CN118066099A - High-temperature-resistant high-pressure-resistant hydraulic diaphragm metering pump - Google Patents

Abstract

The invention discloses a high-temperature and high-pressure resistant hydraulic diaphragm type metering pump, and relates to the technical field of metering pumps; the invention comprises a pump body power end, wherein one side of the top end of the pump body power end is provided with a matched driving motor, the bottom end of the pump body power end is detachably provided with a matched adjusting mechanism, and one end of the pump body power end is fixedly connected with a matched connector; through the setting up of cooling body and use, can advance the cooling with the connector department to can be used for preventing medium heat conduction to pump body power end, and then need not to set up cooling facility in pump body power end department, and do not set up cooling facility in pump body fluid end department, and cooling body is farther apart from pump body fluid end, not direct contact hydraulic oil, and then can guarantee that the medium of carrying can not dissimilarly, filter the disc in addition and can intercept impurity, thereby can avoid appearing impurity siltation and block up the phenomenon of snakelike pipe, and then ensured the normal development of cooling operation.

Description

High-temperature-resistant high-pressure-resistant hydraulic diaphragm metering pump

Technical Field

The invention relates to the technical field of metering pumps, in particular to a high-temperature and high-pressure resistant hydraulic diaphragm metering pump.

Background

The hydraulic diaphragm metering pump is also called a plunger diaphragm metering pump, and is designed by combining the characteristics of the plunger metering pump and the diaphragm metering pump, and the high-temperature and high-pressure resistant hydraulic diaphragm metering pump is a metering pump for metering and conveying high-temperature and high-pressure liquid, including dangerous media.

The existing high-temperature and high-pressure resistant hydraulic diaphragm metering pump is mainly provided with cooling facilities at the hydraulic end and the power end for ensuring normal use, so that resource waste is caused, the medium conveyed by the hydraulic end is easy to change due to the fact that the cooling facilities are arranged at the hydraulic end, and in addition, the existing high-temperature and high-pressure resistant hydraulic diaphragm metering pump is inconvenient to adjust to a proper height for use and has low practicability.

In view of the above problems, the inventors propose a high temperature and high pressure resistant hydraulic diaphragm metering pump for solving the above problems.

Disclosure of Invention

In order to solve the problems that the prior high-temperature and high-pressure resistant hydraulic diaphragm type metering pump is used normally, and a cooling facility is arranged at a hydraulic end and a power end, so that the waste of resources and the dissimilarity of conveyed media are caused, and the metering pump is inconvenient to adjust to a proper height for use; the invention aims to provide a high-temperature and high-pressure resistant hydraulic diaphragm metering pump.

In order to solve the technical problems, the invention adopts the following technical scheme: the utility model provides a high temperature and high pressure resistant hydraulic diaphragm formula metering pump, includes pump body power end, and top one side of pump body power end is equipped with the driving motor that the cooperation was used, and the bottom of pump body power end can be dismantled and be equipped with the adjustment mechanism that the cooperation was used, the one end fixedly connected with of pump body power end cooperation was used the connector, and one side that the pump body power end was kept away from to the connector is equipped with the pump body fluid end that the cooperation was used, is equipped with the import check valve and the export check valve that the cooperation was used on the pump body fluid end, and is equipped with cooling body and the coupling mechanism that the cooperation was used on the connector.

Preferably, the adjusting mechanism comprises a fixed bottom plate, two ends of the fixed bottom plate are respectively provided with a fixed perforation in a penetrating way, the fixed perforation is in a symmetrical structure, the top end of the fixed bottom plate is fixedly provided with a first T-shaped block which is symmetrically arranged, the first T-shaped block is rotationally sleeved with a first rotating plate, the tail end of the first rotating plate is rotationally inserted with an H-shaped rotating plate, two H-shaped rotating plates are rotationally inserted with studs, two ends of each stud are fixedly connected with driving rotating wheels, the driving rotating wheels are rotationally inserted with driving rockers, the upper ends of the H-shaped rotating plates are rotationally sleeved with second rotating plates which are symmetrically distributed, the tail ends of the second rotating plates are rotationally inserted with second T-shaped blocks, the top ends of the four second T-shaped blocks are fixedly connected with a connecting bottom plate, the connecting bottom plate is provided with an installation inner groove, a first penetrating groove and a second penetrating groove which are matched for use, the first rotating rod and the second rotating rod are rotationally inserted in the mounting inner groove, the first rotating rod is fixedly sleeved with a first gear, the bottom end of the first rotating rod is fixedly sleeved with a driving hand wheel, the outer wall of the driving hand wheel is provided with anti-slip grooves distributed in an array, the bottom end of the second rotating rod is fixedly sleeved with a second gear, the second gear is meshed with the first gear, the upper end of the second rotating rod is fixedly sleeved with a winding roller wheel, the winding roller wheel is fixedly connected with a traction pull rope, one end of the traction pull rope movably penetrates through the first penetrating groove and is fixedly connected with a traction pull plate at the tail end of the traction pull rope, the traction pull plate is slidably inserted in the first penetrating groove, one side of the traction pull plate is integrally formed with a limit sliding block, a limit sliding groove communicated with the first penetrating groove is formed in the connecting bottom plate, the limit sliding block is slidably inserted in the limit sliding groove, the traction pull rope is movably sleeved with a reset spring, and reset spring's both ends respectively with pull the inner wall fixed connection in groove and first wearing, pull the pull plate and keep away from the one side fixedly connected with fixed plug that pulls the stay cord, and the equal fixedly connected with U type plug in bottom four corners department of pump body power end, U type plug can slide and insert and establish in the second wearing inslot, and fixed plug can slide and pass through the second wearing inslot and slide and insert the inboard of establishing at U type plug.

Preferably, the cooling mechanism comprises a liquid storage tank body, the liquid storage tank body is fixedly connected with a pump body power end, a supporting underframe is symmetrically arranged on one side of the top end of the pump body power end, the liquid storage tank body is fixedly installed on the supporting underframe, a liquid supplementing pipeline is communicated on one side of the top end of the liquid storage tank body, a plugging pipe cover is detachably sleeved on the liquid supplementing pipeline, refrigeration equipment and a driving water pump are arranged in an inner cavity of the liquid storage tank body in a matched mode, a liquid inlet pipe body and a liquid outlet pipe body are arranged at the lower end of the driving water pump in a matched mode, the lower end of the liquid outlet pipe body is fixedly inserted on the liquid storage tank body and fixedly connected with a liquid conveying hose at the tail end of the liquid storage tank body, a snake-shaped guide pipe is arranged at the bottom end of the liquid storage tank body in a communicating mode, a filtering disc is detachably arranged between the tail end of the snake-shaped guide pipe and the liquid conveying hose, the snake-shaped guide pipe is fixedly inserted in the connecting body, and the snake-shaped inner groove is formed in the connecting body in a fixed inserting mode.

Preferably, the coupling mechanism includes U type link and T type link, U type link fixed cover is established in the end of snakelike pipe, and filter the disc and can slide and insert the inboard of establishing at U type link, integrated into one piece has symmetrical distribution's flank diaphragm on the U type link, and it has the third bull stick to rotate on the flank diaphragm to peg graft, the top of third bull stick is fixed to have cup jointed and has been connected the revolving plate, and connect the bottom fixedly connected with reset torsion spring of revolving plate, reset torsion spring movable sleeve is established on the third bull stick, and reset torsion spring's bottom and flank diaphragm fixed connection, connect the top integrated into one piece of revolving plate have the drive revolving plate that the cooperation was used, and T type link fixed sleeve is established in the end of infusion hose, T type link can slide and insert and establish on U type link, and connect the bottom of revolving plate can slide the laminating with T type link's top.

Compared with the prior art, the invention has the beneficial effects that:

1. Through the setting and use of the cooling mechanism, the connecting body can be cooled, so that the cooling mechanism can be used for preventing medium heat from being conducted to the pump body power end, further, a cooling facility is not required to be arranged at the pump body power end, the cooling facility is not arranged at the pump body hydraulic end, the cooling mechanism is far away from the pump body hydraulic end and is not in direct contact with hydraulic oil, further, the conveyed medium can not be differentiated, in addition, the filtering disc can intercept impurities, thereby avoiding the phenomenon that the serpentine conduit is blocked by impurity accumulation, and further ensuring the normal development of cooling operation;

2. Through setting up the use of adjustment mechanism, can be with convenient the adjusting to suitable height of hydraulic diaphragm formula measuring pump, thereby can satisfy the demand that the use is carried out to different height, and then effectively improved the practicality of hydraulic diaphragm formula measuring pump, and can improve the height of hydraulic diaphragm formula measuring pump when the operation under high temperature environment, thereby play the purpose of keeping away from the heat source, and then effectively improved the high temperature resistance of hydraulic diaphragm formula measuring pump, in addition, for pump body power end and connection bottom plate's installation dismantlement have been convenient, thereby for the operation of user use has been provided convenience, and adjustment mechanism's recycle has been realized;

3. Through coupling mechanism's setting is used, for T type link and U type link's joint is fixed and is dismantled and provide convenience to for filter disc's change provides convenience, and then has ensured the normal development of water source filtration operation.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of the structure of the present invention.

FIG. 2 is a schematic view of an adjustment mechanism according to the present invention.

Fig. 3 is an enlarged schematic view of the structure a in fig. 2 according to the present invention.

Fig. 4 is an enlarged schematic view of the structure at B in fig. 2 according to the present invention.

Fig. 5 is an enlarged schematic view of the structure at C in fig. 2 according to the present invention.

Fig. 6 is a schematic diagram of fig. 5D according to the present invention.

FIG. 7 is a schematic view of an H-shaped rotor plate according to the present invention.

Fig. 8 is an enlarged schematic view of the structure at E in fig. 7 according to the present invention.

In the figure: 1. a pump body power end; 11. a U-shaped plug block; 2. a driving motor; 3. an adjusting mechanism; 31. a fixed bottom plate; 32. a first T-block; 33. a first rotating plate; 34. an H-shaped rotating plate; 35. a double-ended stud; 36. a second rotating plate; 37. a second T-block; 38. a connecting bottom plate; 39. installing an inner groove; 310. a first through slot; 311. a second through slot; 312. a first rotating lever; 313. a second rotating rod; 314. a first gear; 315. a second gear; 316. a wind-up roller; 317. pulling a pull rope; 318. traction pulling plate; 319. a return spring; 320. fixing the insert block; 321. driving a rotating wheel; 322. driving a rocker; 323. driving a hand wheel; 324. an anti-slip groove; 325. a limit sliding block; 326. limiting sliding grooves; 327. fixing the perforation; 4. a connecting body; 41. a serpentine inner tank; 5. a pump body hydraulic end; 6. an inlet check valve; 7. an outlet check valve; 8. a cooling mechanism; 81. a liquid storage tank body; 82. a refrigeration device; 83. driving a water pump; 84. a liquid inlet pipe body; 85. a liquid outlet pipe body; 86. an infusion hose; 87. a serpentine conduit; 88. a filter disc; 89. a fluid supplementing pipeline; 810. plugging a pipe cover; 811. a support chassis; 9. a connecting mechanism; 91. a U-shaped ring frame; 92. a T-shaped ring frame; 93. a lateral connecting transverse plate; 94. a third rotating rod; 95. connecting a rotating plate; 96. a reset torsion spring; 97. the rotating plate is driven.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Examples: as shown in fig. 1-8, the invention provides a high-temperature and high-pressure resistant hydraulic diaphragm metering pump, which comprises a pump body power end 1, wherein one side of the top end of the pump body power end 1 is provided with a matched driving motor 2, the bottom end of the pump body power end 1 is detachably provided with a matched regulating mechanism 3, one end of the pump body power end 1 is fixedly connected with a matched connecting body 4, one side of the connecting body 4, which is far away from the pump body power end 1, is provided with a matched pump body hydraulic end 5, the pump body hydraulic end 5 is provided with a matched inlet check valve 6 and an matched outlet check valve 7, the connecting body 4 is provided with a matched cooling mechanism 8 and a matched connecting mechanism 9, a medium and a hydraulic system which are conveyed in an isolated mode by adopting a metal sheet (such as titanium alloy material and hastelloy alloy material) can work under the working condition of high temperature and high pressure, and no leakage is generated during unit conveying, and the equipment reliability and safety are high.

The adjusting mechanism 3 comprises a fixed bottom plate 31, two ends of the fixed bottom plate 31 are respectively provided with a fixed perforation 327 which is matched with the fixed bottom plate 31, the fixed perforation 327 is in a symmetrical structure, the fixed bottom plate 31 is provided with a first T-shaped block 32 which is symmetrically arranged through the matched use of a fixed bolt and the fixed perforation 327, the top end of the fixed bottom plate 31 is fixedly provided with a first T-shaped block 32 which is rotationally sleeved with a first rotating plate 33, the tail end of the first rotating plate 33 is rotationally sleeved with an H-shaped rotating plate 34, two H-shaped rotating plates 34 are in threaded connection with studs 35, two ends of the studs 35 are respectively fixedly connected with a driving rotating wheel 321, a driving rocker 322 is rotationally sleeved on the driving rotating wheel 321, the driving rotating wheel 321 is matched with the driving rocker 322, the convenience is provided for the convenient rotation of the studs 35, the upper end of the H-shaped rotating plate 34 is rotationally sleeved with a second rotating plate 36 which is symmetrically distributed, the tail end of the second rotating plate 36 is rotatably inserted with a second T-shaped block 37, the top ends of the four second T-shaped blocks 37 are fixedly connected with a connecting bottom plate 38, the connecting bottom plate 38 is provided with a mounting inner groove 39, a first penetrating groove 310 and a second penetrating groove 311 which are matched for use, the mounting inner groove 39 is rotatably inserted with a first rotating rod 312 and a second rotating rod 313, the first rotating rod 312 is fixedly sleeved with a first gear 314, the bottom end of the first rotating rod 312 is fixedly sleeved with a driving hand wheel 323, the outer wall of the driving hand wheel 323 is provided with an anti-slip groove 324 distributed in an array, the driving hand wheel 323 is matched with the anti-slip groove 324 for use, the convenient rotation of the first rotating rod 312 is facilitated, the bottom end of the second rotating rod 313 is fixedly sleeved with a second gear 315, the second gear 315 is meshed with the first gear 314, the upper end of the second rotating rod 313 is fixedly sleeved with a winding roller 316, and fixedly connected with pull rope 317 on the wind-up roll 316, pull rope 317's one end activity runs through first groove 310 and at its terminal fixedly connected with pull arm 318, and pull arm 318 slides and inserts and establish in first groove 310, one side integrated into one piece of pull arm 318 has spacing slider 325, and connect and set up on the bottom plate 38 and wear the spacing spout 326 that the groove 310 is linked together, spacing slider 325 slides and inserts and establish in spacing spout 326, spacing slider 325 and the cooperation of spacing spout 326 are used, spacing and guide effect have been played in the removal regulation of pull arm 318, pull arm 317 is gone up the activity and has been cup jointed reset spring 319, and reset spring 319's both ends respectively with pull arm 318 and the inner wall fixed connection of first groove 310, pull arm 318 keeps away from pull arm 317's one side fixedly connected with fixed plug 320, and pump body power end 1's bottom four corners department all fixedly connected with U type plug 11, U type plug 11 can slide and insert in second groove 311, and fixed plug 320 can slide and wear the groove 311 and insert in the inboard of second groove 311.

Through the technical scheme, when the pump body is used, the fixed bottom plate 31 is connected and fixed through the cooperation of the fixed bolt and the fixed through hole 327, then the driving hand wheel 323 is rotated, so that the first rotating rod 312 can be driven to rotate, the first gear 314 can be driven to rotate, the four second gears 315 can be further driven to synchronously rotate, the corresponding winding roller 316 can be driven to rotate through the second rotating rod 313, the corresponding traction pull rope 317 can be gradually wound, the corresponding traction pull plate 318 and the fixed insert block 320 can be pulled to move and extrude the corresponding reset spring 319, then the bottom end of the pump body power end 1 is attached to the top end of the connecting bottom plate 38, at the moment, the four U-shaped insert blocks 11 at the bottom of the pump body power end 1 are inserted into the corresponding second through grooves 311, then the driving hand wheel 323 is loosened, at this time, the reset spring 319 will drive the corresponding traction pulling plate 318 to reset, thereby can drive the corresponding fixed plug 320 to reset, and then can make the fixed plug 320 insert the corresponding U type plug 11 inboard, further can be convenient fixed the hydraulic diaphragm type metering pump on the connection bottom plate 38, afterwards, arbitrary rotation one of them drive rocker 322, thereby can drive stud 35 through corresponding drive runner 321 and rotate, and then can drive two H type rotating plates 34 to do the back motion, further can drive first rotating plate 33 and second rotating plate 36 rotate and cooperate the use of first T type piece 32 and second T type piece 37 to drive connection bottom plate 38 to reciprocate, thereby can be convenient with the hydraulic diaphragm type metering pump upwards, unclamp corresponding drive rocker 322 when moving it to suitable height.

The cooling mechanism 8 includes stock solution box 81, stock solution box 81 and pump body power end 1 fixed connection, the top one side fixedly connected with symmetry that pump body power end 1 sets up supports chassis 811, and stock solution box 81 fixed mounting is on supporting chassis 811, the setting of supporting chassis 811 is used and is provided with fluid infusion pipeline 89 for the fixed mounting of stock solution box 81, and fluid infusion pipeline 89 can be dismantled on the fluid infusion pipeline 89 and sleeve closure tube cap 810, fluid infusion pipeline 89 and closure tube cap 810's cooperation is used, for the leading-in of the water source in stock solution box 81 provides convenience, and be equipped with refrigeration plant 82 and the drive water pump 83 that the cooperation was used in the inner chamber of stock solution box 81, refrigeration plant 82 can cool down the water source after the heat absorption, this is prior art, do not make too much, the lower extreme of drive water pump 83 is equipped with the feed liquor body 84 and the fluid pipe body 85 that the cooperation was used here, and fluid infusion pipe 85's lower extreme fixed interpolation is established on stock solution box 81 and at its end fixedly connected with 86, the bottom of fluid infusion pipeline 89 and the flexible pipe 87 is equipped with the inside of the flexible pipe 87, and the inside of the flexible pipe 87 is equipped with the flexible pipe 87, the inside is fixed connection's of the flexible pipe 87, the inside is equipped with the flexible pipe 87, the inside is fixed connection's the flexible pipe 41 is equipped with the inside the flexible pipe 41, the inside is fixed connection is equipped with the flexible pipe 87.

Through adopting above-mentioned technical scheme, during the use, the drive water pump 83 can be with the water source in the liquid storage box 81 in the liquid outlet pipe body 85 through feed liquor pipe body 84, the water source will be led into in the infusion hose 86 afterwards, filter the disc 88 and can intercept the impurity in the water source and will filter the water source after leading into serpentine pipe 87, afterwards, the water source in serpentine pipe 87 can absorb the heat of connector 4 department and will absorb the heat water source after leading into liquid storage box 81 and cool down, through setting up the use of cooling mechanism 8, can cool down connector 4 department, thereby can be used for preventing medium heat conduction to pump body power end 1, and then need not to set up the cooling facility in pump body power end 1 department, and do not set up the cooling facility in pump body power end 5 department, and cooling mechanism 8 is far away from pump body power end 5, not direct contact hydraulic oil, and then can guarantee that the medium of carrying can not dissimilate, moreover, filter the disc 88 can intercept impurity deposition blocks up serpentine pipe 87's phenomenon, and then guarantee that the cooling operation is normally carried out.

The coupling mechanism 9 includes U type link 91 and T type link 92, U type link 91 fixed cover is established in the end of snakelike pipe 87, and filter disc 88 can slide and insert the inboard of establishing at U type link 91, integrated into one piece has symmetrical distribution's flank diaphragm 93 on the U type link 91, and it has third bull stick 94 to rotate on the flank diaphragm 93 to peg graft, the fixed connection swivel plate 95 that has cup jointed in top of third bull stick 94, and the bottom fixedly connected with reset torsion spring 96 of connecting swivel plate 95, reset torsion spring 96 movable sleeve is established on third bull stick 94, and the bottom and the flank diaphragm 93 fixed connection of reset torsion spring 96, the top integrated into one piece of connecting swivel plate 95 has the drive swivel plate 97 that the cooperation was used, the setting of drive swivel plate 97 is used and is provided convenience for the convenient rotation of connecting swivel plate 95, and T type link 92 fixed cover is established at the end of infusion hose 86, T type link 92 can slide and insert on U type link 91, and the bottom of connecting swivel plate 95 can be laminated with the top slip of T type link 92.

Through adopting above-mentioned technical scheme, during the use, when needing to change the filter disc 88, the user needs two drive revolving plates 97 of synchronous rotation to can drive and correspond and connect revolving plate 95 rotation, and then can twist reverse corresponding reset torsion spring 96, take out U type ring frame 91 with T type ring frame 92 when connecting revolving plate 95 and T type ring frame 92 complete separation, later take out the filter disc 88 and change, later establish T type ring frame 92 again card on U type ring frame 91 and loosen drive revolving plate 97, reset torsion spring 96 will drive and correspond and connect revolving plate 95 reversal reset this moment, thereby can spacing fixed again with T type ring frame 92 and U type ring frame 91.

Working principle: when in use, the fixed bottom plate 31 is connected and fixed through the cooperation of the fixed bolt and the fixed through hole 327, then the driving hand wheel 323 is rotated, so that the first rotating rod 312 can be driven to rotate, then the first gear 314 can be driven to rotate, further the four second gears 315 can be driven to synchronously rotate, so that the corresponding winding roller 316 can be driven to rotate through the second rotating rod 313, further the corresponding traction pull rope 317 can be gradually wound, so that the corresponding traction pull plate 318 and the fixed insert block 320 can be pulled to move and press the corresponding reset spring 319, then the bottom end of the pump body power end 1 is attached to the top end of the connecting bottom plate 38, at the moment, the four U-shaped insert blocks 11 at the bottom of the pump body power end 1 are inserted into the corresponding second through grooves 311, then the driving hand wheel 323 is released, at the moment, the reset spring 319 can drive the corresponding traction pull plate 318 to reset, so that the corresponding fixed insert block 320 can be driven to reset, the fixed plug 320 can be inserted into the inner side of the corresponding U-shaped plug 11, the hydraulic diaphragm metering pump can be further fixed on the connecting bottom plate 38 conveniently, one of the driving rockers 322 is rotated at will, the stud 35 can be driven to rotate by the corresponding driving rotary wheel 321, the two H-shaped rotary plates 34 can be driven to do back movement, the first rotary plate 33 and the second rotary plate 36 can be driven to rotate and the connecting bottom plate 38 can be driven to move upwards by matching the use of the first T-shaped block 32 and the second T-shaped block 37, the hydraulic diaphragm metering pump can be moved upwards conveniently until the corresponding driving rockers 322 are released when the hydraulic diaphragm metering pump is moved to a proper height, then the inlet pipeline and the outlet pipeline are respectively connected and fixed with the inlet one-way valve 6 and the outlet one-way valve 7, the driving motor 2, the refrigerating equipment 82 and the driving water pump 83 are started, at the moment, the liquid medium can be metered and conveyed by the cooperation of the driving motor 2, the pump body power end 1, the connecting body 4 and the pump body hydraulic end 5;

During the period, the water source in the liquid storage box 81 can be led into the liquid outlet pipe body 85 through the liquid inlet pipe body 84, then the water source is led into the liquid delivery hose 86, then the filter disc 88 can intercept impurities in the water source and guide the filtered water source into the serpentine pipe 87, then the water source in the serpentine pipe 87 can absorb heat at the connecting body 4 and guide the heat absorbed water source into the liquid storage box 81 for cooling, the connecting body 4 can be cooled through the arrangement of the cooling mechanism 8, so that the heat of a medium can be prevented from being conducted to the pump body power end 1, a cooling facility is not required to be arranged at the pump body power end 1, the cooling facility is not arranged at the pump body power end 5, the cooling mechanism 8 is far away from the pump body power end 5 and is not directly contacted with hydraulic oil, so that the conveyed medium is not differentiated, in addition, the filter disc 88 can intercept the impurities, so that the phenomenon of blocking the serpentine pipe 87 due to impurity accumulation can be avoided, and the normal development of the cooling operation is guaranteed;

During the subsequent use, when the filter disc 88 needs to be replaced, the user needs to synchronously rotate the two driving rotating plates 97, so that the corresponding connecting rotating plates 95 can be driven to rotate, the corresponding reset torsion springs 96 can be twisted, when the connecting rotating plates 95 are completely separated from the T-shaped ring frames 92, the T-shaped ring frames 92 are pulled out of the U-shaped ring frames 91, the filter disc 88 is taken out for replacement, the T-shaped ring frames 92 are clamped on the U-shaped ring frames 91 again, the driving rotating plates 97 are loosened, and at the moment, the reset torsion springs 96 drive the corresponding connecting rotating plates 95 to reversely reset, so that the T-shaped ring frames 92 and the U-shaped ring frames 91 are limited and fixed again.

It will be apparent to those skilled in the art that various modifications and variations can be made to the present invention without departing from the spirit or scope of the invention. Thus, it is intended that the present invention also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims (10)

1. The utility model provides a high temperature resistant high pressure's hydraulic pressure diaphragm type metering pump, includes pump body power end (1), its characterized in that: the hydraulic pump is characterized in that a driving motor (2) matched with the pump body is arranged on one side of the top end of the pump body power end (1), an adjusting mechanism (3) matched with the pump body is detachably arranged at the bottom end of the pump body power end (1), one end of the pump body power end (1) is fixedly connected with a connecting body (4) matched with the pump body, one side, far away from the pump body power end (1), of the connecting body (4) is provided with a pump body hydraulic end (5) matched with the pump body power end, the pump body hydraulic end (5) is provided with an inlet check valve (6) and an outlet check valve (7) matched with the pump body hydraulic end, and the connecting body (4) is provided with a cooling mechanism (8) and a connecting mechanism (9) matched with the pump body;

The cooling mechanism (8) comprises a liquid storage box body (81), the liquid storage box body (81) is fixedly connected with a pump body power end (1), refrigerating equipment (82) and a driving water pump (83) which are matched with each other for use are arranged in an inner cavity of the liquid storage box body (81), a liquid inlet pipe body (84) and a liquid outlet pipe body (85) which are matched with each other for use are arranged at the lower end of the driving water pump (83), the lower end of the liquid outlet pipe body (85) is fixedly inserted on the liquid storage box body (81) and is fixedly connected with an infusion hose (86) at the tail end of the liquid storage box body (81), a snake-shaped guide pipe (87) is arranged at the bottom end of the liquid storage box body (81) in a communicating mode, a filtering disc (88) is detachably arranged between the tail end of the snake-shaped guide pipe (87) and the infusion hose (86), and the snake-shaped guide pipe (87) is fixedly inserted in the connecting body (4).

2. The high temperature and high pressure resistant hydraulic diaphragm metering pump of claim 1, wherein the regulating mechanism (3) comprises a fixed bottom plate (31), a first T-shaped block (32) which is symmetrically arranged is fixedly arranged at the top end of the fixed bottom plate (31), a first rotating plate (33) is rotatably sleeved on the first T-shaped block (32), an H-shaped rotating plate (34) is rotatably sleeved at the tail end of the first rotating plate (33), studs (35) are rotatably sleeved on the two H-shaped rotating plates (34) in a threaded manner, a second rotating plate (36) which is symmetrically distributed is rotatably sleeved at the upper end of the H-shaped rotating plate (34), a second T-shaped block (37) is rotatably sleeved at the tail end of the second rotating plate (36), a connecting bottom plate (38) is fixedly connected at the top end of the fourth second T-shaped block (37), an installation inner groove (39), a first penetrating groove (310) and a second penetrating groove (311) which are matched with each other are formed in the connecting bottom plate (38), a first rotating rod (312) is rotatably sleeved on the installation inner groove (39), a second rotating rod (312) is fixedly sleeved on the second rotating rod (313) and a second rotating rod (313) is fixedly sleeved on the second rotating rod (315), and fixedly connected with pulls stay cord (317) on wind-up pulley (316), the one end activity of pulling stay cord (317) runs through first wearing groove (310) and at its terminal fixedly connected with pull arm-tie (318), and pull arm-tie (318) slip is inserted and is established in first wearing groove (310), reset spring (319) have been cup jointed to the activity on pulling stay cord (317), and reset spring (319) both ends respectively with pull arm-tie (318) and first inner wall fixed connection who wears groove (310), one side fixedly connected with fixed insert (320) of pulling stay cord (317) are kept away from to pull arm-tie (318), and the equal fixedly connected with U type insert (11) in the bottom four corners department of pump body power end (1), U type insert (11) can slide and insert and establish in second wearing groove (311), and fixed insert (320) can slide and run through second wearing groove (311) and slide and insert the inboard of establishing in U type insert (11).

3. A high temperature and pressure resistant hydraulic diaphragm metering pump according to claim 2 wherein said studs (35) are fixedly connected at both ends to drive wheels (321), and wherein drive rockers (322) are rotatably inserted into said drive wheels (321).

4. The high temperature and high pressure resistant hydraulic diaphragm metering pump of claim 2, wherein the bottom end of the first rotary rod (312) is fixedly sleeved with a driving hand wheel (323), and the outer wall of the driving hand wheel (323) is provided with anti-slip grooves (324) distributed in an array.

5. The high temperature and high pressure resistant hydraulic diaphragm metering pump of claim 2, wherein a limit slider (325) is integrally formed on one side of the traction plate (318), a limit chute (326) which is communicated with the first through slot (310) is formed on the connecting bottom plate (38), and the limit slider (325) is slidably inserted into the limit chute (326).

6. A high temperature and high pressure resistant hydraulic diaphragm metering pump according to claim 2, wherein both ends of said fixed base plate (31) are provided with fixed through holes (327) for cooperation, and said fixed through holes (327) are of symmetrical structure.

7. A high temperature and pressure resistant hydraulic diaphragm metering pump according to claim 1 wherein said connector (4) has a serpentine internal groove (41) formed therein and wherein said serpentine conduit (87) is fixedly inserted into said serpentine internal groove (41).

8. The high-temperature and high-pressure resistant hydraulic diaphragm metering pump according to claim 7, wherein a fluid supplementing pipeline (89) is communicated with one side of the top end of the liquid storage tank body (81), and a plugging pipe cover (810) is detachably sleeved on the fluid supplementing pipeline (89).

9. A high temperature and high pressure resistant hydraulic diaphragm metering pump as claimed in claim 7 wherein said pump body power end (1) is fixedly connected on its top side with a symmetrically disposed support chassis (811), and said reservoir (81) is fixedly mounted on said support chassis (811).

10. The high-temperature and high-pressure resistant hydraulic diaphragm metering pump according to claim 7, wherein the connecting mechanism (9) comprises a U-shaped ring frame (91) and a T-shaped ring frame (92), the U-shaped ring frame (91) is fixedly sleeved at the tail end of the serpentine conduit (87), the filter disc (88) can be slidably inserted into the inner side of the U-shaped ring frame (91), side cross plates (93) which are symmetrically distributed are integrally formed on the U-shaped ring frame (91), a third rotating rod (94) is rotatably inserted on the side cross plates (93), the top end of the third rotating rod (94) is fixedly sleeved with a connecting rotating plate (95), the bottom end of the connecting rotating plate (95) is fixedly connected with a reset torsion spring (96), the bottom end of the reset torsion spring (96) is fixedly connected with the side cross plates (93), a driving rotating plate (97) which is integrally formed at the top end of the connecting rotating plate (95) is matched with the U-shaped ring frame, and the bottom end of the T-shaped ring frame (92) is fixedly sleeved on the T-shaped ring frame (92), and the top end of the T-shaped ring frame (92) can be slidably connected with the T-shaped ring frame (95).