CN117030572B - Energy-saving tester for water purification - Google Patents

Abstract

The invention relates to the field of water purification tests and discloses an energy-saving testing machine for water purification, which comprises a testing frame, a filter cylinder and a sealing cover, wherein a lifting structure capable of automatically opening or closing the sealing cover is arranged on the testing frame, the lifting structure comprises an opening formed in the middle of two side surfaces of the testing frame, a mounting plate is connected to the lower part of the opening of the two side surfaces of the testing frame, an air cylinder is arranged at one end of the upper surface of the mounting plate, a lifting plate is arranged in the opening, the top end of an output shaft of the air cylinder is connected to the lifting plate, the top end of the lifting plate is provided with a turnover plate, the bottom end of the turnover plate is connected to the lifting plate in a rotating way through a rotating shaft, a plurality of filter cylinders which are mutually communicated are arranged in the testing frame, the sealing cover can be opened from the filter cylinder when the lifting plate is driven by the starting air cylinder to move upwards, and after the lifting plate moves upwards by a certain height, the turnover plate automatically rotates to vacate the space above the filter cylinder to facilitate the installation work of a filter core, the structure is simpler, and the manufacturing cost is lower.

Description

Energy-saving tester for water purification

Technical Field

The invention relates to the technical field of water purification tests, in particular to an energy-saving testing machine for water purification.

Background

The water purifier is also called a water purifier and a water quality purifier, is water treatment equipment for performing deep filtration and purification treatment on water according to the use requirement of the water, and is usually called a small-sized purifier used in a household, the technical core of the water purifier is a filter element device, and a tester is required to be used for wiping the filter element device of the water purifier in order to ensure the filtration quality of the filter element;

through retrieval, chinese patent CN116359102B discloses an energy-saving water purification tool testing machine, and through the arranged opening and closing assembly, the installation and the disassembly of the sealing cover can be completed only by controlling the expansion limit distance of the electric cylinder, and meanwhile, the installation of the filter element is convenient;

when the filter element is installed on the sealing cover which is actually opened and closed, the electric cylinder is required to be reversely controlled, the telescopic rod of the electric cylinder contracts, the auxiliary magnetic suction plate can absorb the sliding magnetic suction plate to reversely move, the operation frame reversely moves along the track to enable the operation frame to move to the initial position, when the operation frame moves along the L-shaped sliding rail, the sliding magnetic suction plate and the sliding top plate relatively slide, the telescopic rod of the electric cylinder is continuously controlled to contract at the moment, the sliding magnetic suction plate and the auxiliary magnetic suction plate start to separate, meanwhile, the driving rack can drive the spline shaft to reversely rotate, and the sealing cover is screwed into the corresponding first filter cylinder, the second filter cylinder, the third filter cylinder, the fourth filter cylinder and the fifth filter cylinder under the elasticity of the spring, so that the structure of the testing machine is complex, the manufacturing cost is increased, and therefore, the sealing cover has the improvable point.

Disclosure of Invention

In order to solve the problems set forth in the background art, the present invention provides an energy-saving tester for water purification.

The invention provides an energy-saving tester for water purification, which adopts the following technical scheme:

the utility model provides an energy-saving test machine for water purification, includes test jig, strain a section of thick bamboo and sealed lid, install the lifting structure that opens or close sealed lid voluntarily on the test jig, the lifting structure is including seting up the opening in the middle of test jig both sides face, test jig both sides face is in open-ended below department and is connected with the mounting panel, the one end department of going up of mounting panel installs the cylinder, be provided with the lifting plate in the opening, the output shaft top of cylinder is connected on the lifting plate, the top of lifting plate is provided with the turnover plate, the bottom of turnover plate is rotated through the pivot and is connected on the lifting plate, be provided with a plurality of filter cartridges of intercommunication each other in the test jig, the position department of upper position that corresponds each filter cartridge on the lifting plate all rotates and is passed there is the montant, the cover has been covered on the montant, the sealed lid is tightly on the top of straining a section of thick bamboo, wherein one side strain a section of thick bamboo on be connected with the inlet tube, install the booster pump on the inlet tube, strain a section of thick bamboo on the other side is connected with the water purification pipe;

the test device comprises a lifting plate, and is characterized in that a turnover structure is arranged on the lifting plate, the turnover structure comprises a second chute arranged on the lifting plate and positioned below a rotating shaft, a second sliding block is arranged in the second chute in a sliding manner, a rack is connected to the second sliding block, a second gear is sleeved on the rotating shaft, the second gear is connected with teeth on the rack in a meshed manner, a first fixing rod is connected to one end of the rack, a guide groove is arranged on the side face of the test frame, one end of the first fixing rod is arranged in the guide groove in a sliding manner, and an inclined section is arranged on the guide groove close to the top end of the guide groove;

the bottom end of the vertical rod inserted into the filter cylinder is provided with a sealing structure, the sealing structure comprises an inner edge arranged on the inner wall of the filter cylinder and close to the top end, two through grooves are formed in the upper edge of the inner edge in the radial direction, the lower parts of groove walls on two sides of the through grooves are inclined, a chassis is sleeved on the bottom end of the vertical rod, a sealing gasket is arranged below the chassis, a rotating sleeve is sleeved on the sealing gasket in a rotating manner, a plurality of telescopic rods are connected between the rotating sleeve and the chassis, each telescopic rod is sleeved with a third spring, two ends of each third spring are respectively connected to the chassis and the rotating sleeve, two abutting blocks are radially connected to the side surface of the chassis, and each abutting block abuts against the lower part of the inner edge;

the lifting plate is provided with a pulling structure for pulling the vertical rods to rotate, the pulling structure comprises first sliding grooves formed in two sides of the upper surface of the lifting plate, first sliding blocks are slidably arranged in the first sliding grooves, a pulling frame is connected between the two first sliding blocks, a first gear is sleeved on the top end of each vertical rod, the first gear is in meshed connection with teeth on the inner wall of one side of the pulling frame, and a first spring is connected between the first sliding blocks and the groove wall of one side of the first sliding grooves;

the test frame side is provided with the extrusion structure that is used for extruding the pulling frame and removes, the extrusion structure is including connecting the first sand grip of position department above the test frame side, the top of first sand grip is provided with the inclined plane, it is provided with the gyro wheel to roll on the first sand grip, the one end at the second dead lever is established to the gyro wheel cover, the other end of second dead lever is connected on first slider.

Preferably, the front department of test jig is provided with automatic dress core structure, automatic dress core structure is including connecting the multiunit riser on the test jig, every group the riser corresponds the position setting of every section of thick bamboo, multiunit the top and the bottom of riser all rotate and pass there is the bull stick, wherein one the motor is installed to the bottom department of riser side, the output of motor is connected with one of them bull stick, every be in the position department between every group riser on the bull stick all overlaps the belt pulley, every group two cover has the belt between the belt pulley, all be connected with the connecting rod on the both sides face of belt, two the one end that the connecting rod is close to is connected on the fixed strip, be provided with the clamp splice on the fixed strip.

Preferably, the automatic clamping structure for pushing the clamping blocks to move is arranged on the fixing strip, the automatic clamping structure comprises third sliding grooves formed in two sides of the front face of the fixing strip, each third sliding groove is provided with a third sliding block in a sliding mode, one end of each third sliding block and one end of each third sliding groove are connected with a second spring, each group of two third sliding blocks are connected with a third fixing rod on one side face away from each other, one end of each third fixing rod extends to the position of the vertical plate, a second protruding strip is arranged on the vertical plate, an end block is arranged on one end, close to the second protruding strip, of each third fixing rod, one end, penetrating out of each third sliding groove, of each third sliding block is connected with a clamping rod, and the clamping block is arranged at one end of each clamping rod.

Preferably, an adjusting structure is arranged between the clamping rod and the clamping block, the adjusting structure comprises a fixed block connected to one end of the clamping rod far away from the third sliding block, a T-shaped screw rod penetrates through a threaded hole in the fixed block, one end of the T-shaped screw rod is rotatably connected to the clamping block, and a limiting rod penetrating through the fixed block is connected to the clamping block.

Preferably, a storage structure is arranged below the front face of the test frame and comprises a U-shaped rod connected to the test frame, a sleeve block is sleeved on the U-shaped rod corresponding to each filter cartridge, and a storage cylinder is arranged on the sleeve block.

In summary, the invention has the following beneficial technical effects:

according to the invention, the air cylinder, the lifting plate and the turnover plate are arranged on the test frame, the sealing cover is arranged on the turnover plate, the rack on the lifting plate is meshed with the second gear on the rotating shaft, one end of the first fixing rod on the rack slides in the guide groove, the sealing cover can be opened from the filter cartridge when the lifting plate is driven to move upwards by the starting air cylinder, and after the lifting plate moves upwards by a certain height, the turnover plate automatically rotates, so that the space above the filter cartridge is vacated, the installation work of the filter cartridge is facilitated, the structure is simpler, and the manufacturing cost is lower;

further, the bottom end of the vertical rod sleeved with the sealing cover is provided with the chassis, the sealing gasket and the abutting block, the inner wall teeth of the pulling frame on the lifting plate are connected with the first gear at the top end of the vertical rod in a meshed manner, a third spring is arranged between the abutting gasket and the chassis, the roller on the second fixing rod on the pulling frame is arranged on the first convex strip in a rolling manner, the sealing gasket can be driven to abut against the upper inner wall of the filter cylinder when the lifting plate drives the sealing cover to move downwards to tightly cover the filter cylinder, the pulling frame is utilized to drive the vertical rod to rotate, the abutting block can be driven to move downwards to press against the lower part of the middle inner edge, and the sealing gasket can be driven to abut against the inner wall of the filter cylinder by extruding the third spring, so that the sealing property of the filter cylinder is ensured, and the testing quality is improved;

according to the invention, the rotating rod, the belt pulley and the belt are arranged on the vertical plate of the test frame, the end block is arranged at one end of the third fixing rod connected with the third sliding block on the front surface of the fixing strip on the belt, the clamping block is arranged at one end of the clamping rod on the third sliding block, the second raised line is arranged on the inner side surface of the vertical plate, the cylinder is started to lift the sealing cover, and simultaneously, the end block is utilized to slide on the test frame and the second raised line, so that the filter cylinder can be automatically clamped and driven to be inserted into the filter cylinder for installation, and the installation work of the filter element in the filter cylinder is greatly facilitated.

Drawings

FIG. 1 is a schematic diagram of an energy-saving tester for water purification according to an embodiment of the present invention;

FIG. 2 is an enlarged view of the structure at A of FIG. 1 in an embodiment of the invention;

FIG. 3 is an enlarged view of the structure at B of FIG. 1 in an embodiment of the present invention;

FIG. 4 is an enlarged view of the structure at C of FIG. 1 in an embodiment of the invention;

FIG. 5 is an enlarged view of the structure at D of FIG. 1 in an embodiment of the invention;

FIG. 6 is an enlarged view of the structure at E of FIG. 1 in an embodiment of the present invention;

FIG. 7 is an enlarged view of the structure at F of FIG. 1 in an embodiment of the invention;

FIG. 8 is an enlarged view of the structure at G of FIG. 1 in an embodiment of the invention;

FIG. 9 is a schematic view of the internal edge of an energy-saving tester for water purification according to an embodiment of the present invention;

fig. 10 is an enlarged view of the structure at H of fig. 9 in an embodiment of the present invention.

Reference numerals illustrate: 1. a test rack; 2. a filter cartridge; 3. sealing cover; 4. a lifting structure; 41. a mounting plate; 42. a cylinder; 43. an opening; 44. a lifting plate; 45. a rotating shaft; 46. a turnover plate; 47. a vertical rod; 5. a pulling structure; 51. a first chute; 52. a first slider; 53. a first spring; 54. pulling the frame; 55. a first gear; 6. a water purifying pipe; 7. a turnover structure; 71. a second gear; 72. a second chute; 73. a rack; 74. a first fixing rod; 75. a guide groove; 8. an extrusion structure; 81. a second fixing rod; 82. a roller; 83. a first protruding strip; 84. an inclined surface; 9. an automatic core mounting structure; 91. a riser; 92. a rotating rod; 93. a belt pulley; 94. a belt; 95. a connecting rod; 96. a fixing strip; 97. clamping blocks; 98. a motor; 10. an automatic clamping structure; 101. a third chute; 102. a third slider; 103. a second spring; 104. a third fixing rod; 105. an end block; 106. a second protruding strip; 107. a clamping rod; 11. an adjustment structure; 111. a fixed block; 112. a T-shaped screw; 113. a limit rod; 12. a storage structure; 121. a U-shaped rod; 122. sleeving blocks; 123. a storage cylinder; 13. a sealing structure; 131. an inner edge; 132. a chassis; 133. a tightening block; 134. a telescopic rod; 135. a third spring; 136. a rotating sleeve; 137. a sealing gasket; 14. a booster water pump; 15. a water inlet pipe.

Detailed Description

The present invention is described in further detail below with reference to fig. 1-10.

Referring to fig. 1 to 3, the embodiment of the invention discloses an energy-saving testing machine for water purification, which comprises a testing frame 1, a filter cartridge 2 and a sealing cover 3, wherein a lifting structure 4 for automatically opening or closing the sealing cover 3 is arranged on the testing frame 1, the lifting structure 4 comprises an opening 43 arranged at the middle of two side surfaces of the testing frame 1, a mounting plate 41 is connected at the lower part of the opening 43 on the two side surfaces of the testing frame 1, an air cylinder 42 is arranged at one end of the upper surface of the mounting plate 41, a lifting plate 44 is arranged in the opening 43, the lifting plate 44 rotates in an L shape, the bottom end of the lifting plate 44 penetrates out of the opening 43, the top end of an output shaft of the air cylinder 42 is connected to the lifting plate 44, the top end of the lifting plate 44 is provided with a turnover plate 46, the turnover plate 46 is in an inverted U shape, the bottom end of the turnover plate 46 is rotatably connected to the lifting plate 44 through a rotating shaft 45, a plurality of filter cartridges 2 which are mutually communicated are arranged in the testing frame 1, the filter cartridge 2 is internally provided with a detection PP cotton, a preposed active carbon, a compression active carbon and an RO reverse osmosis filter core, a vertical rod 47 is arranged on a lifting plate 44 in a rotating way corresponding to the position above each filter cartridge 2, a sealing cover 3 is fixedly sleeved on the vertical rod 47, the sealing cover 3 is tightly covered on the top end of the filter cartridge 2, one side of the filter cartridge 2 is connected with a water inlet pipe 15, a booster pump 14 is arranged on the water inlet pipe 15, the other side of the filter cartridge 2 is connected with a water purifying pipe 6, a water quality detection probe is arranged in the water purifying pipe 6, when the filter core is arranged in the filter cartridge 2, a cylinder 42 is only required to be started to drive the lifting plate 44 to move upwards, so that the sealing cover 3 on a turnover plate 46 can be taken out from the top end of the filter cartridge 2, the filter core can be replaced, a turnover structure 7 is arranged on the lifting plate 44, the turnover structure 7 comprises a second chute 72 which is arranged on the lifting plate 44 and is positioned below a rotating shaft 45, the second sliding groove 72 is provided with a second sliding block in a sliding manner, the sections of the second sliding block and the second sliding groove 72 are in a T shape, the second sliding block is connected with a rack 73, a second gear 71 is fixedly sleeved on a rotating shaft 45, the second gear 71 is meshed with teeth on the rack 73, one end of the rack 73 is connected with a first fixing rod 74, the side face of the test frame 1 is provided with a guide groove 75, one end of the first fixing rod 74 is slidably arranged in the guide groove 75, an inclined section is arranged at the position, close to the top end, of the guide groove 75, in the process of upwards moving the sealing cover 3, one end of the lifting plate 44 is driven to slide in the guide groove 75, after the sealing cover 3 is lifted, the rack 73 can be driven to move on the lifting plate 44 along the width direction of the rack by utilizing the sliding of one end of the first fixing rod 74 in the inclined section of the guide groove 75, and the turnover plate 46 is driven to rotate through the second gear 71 to vacate the space at the top end of the first fixing rod 74, and the bottom end of the first fixing rod 74 is located in the guide groove 75 in an initial state, when the filter cartridge is upwards moved, the filter cartridge is not vertically moved to the bottom end of the filter cartridge 46, and the filter cartridge is conveniently moved to the top end of the filter cartridge 46 in the direction after the vertical turnover plate 46 is moved to the direction, and the filter cartridge is not moved to the upper to the top end of the upper end of the filter cartridge 46, and the filter cartridge is conveniently moved.

Referring to fig. 1, 4, 5, 9 and 10, a sealing structure 13 is arranged at the bottom end of a vertical rod 47 inserted into a filter cartridge 2, the sealing structure 13 comprises an inner edge 131 arranged at the position, close to the top end, of the inner wall of the filter cartridge 2, two through grooves are radially formed in the inner edge 131, the bottoms of groove walls at two sides of the two through grooves are inclined, a chassis 132 is fixedly sleeved at the bottom end of the vertical rod 47, a sealing gasket 137 is arranged at the lower part of the chassis 132, a rotating sleeve 136 is sleeved on the sealing gasket 137 in a rotating manner, a plurality of telescopic rods 134 are connected between the rotating sleeve 136 and the chassis 132, a third spring 135 is sleeved on each telescopic rod 134, two ends of the third spring 135 are respectively connected to the chassis 132 and the rotating sleeve 136, two abutting blocks 133 are radially connected to the side surfaces of the chassis 132, the abutting blocks 133 abut against the lower part of the inner edge 131, the lifting plate 44 moves downwards to drive the chassis 132 and the sealing gasket 137 to be inserted into the filter cartridge 2, when the sealing gasket 137 is attached to the inner wall of the filter cylinder 2, the vertical rod 47 can be rotated on the turnover plate 46 to drive the chassis 132 and the rotating sleeve 136 to integrally rotate, the supporting block 133 is utilized to press the groove wall of the through groove on the inner edge 131 to push the telescopic rod 134 and the third spring 135 to integrally compress, the sealing gasket 137 can be pushed to tightly support the filter cylinder 2 by the elasticity generated by the compressed third spring 135 to improve the sealing performance of the filter cylinder 2, the lifting plate 44 is provided with the pulling structure 5 for pulling the vertical rod 47 to rotate, the pulling structure 5 comprises the first sliding grooves 51 arranged on two sides of the lifting plate 44, the first sliding grooves 51 are slidably provided with the first sliding blocks 52, the sections of the first sliding blocks 52 and the first sliding grooves 51 are in a T shape, the pulling frame 54 is connected between the two first sliding blocks 52, the top end of each vertical rod 47 is fixedly sleeved with the first gear 55, the first gear 55 is connected with teeth on the inner wall of one side of the pulling frame 54 in a meshed manner, the first spring 53 is connected between the first sliding block 52 and the groove wall of one side of the first sliding groove 51, when the pulling frame 54 moves on the turnover plate 46, the plurality of vertical rods 47 can be driven to rotate simultaneously, the tightness of the filter cylinder 2 is improved, the operation is more convenient, the side face of the test frame 1 is provided with the extrusion structure 8 for extruding the movement of the pulling frame 54, the extrusion structure 8 comprises the first raised strips 83 connected to the upper side position of the test frame 1, the top ends of the first raised strips 83 are provided with inclined surfaces 84, the first raised strips 83 are provided with rollers 82 in a rolling manner, the rollers 82 are sleeved at one end of the second fixed rod 81 in a rotating manner, the other end of the second fixed rod 81 is connected to the first sliding block 52, when the lifting plate 44 drives the sealing gasket 137 to be inserted into the filter cylinder 2, the rollers 82 at one end of the second fixed rod 81 are driven to slide from the test frame 1 to the first raised strips 83, and then the automatic pulling frame 54 is driven to move on the turnover plate 46, and the sealing gasket 137 is driven to automatically abut against the inner wall of the filter cylinder 2, so that the tightness is ensured.

Referring to fig. 6-7, an automatic core mounting structure 9 is arranged at the front of the test rack 1, the automatic core mounting structure 9 comprises a plurality of groups of vertical plates 91 connected to the test rack 1, each group of vertical plates 91 is arranged corresponding to the position of each filter cartridge 2, the top ends and the bottom ends of the plurality of groups of vertical plates 91 are all rotated to pass through the rotating rods 92, a motor 98 is arranged at the bottom end of the side surface of one vertical plate 91, the output end of the motor 98 is connected with one rotating rod 92, a belt pulley 93 is fixedly sleeved at the position between each group of vertical plates 91 on each rotating rod 92, a belt 94 is sleeved between two belt pulleys 93 of each group, two sides of the belt 94 are all connected with connecting rods 95, one end, close to each connecting rod 95, of the connecting rods is connected to a fixing strip 96, a clamping block 97 is arranged on the fixing strip 96, when the motor 98 drives the rotating rods 92, the belt pulleys 93 and the belt 94 to integrally rotate, the clamping blocks 97 are driven to clamp filter cartridges 2, the filter cartridges are mounted in the filter cartridges 2, an automatic clamping structure 10 for pushing the moving the clamping blocks 97 is arranged on the fixing strip 96, a third sliding chute 103 is arranged on the fixing strip 96, the fixing strip 10 comprises a third sliding chute 102, a third sliding chute 102 is arranged on the third sliding chute 102 and is arranged on the third sliding chute 102, and is provided with a third end 101, and a third sliding chute 102 is arranged on the third sliding chute 102, and a third sliding chute 102 is far from a third end 102, and a third sliding chute is provided on a third sliding chute and a third sliding chute, and a third sliding chute is provided on a third sliding chute, and a sliding on a sliding chute, and a sliding. The clamp splice 97 sets up in the one end department of clamp lever 107, when belt 94 is driving the end block 105 of third dead lever 104 one end and sliding to second sand grip 106 on from riser 91, can promote third slider 102 and extrude second spring 103 compression removal in third spout 101, and drive clamp splice 97 removal clamp to the filter core, along with the continuation rotation of belt 94, drive the filter core to filter cartridge 2 directly over the position department, after the bottom of filter core is inserted in filter cartridge 2, end block 105 slides to on riser 91 from second sand grip 106, utilize the reset effect of second spring 103, loosen clamp splice 97 from the filter core, make filter core can be automatic insert and filter cartridge 2 in install, be provided with adjustment structure 11 between clamp splice 107 and the clamp splice 97, adjustment structure 11 is including connecting the fixed block 111 in clamp splice 107 department of third slider 102 one end department, pass T shape screw 112 in the screw hole on the fixed block 111, the one end rotation of T shape screw 112 is connected on clamp splice 97, be connected with the spacer 113 that passes the fixed block 111 on the clamp splice 97, it has the movable stop bar 113 to pass on the fixed block 111 to supply the filter core, the filter cartridge 111 to cut off the filter cartridge, install through the clamp splice 123 to the filter cartridge 1 through the clamp splice 121 and set up the diameter of two and install in the clamp splice, the filter cartridge 2 is equipped with the clamp splice 121 and the diameter of clamp splice is reduced, the diameter of clamp splice 122 is set up and the clamp splice is convenient for the filter cartridge is arranged at the position of the filter cartridge 1, and the filter cartridge is arranged to the jack 2 and the jack is equipped with the jack is contacted with the jack-shaped and is equipped with the jack-shaped and the jack-mounted with the jack-has a hole.

The implementation principle of the energy-saving testing machine for water purification provided by the embodiment of the invention is as follows: firstly, the air cylinder 42 is started to drive the lifting plate 44 and the turnover plate 46 to integrally move upwards in the opening 43 on the test frame 1, the sealing cover 3 on the vertical rod 47 is driven to move away from the top end of the filter cylinder 2, and when the turnover plate 46 moves upwards, the roller 82 at one end of the second fixing rod 81 is driven to roll onto the test frame 1 from the first convex strip 83, meanwhile, the pulling frame 54 is driven to move on the turnover plate 46 by the elastic reset action of the first spring 53, the vertical rod 47 and the chassis 132 are driven to integrally rotate through the first gear 55, the abutting block 133 is driven to rotate to the through groove of the inner edge 131, at this time, the sealing gasket 137 and the sealing cover 3 can be smoothly lifted from the filter cylinder 2, then, as the lifting plate 44 moves upwards, one end of the first fixing rod 74 is driven to slide at the inclined section of the guide groove 75, the rack 73 is driven to drive the second sliding block to slide in the second sliding groove 72, the turnover plate 46, the vertical rod 47 and the sealing cover 3 are driven to integrally rotate through the second gear 71, the space above the filter cartridge 2 is vacated, then a filter element to be installed is correspondingly inserted into each storage barrel 123, the starting motor 98 drives the rotating rod 92, the belt pulley 93 and the belt 94 to integrally rotate, when the belt pulley 93 drives the end block 105 at one end of the third fixing rod 104 to slide onto the second raised line 106 from the test frame 1, the second raised line 106 pushes the third sliding block 102 to press the second spring 103 to compress and move in the third sliding groove 101, the clamping block 97 is driven to move and clamp the filter element on the storage barrel 123, the filter element is driven to move to the position right above the filter cartridge 2 along with the continued rotation of the belt 94, and after the bottom end of the filter element is inserted into the filter cartridge 2, the belt 94 drives the end block 105 to slide onto the test frame 1 again from the second raised line 106, so as to release the clamping block 97, the filter element is put down for installation, and then the air cylinder 42 is restarted to drive the sealing cover 3 to be covered to the top end of the filter cylinder 2 again, and the sealing gasket 137 at the bottom end of the vertical rod 47 is abutted to the inner wall of the filter cylinder 2 to ensure the tightness of the filter cylinder 2, and during testing, the booster water pump 14 is started, water is introduced into the filter cylinder 2 through the water inlet pipe 15, and the water quality detection probe in the water purifying pipe 6 is used for detection.

The above embodiments are not intended to limit the scope of the present invention, so: all equivalent changes in structure, shape and principle of the invention should be covered in the scope of protection of the invention.

Claims (5)

1. An energy-saving testing machine for water purification comprises a testing frame (1), a filter cylinder (2) and a sealing cover (3), wherein a lifting structure (4) for automatically opening or closing the sealing cover (3) is arranged on the testing frame (1), and the energy-saving testing machine is characterized in that: the lifting structure (4) comprises an opening (43) formed in the middle of two side surfaces of the test frame (1), a mounting plate (41) is connected to the lower part of the opening (43) on the two side surfaces of the test frame (1), an air cylinder (42) is mounted at one end of the upper surface of the mounting plate (41), a lifting plate (44) is arranged in the opening (43), the top end of an output shaft of the air cylinder (42) is connected to the lifting plate (44), the top end of the lifting plate (44) is provided with a turnover plate (46), the bottom end of the turnover plate (46) is rotatably connected to the lifting plate (44) through a rotating shaft (45), a plurality of filter cylinders (2) which are mutually communicated are arranged in the test frame (1), vertical rods (47) are rotatably penetrated at positions corresponding to the upper part of each filter cylinder (2), sealing covers (3) are sleeved on the vertical rods (47), the top ends of the filter cylinders (2) are tightly covered, one side of the filter cylinders (2) are connected with water inlet pipes (15), and the other side of the filter cylinders (14) are connected with water inlet pipes (14);

the lifting plate (44) is provided with a turnover structure (7), the turnover structure (7) comprises a second chute (72) arranged below the rotating shaft (45) on the lifting plate (44), a second sliding block is arranged in the second chute (72) in a sliding mode, a rack (73) is connected to the second sliding block, a second gear (71) is sleeved on the rotating shaft (45), the second gear (71) is connected with teeth on the rack (73) in a meshed mode, one end of the rack (73) is connected with a first fixing rod (74), a guide groove (75) is arranged at the side face of the testing frame (1), one end of the first fixing rod (74) is arranged in the guide groove (75) in a sliding mode, and an inclined section is arranged at the position, close to the top end, of the guide groove (75);

the bottom end of the vertical rod (47) inserted into the filter cylinder (2) is provided with a sealing structure (13), the sealing structure (13) comprises an inner edge (131) arranged on the inner wall of the filter cylinder (2) and close to the top end, two through grooves are radially formed in the inner edge (131) along the radial direction, the bottoms of the groove walls on the two sides of the through grooves are all inclined, the bottom end of the vertical rod (47) is sleeved with a bottom plate (132), a sealing pad (137) is arranged below the bottom plate (132), the sealing gasket (137) is sleeved with a rotating sleeve (136), a plurality of telescopic rods (134) are connected between the rotating sleeve (136) and the chassis (132), each telescopic rod (134) is sleeved with a third spring (135), two ends of each third spring (135) are respectively connected to the chassis (132) and the rotating sleeve (136), two abutting blocks (133) are radially connected to the side surface of the chassis (132), and the abutting blocks (133) are abutted to the lower surface of the inner edge (131);

the lifting plate (44) is provided with a pulling structure (5) for pulling the vertical rods (47) to rotate, the pulling structure (5) comprises first sliding grooves (51) formed in two sides of the upper surface of the lifting plate (44), first sliding blocks (52) are arranged in the first sliding grooves (51) in a sliding mode, a pulling frame (54) is connected between the two first sliding blocks (52), a first gear (55) is sleeved on the top end of each vertical rod (47), the first gear (55) is connected with teeth on the inner wall of one side of the pulling frame (54) in a meshed mode, and a first spring (53) is connected between the first sliding blocks (52) and one side groove wall of the first sliding grooves (51).

The testing frame is characterized in that an extrusion structure (8) for extruding and pulling the frame (54) to move is arranged on the side face of the testing frame (1), the extrusion structure (8) comprises a first convex strip (83) connected to the position above the side face of the testing frame (1), an inclined face (84) is arranged on the top end of the first convex strip (83), a roller (82) is arranged on the first convex strip (83) in a rolling mode, the roller (82) is sleeved at one end of a second fixing rod (81), and the other end of the second fixing rod (81) is connected to a first sliding block (52).

2. An energy efficient tester for water purification according to claim 1, wherein: the testing frame is characterized in that an automatic core mounting structure (9) is arranged at the front side of the testing frame (1), the automatic core mounting structure (9) comprises a plurality of groups of vertical plates (91) connected to the testing frame (1), each group of vertical plates (91) are arranged corresponding to the position of each filter cylinder (2), the top ends and the bottom ends of the vertical plates (91) are all rotated to pass through rotating rods (92), a motor (98) is arranged at the bottom end of the side face of one vertical plate (91), the output end of the motor (98) is connected with one rotating rod (92), belt pulleys (93) are sleeved at the position of each rotating rod (92) between each group of vertical plates (91), a belt (94) is sleeved between each two belt pulleys (93), connecting rods (95) are connected to the two side faces of each belt pulley (94), one ends, close to each connecting rod (95) are connected to a fixing strip (96), and clamping blocks (97) are arranged on the fixing strips (96).

3. An energy efficient tester for water purification according to claim 2, wherein: be provided with on fixed strip (96) and be used for promoting automatic clamp structure (10) that clamp splice (97) removed, automatic clamp structure (10) are including seting up third spout (101) in positive both sides department of fixed strip (96), every all slide in third spout (101) and be provided with third slider (102), the one end of third slider (102) and third spout (101) is connected with second spring (103), every two blocks all be connected with third dead lever (104) on the side that third slider (102) kept away from each other, the one end of third dead lever (104) extends to the position department of riser (91), be provided with second sand grip (106) on riser (91), be provided with end block (105) on the one end that third dead lever (104) is close to second sand grip (106), be connected with clamp splice (107) on the one end that third slider (102) worn out third spout (101), clamp splice (97) set up in the one end of clamp splice (107).

4. An energy efficient tester for water purification according to claim 3, wherein: be provided with between clamping lever (107) and clamp splice (97) and adjust structure (11), adjust structure (11) including connecting fixed block (111) in clamping lever (107) are kept away from third slider (102) one end department, pass in the screw hole on fixed block (111) have T shape screw rod (112), the one end rotation of T shape screw rod (112) is connected on clamp splice (97), be connected with on clamp splice (97) spacing pole (113) that pass fixed block (111).

5. An energy efficient tester for water purification according to claim 1, wherein: the testing frame is characterized in that a storage structure (12) is arranged below the front face of the testing frame (1), the storage structure (12) comprises a U-shaped rod (121) connected to the testing frame (1), sleeve blocks (122) are sleeved at positions, corresponding to each filter cylinder (2), of the U-shaped rod (121), and storage cylinders (123) are arranged on the sleeve blocks (122).