CN214998148U - Ultrapure water circulating pump automatic testing device - Google Patents
Ultrapure water circulating pump automatic testing device Download PDFInfo
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- CN214998148U CN214998148U CN202120436244.XU CN202120436244U CN214998148U CN 214998148 U CN214998148 U CN 214998148U CN 202120436244 U CN202120436244 U CN 202120436244U CN 214998148 U CN214998148 U CN 214998148U
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Abstract
An automatic testing device for an ultrapure water circulating pump comprises a rack and a bottom plate fixed on the rack. The bottom plate is provided with a circulating pump conveying mechanism, a testing mechanism and a secondary purging mechanism; the testing mechanism comprises a testing component and a primary purging component, the testing component comprises a testing plate fixed on a bottom plate, a first sliding block and a second sliding block which are oppositely arranged are arranged on the testing plate in a sliding mode, the inner side ends of the first sliding block and the second sliding block are respectively and rotatably connected with a first pair of joints and a second pair of joints, the outer sides of the first sliding block and the second sliding block are both fixedly provided with air cylinder plates, the outer sides of the air cylinder plates are fixedly provided with inserting air cylinders, the output ends of the inserting air cylinders extend inwards and are respectively connected with the first sliding block and the second sliding block, and a first mounting plate is fixed on the testing plate; the utility model provides an ultrapure water circulating pump automatic testing arrangement carries out automated testing through the test with the circulating pump for improve when reducing the cost of labor, and promote the machining efficiency of circulating pump.
Description
Technical Field
The utility model relates to a water purification machine technical field especially involves an ultrapure water circulating pump automatic testing arrangement.
Background
The water purifier is a water purifying device which adopts a multi-stage filter element to purify water, and physical methods such as filtration, adsorption, reverse osmosis and the like without adding chemical substances are mostly used for the water purification. Ion exchange in water purification machines is a special solid adsorption process, which is carried out in an electrolyte solution of an ion exchanger. A typical ion exchanger is a solid particulate material that is insoluble in water, i.e., an ion exchange resin. It can absorb some kind of cation or anion from the electrolyte solution, and exchange the other kind of ion with the same charge sign and release it into the solution, so-called ion exchange. Ion exchangers can be classified into two major classes, cation exchangers and anion exchangers, according to the kind of ions exchanged. In the manufacturing process of water purification machine, need use the circulating pump, before the circulating pump is installed on the water purification machine, need test, so that the circulating pump that will have problems rejects in advance, the test of present circulating pump is placed the circulating pump on test fixture through the manual work, then will connect the water inlet and the water outlet of impressing on the circulating pump through quick clamp in, then put through the water source and test, this kind of mode makes the detection efficiency of circulating pump not high, and water is easily remained in the inside and board surface of circulating pump, make and cause harmful effects.
The present invention is an improvement to solve the above problems.
SUMMERY OF THE UTILITY MODEL
The utility model aims at providing an ultrapure water circulating pump automatic testing arrangement to solve above-mentioned defect.
The utility model discloses a solve the technical scheme that its technical problem adopted and be:
an automatic testing device for an ultrapure water circulating pump comprises a rack and a bottom plate fixed on the rack.
The bottom plate is provided with a circulating pump conveying mechanism, a testing mechanism and a secondary purging mechanism; the testing mechanism comprises a testing component and a primary purging component, the testing component comprises a testing plate fixed on the bottom plate, the test board is provided with a first sliding block and a second sliding block which are arranged oppositely in a sliding way, the inner side ends of the first sliding block and the second sliding block are respectively connected with a first pair of joints and a second pair of joints in a rotating way, the outer sides of the first sliding block and the second sliding block are both fixed with cylinder plates, the outer sides of the cylinder plates are fixed with inserting cylinders, the output end of the inserting cylinder extends inwards and is respectively connected with a first sliding block and a second sliding block, a first mounting plate is fixed on the test plate, a dislocation plate for placing a circulating pump is arranged on the first mounting plate in a sliding manner, the dislocation plate is positioned between the first sliding block and the second sliding block, and the first pair of joints and the second pair of joints are respectively matched with an inlet and an outlet on the circulating pump; the water tank cleaning machine is characterized in that a first pipe joint is connected to the first sliding block in a rotating mode, the outer end of the first pipe joint is connected with a water circulating pump in the rack through a first hose and a pipeline, the water circulating pump is connected with a water tank in the rack, the inner side end of the first pipe joint is communicated with a first butt joint through a channel, a second pipe joint is connected to the second sliding block in a rotating mode, the outer end of the second pipe joint is connected with the water tank through a second hose, and the inner side end of the second pipe joint is communicated with a second butt joint through a channel.
Furthermore, the preliminary purging component comprises a third sliding block and a fourth sliding block which are arranged on the test board in a sliding mode and are arranged oppositely, the inner side ends of the third sliding block and the fourth sliding block are respectively and rotatably connected with a third butt joint and a fourth butt joint, a first butt joint cylinder is further fixed on the outer side of the cylinder plate, the output end of the first butt joint cylinder extends inwards and is respectively connected with the third sliding block and the fourth sliding block, the dislocation plate is located between the third sliding block and the fourth sliding block, and the third butt joint and the fourth butt joint are respectively matched with an inlet and an outlet of the circulating pump; the third sliding block is connected with a third pipe joint in a rotating mode, the outer end of the third pipe joint is connected with a first air pump in the rack through a third hose, the inner side end of the third pipe joint is communicated with a third butt joint through a channel, a fourth pipe joint is connected with the fourth sliding block in a rotating mode, the outer end of the fourth pipe joint is connected with the water tank through a fourth hose, and the inner side end of the fourth pipe joint is communicated with the fourth butt joint through a channel.
Furthermore, a sliding groove is formed in the test plate, and downward protruding sliding blocks are arranged on the lower sides of the first sliding block, the second sliding block, the third sliding block and the fourth sliding block and are arranged in the sliding groove in a sliding mode; the first mounting plate is fixedly provided with a vertical plate, a dislocation cylinder is fixedly arranged on the outer side of the vertical plate, and the output end of the dislocation cylinder is connected to the side face of the dislocation plate.
Furthermore, a rectangular opening is formed in one side of the bottom plate, and the circulating pump conveying mechanism is located in the rectangular opening; the circulating pump conveying mechanism comprises two oppositely arranged side plates fixed in a rack, a main shaft and a driven shaft are fixed between the two side plates through bearings, a main gear and a driven gear are respectively fixed on the main shaft and the driven shaft, closed-loop chains are sleeved on the main gear and the driven gear, and a plurality of groups of limiting assemblies for placing a circulating pump are fixed between the two chains; the limiting assembly comprises two connecting rods fixed between the chains, conveying plates are fixed on the outer surfaces of the two connecting rods, limiting plates are fixed on the conveying plates, and limiting grooves matched with the outer surfaces of the circulating pumps are formed in the limiting plates; and a driving motor for driving the main gear through a gear and a chain is arranged outside the rack.
Furthermore, the secondary purging mechanism is located at the discharge end of the testing mechanism, the secondary purging mechanism comprises a base plate fixed on the bottom plate, a placing plate is fixed on the base plate, a fifth sliding block and a sixth sliding block which are oppositely arranged are also fixed on the base plate, the inner side ends of the fifth sliding block and the sixth sliding block are respectively and rotatably connected with a fifth butt joint and a sixth butt joint, a fixing plate is fixed on the outer sides of the fifth sliding block and the sixth sliding block, a second butt cylinder is fixed on the outer side of the fixing plate, the output end of the second butt cylinder extends inwards and is respectively connected with the fifth sliding block and the sixth sliding block, the placing plate is located between the fifth sliding block and the sixth sliding block, and the fifth butt joint and the sixth butt joint are respectively matched with an inlet and an outlet on the circulating pump; the fifth sliding block is rotatably connected with a fifth pipe joint, the outer end of the fifth pipe joint is connected with a second air pump in the rack through a fifth hose, the inner side end of the fifth pipe joint is communicated with a fifth butt joint through a channel, the sixth sliding block is rotatably connected with a sixth pipe joint, the outer end of the sixth pipe joint is connected with the water tank through a sixth hose, and the inner side end of the sixth pipe joint is communicated with the sixth butt joint through a channel.
Furthermore, a first transfer clamping mechanism and a second transfer clamping mechanism which are consistent in structure are arranged on the bottom plate, the first transfer clamping mechanism is positioned between the circulating pump conveying mechanism and the testing mechanism, and the second transfer clamping mechanism is positioned between the testing mechanism and the secondary purging mechanism; the first transfer clamping mechanism comprises a stand column fixed on a bottom plate, a long plate is fixed on the inner side face of the upper end of the stand column, a transverse lead screw and a transportation motor used for driving the transverse lead screw are fixed on the outer side of the long plate, a second mounting plate is fixed on the outer side of a sliding nut on the transverse lead screw, a longitudinal lead screw and a lifting motor used for driving the longitudinal lead screw are fixed on the outer side of the second mounting plate, a lifting plate is fixed on the outer side of the sliding nut on the longitudinal lead screw, a third mounting plate is fixed on the outer side of the lifting plate, a rotary cylinder is fixed on the lower side of the third mounting plate, a rotary plate is fixed on the output end of the rotary cylinder, a clamping cylinder is fixed on the lower side of the rotary plate, and a clamping strip matched with the outer surface of a circulating pump is fixed on the output end of the clamping cylinder.
Furthermore, rubber used for protecting the outer surface of the circulating pump is attached to the inner side end of the clamping strip.
Furthermore, the sliding grooves are respectively positioned at the lower sides of the first butt joint and the second butt joint and at the lower sides of the third bottom butt joint and the fourth butt joint, a gap is formed between the bottom of the sliding groove and the bottom of the sliding block, the ground of the sliding groove is an inclined plane, one end of the sliding groove is screwed with a blowing head, the blowing head is positioned at the high end of the inclined plane, the outer end of the blowing head is connected with an external air pump through an air pipe, a water discharging hole in the vertical direction is further formed in the sliding groove, and the lower side end of the water discharging hole is connected with the water tank through a water pipe; the edge of the upper end of the sliding groove is provided with a bevel.
Furthermore, a pressure gauge for detection is installed on the pipeline, a control system is further arranged in the rack, a human-computer interaction display screen and an indicator lamp are further arranged on the bottom plate, and the human-computer interaction display screen and the indicator lamp are connected with the control system through cables; the test component is also provided with a decibel meter or a noise sensor, and the decibel meter or the noise sensor is used for detecting whether decibels generated by the circulating pump in the water test are within a normal range.
The utility model has the advantages that:
the utility model provides an automatic testing device for an ultrapure water circulating pump, which carries out automatic testing on the circulating pump through testing, so that the labor cost is reduced, and the processing efficiency of the circulating pump is improved; the device enables residual moisture in the circulating pump to be better discharged after the circulating pump is tested by matching the primary purging component with the secondary purging mechanism, so that the packaging box cannot be wetted by moisture when the testing pump is in the packaging box; the device enables all the mechanisms to be connected and operated through the arrangement of the first transfer clamping mechanism and the second transfer clamping mechanism, so that the automation degree of the device is improved, and the working efficiency is further improved; after the test of circulating pump is accomplished, when will pulling out the butt joint, its partial water can flow out, makes in its runner spout, then through the inclined plane of spout self and the setting of blowhead for the water that flows out can be cleaned, with the degree of dryness that keeps the board, so that guarantee the service environment of electrical part.
Drawings
FIG. 1 is a schematic structural view of an automatic testing device for an ultrapure water circulating pump according to the present invention;
FIG. 2 is a top view of the apparatus;
FIG. 3 is a front view of the device;
FIG. 4 is a cross-sectional view of the device;
FIG. 5 is an enlarged view taken at A in FIG. 1;
FIG. 6 is an enlarged view at B in FIG. 1;
fig. 7 is a cross-sectional view of a test plate in the device.
Detailed Description
In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention will be further described with reference to the drawings and the specific embodiments.
As shown in fig. 1 to 7, the automatic testing device for an ultrapure water circulating pump provided by the present invention comprises a frame 1 and a bottom plate 2 on the fixed frame 1. A circulating pump conveying mechanism, a testing mechanism and a secondary purging mechanism are arranged on the bottom plate 2; the testing mechanism comprises a testing component and an initial purging component, the testing component comprises a testing plate 3 fixed on a bottom plate 2, the testing plate 3 is provided with a first sliding block 4 and a second sliding block 5 which are oppositely arranged in a sliding manner, the inner side ends of the first sliding block 4 and the second sliding block 5 are respectively and rotatably connected with a first butt joint 6 and a second butt joint 7, the outer sides of the first sliding block 4 and the second sliding block 5 are both fixed with cylinder plates, the outer sides of the cylinder plates are fixed with inserting cylinders 8, the output ends of the inserting cylinders 8 extend inwards and are respectively connected with the first sliding block 4 and the second sliding block 5, a first mounting plate 9 is fixed on the testing plate 3, a dislocation plate 10 used for placing a circulating pump is arranged on the first mounting plate in a sliding manner, and the dislocation plate 10 is positioned between the first sliding block 4 and the second sliding block 5, the first pair of joints 6 and the second pair of joints 7 are respectively matched with an inlet and an outlet on the circulating pump; first coupling 11 has been screwed on first sliding block 4, the outer end of first coupling 11 is connected with the circulating water pump in the frame through first hose 12, pipeline, circulating water pump is connected with the water tank in the frame, first coupling 11 medial extremity is linked together through passageway and first butt joint 6, second coupling 13 has been screwed on second sliding block 5, the outer end of second coupling 13 is connected with the water tank through second hose 14, second coupling 13 medial extremity is linked together through passageway and second butt joint 7. The dislocation board is fixed on the first mounting panel through the slide rail. Through adopting above-mentioned technical scheme, through the water inlet to the circulating pump and during the delivery port inserts accredited testing organization's test end automatically, then to the inside test of leading to water of circulating pump for the test of circulating pump is quick more and convenient.
The utility model discloses a further set up to: the preliminary purging component comprises a third sliding block 15 and a fourth sliding block 16 which are arranged on the test board 3 in a sliding mode and are arranged oppositely, the inner side ends of the third sliding block 15 and the fourth sliding block 16 are respectively and rotatably connected with a third butt joint and a fourth butt joint, a first butt joint cylinder 17 is further fixed on the outer side of the cylinder board, the output end of the first butt joint cylinder 17 extends inwards and is respectively connected with the third sliding block 15 and the fourth sliding block 16, the dislocation board 10 is located between the third sliding block 15 and the fourth sliding block 16, and the third butt joint and the fourth butt joint are respectively matched with an inlet and an outlet of the circulating pump; the third sliding block 15 is connected with a third pipe joint in a rotating mode, the outer end of the third pipe joint is connected with a first air pump in the rack through a third hose, the inner side end of the third pipe joint is communicated with a third butt joint through a channel, a fourth pipe joint is connected with the fourth sliding block 16 in a rotating mode, the outer end of the fourth pipe joint is connected with a water tank through a fourth hose, and the inner side end of the fourth pipe joint is communicated with the fourth butt joint through a channel. Through adopting above-mentioned technical scheme, through the setting of preliminary subassembly that sweeps for can discharge the water in the circulating pump.
The utility model discloses a further set up to: a sliding groove is formed in the test plate 3, and downward-protruding sliding blocks are arranged on the lower sides of the first sliding block 4, the second sliding block 5, the third sliding block 15 and the fourth sliding block 16 and are arranged in the sliding groove in a sliding mode; a vertical plate is fixed on the first mounting plate 9, a dislocation cylinder 18 is fixed on the outer side of the vertical plate, and the output end of the dislocation cylinder 18 is connected to the side surface of the dislocation plate 10. Through adopting above-mentioned technical scheme, through the setting of spout for the slip orbit of first sliding block, second sliding block, third sliding block and fourth sliding block can be injectd.
The utility model discloses a further set up to: a rectangular opening is formed in one side of the bottom plate 2, and the circulating pump conveying mechanism is located in the rectangular opening; the circulating pump conveying mechanism comprises two oppositely arranged side plates 19 fixed in the rack 1, a main shaft and a driven shaft are fixed between the two side plates 19 through bearings, a main gear 20 and a driven gear 21 are respectively fixed on the main shaft and the driven shaft, closed-loop chains 22 are sleeved on the main gear 20 and the driven gear 21, and a plurality of groups of limiting assemblies for placing a circulating pump are fixed between the two chains; the limiting assembly comprises two connecting rods 23 fixed between chains 22, conveying plates 24 are fixed on the outer surfaces of the two connecting rods 23, limiting plates 25 are fixed on the conveying plates 24, and limiting grooves 251 matched with the outer surfaces of the circulating pumps are formed in the limiting plates 25; and a driving motor for driving the main gear through a gear and a chain is arranged outside the rack. Through adopting above-mentioned technical scheme, through circulating pump transport mechanism's setting for the material loading of circulating pump is more convenient, can reduce artificial input, and promotes work efficiency.
The utility model discloses a further set up to: the secondary purging mechanism is located at the discharge end of the testing mechanism, the secondary purging mechanism comprises a base plate 26 fixed on the bottom plate 2, a placing plate 27 is fixed on the base plate 26, a fifth sliding block 28 and a sixth sliding block 29 which are oppositely arranged are also fixed on the base plate 26, the inner side ends of the fifth sliding block 28 and the sixth sliding block 29 are respectively and rotatably connected with a fifth butt joint and a sixth butt joint, a fixing plate is fixed on the outer sides of the fifth sliding block 28 and the sixth sliding block 29, a second butt joint air cylinder 30 is fixed on the outer side of the fixing plate, the output end of the second butt joint air cylinder 30 extends inwards and is respectively connected with the fifth sliding block 28 and the sixth sliding block 29, the placing plate 27 is located between the fifth sliding block 28 and the sixth sliding block 29, and the fifth butt joint and the sixth butt joint are respectively adapted to an inlet and an outlet on the circulating pump; a fifth pipe joint is screwed on the fifth sliding block 28, the outer end of the fifth pipe joint is connected with a second air pump in the rack through a fifth hose, the inner side end of the fifth pipe joint is communicated with a fifth butt joint through a channel, a sixth pipe joint is screwed on the sixth sliding block 29, the outer end of the sixth pipe joint is connected with a water tank through a sixth hose, and the inner side end of the sixth pipe joint is communicated with the sixth butt joint through a channel. Through adopting above-mentioned technical scheme, through the setting of secondary purging mechanism for inside moisture of circulating pump remains can be better purges, and its gas that purges generally adopts nitrogen gas.
The utility model discloses a further set up to: the bottom plate 2 is also provided with a first transfer clamping mechanism and a second transfer clamping mechanism which are consistent in structure, the first transfer clamping mechanism is positioned between the circulating pump conveying mechanism and the testing mechanism, and the second transfer clamping mechanism is positioned between the testing mechanism and the secondary purging mechanism; the first transfer clamping mechanism comprises an upright post 32 fixed on the bottom plate 2, a long plate 33 is fixed on the inner side face of the upper end of the upright post 32, a transverse screw and a transportation motor 34 used for driving the transverse screw are fixed on the outer side of the long plate 33, a second mounting plate is fixed on the outer side of a sliding nut on the transverse screw, a longitudinal screw and a lifting motor 35 used for driving the longitudinal screw are fixed on the outer side of the second mounting plate, a lifting plate is fixed on the outer side of the sliding nut on the longitudinal screw, a third mounting plate 36 is fixed on the outer side of the lifting plate, a rotary cylinder 37 is fixed on the lower side of the third mounting plate 36, a rotary plate is fixed on the output end of the rotary cylinder 37, a clamping cylinder 38 is fixed on the lower side of the rotary plate, and a clamping strip 39 matched with the outer surface of the circulating pump is fixed on the output end of the clamping cylinder 38. Through adopting above-mentioned technical scheme, through the setting of first transfer fixture and second transfer fixture for each mechanism can link up the operation, so that improve the device degree of automation.
The utility model discloses a further set up to: and rubber for protecting the outer surface of the circulating pump is attached to the inner side end of the clamping strip 39. Through adopting above-mentioned technical scheme, through the setting of rubber for the centre gripping strip can not cause the damage to the surface of circulating pump. The spacing groove has also been seted up on the dislocation board and the board of placing, the groove of stepping down 2511 has been seted up to the left and right sides of spacing groove, the groove of stepping down 2511 suits with the centre gripping strip for the centre gripping strip more conveniently carries out the centre gripping with the circulating pump.
The utility model discloses a further set up to: the sliding grooves are respectively positioned at the lower sides of the first butt joint and the second butt joint and at the lower sides of the third butt joint and the fourth butt joint, a gap is formed between the bottom of the sliding groove and the bottom of the sliding block, the ground of the sliding groove is an inclined plane, one end of the sliding groove is screwed with a blowing head 40, the blowing head 40 is positioned at the high end of the inclined plane, the outer end of the blowing head 40 is connected with an external air pump through an air pipe, a water discharging hole 41 in the vertical direction is also formed in the sliding groove, and the lower side end of the water discharging hole 41 is connected with the water tank through a water pipe; the edge of the upper end of the sliding groove is provided with a bevel. Through adopting above-mentioned technical scheme, when the butt joint was extracted, its partial water can flow out, makes in its runner spout, then through the inclined plane of spout self and the setting of blowhead for the water that flows out can be cleaned, with the degree of dryness that keeps the board.
The utility model discloses a further set up to: the pipeline is provided with a pressure gauge for detection, the rack is also internally provided with a control system, the bottom plate is also provided with a human-computer interaction display screen and an indicator lamp, and the human-computer interaction display screen and the indicator lamp are connected with the control system through cables; the test component is also provided with a decibel meter or a noise sensor, and the decibel meter or the noise sensor is used for detecting whether decibels generated by the circulating pump in the water test are within a normal range.
The device is also provided with a detection unit, the detection unit comprises a first position sensor, a second position sensor, a third position sensor and a pressure detection sensor, the first position sensor, the second position sensor, the third position sensor and the pressure detection sensor are connected with a control system through data lines, and the control system adopts a PLC controller; a transport motor, a driving motor, a lifting motor, an inserting cylinder, a first butt joint cylinder, a second butt joint cylinder, a dislocation cylinder, a rotating cylinder and a clamping cylinder in the device form an execution unit, wherein a gas path of the cylinder is adjusted through an electromagnetic valve, and the electromagnetic valve is electrically connected with a control system.
Whether first position sensor has the circulating pump in being used for detecting the spacing groove in the spacing subassembly, whether second position sensor is used for detecting the circulating pump in the dislocation board and targets in place, whether third position sensor is used for detecting the circulating pump of placing in the board and targets in place, whether pressure detection sensor is used for detecting the pressure value that pressure becomes at normal range.
The butt joint among the device adopts prior art's butt joint, and its structure is not being repeated, and its butt joint outside has one deck rubber circle for when the circulating pump leads to water, can not have the water blowout, so that make the pressure at circulating pump back can not change, make the detection of manometer more accurate.
Still be provided with decibel appearance or noise sensor in the test subassembly, decibel appearance or noise sensor are used for detecting the circulating pump and produce when leading to water the test decibel, and the qualified decibel of pump is 55, if the decibel is greater than 55 or is less than 55, then feeds back to the controller, then controls to let pilot lamp and human-computer interaction display screen warn and stop the board and operate to the operator knows the concrete trouble that takes place, and solves.
In this document, the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", "vertical", "horizontal", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for the sake of clarity and convenience of description of the technical solutions, and thus, should not be construed as limiting the present invention.
As used herein, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, including not only those elements listed, but also other elements not expressly listed.
The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose thereof is to let the technical personnel in the field understand the contents of the present invention and implement the present invention, and the protection scope of the present invention can not be limited thereby, and all equivalent changes or modifications made according to the spirit of the present invention should be covered in the protection scope of the present invention.
Claims (9)
1. The utility model provides an ultrapure water circulating pump automatic testing arrangement, includes bottom plate (2) on frame (1) and the fixed frame (1), its characterized in that:
the bottom plate (2) is provided with a circulating pump conveying mechanism, a testing mechanism and a secondary purging mechanism; the testing mechanism comprises a testing component and a preliminary purging component, the testing component comprises a testing plate (3) fixed on a bottom plate (2), a first sliding block (4) and a second sliding block (5) which are oppositely arranged are arranged on the testing plate (3) in a sliding mode, a first butt joint (6) and a second butt joint (7) are respectively and rotatably connected to the inner side ends of the first sliding block (4) and the second sliding block (5), cylinder plates are respectively and fixedly arranged on the outer sides of the first sliding block (4) and the second sliding block (5), an inserting cylinder (8) is fixedly arranged on the outer side of each cylinder plate, the output end of the inserting cylinder (8) extends inwards and is respectively connected with the first sliding block (4) and the second sliding block (5), a first mounting plate (9) is fixedly arranged on the testing plate (3), and a dislocation plate (10) used for placing a circulating pump is arranged on the first mounting plate in a sliding mode, the dislocation plate (10) is positioned between the first sliding block (4) and the second sliding block (5), and the first pair of joints (6) and the second pair of joints (7) are respectively adapted to an inlet and an outlet on the circulating pump; first coupling (11) have been connected on first sliding block (4), the outer end of first coupling (11) is connected with the circulating water pump in the frame through first hose (12), pipeline, circulating water pump is connected with the water tank in the frame, first coupling (11) medial extremity is linked together through passageway and first butt joint (6), second coupling (13) have been connected on second sliding block (5) to the top, the outer end of second coupling (13) is connected with the water tank through second hose (14), second coupling (13) medial extremity is linked together through passageway and second butt joint (7).
2. The automatic testing device of an ultrapure water circulating pump according to claim 1, wherein: the preliminary purging component comprises a third sliding block (15) and a fourth sliding block (16) which are arranged on the test board (3) in a sliding mode and are arranged oppositely, the inner side ends of the third sliding block (15) and the fourth sliding block (16) are respectively and rotatably connected with a third butt joint and a fourth butt joint, a first butt joint cylinder (17) is further fixed on the outer side of the cylinder board, the output end of the first butt joint cylinder (17) extends inwards and is respectively connected with the third sliding block (15) and the fourth sliding block (16), the dislocation plate (10) is located between the third sliding block (15) and the fourth sliding block (16), and the third butt joint and the fourth butt joint are respectively matched with an inlet and an outlet on the circulating pump; third sliding block (15) top spin has connect the third coupling, the outer end of third coupling is connected with the first air pump in the frame through the third hose, third coupling medial extremity is linked together through passageway and third butt joint, fourth sliding block (16) top spin has connect the fourth coupling, the outer end of fourth coupling is connected with the water tank through the fourth hose, fourth coupling medial extremity is linked together through passageway and fourth butt joint.
3. The automatic testing device of an ultrapure water circulating pump according to claim 2, wherein: a sliding groove is formed in the test plate (3), and downward-protruding sliding blocks are arranged on the lower sides of the first sliding block (4), the second sliding block (5), the third sliding block (15) and the fourth sliding block (16) and are arranged in the sliding groove in a sliding mode; a vertical plate is fixed on the first mounting plate (9), a dislocation cylinder (18) is fixed on the outer side of the vertical plate, and the output end of the dislocation cylinder (18) is connected to the side face of the dislocation plate (10).
4. The automatic testing device of an ultrapure water circulating pump according to claim 1, wherein: a rectangular opening is formed in one side of the bottom plate (2), and the circulating pump conveying mechanism is located in the rectangular opening; the circulating pump conveying mechanism comprises two oppositely arranged side plates (19) fixed in a rack (1), a main shaft and a driven shaft are fixed between the two side plates (19) through bearings, a main gear (20) and a driven gear (21) are respectively fixed on the main shaft and the driven shaft, closed-loop chains (22) are sleeved on the main gear (20) and the driven gear (21), and a plurality of groups of limiting assemblies for placing a circulating pump are fixed between the two chains; the limiting assembly comprises two connecting rods (23) fixed between chains (22), a conveying plate (24) is fixed on the outer surfaces of the two connecting rods (23), a limiting plate (25) is fixed on the conveying plate (24), and a limiting groove (251) matched with the outer surface of the circulating pump is formed in the limiting plate (25); and a driving motor for driving the main gear through a gear and a chain is arranged outside the rack.
5. The automatic testing device of an ultrapure water circulating pump according to claim 1, wherein: the secondary purging mechanism is positioned at the discharge end of the testing mechanism, the secondary purging mechanism comprises a base plate (26) fixed on the bottom plate (2), a placing plate (27) is fixed on the base plate (26), a fifth sliding block (28) and a sixth sliding block (29) which are oppositely arranged are further fixed on the base plate (26), the inner side ends of the fifth sliding block (28) and the sixth sliding block (29) are respectively and rotatably connected with a fifth butt joint and a sixth butt joint, a fixing plate is fixed on the outer sides of the fifth sliding block (28) and the sixth sliding block (29), a second butt joint cylinder (30) is fixed on the outer side of the fixing plate, the output end of the second butt joint cylinder (30) extends inwards and is respectively connected with the fifth sliding block (28) and the sixth sliding block (29), and the placing plate (27) is positioned between the fifth sliding block (28) and the sixth sliding block (29), the fifth butt joint and the sixth butt joint are respectively matched with an inlet and an outlet on the circulating pump; the fifth sliding block (28) is connected with a fifth pipe joint in a rotating mode, the outer end of the fifth pipe joint is connected with a second air pump in the rack through a fifth hose, the inner side end of the fifth pipe joint is communicated with a fifth butt joint through a channel, a sixth pipe joint is connected with the sixth sliding block (29) in a rotating mode, the outer end of the sixth pipe joint is connected with the water tank through a sixth hose, and the inner side end of the sixth pipe joint is communicated with the sixth butt joint through a channel.
6. The automatic testing device of an ultrapure water circulating pump according to claim 1, wherein: a first transfer clamping mechanism and a second transfer clamping mechanism which are consistent in structure are further arranged on the bottom plate (2), the first transfer clamping mechanism is located between the circulating pump conveying mechanism and the testing mechanism, and the second transfer clamping mechanism is located between the testing mechanism and the secondary purging mechanism; the first transfer clamping mechanism comprises an upright post (32) fixed on the bottom plate (2), a long plate (33) is fixed on the inner side surface of the upper end of the upright post (32), a transverse screw rod and a transport motor (34) for driving the transverse screw rod are fixed on the outer side of the long plate (33), a second mounting plate is fixed on the outer side of the sliding nut on the transverse screw rod, a longitudinal screw rod and a lifting motor (35) for driving the longitudinal screw rod are fixed on the outer side of the second mounting plate, a lifting plate is fixed on the outer side of the sliding nut on the longitudinal screw rod, a third mounting plate (36) is fixed on the outer side of the lifting plate, a rotary cylinder (37) is fixed on the lower side of the third mounting plate (36), a rotary plate is fixed at the output end of the rotary cylinder (37), and a clamping cylinder (38) is fixed on the lower side of the rotating plate, and a clamping strip (39) matched with the outer surface of the circulating pump is fixed at the output end of the clamping cylinder (38).
7. The automatic testing device of an ultrapure water circulating pump according to claim 6, wherein: and rubber for protecting the outer surface of the circulating pump is attached to the inner side end of the clamping strip (39).
8. The automatic testing device of an ultrapure water circulating pump according to claim 3, wherein: the sliding grooves are respectively positioned at the lower sides of the first butt joint and the second butt joint and at the lower sides of the third butt joint and the fourth butt joint, a gap is formed between the bottom of the sliding groove and the bottom of the sliding block, the ground of the sliding groove is an inclined plane, one end of the sliding groove is screwed with a blowing head (40), the blowing head (40) is positioned at the high end of the inclined plane, the outer end of the blowing head (40) is connected with an external air pump through an air pipe, a water discharging hole (41) in the vertical direction is further formed in the sliding groove, and the lower side end of the water discharging hole (41) is connected with the water tank through a water pipe; the edge of the upper end of the sliding groove is provided with a bevel.
9. The automatic testing device of an ultrapure water circulating pump according to claim 1, wherein: the pipeline is provided with a pressure gauge for detection, the rack is also internally provided with a control system, the bottom plate is also provided with a human-computer interaction display screen and an indicator lamp, and the human-computer interaction display screen and the indicator lamp are connected with the control system through cables; the test component is also provided with a decibel meter or a noise sensor, and the decibel meter or the noise sensor is used for detecting whether decibels generated by the circulating pump in the water test are within a normal range.
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CN113007085A (en) * | 2021-03-01 | 2021-06-22 | 嘉善乐枫生物科技有限公司 | Automatic testing device and testing method for ultrapure water circulating pump |
CN113007085B (en) * | 2021-03-01 | 2023-02-28 | 嘉善乐枫生物科技有限公司 | Automatic testing device and testing method for ultrapure water circulating pump |
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Effective date of registration: 20231025 Address after: Room 207, 2nd Floor, Building 3, No. 2899 Lianhua South Road, Minhang District, Shanghai, 201100 Patentee after: REPHILE BIOSCIENCE, Ltd. Address before: 314100 3rd floor, building 1, No.56 Guigu 5th Road, Luoxing street, Jiashan County, Jiaxing City, Zhejiang Province Patentee before: Jiashan Lefeng Biotechnology Co.,Ltd. |