1, wherein: activity groove (8) are the circular recess, activity groove (8) have four, four activity grooves (8) all are located four corners of lower wall face of system carrier (1), set up the internal thread on the interior round wall of four activity grooves (8), activity ring (9) are cylindrical structure, the external screw thread has been seted up on the excircle wall of activity ring (9), activity ring (9) are in the same place with activity groove (8) threaded connection, roll groove (10) are two-thirds spherical groove, roll groove (10) are located the lower wall face center department of activity ring (9), motion wheel (11) are the sphere shape structure, motion wheel (11) are in the same place with roll groove (10) joint, motion wheel (11) can roll in roll groove (10).
4. The test system of an industrial control device according to claim 1, wherein: the shock absorbing groove (12) is a circular groove, the shock absorbing groove (12) is positioned at the center of the lower wall surface of the system carrier (1), an internal thread is arranged on the inner circular wall surface of the shock absorbing groove (12), the shock absorbing column (13) is of a cylindrical structure, an external thread is arranged on the outer circular wall surface of the shock absorbing column (13), the shock absorbing column (13) is in threaded connection with the shock absorbing groove (12), the upper wall surface of the shock absorbing spring (14) is fixedly arranged with the lower wall surface of the shock absorbing column (13), the shock absorbing spring (14) is positioned at the center of the lower wall surface of the shock absorbing column (13), the extension column (15) is of a cross-shaped structure, the cross section of the extension column (15) is circular, the outer circular wall surface of the extension column (15) is fixedly arranged with the lower wall surface of the shock absorbing spring (14), the cross-shaped lower wall intersection point of the extension column (15) is positioned at the center of the, the auxiliary grooves (16) are circular grooves, the auxiliary grooves (16) are located on the outer circular wall surface of the extension column (15), the number of the auxiliary grooves (16) is four, the four auxiliary grooves (16) are located at one end, far away from the center intersection point of the extension column (15), the upper end of the auxiliary spring (17) is located in the auxiliary grooves (16), the upper wall surface of the auxiliary spring (17) is fixed with the bottom wall surface of the auxiliary grooves (16), the supporting column (18) is of a cylindrical structure, and the upper wall surface of the supporting column (18) is fixedly mounted with the lower wall surface of the auxiliary spring (17).
5. The test system of an industrial control device according to claim 1, wherein: the air holes (24) are circular holes, the air holes (24) are positioned on the front side wall surface of the air bag (23), the air holes (24) penetrate through the inner side wall surface and the outer side wall surface of the front side wall surface of the air bag (23), the air holes (24) are communicated with the inside of the air bag (23) and the inside of the temperature control groove (19), the inner circular wall surface of the air holes (24) is fixedly installed with the outer circular wall surface of the air pipe (21), the air pipe (21) extends into the air bag (23) all the time, the water holes (25) are circular holes, the water holes (25) penetrate through the inner wall surface of the temperature control groove (19) and the inner wall surface of the system carrier (1), the number of the water holes (25) is four, the four water holes (25) are respectively positioned on the front, rear, left and right inner wall surfaces of the system carrier (1), the system box (22) is positioned on the inner wall surface of the bottom of the system, the backflow hole (26) is a circular hole, the backflow hole (26) is located on the bottom wall surface of the system carrier (1), the backflow hole (26) penetrates through the bottom wall surface of the system carrier (1) and the inner wall surface of the temperature control groove (19), and the backflow hole (26) is communicated with the inside of the system carrier (1) and the inside of the temperature control groove (19).
6. The test system of an industrial control device according to claim 1, wherein: the temperature control groove (19) is a cavity with a rectangular cross section, the temperature control groove (19) is located inside the system carrier (1), the shape of the temperature control groove (19) is the same as that of the system carrier (1), the connecting hole (20) is a circular hole, the connecting hole (20) is located on the front wall surface of the system carrier (1), the connecting hole (20) penetrates through the front inner wall surface of the temperature control groove (19) and the front side wall surface of the system carrier (1), the connecting hole (20) is communicated with the outside of the system carrier (1) and the inside of the temperature control groove (19), the air pipe (21) is a hollow pipeline, the outer circle wall surface of the air pipe (21) is fixedly installed together with the inner circle wall surface of the connecting hole (20), the air pipe (21) extends into the temperature control groove (19), the air bag (23) is of a hollow rectangular structure, and the air bag (23) is placed on the bottom wall surface of the temperature control groove (19).
7. A test method of industrial control equipment is characterized in that: through pulling holding rod 6, make bull stick 4 at 3 internal rotations of rotary trough, thereby make holding rod 6 pulled out, thereby it is more convenient to make workman handling system carrier 1, through rotatory activity ring 9, make motion wheel 11 be in the same place through activity ring 9 and system carrier 1 fixed mounting, make motion wheel 11 can drive system carrier 1 and carry out the side-to-side movement around going on, rotatory shock absorber post 13, make shock absorber post 13 and shock absorber groove 12 threaded connection together, thereby make system carrier 1 by support column 18 jack-up, through pouring air into trachea 21, make gasbag 23 be full of, to water injection in the control by temperature change groove 19, gasbag 23 extrudes water, water is sprayed on system box 22 from water hole 25, water cools down system box 22, water flows into control by temperature change inslot 19 again from backward flow hole 26 inside, form the circulation.
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| CN111272203B (en) | 2021-11-09 |
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Effective date of registration: 20211021 Address after: 257000 east of Gangxi Second Road and north of Gangbei Second Road, dongyinggang Economic Development Zone, Dongying City, Shandong Province Applicant after: Dongying Weilian Chemical Co.,Ltd. Address before: 246739 No. 01, Queen group, Yutan village, Yutan Township, Zongyang County, Anqing City, Anhui Province Applicant before: Wang Fang |
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