CN211904579U - Empty can leakage tester convenient to measurement station and clamping station conversion - Google Patents

Abstract

The utility model relates to an empty can leakage tester convenient to measurement station and clamping station conversion, including test lifting unit, test water tank, back pressure disk subassembly, frame, test manometer, change a jar handle, lift control valve, panel and anchor clamps support, test lifting unit installs on a side body wall of test water tank, back pressure disk unit mount is inside the test water tank, is close to back pressure disk subassembly test water tank internally mounted has preceding pressure disk subassembly, the frame supports in the bottom of test water tank, is close to the test manometer install the test air-vent valve on a side body wall of test lifting unit. The utility model discloses a be provided with anchor clamps support vertical lift mechanism, through a pair of linear bearing and optical axis combination sliding system, promote anchor clamps support vertical lift through the cylinder effect, the cylinder pole adopts the swing joint with anchor clamps leg joint, avoids can avoiding installing centering or slight slope to arouse that the cylinder axle removes smoothly in the same direction as.

Description

Empty can leakage tester convenient to measurement station and clamping station conversion

Technical Field

The utility model relates to a relevant equipment field of empty can leakage tester especially relates to an empty can leakage tester convenient to measure station and clamping station conversion.

Background

In the process of technological progress, a lot of things are changing, and when people pack articles in the past, only paper package, wooden package and iron package are adopted, and the manual preparation does not have strict leakproofness, and many articles need vacuum package now, therefore require very strict to the empty can of packing usefulness, need carry out the test leak inspection to it before using, generally adopt the leak tester to detect.

The existing empty can leakage tester is inconvenient to use and operate, and for the empty can clamped, the detection is in a fixed form, the operator cannot carefully check whether the empty can leaks, the measuring station and the clamping station of the existing empty can leakage tester are inconvenient to convert, and the existing empty can leakage tester convenient to convert between the measuring station and the clamping station has the defects, so that the existing empty can leakage tester is necessary to be improved, the device is perfected, and greater convenience is provided for workers.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an empty can leakage tester convenient to measure station and clamping station conversion to solve the current empty can leakage tester that proposes in the above-mentioned background art when using the operation, and inconvenient, to the empty can after the clamp closes moreover, detect and be fixed form, can not careful make things convenient for the operator to inspect whether leak, the problem of the conversion of being not convenient for of measurement station and the clamping station of current empty can leakage tester moreover.

In order to realize the above purpose, the utility model discloses a technical scheme be: an empty can leakage tester convenient for switching a measuring station and a clamping station comprises a testing lifting component (1), a testing water tank (2), a rear pressure plate component (3), a frame (5), a testing pressure gauge (6), a can-rotating handle (8), a lifting control valve (10), a panel (12) and a clamp bracket (50), wherein the testing lifting component (1) is arranged on one side wall of the testing water tank (2),

the rear pressure plate assembly (3) is installed inside the test water tank (2), the front pressure assembly (4) is installed inside the test water tank (2) close to the rear pressure plate assembly (3), the rack (5) is supported at the bottom of the test water tank (2), the test pressure gauge (6) is fixed on one side body wall of the test lifting assembly (1), and a test pressure regulating valve (7) is installed on one side body wall of the test lifting assembly (1) close to the test pressure gauge (6);

install on test water tank (2) one side body wall change tank handle (8), keep away from test lifting unit (1) install stop button (9) on test water tank (2) one side body wall, lift control valve (10) are fixed in test water tank (2) one side, are close to lift control valve (10) gas accuse subassembly (11) is installed to test water tank (2) bottom, panel (12) are inlayed in test water tank (2) one side, keep away from stop button (9) install two start-up test button (13) on test water tank (2) one side body wall, anchor clamps support (50) are connected between back pressure disk subassembly (3) and preceding pressure subassembly (4), are close to back pressure disk subassembly (3) and preceding pressure subassembly (4) install organic glass cover (51) on anchor clamps support (50) one side body wall.

Further, the test lifting assembly (1) comprises a bearing fixing plate (35), a meter frame (36), a fixing screw (37), an optical axis gasket (38), a supporting plate (39), a connecting sleeve (40), a cylinder connecting shaft (41), a guide optical axis (42), a linear bearing seat (43), a test pressurizing mechanical valve (44), a valve support (45), a lifting cylinder (46), a lifting plate (47), a first hanging plate (48) and a second hanging plate (49), wherein the bearing fixing plate (35) is fixed on one side wall of the test water tank (2), the meter frame (36) is installed on one side of the bearing fixing plate (35) and the supporting plate (39) is clamped between the bearing fixing plate and the bearing fixing plate, the fixing screw (37) penetrates between the walls of the supporting plate (39), the optical axis gasket (38) is installed on one side of the supporting plate (39) close to the fixing screw (37), and the connecting sleeve (40) is installed at the bottom of the supporting, be close to layer board (39) install cylinder connecting axle (41) on adapter sleeve (40) a side wall, direction optical axis (42) are fixed in layer board (39) bottom surface, keep away from layer board (39) direction optical axis (42) outside parcel has straight line bearing frame (43), keeps away from straight line bearing frame (43) direction optical axis (42) one end is secretly installed test pressurization machinery valve (44), test pressurization machinery valve (44) a side-mounting has valve support (45), lift cylinder (46) are connected in cylinder connecting axle (41) one end, are close to bearing fixing plate (35) layer board (39) one end is connected with lifting plate (47), lifting plate (47) one side is connected with first link plate (48) and second link plate (49).

Further, the rear pressure plate assembly (3) comprises a clamping cylinder (14), a rear clamping plate (15), a rear pressure plate (16), an adjustable screw (17), a rear pressure plate fixing shaft (22), a fixing shaft pad (23), a push-off ball bearing (24), a deep groove ball bearing (25), a bearing gasket (26), a sealing plate (27) and a strong magnetic sheet (33), the clamping cylinder (14) is fixed inside the test water tank (2), the rear clamping plate (15) is fixed on one side of the clamping cylinder (14), the rear pressure plate (16) is installed on one side of the rear clamping plate (15) far away from the clamping cylinder (14), the adjustable screw (17) is connected on one side of the rear pressure plate (16), the rear pressure plate (22) is connected between the rear clamping plate (15) and the rear pressure plate (16), the fixing shaft pad (23) is installed on one side of the rear pressure plate (16) close to the rear clamping plate (15), fixed bearing pad dish (23) and back pressure disk (16) between the clamping have push away from ball bearing (24), deep groove ball bearing (25) are installed inside back pressure disk (16) and are wrapped up in the back pressure disk fixed axle (22) one end outside, bearing pad (26) are fixed in deep groove ball bearing (25) one side, are close to deep groove ball bearing (25) install shrouding (27) on back pressure disk (16) a side wall, strong magnet piece (33) are filled between back pressure disk (16) and shrouding (27).

Further, preceding pressure subassembly (4) is including sealed cushion (18), preceding pressure disk (19), preceding splint (20), screw rod cover (21), O type sealing washer (28), bearing spacer sleeve (29), backing ring (30), lock nut (31), fixed axle (32) and test air connector (34), is close to back pressure disk (16) test water tank (2) internally mounted has preceding pressure disk (19), inside one side of preceding pressure disk (19) is fixed with sealed cushion (18), keeps away from sealed cushion (18) preceding pressure disk (19) one side is installed preceding splint (20), screw rod cover (21) is connected in preceding pressure disk (20) one side, inside pressure disk (19) was inlayed in preceding pressure disk (28) O type sealing washer (28) be close to O type sealing washer (28) preceding pressure disk (19) one side is installed again and is pushed away from ball bearing (24) and is kept away from preceding pressure disk (19) push away ball bearing (24) one side and is installed deep groove (25) The deep groove ball bearing structure is characterized in that the bearing spacer sleeve (29) is wrapped between the deep groove ball bearings (25), a backing ring (30) is installed on one side of each deep groove ball bearing (25) close to the bearing spacer sleeve (29), and a locking nut (31) is inserted into one side of each backing ring (30).

Further, the guide optical axis (42) and the linear bearing seat (43) are arranged in a group structure, the group structure is provided with two groups, and one group is connected with the test pressurizing mechanical valve (44) and the valve bracket (45).

Furthermore, the guide optical axis (42) and the test pressurizing mechanical valve (44) are movably connected, and the test pressurizing mechanical valve (44) and the valve support (45) are of an integrated structure.

Furthermore, six clamping cylinders (14) are arranged, the number of the clamping cylinders (14) is the same as that of the rear pressing plates (16), and the central axis of each clamping cylinder (14) and the circle center of each rear pressing plate (16) are located on the same straight line.

Furthermore, the rear pressure plate (16) is circular, and the strong magnets (33) are respectively distributed in the rear pressure plate (16) in an equidistance surrounding mode by taking the circle center of the rear pressure plate (16) as the middle point.

Furthermore, the number of the test air-vent joints (34) is 6, and the set number of the test air-vent joints (34) is directed to the set number of the front pressure plate (19).

Furthermore, the rear pressure plate (16) and the front pressure plate (19) are in the same shape, and the circle center of the rear pressure plate (16) and the circle center of the front pressure plate (19) are on the same straight line.

The utility model has the advantages that:

1. the clamp support vertical lifting mechanism is arranged, the clamp support is pushed to vertically lift through the action of the air cylinder through the pair of linear bearings and the optical axis combined sliding system, the air cylinder rod is movably connected with the clamp support, and the phenomenon that the air cylinder shaft is not smoothly moved due to the fact that the clamp support is not centered or slightly inclined can be avoided.

2. The vertical lifting mechanism of the clamp support is arranged, and the clamp can swing in the water tank to realize the conversion between the measuring station and the clamping station through the rotary swing of the support hinge point.

3. Be provided with anchor clamps back pressure disk equipartition and place strong magnetic sheet, install the stainless steel shrouding again after placing strong magnetic sheet, the shrouding outside car a circle of positioning mark line can make the iron sample jar that awaits measuring inhale on the pressure disk of back, and the positioning mark line is put and is observed the location when just putting the jar and be used to the well, and strong magnetic sheet surface is installed stainless steel closing plate again and is prevented to bump strong magnetic sheet when long-term inhaling the jar, and exposes impurity such as iron fillings that easily inhales of strong magnetic sheet.

4. The device is provided with a front pressure plate and a rear pressure plate which are respectively provided with a thrust ball bearing and a deep groove ball bearing, so that the sample tank can rotate to better observe the air leakage condition of the sample tank in the circumferential direction under the clamping of the air cylinder. Under the pressurized state of aerifing, can 360 degrees rotate the sample jar, the tank deck, the tank bottoms, the welding seam is easily observed to the side of the can body, through the back mode of ventilating, can install rotary joint at the pivot rear end and ventilate, and 360 degrees rotatory tracheas of sample also can not knot.

5. Be provided with back pressure disk installation slice rubber packing, can be fit for the sealed pressurization of multiple diameter sample.

6. The air channel interlocking control is adopted, when the clamp support vertical lifting mechanism descends to a test station, the ejector block presses down the pressing-open valve to control the air valve to open and automatically pressurize and test the clamp support in the tank. Meanwhile, the pneumatic bypass is led to the clamp pneumatic control valve, so that the clamping cylinder can be prevented from being loosened by misoperation.

7. The pressure of the clamping cylinder can be adjusted through the independent pressure reducing valve, so that the clamping force of samples with different diameters can be adjusted.

8. Be provided with different appearance jar height and be fit for accessible quick adjustment rear beam set nut position and solve, the device is pure pneumatic control moreover, safe and reliable, no electric shock risk.

9. The leakage tester for the empty tank can be designed to be single-station, double-station or multi-station, and can measure 1, 2 or more sample tanks at a time.

10. The clamp bracket is provided with the organic glass cover which can be opened or closed, and the clamp bracket is rotated to be closed during testing to achieve safety protection, so that the operation is safer and more reliable.

Drawings

Fig. 1 is a schematic structural diagram of an empty can leakage tester facilitating conversion between a measuring station and a clamping station.

Fig. 2 is a schematic view of a clamp bracket structure of an empty can leakage tester convenient for switching between a measuring station and a clamping station.

Fig. 3 is a schematic structural diagram of a rear pressure plate assembly and a front pressure plate assembly of the empty can leakage tester facilitating conversion between a measuring station and a clamping station.

Fig. 4 is an enlarged structural schematic diagram of a part a of an empty can leakage tester facilitating conversion between a measuring station and a clamping station.

Fig. 5 is an enlarged structural schematic diagram of a part B of an empty can leakage tester facilitating conversion between a measuring station and a clamping station.

Fig. 6 is a schematic structural view of a test lifting assembly of an empty can leakage tester convenient for switching between a measuring station and a clamping station.

The text labels shown in the figures are represented as: 1. the test lifting assembly, 2, a test water tank, 3, a rear pressure plate assembly, 4, a front pressure assembly, 5, a frame, 6, a test pressure gauge, 7, a test pressure regulating valve, 8, a rotary tank handle, 9, a stop button, 10, a lifting control valve, 11, an air control assembly, 12, a panel, 13, a double-start test button, 14, a clamping cylinder, 15, a rear clamping plate, 16, a rear pressure plate, 17, an adjustable screw rod, 18, a sealing rubber gasket, 19, a front pressure plate, 20, a front clamping plate, 21, a screw rod sleeve, 22, a rear pressure plate fixing shaft, 23, a fixing shaft pad, 24, a push-off ball bearing, 25, a deep groove ball bearing, 26, a bearing gasket, 27, a sealing plate, 28, an O-shaped sealing ring, 29, a bearing spacer sleeve, 30, a backing ring, 31, a locking nut, 32, a fixing shaft, 33, a strong magnetic sheet, 34, a test ventilation joint, 35, a bearing fixing plate, The device comprises a fixing screw 38, an optical axis gasket 39, a supporting plate 40, a connecting sleeve 41, a cylinder connecting shaft 42, a guide optical axis 43, a linear bearing seat 44, a test pressurizing mechanical valve 45, a valve support 46, a lifting cylinder 47, a lifting plate 48, a first hanging plate 49, a second hanging plate 50, a clamp support 51 and an organic glass cover.

Detailed Description

In order to make the technical solution of the present invention better understood, the present invention is described in detail below with reference to the accompanying drawings, and the description of the present invention is only exemplary and explanatory, and should not be construed as limiting the scope of the present invention.

As shown in fig. 1-6, the specific structure of the present invention is: an empty can leakage tester convenient for conversion between a measuring station and a clamping station comprises a testing lifting component 1, a testing water tank 2, a rear pressure plate component 3, a front pressure component 4, a frame 5, a testing pressure gauge 6, a testing pressure regulating valve 7, a rotary can handle 8, a stop button 9, a lifting control valve 10, a pneumatic control component 11, a panel 12, a double-start testing button 13, a clamp bracket 50 and an organic glass cover 51, wherein the testing lifting component 1 is arranged on one side wall of the testing water tank 2,

the rear pressure plate assembly 3 is installed inside the test water tank 2, the front pressure assembly 4 is installed inside the test water tank 2 close to the rear pressure plate assembly 3, the rack 5 is supported at the bottom of the test water tank 2, the test pressure gauge 6 is fixed on one side wall of the test lifting assembly 1, and the test pressure regulating valve 7 is installed on one side wall of the test lifting assembly 1 close to the test pressure gauge 6;

change jar handle 8 and install on 2 side walls of test water tank, keep away from test lifting unit 1 install stop button 9 on 2 side walls of test water tank, lift control valve 10 is fixed in 2 one sides of test water tank, is close to lift control valve 10 gas accuse subassembly 11 is installed to 2 bottoms of test water tank, panel 12 inlays in 2 one sides of test water tank, keeps away from stop button 9 install two start-up test button 13 on 2 side walls of test water tank, anchor clamps support 50 is connected and is pressed between subassembly 4 after pressure disk subassembly 3 and preceding pressure disk subassembly, is close to after pressure disk subassembly 3 and preceding pressure subassembly 4 install organic glass cover 51 on the wall of 50 one side walls of anchor clamps support.

Preferably, the test lifting assembly 1 comprises a bearing fixing plate 35, a meter frame 36, a fixing screw 37, an optical axis gasket 38, a supporting plate 39, a connecting sleeve 40, a cylinder connecting shaft 41, a guide optical axis 42, a linear bearing seat 43, a test pressurizing mechanical valve 44, a valve bracket 45, a lifting cylinder 46, a lifting plate 47, a first hanging plate 48 and a second hanging plate 49, wherein the bearing fixing plate 35 is fixed on one side wall of the test water tank 2, the meter frame 36 is installed on one side of the bearing fixing plate 35 and the supporting plate 39 is clamped between the two, the fixing screw 37 is inserted between the walls of the supporting plate 39 and the optical axis gasket 38 is installed on one side of the supporting plate 39 close to the fixing screw 37, the connecting sleeve 40 is installed at the bottom of the supporting plate 39, the cylinder connecting shaft 41 is installed on one side wall of the connecting sleeve 40 close to the supporting plate 39, the guide optical axis 42 is fixed on the bottom surface of the supporting plate, keep away from linear bearing seat 43 guide optical axis 42 one end is secretly installed test pressurization machinery valve 44, test pressurization machinery valve 44 one side is installed valve bracket 45, lift cylinder 46 is connected in cylinder connecting axle 41 one end, is close to bearing fixing plate 35 layer 39 one end is connected with lifting plate 47, lifting plate 47 one side is connected with first link plate 48 and second link plate 49.

Preferably, the rear pressure plate assembly 3 comprises a clamping cylinder 14, a rear clamping plate 15, a rear pressure plate 16, an adjustable screw 17, a rear pressure plate fixing shaft 22, a fixing shaft pad 23, a push-off ball bearing 24, a deep groove ball bearing 25, a bearing gasket 26, a sealing plate 27 and a strong magnetic sheet 33, the clamping cylinder 14 is fixed inside the test water tank 2, the rear clamping plate 15 is fixed on one side of the clamping cylinder 14, the rear clamping plate 15 far away from the clamping cylinder 14 is provided with the rear pressure plate 16 on one side, the adjustable screw 17 is connected on one side of the rear pressure plate 16, the rear pressure plate fixing shaft 22 is connected between the rear clamping plate 15 and the rear pressure plate 16, the fixing shaft pad 23 is arranged on one side wall of the rear pressure plate 16 close to the rear clamping plate 15, the push-off ball bearing 24 is clamped between the fixing shaft pad 23 and the rear pressure plate 16, the deep groove ball bearing 25 is arranged inside, the bearing gasket 26 is fixed on one side of the deep groove ball bearing 25, a closing plate 27 is installed on one side wall of the rear pressing plate 16 close to the deep groove ball bearing 25, and the strong magnetic sheet 33 is filled between the rear pressing plate 16 and the closing plate 27.

Preferably, the front pressing component 4 comprises a sealing rubber gasket 18, a front pressing plate 19, a front clamping plate 20, a screw sleeve 21, an O-shaped sealing ring 28, a bearing spacer sleeve 29, a backing ring 30, a locking nut 31, a fixing shaft 32 and a testing air joint 34, the testing water tank 2 internally mounted close to the rear pressing plate 16 is provided with the front pressing plate 19, one side of the inside of the front pressing plate 19 is fixed with the sealing rubber gasket 18, the front clamping plate 20 is mounted on one side of the front pressing plate 19 far away from the sealing rubber gasket 18, the screw sleeve 21 is connected with one side of the front clamping plate 20, the O-shaped sealing ring 28 is embedded in the front pressing plate 19, one side of the front pressing plate 19 close to the O-shaped sealing ring 28 is also provided with a push-off ball bearing 24 and a deep groove ball bearing 25 is mounted on one side of the push-off ball bearing 24 far away from the front pressing plate 19, the bearing spacer sleeve 29 is wrapped between the deep groove ball bearings 25, a lock nut 31 is inserted through one side of the backing ring 30.

Preferably, the guiding optical axis 42 and the linear bearing seat 43 are arranged in a set structure, and the set structure is provided with two sets, and one set is connected with the test pressurizing mechanical valve 44 and the valve bracket 45.

Preferably, the guiding optical axis 42 and the test pressurizing mechanical valve 44 form a movable connection, and the test pressurizing mechanical valve 44 and the valve support 45 are of an integral structure.

Preferably, the number of the clamping cylinders 14 is six, the number of the clamping cylinders 14 is the same as that of the rear platen 16, and the central axis of the clamping cylinder 14 is on the same straight line with the center of the rear platen 16.

Preferably, the rear platen 16 is circular, and the strong magnets 33 are respectively distributed around the rear platen 16 with the center of circle of the rear platen 16 as the middle point at equal intervals.

Preferably, there are 6 test air-vent connectors 34, and the number of test air-vent connectors 34 is set to the number of front platen 19.

Preferably, the rear platen 16 and the front platen 19 are of the same shape, and the center of the rear platen 16 and the center of the front platen 19 are on the same straight line.

When the device is used specifically, firstly, an empty tank to be detected is placed inside the test water tank 2 and placed between the rear pressure plate assembly 3 and the front pressure plate assembly 4, then the organic glass cover 51 is closed, because the strong magnetic sheets 33 are distributed inside the rear pressure plate 16 of the rear pressure plate assembly 3, and the sealing plate 27 is also arranged on one side of the strong magnetic sheets 33, so that the empty tank is adsorbed on one side of the rear pressure plate 16, at the moment, the clamping cylinder 14 is started to drive the rear pressure plate assembly 3 and the front pressure plate assembly 4 to clamp the empty tank under the connection of the clamp bracket 50, and the test lifting assembly 1 is started to drive the clamp bracket 50 to adjust up and down, so as to solve the problem caused by the installation inclination of the empty tank, and the clamp bracket 50 can realize the swinging of the clamp in the test water tank 2 through the self bracket hinge point rotary swinging to realize the conversion between the, after the push away ball bearing 24 and deep groove ball bearing 25 are pressed from both sides tightly at the empty can, the pressure disk is rotatory around can driving for the empty can is at test water tank 2 internal rotation, whether in order to 360 detailed observation gas leakage, and the inside sealed pad that is provided with of pressure disk around, can be fit for the sealed pressurization of multiple diameter sample, pressure disk assembly all is provided with corresponding test air-vent joint 34 around every empty can and controls atmospheric pressure through test manometer 6 and test air-vent valve 7, so that adapt to different diameter sample clamp force size and adjust, this is exactly the device's work flow.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

The principles and embodiments of the present invention have been explained herein using specific examples, which are presented only to assist in understanding the methods and their core concepts. The foregoing is only a preferred embodiment of the present invention, and it should be noted that there are objectively infinite specific structures due to the limited character expressions, and it will be apparent to those skilled in the art that a plurality of modifications, decorations or changes can be made without departing from the principle of the present invention, and the above technical features can be combined in a proper manner; the application of these modifications, variations or combinations, or the application of the concepts and solutions of the present invention in other contexts without modification, is not intended to be considered as a limitation of the present invention.

Claims (10)

1. The utility model provides an empty can leakage tester convenient to measurement station and clamping station conversion, includes test lifting unit (1), test water tank (2), back pressure disk subassembly (3), frame (5), test manometer (6), change jar handle (8), lift control valve (10), panel (12) and anchor clamps support (50), its characterized in that: the test lifting component (1) is arranged on one side wall of the test water tank (2), wherein,

the rear pressure plate assembly (3) is installed inside the test water tank (2), the front pressure assembly (4) is installed inside the test water tank (2) close to the rear pressure plate assembly (3), the rack (5) is supported at the bottom of the test water tank (2), the test pressure gauge (6) is fixed on one side body wall of the test lifting assembly (1), and a test pressure regulating valve (7) is installed on one side body wall of the test lifting assembly (1) close to the test pressure gauge (6);

install on test water tank (2) one side body wall change tank handle (8), keep away from test lifting unit (1) install stop button (9) on test water tank (2) one side body wall, lift control valve (10) are fixed in test water tank (2) one side, are close to lift control valve (10) gas accuse subassembly (11) is installed to test water tank (2) bottom, panel (12) are inlayed in test water tank (2) one side, keep away from stop button (9) install two start-up test button (13) on test water tank (2) one side body wall, anchor clamps support (50) are connected between back pressure disk subassembly (3) and preceding pressure subassembly (4), are close to back pressure disk subassembly (3) and preceding pressure subassembly (4) install organic glass cover (51) on anchor clamps support (50) one side body wall.

2. The empty can leakage tester convenient for switching between a measuring station and a clamping station as claimed in claim 1, which is characterized in that: the test lifting assembly (1) comprises a bearing fixing plate (35), a meter frame (36), a fixing screw (37), an optical axis gasket (38), a supporting plate (39), a connecting sleeve (40), a cylinder connecting shaft (41), a guide optical axis (42), a linear bearing seat (43), a test pressurizing mechanical valve (44), a valve support (45), a lifting cylinder (46), a lifting plate (47), a first hanging plate (48) and a second hanging plate (49), wherein the bearing fixing plate (35) is fixed on one side wall of the test water tank (2), the meter frame (36) is installed on one side of the bearing fixing plate (35) and the supporting plate (39) is clamped between the bearing fixing plate (35) and the second hanging plate (49), the fixing screw (37) penetrates between the walls of the supporting plate (39), the optical axis gasket (38) is installed on one side of the supporting plate (39) close to the fixing screw (37), and the connecting sleeve (40) is, be close to layer board (39) install cylinder connecting axle (41) on adapter sleeve (40) a side wall, direction optical axis (42) are fixed in layer board (39) bottom surface, keep away from layer board (39) direction optical axis (42) outside parcel has straight line bearing frame (43), keeps away from straight line bearing frame (43) direction optical axis (42) one end is secretly installed test pressurization machinery valve (44), test pressurization machinery valve (44) a side-mounting has valve support (45), lift cylinder (46) are connected in cylinder connecting axle (41) one end, are close to bearing fixing plate (35) layer board (39) one end is connected with lifting plate (47), lifting plate (47) one side is connected with first link plate (48) and second link plate (49).

3. The empty can leakage tester convenient for switching between a measuring station and a clamping station as claimed in claim 1, which is characterized in that: the rear pressure plate component (3) comprises a clamping cylinder (14), a rear clamping plate (15), a rear pressure plate (16), an adjustable screw rod (17), a rear pressure plate fixing shaft (22), a fixing shaft pad (23), a pushing ball bearing (24), a deep groove ball bearing (25), a bearing gasket (26), a sealing plate (27) and a strong magnetic sheet (33), wherein the clamping cylinder (14) is fixed inside the test water tank (2), the rear clamping plate (15) is fixed on one side of the clamping cylinder (14), the rear pressure plate (16) is installed on one side of the rear clamping plate (15) far away from the clamping cylinder (14), the adjustable screw rod (17) is connected on one side of the rear pressure plate (16), the rear pressure plate fixing shaft (22) is connected between the rear clamping plate (15) and the rear pressure plate (16), the fixing shaft pad (23) is installed on the wall of one side of the rear pressure plate (16) close to, fixed bearing pad dish (23) and back pressure disk (16) between the clamping have push away from ball bearing (24), deep groove ball bearing (25) are installed inside back pressure disk (16) and are wrapped up in the back pressure disk fixed axle (22) one end outside, bearing pad (26) are fixed in deep groove ball bearing (25) one side, are close to deep groove ball bearing (25) install shrouding (27) on back pressure disk (16) a side wall, strong magnet piece (33) are filled between back pressure disk (16) and shrouding (27).

4. The empty can leakage tester convenient for switching between a measuring station and a clamping station as claimed in claim 1, which is characterized in that: the front pressure component (4) comprises a sealing rubber gasket (18), a front pressure plate (19), a front clamping plate (20), a screw sleeve (21), an O-shaped sealing ring (28), a bearing spacer sleeve (29), a backing ring (30), a locking nut (31), a fixing shaft (32) and a testing ventilation joint (34), the testing water tank (2) close to the rear pressure plate (16) is internally provided with the front pressure plate (19), one side of the inside of the front pressure plate (19) is fixed with the sealing rubber gasket (18), one side of the front pressure plate (19) far away from the sealing rubber gasket (18) is provided with the front clamping plate (20), the screw sleeve (21) is connected to one side of the front clamping plate (20), the O-shaped sealing ring (28) is embedded inside the front pressure plate (19), one side of the front pressure plate (19) close to the O-shaped sealing ring (28) is also provided with a push-off ball bearing (24) and one side of the push-off ball bearing (24) far away from the front pressure, the bearing spacer sleeve (29) is wrapped between the deep groove ball bearings (25), a backing ring (30) is installed on one side of each deep groove ball bearing (25) close to the bearing spacer sleeve (29), and a locking nut (31) is inserted into one side of each backing ring (30).

5. The empty can leakage tester convenient for switching between a measuring station and a clamping station as claimed in claim 2, characterized in that: the guide optical axis (42) and the linear bearing seat (43) are arranged into a group of structures, the group of structures are provided with two groups, and one group of structures is connected with the test pressurizing mechanical valve (44) and the valve bracket (45).

6. The empty can leakage tester convenient for switching between a measuring station and a clamping station as claimed in claim 2, characterized in that: the guide optical axis (42) and the test pressurizing mechanical valve (44) are movably connected, and the test pressurizing mechanical valve (44) and the valve support (45) are of an integrated structure.

7. The empty can leakage tester convenient for switching between a measuring station and a clamping station as claimed in claim 3, characterized in that: six clamping cylinders (14) are arranged, the number of the clamping cylinders (14) is the same as that of the rear pressing plates (16), and the central axis of each clamping cylinder (14) and the circle center of each rear pressing plate (16) are on the same straight line.

8. The empty can leakage tester convenient for switching between a measuring station and a clamping station as claimed in claim 3, characterized in that: the rear pressure plate (16) is circular, and the strong magnetic sheets (33) are respectively distributed in the rear pressure plate (16) in an encircling manner with the circle center of the rear pressure plate (16) as a middle point at equal intervals.

9. The empty can leakage tester convenient for switching between a measuring station and a clamping station as claimed in claim 4, characterized in that: the number of the test air-vent joints (34) is 6, and the set number of the test air-vent joints (34) is directed to the set number of the front pressing plate (19).

10. The empty can leakage tester convenient for switching between a measuring station and a clamping station as claimed in claim 4, characterized in that: the rear pressure plate (16) and the front pressure plate (19) are in the same shape, and the circle center of the rear pressure plate (16) and the circle center of the front pressure plate (19) are on the same straight line.

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