CN220929691U - Descaling mechanism and condensate pump - Google Patents

Abstract

The utility model relates to the technical field of condensate pumps, in particular to a descaling mechanism and a condensate pump, which comprises a supporting part, wherein the supporting part comprises a base, the condensate pump is arranged at the top of the base, and a balance pipe is arranged at one end of the condensate pump.

Description

Descaling mechanism and condensate pump

Technical Field

The utility model relates to the technical field of condensate pumps, in particular to a descaling mechanism and a condensate pump.

Background

The condensate pump is used for conveying condensate in a condenser in a thermal power system, the water outlet part consists of a connecting pipe, a pump seat and the like, a transmission shaft of the pump passes through the center of the part, and liquid flowing out of a working part of the pump horizontally enters an external pressure pipeline of the pump after passing through the part.

When condensate pump live time overlength, the inner wall can adhere the dirt, when needs clear up inside dirt, generally all dismantle condensate pump's one end, the staff is clear up inside dirt with the hand, and the dirt of condensate pump depths is difficult to clear up and causes staff unnecessary burden moreover, and when live time overlength, need dismantle the clearance to the balance pipe, need change it in the in-process of dismantlement installation, but at the in-process of installation, generally all two are two to hold the balance pipe and install and fix through flange and fastening screw, the installation needs many people to increase staff's burden, and consume a large amount of time, therefore propose a descaling mechanism and condensate pump.

Disclosure of utility model

This section is intended to outline some aspects of embodiments of the utility model and to briefly introduce some preferred embodiments. Some simplifications or omissions may be made in this section as well as in the description of the utility model and in the title of the utility model, which may not be used to limit the scope of the utility model.

The utility model is provided in view of the above or the problem that the condensate pump needs to be disassembled for descaling in the prior art.

It is therefore an object of the present utility model to provide a scale removal mechanism.

In order to solve the technical problems, the utility model provides the following technical scheme: the descaling mechanism comprises a supporting part, a water pump, a balance pipe and a condenser, wherein the supporting part comprises a base, the water pump is arranged at the top of the base, the balance pipe is arranged at one end of the water pump, and the condenser is arranged at one side of the balance pipe; the descaling component comprises a stirring component arranged at one side of the condensate pump, a sliding component arranged in the condensate pump and a heating component arranged on the sliding component; the locking component comprises an extrusion component arranged on the sliding component, a tightening component arranged on the extrusion component and a locking component arranged on the tightening component.

As a preferable mode of the descaling mechanism of the utility model, wherein: the stirring assembly comprises a motor arranged at the top of the base, a stirring rod arranged at one side of the motor, stirring blades arranged on the stirring rod, and a water inlet arranged above the condensate pump.

As a preferable mode of the descaling mechanism of the utility model, wherein: the sliding component comprises a cavity arranged in the condensate pump, an opening arranged in the condensate pump, a heating bin arranged in the condensate pump, and a handle arranged on one side of the heating bin.

As a preferable mode of the descaling mechanism of the utility model, wherein: the heating assembly comprises a heating pipe arranged in the heating bin, a connecting rod arranged at one end of the heating bin, a groove arranged at one side of the condensate pump, an electrode plate arranged in the groove and at one side of the connecting rod, a wire arranged in the groove, and a storage battery arranged at the top of the base.

As a preferable mode of the descaling mechanism of the utility model, wherein: the extrusion assembly comprises a fixing frame arranged at one end of the handle, a sliding groove arranged in the fixing frame, a fixing block arranged at one side of the fixing frame, a sliding rod arranged in the fixing block, an extrusion plate arranged at one side of the sliding rod, an extrusion spring arranged at the bottom of the extrusion plate, an extrusion rod arranged at the top of the extrusion plate, grooves formed in two ends of the fixing frame and a moving rod arranged at one side of the extrusion plate and positioned in the grooves.

As a preferable mode of the descaling mechanism of the utility model, wherein: the tightening assembly comprises a connecting rod arranged on the moving rod, a sliding clamping rod arranged on the connecting rod, a tightening spring arranged at one end of the sliding clamping rod, a push rod arranged at one end of the sliding clamping rod and an arc-shaped groove arranged in the fixing frame.

As a preferable mode of the descaling mechanism of the utility model, wherein: the clamping assembly comprises clamping grooves arranged at two ends of the fixing frame, limiting blocks arranged at the bottom of the condensate pump and limiting grooves arranged at one ends of the clamping grooves.

The descaling mechanism has the beneficial effects that: according to the utility model, the heating bin is extracted from the cavity through the mutual matching of the extrusion component and the sliding component, the magnet is placed in the heating bin, the motor in the stirring component drives the stirring rod and the stirring blade to rotate so as to stir water, the heating pipe in the heating component is used for heating water, the water softens the water in the heating process, the magnetized water enables the movement of calcium magnesium and bicarbonate particles to change, the adhesion is destroyed, crystals become fine particles and are in loose crystal-shaped fluid sediment, dirt in the condensate pump is separated, the operation is convenient, and the condensate pump is not required to be disassembled and separated manually so as to remove dirt manually.

In view of the problems that in the actual use process, when the balance pipe is installed, a plurality of hands are needed to support, and the installation and the replacement are complicated.

In order to solve the technical problems, the utility model also provides the following technical scheme: the utility model provides a condensate pump, includes scale removal mechanism to and, fixed part, including set up in fastening assembly on the balance pipe, set up in rotating assembly on the fastening assembly, and set up in adjusting part on the fastening assembly.

As a preferable scheme of the condensate pump of the utility model, wherein: the fastening assembly comprises a first upper frame body arranged on the balance pipe, a first lower frame body arranged below the first upper frame body, a second upper frame body arranged on the balance pipe, a second lower frame body arranged on the balance pipe, a fixed arc plate arranged in the first lower frame body and the second lower frame body, a fixed inner rod arranged in the first upper frame body and the second upper frame body, a reset spring arranged in the fixed inner rod, a reset plate arranged at the bottom of the reset spring, a reset groove arranged on the reset plate, an adjusting groove arranged at the outer side of the fixed inner rod, a sliding arc plate arranged in the adjusting groove, a fixed column arranged at the top of the sliding arc plate, a rotating latch arranged in the fixed column, a limit spring arranged on one side of the rotating latch and an adjusting bolt arranged on the outer side of the fixed inner rod.

As a preferable scheme of the condensate pump of the utility model, wherein: the rotating assembly comprises a fixed groove arranged in the first lower frame body and the second lower frame body, a movable clamping plate arranged at one end of the first upper frame body and one end of the second upper frame body, and a fixed spring arranged at one side of the movable clamping plate; the adjusting component comprises adjusting rods arranged on two sides of the first lower frame body and the second lower frame body, adjusting screws arranged on one side of the sliding arc plate, adjusting inner rods arranged on one side of the first upper frame body, adjusting outer rods arranged on one side of the second upper frame body, and adjusting nuts arranged on one end of the adjusting outer rods.

The condensate pump has the beneficial effects that: through two sets of movable clamping plates in the manual extrusion rotating assembly, can fix first last framework and second lower frame, through pulling two sets of slip arc boards in the fastening assembly, make two sets of slip arc boards drive the reset plate and move in reset groove's inside, stretch reset spring when the reset plate removes to certain distance, make reset groove extrude two sets of rotation latches, rotate the latch and extrude stop spring, make two sets of slip arc boards and reset plate separation, when two sets of slip arc boards remove the fixed position of needs, extrude fixed inner rod through rotating two sets of adjusting bolt, make slip arc board fix, make two sets of fixed arc boards extrude the balance pipe with two sets of slip arc boards fixedly, need not many people and support by hand, alright dismantle the change to the balance pipe, easy operation.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the description of the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art. Wherein:

Fig. 1 is an overall schematic view of a scale removal mechanism.

Fig. 2 is a schematic view of another angle overall structure of the descaling mechanism.

Fig. 3 is a schematic structural view of a condensate pump of the descaling mechanism.

Fig. 4 is a cross-sectional view of a condensate pump of the scale removal mechanism.

Fig. 5 is a schematic diagram of the internal structure of the condensate pump of the descaling mechanism.

Fig. 6 is a schematic structural view of a heating assembly of the descaling mechanism.

Fig. 7 is a schematic structural view of the pressing assembly of the descaling mechanism.

Fig. 8 is a schematic view of the internal structure of the pressing assembly of the descaling mechanism.

Fig. 9 is a schematic structural view of a tightening assembly of the descaling mechanism.

Fig. 10 is an enlarged view of a portion a of the scale remover composition 5.

Fig. 11 is a schematic diagram of the overall structure of the condensate pump fixing assembly.

Fig. 12 is a schematic view of the overall structure of the condensate pump fixing assembly at another angle.

Fig. 13 is a schematic structural view of a condensate pump fastening assembly.

Fig. 14 is a schematic view of another angle of the condensate pump fastening assembly.

Fig. 15 is a schematic view of the internal structure of the condensate pump fastening assembly.

Fig. 16 is an internal cross-sectional view of the condensate pump fastening assembly.

Fig. 17 is an enlarged view of a portion B of fig. 16 of the condensate pump.

Detailed Description

In order that the above-recited objects, features and advantages of the present utility model will become more readily apparent, a more particular description of the utility model will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model, but the present utility model may be practiced in other ways other than those described herein, and persons skilled in the art will readily appreciate that the present utility model is not limited to the specific embodiments disclosed below.

Further, reference herein to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic can be included in at least one implementation of the utility model. The appearances of the phrase "in one embodiment" in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments.

Example 1

Referring to fig. 1 to 6, a first embodiment of the present utility model provides a scale removing mechanism capable of achieving an effect of removing scale from the interior of a condensate pump 102, which includes a support member 100 including a base 101, the condensate pump 102 disposed at the top of the base 101, a balance pipe 103 disposed at one end of the condensate pump 102, and a condenser 104 disposed at one side of the balance pipe 103; the descaling component 200 comprises a stirring assembly 201 arranged on one side of the condensate pump 102, a sliding assembly 202 arranged inside the condensate pump 102, and a heating assembly 203 arranged on the sliding assembly 202; the locking component 300 comprises a squeezing component 301 arranged on the sliding component 202, a tightening component 302 arranged on the squeezing component 301, and a locking component 303 arranged on the tightening component 302.

Specifically, the condensate pump 102 is fixedly arranged at the top of the base 101, one end of the condensate pump 102 is fixedly provided with a balance pipe 103, a plurality of groups of balance pipes 103 are arranged, and the other end of the balance pipe 103 is fixedly connected with the condenser 104.

Further, the stirring assembly 201 includes a motor 201a disposed at the top of the base 101, a stirring rod 201b disposed at one side of the motor 201a, a stirring blade 201c disposed on the stirring rod 201b, and a water inlet 201d disposed above the condensate pump 102; the sliding assembly 202 includes a cavity 202a disposed inside the condensate pump 102, an opening 202b disposed inside the condensate pump 102, a heating chamber 202c disposed inside the condensate pump 102, and a handle 202d disposed on one side of the heating chamber 202 c.

Wherein, the motor 201a is fixedly arranged at the top of the base 101, the motor 201a is arranged at one side of the condensate pump 102, the output end of the motor 201a is fixedly provided with a stirring rod 201b, the other end of the stirring rod 201b movably penetrates through the interior of the condensate pump 102, the other end of the stirring rod 201b is movably connected with the interior of the condensate pump 102, the outer side of the stirring rod 201b is fixedly provided with a stirring blade 201c, the stirring blade 201c is in a spiral structure, and the water inlet 201d is fixedly arranged at the top of the condensate pump 102;

the cavity 202a is arranged at the bottom in the condensate pump 102, a plurality of groups of openings 202b are arranged above the cavity 202a of the condensate pump 102, a heating bin 202c is movably connected in the cavity 202a, the heating bin 202c is of a semicircular arc structure, a handle 202d is fixedly arranged on one side, away from the motor 201a, of the heating bin 202c, and the handle 202d extends to the outer side of the condensate pump 102.

Preferably, the heating assembly 203 comprises a heating pipe 203a disposed inside a heating chamber 202c, a connecting rod 203b disposed at one end of the heating chamber 202c, a groove 203c disposed at one side of the condensate pump 102, an electrode plate 203d disposed inside the groove 203c and at one side of the connecting rod 203b, a wire 203e disposed inside the groove 203c, and a battery 203f disposed at the top of the base 101.

It should be noted that, the heating pipe 203a is fixedly disposed in the heating chamber 202c, the heating pipe 203a is multiple groups, the connecting rod 203b is fixedly disposed at two ends of one side of the heating chamber 202c, the electrode plate 203d is fixedly disposed at the outer side of the connecting rod 203b, the electrode plate 203d is connected with the heating pipe 203a in the heating chamber 202c through the wire 203e, the groove 203c is disposed at one side of the condensate pump 102, the groove 203c and the connecting rod 203b are on the same horizontal line, the homopolar electrode plate 203d is fixedly disposed at one side of the groove 203c and one side of the connecting rod 203b, the groove 203c, the connecting rod 203b and the electrode plate 203d are two groups, the battery 203f is fixedly disposed at the top of the base 101, the wire 203e is fixedly disposed in the groove 203c, the wire 203e is connected with the electrode plate 203d in the groove 203c, and the other end of the wire 203e movably extends through the interior of the condensate pump 102 to the outer side and is connected with the battery 203 f.

When the dirt inside the condensate pump 102 needs to be descaled, the heating bin 202c is pulled out from the inside of the cavity 202a, the magnet is placed in the heating bin 202c, the heating bin 202c is pushed into the inside of the cavity 202a by pushing the handle, the heating bin 202c drives the two groups of connecting rods 203b to move in the moving process, when the connecting rods 203b move into the groove 203c, the electrode plates 203d outside the connecting rods 203b are contacted with the motor 201a plates inside the groove 203c, water is poured into the condensate pump 102 from the water inlet 201d, the water inside the condensate pump 102 flows into the heating bin 202c through the opening 202b, the switch is turned on to enable the storage battery 203f to transmit current into the heating pipe 203a through the lead 203e, heating pipe 203a heats, the in-process of heating pipe 203a heats, through opening motor 201a, make the output of motor 201a drive puddler 201b and rotate, puddler 201b drives stirring leaf 201c and rotates at the in-process of rotation, make stirring leaf 201c drive water flow, the in-process of water flow, heating pipe 203a constantly heats water, make water softening through magnet, the motion of magnetized water messenger calcium magnesium and bicarbonate radical particle changes, the adhesion is destroyed, the crystalline becomes tiny granule, be loose crystal form fluid deposit, make the inside dirt of condensate pump 102 drop, make the inside of drop to heating storehouse 202c through trompil 202b, convenient for operation, need not the manual separation of dismantling of condensate pump 102, carry out manual descaling.

Example 2

Referring to fig. 7 to 10, in a second embodiment of the present utility model, unlike the previous embodiment, the present utility model provides a descaling mechanism for cleaning the scale removed, which includes a pressing assembly 301 including a fixing frame 301a provided at one end of a handle 202d, a sliding groove 301b provided inside the fixing frame 301a, a fixing block 301c provided at one side of the fixing frame 301a, a slide bar 301d provided inside the fixing block 301c, a pressing plate 301e provided at one side of the slide bar 301d, a pressing spring 301f provided at the bottom of the pressing plate 301e, a pressing rod 301g provided at the top of the pressing plate 301e, grooves 301h provided at both ends of the fixing frame 301a, and a moving rod 301i provided at one side of the pressing plate 301e located inside the grooves 301 h.

Specifically, the fixing frame 301a is fixedly arranged at the bottom of the handle 202d, the fixing frame 301a is positioned below the heating bin 202c, the sliding groove 301b is arranged in the fixing frame 301a, the fixing block 301c is fixedly arranged on one side of the fixing frame 301a, the sliding rod 301d is movably arranged in the fixing block 301c, and a sliding groove matched with the sliding rod 301d is arranged in the fixing block 301 c;

The slot 301h is arranged at two ends of the fixed frame 301a, the movable rod 301i is movably connected in the slot 301h, one side of the extrusion plate 301e is fixedly arranged at one side of the sliding rod 301d, the other side of the extrusion plate 301e is fixedly arranged at the top of the movable rod 301i, the extrusion spring 301f is fixedly arranged below the extrusion plate 301e, the other end of the extrusion spring 301f is fixedly connected with the fixed frame 301a, and the extrusion rod 301g is fixedly arranged at the top of the extrusion plate 301 e.

Further, the tightening assembly 302 includes a connecting rod 302a disposed on the moving rod 301i, a sliding clamping rod 302b disposed on the connecting rod 302a, a tightening spring 302c disposed at one end of the sliding clamping rod 302b, a push rod 302d disposed at one end of the sliding clamping rod 302b, and an arc-shaped slot 302e disposed inside the fixing frame 301 a; the locking assembly 303 comprises a clamping groove 303a arranged at two ends of the fixing frame 301a, a limiting block 303b arranged at the bottom of the condensate pump 102, and a limiting groove 303c arranged at one end of the limiting block 303b and positioned at one end of the clamping groove 303 a.

The connecting rod 302a is fixedly arranged on one side of the moving rod 301i, the connecting rod 302a is positioned in the sliding groove 301b, the movable clamping rods are movably sleeved on the outer side of the connecting rod 302a, two groups of movable clamping rods are positioned in the sliding groove 301b, and a contraction spring 302c is fixedly arranged on one side, adjacent to the two groups of movable clamping rods;

The ejector rod 302d is fixedly arranged at one end of the two groups of movable clamping rods far away from the tightening spring 302c, the arc-shaped groove 302e is arranged in the fixing frame 301a, the arc-shaped groove 302e and the two groups of ejector rods 302d are arranged on a horizontal line, the arc-shaped groove 302e is formed by two groups of the ejector rods 302d in a mutually matched mode, the inside of the arc-shaped groove 302e is arc-shaped, the two ends of the arc-shaped groove are of a high-low structure, one end of the ejector rod 302d extends into the arc-shaped groove 302e, the clamping groove 303a is arranged at the two ends of the fixing frame 301a, the clamping groove 303a is formed in two groups, the limiting block 303b is fixedly arranged at the bottom of the condensate pump 102, the limiting block 303b is arranged at the two ends of the clamping groove 303a, the limiting groove 303c is arranged at one end of the limiting block 303b close to the clamping groove 303a, the limiting groove 303c and the clamping groove 303a are arranged on the same horizontal line, and one end of the limiting groove 303c and the sliding clamping rod 302b are mutually clamped.

When the dirt after the descaling is required to be cleaned, a worker manually extrudes the extrusion rod 301g to extrude the extrusion plate 301e, the extrusion plate 301e extrudes the extrusion spring 301f, the extrusion plate 301e is moved in the extrusion process, the extrusion plate 301e drives the moving rod 301i to slide in the groove 301h in the moving process, the moving rod 301i slides to drive the two groups of sliding clamping rods 302b, the two groups of ejector rods 302d slide in the arc-shaped groove 302e in the sliding process, the ejector rods 302d extrude the two groups of ejector rods 302d through the cambered surfaces in the arc-shaped groove 302e when the ejector rods 302d slide to the highest point in the arc-shaped groove 302e, the two groups of ejector rods 302d extrude the two groups of sliding clamping rods 302b, the two groups of sliding clamping rods 302b slide outside the connecting rod 302a, the two groups of sliding clamping rods 302b extrude the compression springs 302c, the movement of the extrusion plate 301e drives the sliding rod 301d to slide in the fixed block 301c, when the sliding rod 301d moves to the highest point of the fixed block 301c, the two groups of sliding clamping rods 302b are gradually closed, the two groups of sliding clamping rods 302b are separated from the limiting grooves 303c in the limiting block 303b, the two ends of the two groups of sliding clamping blocks are contracted in the limiting grooves 303a through the movement of the extrusion plate 301e, the heating bin 202c can be pulled out of the cavity 202a through pulling the handle 202d, dirt dropping from the inner wall of the condensation water pump 102 in the heating bin 202c can be cleaned, after cleaning is finished, the two groups of sliding clamping rods 302b are contracted in the clamping grooves 303a through manual extrusion of the extrusion plate 301e, when the heating bin 202c moves to the bottommost end of the cavity 202a, the extrusion plate 301e is loosened, the extrusion spring 301f is reset, the extrusion plate 301e is extruded in the resetting process of the extrusion spring 301f, the extrusion plate 301e drives the moving rod 301i and the sliding clamping rod 302b to move, when the sliding clamping rod 302b drives the two groups of ejector rods 302d to move in the arc-shaped groove 302e in the moving process, when the ejector rods 302d move to the lowest end of the arc-shaped groove 302e, the compression springs 302c extrude the two groups of sliding clamping rods 302b, two ends of the two groups of sliding clamping rods 302b extend to the outer sides of the clamping grooves 303a, two ends of the two groups of sliding clamping rods 302b are clamped in the inner parts of the limiting grooves 303c, the heating bin 202c is fixed in the cavity 202a, and the heating bin 202c is prevented from being separated from the outer sides of the condensate pump 102 when the condensate pump 102 is operated.

Example 3

Referring to fig. 11 to 17, in a third embodiment of the present utility model, unlike the previous embodiment, the present utility model provides a condensate pump, which solves the problems of the need for manual support by a plurality of hands and complicated installation and replacement when installing a balance pipe, and includes a descaling mechanism in the above embodiment, which includes a fixing member 400 including a fastening assembly 401 provided on the balance pipe 103, a rotating assembly 402 provided on the fastening assembly 401, and an adjusting assembly 403 provided on the fastening assembly 401; the fastening assembly 401 includes a first upper frame 401a disposed on the balance pipe 103, a first lower frame 401b disposed below the first upper frame 401a, a second upper frame 401c disposed on the balance pipe 103, a second lower frame 401d disposed on the balance pipe 103, fixed arc plates 401e disposed in the first lower frame 401b and the second lower frame 401d, fixed inner rods 401f disposed in the first upper frame 401a and the second upper frame 401c, return springs 401g disposed in the fixed inner rods 401f, return plates 401h disposed at bottoms of the return springs 401g, return grooves 401i disposed on the return plates 401h, adjustment grooves 401j disposed outside the fixed inner rods 401f, sliding arc plates 401k disposed inside the adjustment grooves 401j, fixed posts 401m disposed at tops of the sliding arc plates 401k, rotating teeth 401n disposed inside the fixed posts 401m, retaining springs 401p disposed on one side of the rotating teeth 401n, and retaining bolts 401q disposed outside the adjustment bolts 401q disposed on the fixed inner rods 401 f.

Specifically, the first upper frame 401a is rotatably connected with one end of the first lower frame 401b, the second upper frame 401c is rotatably connected with one end of the second lower frame 401d, the fixed arc plates 401e are fixedly arranged at one ends of the first lower frame 401b and the second lower frame 401d, the fixed arc plates 401e are two groups, the fixed inner rods 401f are fixedly arranged at one ends of the first upper frame 401a and the second upper frame 401c, the fixed inner rods 401f are two groups, one ends of the reset springs 401g are fixedly arranged in the fixed inner rods 401f, the other ends of the reset springs 401g are fixedly arranged at one end of the reset plates 401h, the reset springs 401g and the reset plates 401h are two groups, the reset grooves 401i are arranged at one end of the reset plates 401h, and the reset grooves 401i are one group;

The adjusting groove 401j is arranged on the outer side of the fixed inner rod 401f, a sliding arc plate 401k is movably arranged in the adjusting groove 401j, one end of the sliding arc plate 401k movably penetrates through the outer side of the fixed inner rod 401f, two groups of sliding arc plates 401k are arranged, one end of the sliding arc plate 401k is provided with two groups of fixing columns 401m matched with the resetting groove 401i, two groups of fixing columns 401m are movably arranged in the fixing columns 401m, two groups of rotating clamping teeth 401n are movably arranged in the fixing columns, one sides of the two groups of rotating clamping teeth 401n are fixedly connected through limiting springs 401p, an adjusting bolt 401q is rotatably connected on the outer side of the fixed inner rod 401f through threads, and the number of the adjusting bolts 401q is two.

Further, the rotating assembly 402 includes a fixed slot 402a disposed inside the first lower frame 401b and the second lower frame 401d, a movable clamping plate 402b disposed at one end of the first upper frame 401a and one end of the second upper frame 401c, and a fixed spring 402c disposed at one side of the movable clamping plate 402 b; the adjusting unit 403 includes adjusting rods 403a provided on both sides of the first lower frame 401b and the second lower frame 401d, adjusting screws 403b provided on one side of the sliding arc plate 401k, adjusting inner rods 403c provided on one side of the first upper frame 401a, adjusting outer rods 403d provided on one side of the second upper frame 401c, and adjusting nuts 403e provided on one end of the adjusting outer rods 403 d.

The first upper frame 401a is rotatably connected with one end of the first lower frame 401b, the second upper frame 401c is rotatably connected with one end of the second lower frame 401d, the other ends of the first upper frame 401a and the second upper frame 401c are movably provided with two movable clamping plates 402b, the movable clamping plates 402b are two groups, fixed springs 402c are fixedly arranged in the two groups of movable clamping plates 402b, and fixed grooves 402a matched with the two groups of movable clamping plates 402b are formed in one ends of the first lower frame 401b and the second lower frame 401 d;

The adjusting rod 403a is fixedly arranged at two sides of the first lower frame 401b and the second lower frame 401d, the adjusting rod 403a can adjust the internal length, the adjusting screw 403b is fixedly arranged at one side of the two groups of sliding arc plates 401k, the adjusting screw 403b can adjust the internal length, the adjusting outer rod 403d is fixedly arranged at one side of the second upper frame 401c, one end of the adjusting inner rod 403c is movably arranged at the inner side of the adjusting outer rod 403d, the other end of the adjusting inner rod 403c movably penetrates through the outer side of the adjusting outer rod 403d, the adjusting inner rod 403c extends to the outer side of the adjusting outer rod 403d and is connected with the first upper frame 401a, and the adjusting nut 403e is in threaded rotation connection with one side of the adjusting outer rod 403 d.

When the balance tube 103 needs to be replaced, the gap between the two groups of sliding arc plates 401k and the fixed inner rod 401f is adjusted by manually rotating the two groups of adjusting bolts 401q, the two groups of sliding arc plates 401k are moved in the adjusting groove 401j of the fixed inner rod 401f by manually pushing the two groups of sliding arc plates 401k, when one end of the two groups of sliding arc plates 401k is close to the reset plate 401h, the reset plate 401h is used for extruding the two groups of sliding arc plates 401k by manually extruding the two groups of reset plate 401h, in the extruding process, the fixed column 401m is penetrated into the reset groove 401i, in the penetrating process of the fixed column 401m, the reset plate 401h is used for extruding the two groups of rotating clamping teeth 401n, so that the two groups of rotating clamping teeth 401n are extruded in the rotating process, the two groups of limiting springs 401p are contracted into the inner part of the fixed column 401m, when the fixed column 401m is completely penetrated into the inner part of the reset groove 401i, the two sets of rotating clamping teeth 401n are rotated to clamp the reset plate 401h through the limiting spring 401p, the two sets of sliding arc plates 401k can be driven to slide in the fixed inner rod 401f through the reset spring 401g, the two sets of sliding arc plates 401k are separated from the two sets of fixed arc plates 401e, at the moment, the two sets of movable clamping plates 402b are extruded to fix the spring 402c through extruding the two sets of movable clamping plates 402b, the fixed spring 402c drives the two sets of movable clamping plates 402b to be close in the extrusion process, the two sets of movable clamping plates 402b are separated from the fixed groove 402a, at the moment, the first upper frame 401a and the second upper frame 401c can be separated from the first lower frame 401b and the second lower frame 401d through upward rotation of the first upper frame 401a and the second upper frame 401c, at the moment, the balance tube 103 can be put on the top of the two sets of fixed arc plates 401e, the first upper frame 401a and the second upper frame 401c are pulled through rotation of the adjusting nut 403e, the adjusting rod 403a and the adjusting screw 403b are extended, the distance between the first upper frame 401a and the second upper frame 401c can be adjusted, after the adjustment is finished, the first upper frame 401a and the second upper frame 401c are rotated, the two groups of movable clamping plates 402b are pressed, the first upper frame 401a and the second lower frame 401d can be fixed, at the moment, the two groups of sliding arc plates 401k are pulled, the sliding arc plates 401k drive the reset plates 401h to move in reset grooves 401i, the reset springs 401g are stretched in the moving process, the reset springs 401g reversely stretch the sliding arc plates 401k, at the moment, the reset grooves 401i press the two groups of rotating clamping teeth 401n, the rotating clamping teeth 401n press the limiting springs 401p, the two groups of sliding arc plates 401k are separated from the two groups of reset plates 401h, when the two groups of sliding arc plates 401k move to a position needing to be fixed, the two groups of adjusting bolts q press the fixed inner rods 401f, the sliding plates 401k are driven to move in the reset grooves 401i, the two groups of sliding arc plates 103 are fixed, and the two groups of sliding arc plates are not required to be balanced, and the two groups of arc plates are required to be fixed, and the tube supporting plates are required to be balanced, and the tube supporting operation can be easily removed.

It is important to note that the construction and arrangement of the utility model as shown in the various exemplary embodiments is illustrative only. Although only a few embodiments have been described in detail in this disclosure, those skilled in the art who review this disclosure will readily appreciate that many modifications are possible (e.g., variations in sizes, dimensions, structures, shapes and proportions of the various elements, values of parameters (e.g., temperature, pressure, etc.), mounting arrangements, use of materials, colors, orientations, etc.) without materially departing from the novel teachings and advantages of the subject matter described in this application. For example, elements shown as integrally formed may be constructed of multiple parts or elements, the position of elements may be reversed or otherwise varied, and the nature or number of discrete elements or positions may be altered or varied. Accordingly, all such modifications are intended to be included within the scope of present utility model. The order or sequence of any process or method steps may be varied or re-sequenced according to alternative embodiments. In the claims, any means-plus-function clause is intended to cover the structures described herein as performing the recited function and not only structural equivalents but also equivalent structures. Other substitutions, modifications, changes and omissions may be made in the design, operating conditions and arrangement of the exemplary embodiments without departing from the scope of the present utility models. Therefore, the utility model is not limited to the specific embodiments, but extends to various modifications that nevertheless fall within the scope of the appended claims.

Furthermore, in order to provide a concise description of the exemplary embodiments, all features of an actual implementation may not be described (i.e., those not associated with the best mode presently contemplated for carrying out the utility model, or those not associated with practicing the utility model).

It should be appreciated that in the development of any such actual implementation, as in any engineering or design project, numerous implementation-specific decisions may be made. Such a development effort might be complex and time consuming, but would nevertheless be a routine undertaking of design, fabrication, and manufacture for those of ordinary skill having the benefit of this disclosure.

It should be noted that the above embodiments are only for illustrating the technical solution of the present utility model and not for limiting the same, and although the present utility model has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solution of the present utility model may be modified or substituted without departing from the spirit and scope of the technical solution of the present utility model, which is intended to be covered in the scope of the claims of the present utility model.

Claims (10)

1. A descaling mechanism, characterized in that: comprising the steps of (a) a step of,

The support component (100) comprises a base (101), a condensate pump (102) arranged at the top of the base (101), a balance pipe (103) arranged at one end of the condensate pump (102), and a condenser (104) arranged at one side of the balance pipe (103);

The descaling component (200) comprises a stirring assembly (201) arranged on one side of the condensate pump (102), a sliding assembly (202) arranged inside the condensate pump (102), and a heating assembly (203) arranged on the sliding assembly (202);

The locking component (300) comprises an extrusion component (301) arranged on the sliding component (202), a tightening component (302) arranged on the extrusion component (301), and a locking component (303) arranged on the tightening component (302).

2. The descaling mechanism of claim 1, wherein: the stirring assembly (201) comprises a motor (201 a) arranged at the top of the base (101), a stirring rod (201 b) arranged at one side of the motor (201 a), stirring blades (201 c) arranged on the stirring rod (201 b), and a water inlet (201 d) arranged above the condensate pump (102).

3. The descaling mechanism of claim 2, wherein: the sliding assembly (202) comprises a cavity (202 a) arranged in the condensate pump (102), an opening (202 b) arranged in the condensate pump (102), a heating bin (202 c) arranged in the condensate pump (102), and a handle (202 d) arranged on one side of the heating bin (202 c).

4. A descaling mechanism according to claim 3 wherein: the heating assembly (203) comprises a heating pipe (203 a) arranged in a heating bin (202 c), a connecting rod (203 b) arranged at one end of the heating bin (202 c), a groove (203 c) arranged at one side of the condensate pump (102), an electrode plate (203 d) arranged in the groove (203 c) and at one side of the connecting rod (203 b), a lead (203 e) arranged in the groove (203 c), and a storage battery (203 f) arranged at the top of the base (101).

5. The descaling mechanism of claim 3 or 4, wherein: the extrusion assembly (301) comprises a fixing frame (301 a) arranged at one end of a handle (202 d), a sliding groove (301 b) arranged in the fixing frame (301 a), a fixing block (301 c) arranged at one side of the fixing frame (301 a), a sliding rod (301 d) arranged in the fixing block (301 c), an extrusion plate (301 e) arranged at one side of the sliding rod (301 d), an extrusion spring (301 f) arranged at the bottom of the extrusion plate (301 e), an extrusion rod (301 g) arranged at the top of the extrusion plate (301 e), grooves (301 h) arranged at two ends of the fixing frame (301 a) and a moving rod (301 i) arranged at one side of the extrusion plate (301 e) and positioned in the grooves (301 h).

6. The descaling mechanism of claim 5, wherein: the tightening assembly (302) comprises a connecting rod (302 a) arranged on a moving rod (301 i), a sliding clamping rod (302 b) arranged on the connecting rod (302 a), a tightening spring (302 c) arranged at one end of the sliding clamping rod (302 b), a top rod (302 d) arranged at one end of the sliding clamping rod (302 b), and an arc-shaped groove (302 e) arranged in the fixing frame (301 a).

7. The descaling mechanism of claim 6, wherein: the clamping assembly (303) comprises clamping grooves (303 a) arranged at two ends of the fixing frame (301 a), limiting blocks (303 b) arranged at the bottom of the condensate pump (102), and limiting grooves (303 c) arranged at one ends of the clamping grooves (303 a) of the limiting blocks (303 b).

8. A condensate pump, characterized in that: comprising a scale removal mechanism as claimed in any one of claims 1 to 7, and

The fixing component (400) comprises a fastening assembly (401) arranged on the balance pipe (103), a rotating assembly (402) arranged on the fastening assembly (401), and an adjusting assembly (403) arranged on the fastening assembly (401).

9. The condensate pump of claim 8, wherein: the fastening assembly (401) comprises a first upper frame body (401 a) arranged on the balance pipe (103), a first lower frame body (401 b) arranged below the first upper frame body (401 a), a second upper frame body (401 c) arranged on the balance pipe (103), a second lower frame body (401 d) arranged on the balance pipe (103), a fixed arc plate (401 e) arranged in the first lower frame body (401 b) and the second lower frame body (401 d), a fixed inner rod (401 f) arranged in the first upper frame body (401 a) and the second upper frame body (401 c), a reset spring (401 g) arranged in the fixed inner rod (401 f), a reset plate (401 h) arranged at the bottom of the reset spring (401 g), a reset groove (401 i) arranged on the reset plate (401 h), an adjusting groove (401 j) arranged on the outer side of the fixed inner rod (401 f), a fixed clamp plate (401 e) arranged in the first lower frame body (401 b) and the second lower frame body (401 d), a fixed clamp plate (401 f) arranged in the fixed inner rod (401 f) arranged in the fixed clamp plate (401 c), a fixed clamp plate (401 m) arranged on the outer side of the fixed clamp plate (401 m), and a fixed clamp plate (401 m) arranged on the fixed clamp plate (401 m).

10. The condensate pump of claim 9, wherein: the rotating assembly (402) comprises a fixed groove (402 a) arranged in a first lower frame (401 b) and a second lower frame (401 d), a movable clamping plate (402 b) arranged at one end of the first upper frame (401 a) and one end of the second upper frame (401 c), and a fixed spring (402 c) arranged at one side of the movable clamping plate (402 b); the adjusting assembly (403) comprises adjusting rods (403 a) arranged on two sides of a first lower frame body (401 b) and a second lower frame body (401 d), adjusting screws (403 b) arranged on one side of a sliding arc plate (401 k), an adjusting inner rod (403 c) arranged on one side of the first upper frame body (401 a), an adjusting outer rod (403 d) arranged on one side of the second upper frame body (401 c), and an adjusting nut (403 e) arranged on one end of the adjusting outer rod (403 d).