CN205463247U - Missed measure examination platform in full -automatic cross valve - Google Patents

Abstract

The utility model provides a full automation, unattended, unmanned on duty, equipment is stable, the measurement is accurate, and the reliability is high, the missed measure examination platform in full -automatic cross valve who is suitable for modern automated production mode. It includes feed mechanism (1), transfer mechanism (2), sealing mechanism (3), unloading mechanism (4), screening mechanism (5), detection mechanism (6) and central processing unit, feed mechanism (1) with shift mechanism (2) and meet, transfer mechanism (2) meet with sealing mechanism (3) and unloading mechanism (4) respectively, screening mechanism (5) and unloading mechanism (4) meet, detection mechanism (6) and sealing mechanism (3) meet, feed mechanism (1), shift mechanism (2), sealing mechanism (3), unloading mechanism (4), screening mechanism (5) and all be connected with central processing unit is electric with detection mechanism (6).

Description

Full-automatic cross valve internal hemorrhage due to trauma testboard

Technical field

This utility model relates to a kind of air supply rate test platform, specifically refers to a kind of full-automatic cross valve internal hemorrhage due to trauma testboard.

Background technology

Cross valve, refers to a kind of control valve with four blow vents.Cross valve is indispensable parts in refrigeration plant, its Operation principle is, when electromagnetic valve coil is in off-position, pilot valve moves to left under right side compression spring drives, and gases at high pressure enter Entering right-hand member plunger shaft after entering capillary tube, on the other hand, the gas of left end plunger shaft is discharged, owing to piston two ends exist pressure reduction, Piston and main slide valve move to left, and make exhaustor communicate with off-premises station adapter, and another two adapters communicate, and form kind of refrigeration cycle.Work as electromagnetism Valve coil is in "on" position, and pilot valve overcomes the tension force of compression spring to move to right under the magneticaction that solenoid produces, high Body of calming the anger enters left end plunger shaft after entering capillary tube, on the other hand, the gas of right-hand member plunger shaft is discharged, owing to piston two ends are deposited Moving to right at pressure reduction, piston and main slide valve, make exhaustor communicate with indoor set adapter, another two adapters communicate, and are formed and heat circulation. As shown in Figure 1, it mainly includes right side valve port 01, pilot valve 02 and left side valve port 03 to the concrete structure of cross valve；Institute The right side valve port 01 stated is an elongated copper pipe, and pilot valve 02 is one section of closed at both ends, the internally installed valve body having piston. Described left side valve port 03 is three short copper pipes.

The performance quality of four-way change-over valve decides the performance of air-conditioning.The yield of China's four-way change-over valve has accounted for whole world four-way change-over valve More than the 95% of production capacity.According to the People's Republic of China machinery industry standard JB/T7230-2013 " heat pump four-way electromagnetic reversing valve " Requirement, four-way reversing solenoid valve dispatch from the factory performances such as must carrying out internal leakage detection.Current all internal leakage performances detection sets For being semi-automatic detection equipment, i.e. artificial loading/unloading products, detection equipment judge that whether excellent properties of product are；In order to equalize The detection beat of different detection functions and whole piece produce the output demand of line, then every equipment differently configured station number.

In sum, it is big to there is labor workload in automanual detection equipment of the prior art, inefficiency, and cost is high, The shortcoming that potential safety hazard is big.

Utility model content

The technical problems to be solved in the utility model is to provide a kind of full automation, unattended, unmanned；Equipment is steady Determining, measure accurately, reliability is high；It is suitable for the full-automatic cross valve internal hemorrhage due to trauma testboard of modern automation production model.

For solving above-mentioned technical problem, the technical scheme that this utility model provides is: a kind of full-automatic cross valve internal hemorrhage due to trauma testboard, It includes feed mechanism, transfer device, sealing mechanism, cutting agency, sorting mechanism, testing agency and central processing unit；Institute The feed mechanism stated connects with transfer device；Described transfer device connects with sealing mechanism and cutting agency respectively；Described sieve Mechanism is selected to connect with cutting agency；Described testing agency connects with sealing mechanism；Described feed mechanism, transfer device, close Sealing mechanism, cutting agency, sorting mechanism and testing agency all electrically connect with central processing unit.

As preferably, described feed mechanism includes feed frame, feed frame is provided with the first conveyer belt, the second conveyer belt, Feeding electric motor units and feeding V-type chute feeder；The first described conveyer belt and the second conveyer belt are mounted side by side and are provided with between the two Spacing, the first described conveyer belt and the second conveyer belt drive by feeding electric motor units, and described feeding V-type chute feeder is installed on Between first conveyer belt and the second conveyer belt；Two sidewalls of described feeding V-type chute feeder are provided with multiple roller；Described The conveying end of the first conveyer belt and the second conveyer belt is separately installed with the first block and the second block；On described feed frame also Being provided with first group of blocking apparatus, first group of described interception parts include a pair extensible member and a pair detection probe, described Detection probe is separately mounted on extensible member, after a pair described extensible member is separately mounted to the first block and the second block Side；Feeding electric motor units and first group of interception parts all electrically connect with central processing unit.

As preferably, described transfer device includes that transfer frame, horizontal direction reciprocating member, landing slab, vertical direction are reciprocal Assembly, contiguous block, cylinder, connecting plate, first group of transfer robot arm, second group of transfer robot arm and material taking claw；Described level Direction reciprocating member is installed in frame, and described contiguous block is installed on the movable block of horizontal direction reciprocating member；Described is flat Platen is installed on contiguous block, and described vertical direction reciprocating member is installed on landing slab, and described cylinder is installed on landing slab On, described connecting plate is installed on the cylinder body lower end of cylinder, and the piston rod of described cylinder connects through connecting plate installing plate, First group of transfer robot arm and second group of transfer robot arm are installed on described installing plate side by side；Described transfer robot arm is Lower end is provided with the material taking claw for capturing cross valve；Described horizontal direction reciprocating member, vertical direction reciprocating member, cylinder, First group of transfer robot arm and second group of transfer robot arm all electrically connect with central processing unit.

As preferably, described sealing mechanism includes that tool base plate, ECS sealing valve port assembly, ECS sealing needle tubing, two ends are close Sealing assembly, ES pore press assembly, ES pore sealed horizontal slide assemblies, ES pore black box and D pipe under sealing Location sealing assembly；Described ECS sealing valve port assembly, ECS seal needle tubing, two ends black box, the sealing of ES pore Under press assembly, ES pore sealed horizontal slide assemblies, ES pore black box and D pipe location sealing assembly to be mounted on In tool base plate；Described ECS sealing valve port assembly is provided with three ECS and seals needle tubing；Described two ends black box is A pair clamp arm；Described ES pore seals pressure assembly down and includes two ES pore black boies；Described D pipe location Black box is for connecting with the right side valve port of cross valve；Described ECS sealing valve port assembly, two ends black box, ES hair Pore seals to press down and is provided with the riding position for laying cross valve workpiece between assembly；Described ES pore seals down pressure group Part is installed on ES pore sealed horizontal slide assemblies；Described ECS sealing valve port assembly, two ends black box, ES hair Pore presses assembly, ES pore sealed horizontal slide assemblies and D pipe location sealing assembly to be all electrically connected with central processing unit under sealing Connect.

As preferably, described cutting agency include frame, the 3rd conveyer belt, the 4th conveyer belt, blanking V-type deflector chute and under Material electric machine assembly；The 3rd described conveyer belt and the 4th conveyer belt are mounted side by side in frame；3rd conveyer belt and the 4th conveyer belt Between be provided with interval；Described blanking V-type deflector chute is installed at the interval of the 3rd conveyer belt and the 4th conveyer belt；Described The width of three conveyer belts is more than the width of the 4th conveyer belt；The height in frame of described blanking V-type deflector chute is less than the 3rd Conveyer belt and the 4th conveyer belt；The 3rd described conveyer belt and the 4th conveyer belt are driven by blanking electric machine assembly；Described blanking V Two sides of type deflector chute are provided with some lower material rollers.

As preferably, described sorting mechanism include frame, horizontal reciprocating movement assembly, travelling carriage, vertically move back and forth assembly, Mechanical hand, the 5th conveyer belt and screening motor；Described horizontal reciprocating movement assembly is installed in frame, described travelling carriage Being installed on the slide block of horizontal reciprocating movement assembly, the described assembly that vertically moves back and forth is installed on travelling carriage, described machinery Hands is arranged on the lower end vertically moving back and forth assembly；The 5th described conveyer belt is installed on the lower section of mechanical hand, the 5th described biography Send band by screening motor-driven；Described horizontal reciprocating movement assembly, vertically to move back and forth assembly, mechanical hand and screening electronic Machine all electrically connects with central processing unit.

As preferably, described testing agency includes valve island, described valve island is integrated with detection tabs, Pressure gauge, decompression set Standby, filter, switching valve and effusion meter.

As preferably, described central processing unit is touched panel computer by Mitsubishi PLC controller and industry and combines.

After using said structure, this utility model has the advantages that mechanism, transfer are expected in creative the inciting somebody to action of this utility model Mechanism, sealing mechanism, cutting agency, sorting mechanism, testing agency and central processing unit integrate, and each unit is complete Entirely realize mechanical automation without assisting manually；By feed mechanism, product delivered to feeding port, transfer by last process Structure automatically captures test specimen and puts into frock, sealing mechanism frock automatic-sealed, is then automatically tested by testing agency.Such as product Qualified, product is put into certified products line and is flowed into next procedure by cutting agency.As product is defective, product is put into NG by sorting mechanism Line.Wherein the connecting tube of sealing mechanism uses O-ring machinery tensioner mode to seal, and is matched in clearance during entrance valve body, without friction, Without oil lubrication；Can ensure that 6000 service lifes.Sealing mechanism also can periodically carry out seal self-inspection (may be set to startup self-detection, Also self-inspection can be carried out by separated in time.), after finding seal failure, alarm.Guarantee without sealing former thus resulting in because of frock Flase drop erroneous judgement.After operation employee calls test product type, equipment adjusts air pressure (high pressure, two kinds of pressure of leakage) automatically；From Dynamic adjustment detection supply voltage and mode meet testing requirement.Measuring air pressure, coil voltage whole process supervision, as found test strip When part is unsatisfactory for, automatic alarm also points out trouble point conveniently to keep in repair.Pressure sensor calibration: detecting system special configuration has High-precision pressure transducer, calibration of can the most periodically comparing.During calibration, compare calibration with each circuit pressure sensors, As deviation is less, then according to comparison result, deviation is modified；The relatively big then alarm maintenance of deviation.In device detection procedure Force value, electrical quantity etc..This item data can two-way intercommunication, can upload also can remote download product type and technological parameter, etc. Plurality of advantages.

In sum, this utility model provides a kind of full automation, unattended, unmanned；Equipment is stable, measurement Accurately, reliability is high；It is suitable for the full-automatic cross valve internal hemorrhage due to trauma testboard of modern automation production model.

Accompanying drawing explanation

Fig. 1 is the structural representation of cross valve in prior art.

Fig. 2 is the structural representation of this utility model full-automatic cross valve internal hemorrhage due to trauma testboard.

Fig. 3 is the structure for amplifying schematic diagram of the feed mechanism in Fig. 2.

Fig. 4 is the structure for amplifying schematic diagram of the transfer device in Fig. 2.

Fig. 5 is the structure for amplifying schematic diagram of the sealing mechanism in Fig. 2.

Fig. 6 is the structure for amplifying schematic diagram of the cutting agency in Fig. 2.

Fig. 7 is the structure for amplifying schematic diagram of the sorting mechanism in Fig. 2.

Fig. 8 is the structure for amplifying schematic diagram of this utility model full-automatic cross valve internal hemorrhage due to trauma testboard testing agency.

Fig. 9 is the electronic schematic diagram of this utility model full-automatic cross valve internal hemorrhage due to trauma testboard.

As shown in the figure: in prior art: 01, right side valve port, 02, pilot valve, 03, left side valve port.

In this utility model: 1, feed mechanism, 2, transfer device, 3, sealing mechanism, 4, cutting agency, 5, sorting mechanism, 6, testing agency；101, feed frame, the 102, first conveyer belt, the 103, second conveyer belt, 104, feeding electric motor units, 105, feeding V-type chute feeder, 106, first group intercepts parts, and 107, second group intercepts parts, the 108, the 3rd group of catching portion Part, the 109, first block, the 110, second block；201, transfer frame, 202, horizontal direction reciprocating member, 203, platform Plate, 204, vertical direction reciprocating member, 205, contiguous block, 206, cylinder, 207, connecting plate, 208, first group of transfer Tool hands, 209, second group of transfer robot arm, 210, material taking claw；301, tool base plate, 302, ECS sealing valve port assembly, 303, ECS seals needle tubing, 304, two ends black box, 305, ES pore press assembly under sealing, 306, ES pore Sealed horizontal slide assemblies, 307, ES pore black box, 308, D pipe location sealing assembly；401, blanking frame, 402, the 3rd conveyer belt, the 403, the 4th conveyer belt, 404, blanking V-type deflector chute, 405, blanking electric machine assembly, 406, Lower material roller；501, screening frame, 502, horizontal reciprocating movement assembly, 503, travelling carriage, 504, vertically reciprocating motion group Part, 505, mechanical hand, the 506, the 5th conveyer belt, 507, screening motor；601, valve island, 602, detection tabs, 603, Pressure gauge.

Detailed description of the invention

Below in conjunction with the accompanying drawings this utility model is described in further detail.

In conjunction with accompanying drawing 2 to accompanying drawing 9, a kind of full-automatic cross valve internal hemorrhage due to trauma testboard, it include feed mechanism 1, transfer device 2, Sealing mechanism 3, cutting agency 4, sorting mechanism 5, testing agency 6 and central processing unit；Described feed mechanism 1 and transfer Mechanism 2 connects；Described transfer device 2 connects with sealing mechanism 3 and cutting agency 4 respectively；Described sorting mechanism 5 with Cutting agency 4 connects；Described testing agency 6 connects with sealing mechanism 3；Described feed mechanism 1, transfer device 2, close Sealing mechanism 3, cutting agency 4, sorting mechanism 5 and testing agency 6 all electrically connect with central processing unit.

As preferably, described feed mechanism 1 includes feed frame 101, feed frame 101 is provided with the first conveyer belt 102, Second conveyer belt 103, feeding electric motor units 104 and feeding V-type chute feeder 105；The first described conveyer belt 102 and second Conveyer belt 103 is mounted side by side and is provided with between the two spacing, and the first described conveyer belt 102 and the second conveyer belt 103 are by feeding Electric motor units 104 drives, described feeding V-type chute feeder 105 be installed on the first conveyer belt 102 and the second conveyer belt 103 it Between；Two sidewalls of described feeding V-type chute feeder 105 are provided with multiple roller；The first described conveyer belt 102 and second The conveying end of conveyer belt 103 is separately installed with the first block 109 and the second block 110；On described feed frame 101 also Being provided with first group of blocking apparatus 106, first group of described interception parts 106 include a pair extensible member and a pair detection probe, Described detection probe is separately mounted on extensible member, and a pair described extensible member is separately mounted to the first block 109 and The rear of two blocks 110；Feeding electric motor units 104 and first group of interception parts 106 all electrically connect with central processing unit.As Further preferably, it also includes that structure intercepts second group of identical interception parts 107 of parts 106 and the 3rd group of interception with first group Parts 108；Second group of described interception parts 107 and the 3rd group of interception parts 108 all electrically connect with central processing unit；Described Second group interception parts 107 be arranged on first group intercept parts 106 rear；The 3rd group of described interception parts 108 are installed Intercept the rear of parts 107 at second group, often group intercepts the width more than a cross valve of the minimum spacing between parts.Described Extensible member be automatically controlled telescopic cylinder.

As preferably, described transfer device 2 include shifting frame 201, horizontal direction reciprocating member 202, landing slab 203, Vertical direction reciprocating member 204, contiguous block 205, cylinder 206,207, first group of transfer robot arm 208, second of connecting plate Group transfer robot arm 209 and material taking claw 2010；Described horizontal direction reciprocating member 202 is installed in frame 201, described company Connect block 205 to be installed on the movable block of horizontal direction reciprocating member 202；Described landing slab 203 is installed on contiguous block 205, Described vertical direction reciprocating member 204 is installed on landing slab 203, and described cylinder 206 is installed on landing slab 203, Described connecting plate 207 is installed on the cylinder body lower end of cylinder 206, and the piston rod of described cylinder 206 is through connecting plate 207 even It is connected to installing plate, described installing plate is provided with first group of transfer robot arm 208 and second group of transfer robot arm 209 side by side； The bottom of described transfer robot arm 208 is provided with the material taking claw 210 for capturing cross valve；Described horizontal direction is reciprocal Assembly 202, vertical direction reciprocating member 204,206, first group of transfer robot arm 208 of cylinder and second group of transfer robot arm 209 All electrically connect with central processing unit.

As preferably, described sealing mechanism 3 includes tool base plate 301, ECS sealing valve port assembly 302, ECS needle seal Pipe 303, two ends black box 304, ES pore seal down pressure assembly 305, ES pore sealed horizontal slide assemblies 306, ES pore black box 307 and D pipe location sealing assembly 308；Described ECS sealing valve port assembly 302, ECS seal Needle tubing 303, two ends black box 304, ES pore seal down pressure assembly 305, ES pore sealed horizontal slide assemblies 306, ES pore black box 307 and D pipe location sealing assembly 308 is mounted in tool base plate 301；Described ECS valve Mouth black box 302 is provided with three ECS and seals needle tubings 303；Described two ends black box 304 is a pair clamp arm；Institute The ES pore stated seals pressure assembly 305 down and includes two ES pore black boies 307；Described D pipe location sealing group Part 308 is for connecting with the right side valve port of cross valve；Described ECS sealing valve port assembly 302, two ends black box 304, ES pore seals to press down and is provided with the riding position for laying cross valve workpiece between assembly 305；Described ES pore is close Envelope pressure assembly 305 down is installed on ES pore sealed horizontal slide assemblies 306；Described ECS sealing valve port assembly 302, Two ends black box 304, ES pore seal pressure assembly 305, ES pore sealed horizontal slide assemblies 306 and D pipe down to be determined Position black box 308 all electrically connects with central processing unit.

As preferably, described cutting agency 404 includes frame the 401, the 3rd conveyer belt the 402, the 4th conveyer belt 403, blanking V-type deflector chute 404 and blanking electric machine assembly 405；The 3rd described conveyer belt 402 and the 4th conveyer belt 403 be mounted side by side in In frame 401；It is provided with interval between 3rd conveyer belt 402 and the 4th conveyer belt 403；Described blanking V-type deflector chute 404 It is installed at the interval of the 3rd conveyer belt 402 and the 4th conveyer belt 403；The width of the 3rd described conveyer belt 402 is more than the 4th The width of conveyer belt 403；The height in frame 401 of described blanking V-type deflector chute 404 is less than the 3rd conveyer belt 402 With the 4th conveyer belt 403；The 3rd described conveyer belt 402 and the 4th conveyer belt 403 are driven by blanking electric machine assembly 405；Institute Two sides of the blanking V-type deflector chute 404 stated are provided with some lower material rollers 406.

As preferably, described sorting mechanism 5 includes frame 501, horizontal reciprocating movement assembly 502, travelling carriage 503, vertically Move back and forth assembly 504, mechanical hand the 505, the 5th conveyer belt 506 and screening motor 507；Described horizontal reciprocating movement group Part 502 is installed in frame 501, and described travelling carriage 503 is installed on the slide block of horizontal reciprocating movement assembly 502, described The assembly 504 that vertically moves back and forth be installed on travelling carriage 503, described mechanical hand 505 is arranged on and vertically moves back and forth assembly The lower end of 504；The 5th described conveyer belt 506 is installed on the lower section of mechanical hand 505, and the 5th described conveyer belt 506 is by sieving Motor 507 is selected to drive；Described horizontal reciprocating movement assembly 502, vertical reciprocating motion assembly 504, mechanical hand 505 and sieve Motor 507 is selected all to electrically connect with central processing unit.

As preferably, described testing agency 6 includes valve island 601, and described valve island 601 is integrated with detection tabs 602, pressure Power table 603, pressure regulating equipment, filter, switching valve and effusion meter.

As preferably, described central processing unit is touched panel computer by Mitsubishi PLC controller and industry and combines.

After using said structure, this utility model has the advantages that creative will expect mechanism 1, turn of this utility model Moving mechanism 2, sealing mechanism 3, cutting agency 4, sorting mechanism 5, testing agency 6 and central processing unit integrate, often Individual unit is all fully achieved mechanical automation without assisting manually；By feed mechanism, product is delivered to feeding by last process Mouthful, transfer device automatically captures test specimen and puts into frock, sealing mechanism frock automatic-sealed, then automatically surveyed by testing agency Examination.As product is qualified, product is put into certified products line and is flowed into next procedure by cutting agency.As product is defective, sorting mechanism will Product puts into NG line.Wherein the connecting tube of sealing mechanism uses O-ring machinery tensioner mode to seal, and is that gap is joined during entrance valve body Close, without friction, it is not necessary to oil lubrication；Can ensure that 6000 service lifes.Sealing mechanism also can periodically carry out sealing self-inspection and can set For startup self-detection, it is possible to separated in time carries out self-inspection., after finding seal failure, alarm.Guarantee that nothing is close because of frock Seal the erroneous judgement of the former flase drop thus resulted in.After operation employee calls test product type, equipment adjusts air pressure high pressure, leakage two automatically Plant pressure；Automatically adjust detection supply voltage and mode meets testing requirement.Measuring air pressure, coil voltage whole process supervision, as Find that when test condition is unsatisfactory for, automatic alarm also points out trouble point conveniently to keep in repair.Pressure sensor calibration: detecting system Special configuration has high-precision pressure transducer, calibration of can the most periodically comparing.During calibration, carry out with each circuit pressure sensors Comparison calibration, as deviation is less, is then modified deviation according to comparison result；The relatively big then alarm maintenance of deviation.Equipment Force value during detection, electrical quantity etc..This item data can two-way intercommunication, can upload also can remote download product type and work Skill parameter, etc. plurality of advantages.

In sum, this utility model provides a kind of full automation, unattended, unmanned；Equipment is stable, measurement Accurately, reliability is high；It is suitable for the full-automatic cross valve internal hemorrhage due to trauma testboard of modern automation production model.

In the specific implementation, the equipment that mainly solves is unattended, automation issues for this utility model.For unattended, exploitation Automatic loading and unloading device substitutes manual operation.Improve sealing frock, increase equipment self-inspection and automatic calibration function, improve nothing The reliability of equipment and accuracy in the case of people is on duty.Function in terms of strengthening device informationization, replaces artificial statistics.Etc. technology Problem, wherein central processing unit uses Mitsubishi PLC+industry to touch panel computer is main control part.Controlled real by PLC Now commutation, Leak Detection, when test occurs defective item, system records bad product station automatically, treats that transferred product is extremely During discharge zone, automatically bad product is sorted.Touch computer, as alternating interface between man and computer, can carry out parameter setting, detection Process shows, detect data result collects statistics etc..PLC carries out communication with touch computer by R485, transmits data.Touch Touch computer and be configured to Inte1 atom Z510/Z530 low power consumption CPU (2W), onboard DDR2 1GB internal memory, Inte182574L 100Mbps network interface, configures 12.1 " TFT LCD, resolution 1024 × 768, precision resistor type touch screens.Computer with WinXP is operating system, works out with Labview or VB, and graphical interfaces is friendly.Upper computer software has parameter and arranges, mistake Process control, data record, arranges, stores, shows, the function such as report printing.Software has auto-alarm function, finds quilt When survey product is the most up to standard, send sound and light alarm.Software has equipment simulating service chart, can show each equipment on computers Running status and parameter, it is also possible to by the operation of software controlled device.Software also has equipment fault diagnosis function, to equipment Fault message proposes countermeasure, facilitates maintainer to operate.The mode in all data using data storehouses preserves, can be by multiple side The historical record that formula inquiry is conventional, all data showing and printing including conditional curve.Software can set between startup self-detection Phase every other week, self-inspection is qualified can be operated, as self-inspection is defective, then and alarm.Software can be for product bug alarm signal Number it is analyzed, equipment fault or preceding working procedure quality problems can be told, and can carry out according to the minimum alarm rate set Warning alert.The different detection functions of each test product are carried out collecting storage by software system self, form Product checking data Archives.Expanded function can promote logistics and supplies management, manufacture and assembling level；Realize tracing to the source management to product, reduces Management cost, raising production efficiency.Software section is worked out according to function and the user's request of hardware by those skilled in the art, Merely disclosing a kind of specific embodiment of this system, user can select software to operate system according to specifically used needs oneself herein Unite and write functional software.

Additionally testing agency is also configured with standard orifice plate, calibration of can the most periodically comparing.During calibration, guaranteeing stable gas pressure In the case of, with orifice plate, the test data of effusion meter are compared, as deviation is less, then according to comparison result, deviation is carried out Revise；The relatively big then alarm maintenance of deviation.The connection of testing agency's electric control system is referred in accompanying drawing 9 company provided Connect schematic diagram to carry out.

Being described this utility model and embodiment thereof above, this description does not has restricted, shown in accompanying drawing is yet One of embodiment of the present utility model, actual structure is not limited thereto.If the generally speaking ordinary skill people of this area Member is enlightened by it, in the case of creating objective without departing from this utility model, designs and this technical scheme phase without creative As frame mode and embodiment, protection domain of the present utility model all should be belonged to.

Claims (8)

1. a full-automatic cross valve internal hemorrhage due to trauma testboard, it is characterised in that: it includes feed mechanism (1), transfer device (2), sealing mechanism (3), cutting agency (4), sorting mechanism (5), testing agency (6) and central processing unit；Described feed mechanism (1) connects with transfer device (2)；Described transfer device (2) connects with sealing mechanism (3) and cutting agency (4) respectively；Described sorting mechanism (5) connects with cutting agency (4)；Described testing agency (6) connects with sealing mechanism (3)；Described feed mechanism (1), transfer device (2), sealing mechanism (3), cutting agency (4), sorting mechanism (5) and testing agency (6) all electrically connect with central processing unit.

Full-automatic cross valve internal hemorrhage due to trauma testboard the most according to claim 1, it is characterized in that: described feed mechanism (1) includes feed frame (101), feed frame (101) is provided with the first conveyer belt (102), the second conveyer belt (103), feeding electric motor units (104) and feeding V-type chute feeder (105)；Described the first conveyer belt (102) and the second conveyer belt (103) are mounted side by side and are provided with spacing between the two, described the first conveyer belt (102) and the second conveyer belt (103) are driven by feeding electric motor units (104), and described feeding V-type chute feeder (105) is installed between the first conveyer belt (102) and the second conveyer belt (103)；Two sidewalls of described feeding V-type chute feeder (105) are provided with multiple roller；Described the first conveyer belt (102) and the conveying end of the second conveyer belt (103) are separately installed with the first block (109) and the second block (110)；It is also equipped with first group on described feed frame (101) and intercepts parts (106), first group of described interception parts (106) includes a pair extensible member and a pair detection probe, described detection probe is separately mounted on extensible member, and a pair described extensible member is separately mounted to the first block (109) and the rear of the second block (110)；Feeding electric motor units (104) and first group of interception parts (106) all electrically connect with central processing unit.

Full-automatic cross valve internal hemorrhage due to trauma testboard the most according to claim 1, it is characterised in that: described transfer device (2) includes shifting frame (201), horizontal direction reciprocating member (202), landing slab (203), vertical direction reciprocating member (204), contiguous block (205), cylinder (206), connecting plate (207), first group of transfer robot arm (208), second group of transfer robot arm (209) and material taking claw (210)；Described horizontal direction reciprocating member (202) is installed in transfer frame (201), and described contiguous block (205) is installed on the movable block of horizontal direction reciprocating member (202)；Described landing slab (203) is installed on contiguous block (205), described vertical direction reciprocating member (204) is installed on landing slab (203), described cylinder (206) is installed on landing slab (203), described connecting plate (207) is installed on the cylinder body lower end of cylinder (206), the piston rod of described cylinder (206) connects through connecting plate (207) installing plate, and described installing plate is provided with first group of transfer robot arm (208) and second group of transfer robot arm (209) side by side；The bottom of described transfer robot arm (208) is provided with the material taking claw (210) for capturing cross valve；Described horizontal direction reciprocating member (202), vertical direction reciprocating member (204), cylinder (206), first group of transfer robot arm (208) and second group of transfer robot arm (209) all electrically connect with central processing unit.

Full-automatic cross valve internal hemorrhage due to trauma testboard the most according to claim 1, it is characterised in that: described sealing mechanism (3) includes that tool base plate (301), ECS sealing valve port assembly (302), ECS sealing needle tubing (303), two ends black box (304), ES pore press assembly (305), ES pore sealed horizontal slide assemblies (306), ES pore black box (307) and D pipe location sealing assembly (308) under sealing；Described ECS sealing valve port assembly (302), ECS seals and presses assembly (305), ES pore sealed horizontal slide assemblies (306), ES pore black box (307) and D pipe location sealing assembly (308) to be mounted in tool base plate (301) under needle tubing (303), two ends black box (304), the sealing of ES pore；Described ECS sealing valve port assembly (302) is provided with three ECS and seals needle tubing (303)；Described two ends black box (304) is a pair clamp arm；Described ES pore presses assembly (305) to include two ES pore black box (307) under sealing；Described D pipe location sealing assembly (308) is for connecting with the right side valve port of cross valve；Described ECS sealing valve port assembly (302), two ends black box (304), ES pore seal to press down and are provided with the riding position for laying cross valve workpiece between assembly (305)；Described ES pore presses assembly (305) to be installed on ES pore sealed horizontal slide assemblies (306) under sealing；Described ECS sealing valve port assembly (302), two ends black box (304), ES pore press assembly (305), ES pore sealed horizontal slide assemblies (306) and D pipe location sealing assembly (308) all to electrically connect with central processing unit under sealing.

Full-automatic cross valve internal hemorrhage due to trauma testboard the most according to claim 1, it is characterised in that: described cutting agency (4) includes blanking frame (401), the 3rd conveyer belt (402), the 4th conveyer belt (403), blanking V-type deflector chute (404) and blanking electric machine assembly (405)；The 3rd described conveyer belt (402) and the 4th conveyer belt (403) are mounted side by side in blanking frame (401)；It is provided with interval between 3rd conveyer belt (402) and the 4th conveyer belt (403)；Described blanking V-type deflector chute (404) is installed at the interval of the 3rd conveyer belt (402) and the 4th conveyer belt (403)；The width of the 3rd described conveyer belt (402) is more than the width of the 4th conveyer belt (403)；The height in blanking frame (401) of described blanking V-type deflector chute (404) is less than the 3rd conveyer belt (402) and the 4th conveyer belt (403)；The 3rd described conveyer belt (402) and the 4th conveyer belt (403) are driven by blanking electric machine assembly (405)；Two sides of described blanking V-type deflector chute (404) are provided with some lower material rollers (406).

Full-automatic cross valve internal hemorrhage due to trauma testboard the most according to claim 1, it is characterised in that: described sorting mechanism (5) include screen frame (501), horizontal reciprocating movement assembly (502), travelling carriage (503), vertically move back and forth assembly (504), mechanical hand (505), the 5th conveyer belt (506) and screen motor (507)；Described horizontal reciprocating movement assembly (502) is installed in screening frame (501), described travelling carriage (503) is installed on the slide block of horizontal reciprocating movement assembly (502), the described assembly (504) that vertically moves back and forth is installed on travelling carriage (503), and described mechanical hand (505) is arranged on the lower end vertically moving back and forth assembly (504)；The 5th described conveyer belt (506) is installed on the lower section of mechanical hand (505), and the 5th described conveyer belt (506) is driven by screening motor (507)；Described horizontal reciprocating movement assembly (502), vertically move back and forth assembly (504), mechanical hand (505) and screening motor (507) and all electrically connect with central processing unit.

Full-automatic cross valve internal hemorrhage due to trauma testboard the most according to claim 1, it is characterized in that: described testing agency (6) includes valve island (601), described valve island (601) being integrated with detection tabs (602), Pressure gauge (603), pressure regulating equipment, filter, switching valve and effusion meter.

Full-automatic cross valve internal hemorrhage due to trauma testboard the most according to claim 1, it is characterised in that: described central processing unit is touched panel computer by Mitsubishi PLC controller and industry and combines.