CN111735327A

CN111735327A - Fluid heat exchange equipment

Info

Publication number: CN111735327A
Application number: CN202010612183.8A
Authority: CN
Inventors: 顾艳波
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-06-29
Filing date: 2020-06-29
Publication date: 2020-10-02

Abstract

The invention relates to heat exchange equipment, in particular to fluid heat exchange equipment which comprises a heat exchange mechanism, a filtering mechanism and a wastewater treatment mechanism, wherein the equipment can perform fluid heat exchange, the equipment can utilize fluid power to realize the addition of ice blocks, the equipment can filter heat exchange water, the equipment can clean filter residues and extrude the filter residues at the same time, the heat exchange mechanism is connected with the filtering mechanism, the filtering mechanism is connected with the wastewater treatment mechanism, and the wastewater treatment mechanism is connected with the heat exchange mechanism.

Description

Fluid heat exchange equipment

Technical Field

The invention relates to heat exchange equipment, in particular to fluid heat exchange equipment.

Background

In the field of fluid heat exchange, the traditional heat exchange equipment has the phenomenon of power waste, cannot utilize kinetic energy generated by fluid in the flowing process, and after the service life is prolonged, pollutants are increased to reduce the heat exchange efficiency of the equipment, so the fluid heat exchange equipment is designed.

Disclosure of Invention

The invention mainly solves the technical problem of providing fluid heat exchange equipment, the equipment can exchange heat with fluid, the equipment can utilize fluid power to realize the addition of ice blocks, the equipment can filter heat exchange water, and the equipment can extrude filter residues while cleaning the filter residues.

In order to solve the technical problem, the invention relates to heat exchange equipment, in particular to fluid heat exchange equipment which comprises a heat exchange mechanism, a filtering mechanism and a wastewater treatment mechanism, wherein the equipment can exchange heat with fluid, the equipment can utilize fluid power to realize the addition of ice blocks, the equipment can filter heat exchange water, and the equipment can extrude filter residues while cleaning the filter residues.

The heat exchange mechanism is connected with the filtering mechanism, the filtering mechanism is connected with the wastewater treatment mechanism, and the wastewater treatment mechanism is connected with the heat exchange mechanism.

As a further optimization of the technical scheme, the heat exchange mechanism of the fluid heat exchange equipment comprises a base, a supporting leg, a water inlet tank, a water inlet pipe with a flange plate, a cam shaft, a cam A, a driven seat with a square column, an ice cube transfer box, an ice cube box, a threaded plug, a heat exchange inlet pipe with a flange, an inlet box, a heat exchange box, a water outlet pipe, a water return pipe with a flange, a water tank, a motor seat, a supporting leg A, a connecting seat with a square column, a waist groove, a hinged arm, a raised seat, a hinged joint, a heat exchange outlet pipe with a flange, a buffer box, a heat exchange connecting pipe, a spring, a discharge port, a connecting square pipe, a check block, a communicating groove, a sliding cavity, a middle opening, a check block A, a communicating groove A, an inlet, a square hole, a stepped square hole A, a spring A, a pushing seat, a connecting square column, a square hole B, Landing leg B, take square column passive seat A, the back landing leg, connecting square pipe A, the base links to each other with the landing leg, the landing leg links to each other with the case of intaking, the case of intaking links to each other with the ring flange inlet tube, the cam links to each other with the camshaft, the camshaft is connected for the bearing with the connected mode of case of intaking, cam A contacts with taking square column passive seat, ice-cube transfer case links to each other with connecting square pipe, connecting square pipe links to each other with the ice-cube case, the discharge port is with ice-cube transfer case, connecting square pipe, the ice-cube case communicates, the spring housing is on taking square column passive seat, the spring supports on taking square column passive seat, the ice-cube transfer case, take square column passive seat and square hole sliding connection, the square hole sets up on ice-cube transfer case, the dog links to each other with square column passive seat, the intercommunication groove sets up on the dog, dog and sliding chamber sliding connection, the sliding chamber sets up in the ice-cube transfer case, the, The middle opening is communicated with a step square hole A which is connected with a stop block A in a sliding way, a communicating groove A is arranged on the stop block A, the step square hole A is arranged on an ice block transfer box, an adding port is arranged on the ice block transfer box and is communicated with a water inlet tank, the water inlet tank is connected with the ice block transfer box, a spring A is sleeved on a driven seat A with a square column, the driven seat A with the square column is connected with the step square hole A in a sliding way, the driven seat A with the square column is contacted with a cam, the ice block tank is connected with a threaded plug in a threaded way, a heat exchange inlet pipe with a flange is connected with an inlet tank, the inlet tank is connected with a heat exchange tank, the heat exchange tank is connected with a connecting square pipe A, the connecting square pipe A is connected with the water inlet tank, the heat exchange tank is connected with a water outlet pipe, the water outlet pipe is connected with a water return pipe with the flange, a water tank and a motor seat are both connected with, the connecting seat with the square column is connected with the seat with the protrusion, the seat with the protrusion is connected with the waist groove in a sliding manner, the waist groove is arranged on a hinged arm, the hinged arm is hinged with a hinged seat, the hinged seat is connected with an ice cube transfer box, the hinged arm is hinged with a hinged head, the hinged head is connected with a connecting square column, the connecting square column is connected with a square hole B in a sliding manner, the square hole B is arranged on a water inlet box, a spring B is sleeved on the connecting square column, the spring B abuts against the water inlet box and a driven seat A, the driven seat A is connected with the connecting square column, the driven seat A is contacted with a cam B, the cam B is connected with a cam shaft, the cam shaft is connected with a driven impeller, the driven impeller is arranged in the water inlet box, two ends of a heat exchange connecting pipe are respectively connected with an inlet box and a buffer box, a heat exchange outlet pipe with a flange is connected with the buffer box, the connecting seat with the square, the promotion spring housing is on taking the square column connecting seat, and the promotion spring supports on ice-cube box, taking the square column connecting seat, and the baffle-box links to each other with landing leg B, and landing leg B links to each other with the base, and the ice-cube box links to each other with back landing leg, and back landing leg links to each other with the base.

As a further optimization of the technical scheme, the wastewater treatment mechanism of the fluid heat exchange equipment comprises a driven plate, a piston rod, a push-pull box, an inlet pipe I with a flange, an inlet check valve, a bifurcated pipe, a perforated connecting plate, a water bucket seat, an inclined bucket, a connecting pipe I, a filter box, a sewage outlet pipe, a bearing seat B, a hinged door, a special-shaped support, an extrusion box with supporting legs, a push rod, a hinged arm A, a step limiting column, a perforated seat A, a hydraulic cylinder support, a hydraulic cylinder, a hydraulic rod, a limiting seat, a square column A, a square hole I, a cleaning rod seat, a cleaning rod, a cleaning port, a stepping motor, a coupler B, a filter disc, a filter hole, a buffer tank, a cleaning outlet pipe, a spring I, a water outlet one-way valve, a piston, an extrusion spring and an extrusion seat, wherein the driven plate is in contact with the cam I, the driven plate is connected with the piston rod, the spring I is abutted against the driven plate and the push-pull box, a piston rod is connected with the push-pull box in a sliding way, the piston rod is connected with a piston, the piston is connected with the push-pull box in a sliding way, the push-pull box is connected with a flanged inlet pipe I, an inlet check valve is arranged in the flanged inlet pipe I, the push-pull box is connected with a bifurcated pipe, the bifurcated pipe is connected with a perforated connecting plate, the perforated connecting plate is connected with a water bucket, the water bucket is connected with a water bucket seat, the water bucket seat is connected with a water tank, the water bucket is connected and communicated with an inclined bucket, the inclined bucket is communicated with a filter box by the connecting pipe I, the filter box is connected with a sewage outlet pipe, the sewage outlet pipe is concentric with the connecting pipe I, a bearing seat B is connected with the filter box, a hinged door is hinged with the extrusion box with the supporting legs, the perforated seat is connected with the extrusion box with the supporting legs, a perforated seat, the extrusion box with the supporting legs is connected with a base, a push rod is connected with the extrusion box with the supporting legs in a sliding mode and hinged to a hinged arm A, the hinged arm A is hinged to a limiting seat, a special-shaped support is connected with the base, a special-shaped support is connected with a hydraulic cylinder support, the hydraulic cylinder support is connected with the hydraulic cylinder, the hydraulic cylinder is connected with a hydraulic rod, the hydraulic rod is connected with the limiting seat, the limiting seat is connected with a square column A, the square column A is connected with a square hole I in a sliding mode, the square hole I is formed in the special-shaped support, the square column A is connected with a cleaning rod seat, the cleaning rod seat is connected with a cleaning rod, a cleaning port is formed in a filter box, a stepping motor is connected with a coupler B, the coupler B is connected with a filter disc, the filter disc is connected with the filter box in a bearing mode, buffer grooves are symmetrically formed in the filter disc and are communicated with the filter holes, the filter holes are formed in, The filter box communicates, and step motor links to each other with the motor cabinet, and the clearance mouth is with clearance exit tube concentric, goes out the setting of water check valve and takes the bifurcation intraductal, and extrusion spring cover is on the catch bar, and extrusion spring supports on extrusion seat, take the landing leg extrusion incasement wall, and the extrusion seat links to each other with the catch bar, and extrusion seat sliding connection takes the landing leg extrusion incasement.

As a further optimization of the technical scheme, the heat insulation material is arranged on the inner wall of the ice cube box of the fluid heat exchange equipment.

The fluid heat exchange equipment has the beneficial effects that:

according to the fluid heat exchange equipment, fluid heat exchange can be carried out, the equipment can utilize fluid power to realize the addition of ice blocks, the equipment can filter heat exchange water, and the equipment can extrude filter residues while cleaning the filter residues.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic structural diagram of a fluid heat exchange device according to the present invention.

Fig. 2 is a schematic structural diagram of a fluid heat exchange device according to the present invention.

Fig. 3 is a schematic structural diagram three of a fluid heat exchange device of the present invention.

Fig. 4 is a schematic structural diagram of a fluid heat exchange device according to the present invention.

Fig. 5 is a schematic structural diagram of a fluid heat exchange device according to a fifth embodiment of the present invention.

Fig. 6 is a schematic structural diagram six of a fluid heat exchange device of the present invention.

Fig. 7 is a first structural schematic diagram of a heat exchange mechanism 1 of a fluid heat exchange device of the present invention.

Fig. 8 is a schematic structural diagram ii of a heat exchange mechanism 1 of a fluid heat exchange device according to the present invention.

Fig. 9 is a schematic structural diagram three of a heat exchange mechanism 1 of a fluid heat exchange device of the present invention.

Fig. 10 is a schematic structural diagram of a heat exchange mechanism 1 of a fluid heat exchange device according to the present invention.

Fig. 11 is a schematic structural diagram five of a heat exchange mechanism 1 of a fluid heat exchange device of the present invention.

Fig. 12 is a schematic structural diagram six of the heat exchange mechanism 1 of the fluid heat exchange device of the present invention.

Fig. 13 is a schematic structural diagram seven of a heat exchange mechanism 1 of a fluid heat exchange device of the present invention.

Fig. 14 is a schematic structural diagram eight of the heat exchange mechanism 1 of the fluid heat exchange device of the present invention.

Fig. 15 is a schematic structural diagram nine of a heat exchange mechanism 1 of a fluid heat exchange device of the present invention.

Fig. 16 is a schematic structural diagram ten of a heat exchange mechanism 1 of a fluid heat exchange device of the present invention.

Fig. 17 is a schematic structural diagram eleven of a heat exchange mechanism 1 of a fluid heat exchange device of the present invention.

Fig. 18 is a first structural schematic diagram of the filter mechanism 2 of the fluid heat exchange device of the invention.

Fig. 19 is a schematic structural diagram of a filtering mechanism 2 of a fluid heat exchange device according to the second embodiment of the present invention.

Fig. 20 is a third schematic structural diagram of the filtering mechanism 2 of the fluid heat exchange device of the present invention.

Fig. 21 is a fourth schematic structural diagram of the filtering mechanism 2 of the fluid heat exchange device of the present invention.

Fig. 22 is a schematic structural diagram five of the filtering mechanism 2 of the fluid heat exchange device of the present invention.

Fig. 23 is a schematic structural diagram of a wastewater treatment mechanism 3 of a fluid heat exchange device.

Fig. 24 is a schematic structural diagram ii of a wastewater treatment mechanism 3 of a fluid heat exchange device according to the present invention.

Fig. 25 is a third schematic structural diagram of the wastewater treatment mechanism 3 of the fluid heat exchange device of the invention.

Fig. 26 is a fourth schematic structural diagram of the wastewater treatment mechanism 3 of the fluid heat exchange device.

Fig. 27 is a schematic structural diagram five of the wastewater treatment mechanism 3 of the fluid heat exchange device.

Fig. 28 is a schematic structural diagram six of the wastewater treatment mechanism 3 of the fluid heat exchange device.

In the figure: a heat exchange mechanism 1; a base 1-1; 1-2 of supporting legs; 1-3 of a water inlet tank; 1-4 of a water inlet pipe with a flange plate; 1-5 of a cam; 1-6 parts of a camshaft; cam a 1-7; 1-8 of a driven seat with a square column; 1-9 of an ice block transfer box; 1-10 of ice cube boxes; 1-11 parts of a threaded plug; 1-12 of heat exchange inlet pipe with flange; entering a box 1-13; heat exchange boxes 1-14; a water outlet pipe 1-15; 1-16 parts of a water return pipe with a flange; 1-17 of a water tank; 1-18 of a motor base; leg A1-19; 1-20 parts of a connecting seat with square columns; 1-21 parts of a waist groove; articulated arms 1-22; 1-23 with convex base; hinge mounts 1-24; joints 1-25; heat exchange outlet pipes 1 to 26 with flanges; buffer tanks 1-27; heat exchange connecting pipes 1-28; springs 1-29; discharge ports 1 to 30; connecting the square pipes 1-31; 1-32 of a stop block; 1-33 of a communicating groove; sliding chambers 1-34; middle openings 1-35; the block A1-36; the communication groove A1-37; inlets 1-38; 1-39 of square hole; a stepped square hole A1-40; springs A1-41; pushing seats 1-42; connecting square columns 1-43; square holes B1-44; springs B1-45; a passive seat A1-46; cams B1-47; passive impellers 1-48; pushing springs 1-49; legs B1-50; a square column driven seat A1-51; rear legs 1-52; connecting the square tubes A1-53; a filter mechanism 2; flange A2-1; bending the pipe 2-2; 2-3 of a pipe fixing seat; 2-4 of an acceleration box; 2-5 of a box seat; 2-6 of a bearing seat; 2-7 of belt pulleys; 2-8 parts of a belt; 2-9 parts of a transmission belt pulley; bearing seat A2-10; supporting seat A2-11; a belt shaft transmission belt pulley A2-12; belt A2-13; passive pulleys 2-14; a cam I2-15; bearing seats I2-16; 2-17 of a transmission shaft; bevel gears 2-18; bevel gears 2-19 with shafts; 2-20 parts of a roller; 2-21 parts of a filter plate; roller A2-22; roller B2-23; belts B2-24; 2-25 of a coupler; 2-26 of a motor; 2-27 parts of a water tank; 2-28 parts of a pressurizing motor; bearing seats II 2-29; a coupler A2-30; 2-31 parts of water tank supporting legs; pushing the water wheels 2-32; connecting shafts A2-33; 2-34 of a drainage one-way valve; connecting bent pipes 2-35; a wastewater treatment means 3; a passive plate 3-1; a piston rod 3-2; 3-3 of a push-pull box; a flanged inlet pipe I3-4; entering a one-way valve 3-5; 3-6 of a branched pipe; 3-7 of a perforated connecting plate; 3-8 of a water bucket; 3-9 parts of a water bucket seat; 3-10 parts of an inclined bucket; connecting pipe I3-11; 3-12 parts of a filter box; a sewage outlet pipe 3-13; bearing seat B3-14; hinged doors 3-15; 3-16 parts of a special-shaped support; 3-17 of an extrusion box with supporting legs; push rods 3-18; articulated arm A3-19; 3-20 parts of a step limiting column; 3-21 parts of a seat with a hole; a perforated base A3-22; the hydraulic cylinder supports 3-23; 3-24 parts of a hydraulic cylinder; 3-25 of a hydraulic rod; 3-26 parts of a limiting seat; square column A3-27; square holes I3-28; 3-29 parts of cleaning rod seats; 3-30 parts of cleaning rod; cleaning ports 3-31; 3-32 parts of a stepping motor; couplings B3-33; 3-34 of filter discs; 3-35 parts of filter holes; buffer tanks 3-36; cleaning the outlet pipes 3-37; springs I3-38; 3-39 of a water outlet one-way valve; 3-40 parts of a piston; 3-41 parts of an extrusion spring; and 3-42 parts of a pressing seat.

Detailed Description

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1 to 28, and the invention relates to a heat exchange device, and more specifically to a fluid heat exchange device, which comprises a heat exchange mechanism 1, a filtering mechanism 2 and a wastewater treatment mechanism 3, wherein the device can perform fluid heat exchange, the device can utilize fluid power to realize the addition of ice blocks, the device can filter heat exchange water, and the device can squeeze filter residues while cleaning the filter residues.

The heat exchange mechanism 1 is connected with the filtering mechanism 2, the filtering mechanism 2 is connected with the wastewater treatment mechanism 3, and the wastewater treatment mechanism 3 is connected with the heat exchange mechanism 1.

The second embodiment is as follows:

the following describes the present embodiment with reference to fig. 1 to 28, and the present embodiment further describes the first embodiment, where the heat exchange mechanism 1 includes a base 1-1, legs 1-2, a water inlet tank 1-3, a water inlet pipe 1-4 with a flange, a cam 1-5, a cam shaft 1-6, a cam a1-7, a driven seat 1-8 with a square column, an ice cube transfer tank 1-9, an ice cube tank 1-10, a threaded plug 1-11, a heat exchange inlet pipe 1-12 with a flange, an inlet tank 1-13, a heat exchange tank 1-14, a water outlet pipe 1-15, a water return pipe 1-16 with a flange, a water tank 1-17, a motor seat 1-18, legs a1-19, a square column connecting seat 1-20 with a flange, a waist groove 1-21, a hinge arm 1-22, and a hinge arm 1-23 with a protrusion seat, 1-24 parts of hinged seats, 1-25 parts of hinged joints, 1-26 parts of flanged heat exchange outlet pipes, 1-27 parts of buffer tanks, 1-28 parts of heat exchange connecting pipes, 1-29 parts of springs, 1-30 parts of discharge ports, 1-31 parts of connecting square pipes, 1-32 parts of stop blocks, 1-33 parts of communicating grooves, 1-34 parts of sliding cavities, 1-35 parts of middle openings, 1-36 parts of stop blocks A1-36 parts of communicating grooves A1-37 parts of inlet ports, 1-38 parts of square holes, 1-39 parts of square holes, 1-40 parts of stepped square holes A1-40 parts of springs A1-41 parts of push seats, 1-42 parts of connecting square columns, 1-43 parts of square holes B1-44 parts of springs B1-45 parts of driven seats A1-46 parts of cams B1-47 parts of driven impellers, 1-48 parts of push springs, 1-49 parts of supporting legs B3550 parts of, Rear supporting legs 1-52, a connecting square tube A1-53, a base 1-1 is connected with supporting legs 1-2, the supporting legs 1-2 are connected with a water inlet tank 1-3, the water inlet tank 1-3 is connected with a water inlet tube 1-4 with a flange, a cam 1-5 is connected with a cam shaft 1-6, the cam shaft 1-6 is connected with the water inlet tank 1-3 by a bearing, the cam shaft 1-6 is connected with a cam A1-7, the cam A1-7 is contacted with a driven seat 1-8 with a square column, an ice block transfer box 1-9 is connected with a connecting square tube 1-31, the connecting square tube 1-31 is connected with an ice block box 1-10, an outlet 1-30 is used for communicating the ice block transfer box 1-9, the connecting square tube 1-31 and the ice block box 1-10, a spring 1-29 is sleeved on the driven seat 1-8 with the square column, the springs 1-29 are supported on the square pillar passive seat 1-8 and the ice block transfer box 1-9, the square pillar passive seat 1-8 is connected with the square hole 1-39 in a sliding way, the square hole 1-39 is arranged on the ice block transfer box 1-9, the stopper 1-32 is connected with the square pillar passive seat 1-8, the communicating groove 1-33 is arranged on the stopper 1-32, the stopper 1-32 is connected with the sliding cavity 1-34 in a sliding way, the sliding cavity 1-34 is arranged in the ice block transfer box 1-9, the sliding cavity 1-34 is communicated with the discharging port 1-30 and the middle opening 1-35, the middle opening 1-35 is communicated with the stepped square hole A1-40, the stepped square hole A1-40 is connected with the stopper A1-36 in a sliding way, the communicating groove A1-37 is arranged on the A1-36, the stepped square hole A1-40 is arranged on an ice block transfer box 1-9, the adding port 1-38 is arranged on the ice block transfer box 1-9, the adding port 1-38 is communicated with the water inlet box 1-3, the water inlet box 1-3 is connected with the ice block transfer box 1-9, the spring A1-41 is sleeved on the driven seat A1-51 with the square column, the driven seat A1-51 with the square column is connected with the stepped square hole A1-40 in a sliding way, the driven seat A1-51 with the square column is contacted with the cam 1-5, the ice block box 1-10 is connected with the threaded plug 1-11 in a threaded way, the heat exchange inlet pipe 1-12 with a flange is connected with the inlet box 1-13, the inlet box 1-13 is connected with the heat exchange box 1-14, the heat exchange box 1-14 is connected with the connecting square pipe A1-53, the connecting square pipe A1-53 is connected with the water inlet box 1-3, heat exchange box 1-14 is connected with water outlet pipe 1-15, water outlet pipe 1-15 is connected with return water pipe 1-16 with flange, water tank 1-17 and motor base 1-18 are connected with base 1-1, inlet box 1-13 is connected with supporting leg A1-19, supporting leg A1-19 is connected with base 1-1, connecting base 1-20 with square column is connected with base 1-23 with projection, base 1-23 with projection is connected with kidney slot 1-21 in sliding mode, kidney slot 1-21 is set on hinge arm 1-22, hinge arm 1-22 is hinged with hinge base 1-24, hinge base 1-24 is connected with transfer box 1-9, hinge arm 1-22 is hinged with hinge head 1-25, hinge head 1-25 is connected with connecting square column 1-43, connecting square columns 1-43 are connected with square holes B1-44 in a sliding mode, the square holes B1-44 are arranged on a water inlet tank 1-3, springs B1-45 are sleeved on the connecting square columns 1-43, springs B1-45 are abutted against the water inlet tank 1-3 and a driven seat A1-46, the driven seat A1-46 is connected with the connecting square columns 1-43, the driven seat A1-46 is in contact with a cam B1-47, the cam B1-47 is connected with a cam shaft 1-6, the cam shaft 1-6 is connected with a driven impeller 1-48, the driven impeller 1-48 is arranged in the water inlet tank 1-3, two ends of a heat exchange connecting pipe 1-28 are respectively connected with an inlet tank 1-13 and a buffer tank 1-27, heat exchange pipes 1-26 with flanges are connected with the buffer tank 1-27, a connecting seat 1-20 with the square columns is connected with a pushing seat 1-42, the pushing seat 1-42 is connected with the ice box 1-10 in a sliding way, the connecting seat 1-20 with the square column is connected with the ice box 1-10 in a sliding way, the pushing spring 1-49 is sleeved on the connecting seat 1-20 with the square column, the pushing spring 1-49 is abutted against the ice box 1-10 and the connecting seat 1-20 with the square column, the buffer box 1-27 is connected with the supporting leg B1-50, the supporting leg B1-50 is connected with the base 1-1, the ice box 1-10 is connected with the rear supporting leg 1-52, the rear supporting leg 1-52 is connected with the base 1-1, when water flows through the water inlet box 1-3, the driven impeller 1-48 is driven to rotate, the driven impeller 1-48 drives the cam shaft 1-6 to rotate, the cam shaft 1-6 drives the cam 1-5 and the cam A1-7 to rotate synchronously, because the direction of the cams 1-5 and the cams A1-7 is opposite, the direction of the movement of the square column driven seat 1-8 is opposite to the direction of the movement of the square column driven seat A1-51, when the cams A1-7 drive the square column driven seat 1-8 to move so that the springs 1-29 are compressed to the extreme positions, the communication grooves 1-33 are communicated with the discharge ports 1-30, the ice in the ice box 1-10 drops, the communication grooves A1-37 are staggered with the middle openings 1-35, when the springs 1-29 recover deformation, the cams 1-5 drive the square column driven seat A1-51 to compress the springs A1-41, when the springs A1-41 are compressed to the extreme positions, the communication grooves 1-33 are staggered with the discharge ports 1-30, the middle openings 1-35 are communicated with the communication grooves A1-37, the ice blocks falling down before enter the water inlet tank 1-3 from the middle opening 1-35, the communicating groove A1-37 and the adding opening 1-38, the ice blocks can continuously repeat the falling process due to the continuous rotation of the cam shaft 1-6, and the stop blocks 1-32 and A1-36 can move relative to the water inlet tank 1-3 in the process, so that the ice blocks are sheared to a certain extent, the ice blocks are crushed into small blocks, the small blocks are converged into the water inlet tank 1-3 and then enter the heat exchange tank 1-14 for heat exchange, and a better heat exchange effect is achieved.

The third concrete implementation mode:

the following describes the present embodiment with reference to fig. 1 to 28, and the present embodiment further describes the first embodiment, where the filter mechanism 2 includes a flange a2-1, a bent pipe 2-2, a pipe fixing seat 2-3, an acceleration box 2-4, a box seat 2-5, a bearing seat 2-6, a belt pulley 2-7, a belt 2-8, a driving belt pulley 2-9, a bearing seat a2-10, a support seat a2-11, a belt shaft driving belt pulley a2-12, a belt a2-13, a driven belt pulley 2-14, a cam I2-15, a bearing seat I2-16, a driving shaft 2-17, a bevel gear 2-18, a shaft bevel gear 2-19, a roller 2-20, a filter plate 2-21, a roller a2-22, a roller B2-23, a belt B2-24, a belt B2, 2-25 parts of a coupler, 2-26 parts of a motor, 2-27 parts of a water tank, 2-28 parts of a pressurizing motor, 2-29 parts of a bearing seat II, A2-30 parts of a coupler, 2-31 parts of water tank supporting legs, 2-32 parts of a pushing water wheel, A2-33 parts of a connecting shaft, 2-34 parts of a sewer check valve and 2-35 parts of a connecting bent pipe, wherein a flange A2-1 is connected with a water inlet pipe 1-4 with a flange plate, a flange A2-1 is connected with a bent pipe 2-2, the bent pipe 2-2 is connected with a pipe fixing seat 2-3, the pipe fixing seat 2-3 is connected with a base 1-1, the bent pipe 2-2 is connected with an acceleration box 2-4, the acceleration box 2-4 is connected with a box seat 2-5, the box seat 2-5 is connected with the base 1-1, the belt pulleys 2-7 are in frictional connection with the belt 2-8, the belt 2-8 is in frictional connection with the transmission belt pulley 2-9, the transmission belt pulley 2-9 is in connection with the belt shaft transmission belt pulley A2-12, the belt shaft transmission belt pulley A2-12 is in connection with the bearing seat A2-10 through a bearing, the bearing seat A2-10 is in connection with the supporting seat A2-11, the belt shaft transmission belt pulley A2-12 is in frictional connection with the belt A2-13, the belt A2-13 is in frictional connection with the driven belt pulley 2-14, the driven belt pulley 2-14 is in connection with the belt shaft bevel gear 2-19, the belt shaft bevel gear 2-19 is in connection with the supporting seat A2-11 through a bearing, the belt shaft bevel gear 2-19 is meshed with the bevel gear 2-18, the bevel gear 2-18 is in connection with the transmission, the connection mode of the transmission shafts 2-17 and the bearing seats I2-16 is bearing connection, the bearing seats I2-16 and the supporting seats A2-11 are connected, the transmission shafts 2-17 and the cams I2-15 are connected, the connection mode of the rollers 2-20 and the water tanks 2-27 is bearing connection, the connection mode of the rollers A2-22 and the water tanks 2-27 is bearing connection, the connection mode of the rollers B2-23 and the water tanks 2-27 is bearing connection, the friction connection of the rollers 2-20 and the belts B2-24 is adopted, the friction connection of the rollers A2-22 and the belts B2-24 is adopted, the friction connection of the rollers B2-23 and the belts B2-24 is adopted, the filter plates 2-21 and the belts B2-24 are adopted, the rollers B2-23 and the motors 2-26 are connected through shaft couplings 2-25, the motors 2-26 and the water tanks 2-27, the pressurizing motor 2-28 is connected with a connecting shaft A2-33 through a coupling A2-30, the pressurizing motor 2-28 is connected with a base 1-1, the connecting shaft A2-33 is connected with a pushing water wheel 2-32, the pushing water wheel 2-32 is arranged in an acceleration box 2-4, a bearing seat II2-29 is arranged on the acceleration box 2-4, the bearing seat II2-29 is connected with the connecting shaft A2-33 in a bearing mode, the connecting shaft A2-33 is connected with a bearing seat 2-6 in a bearing mode, a water tank 2-27 is connected with a water tank supporting leg 2-31, the water tank supporting leg 2-31 is connected with the base 1-1, a connecting elbow 2-35 is used for communicating the water tank 2-27 and the acceleration box 2-4, a drain one-way valve 2-34 is arranged in the connecting elbow 2-35, the belt pulley 2-7 is connected with the connecting shaft A2-33, before the device is used, the heat exchange inlet pipe 1-12 with the flange is connected with an inlet pipe of liquid needing heat exchange, the heat exchange outlet pipe 1-26 with the flange is connected with a receiving pipe of the liquid needing heat exchange, then the water tank 2-27, the bent pipe 2-2, the acceleration box 2-4 and the connecting bent pipe 2-35 are filled with water, the inlet pipe I3-4 with the flange is externally connected with a water pipe, the pressurizing motor 2-28 is operated to drive the coupling A2-30 to rotate, the rotating direction is anticlockwise rotation seen from the pressurizing motor 2-28 to the coupling A2-30, the coupling A2-30 can drive the water wheel 2-32 to rotate, the water wheel 2-32 can be pushed to play a role in pushing water, and therefore the connecting bent pipe 2-35, Water in the acceleration box 2-4 flows towards the direction of the bent pipe 2-2, at the moment, water in the water tank 2-27 can rush through the lower water one-way valve 2-34 to be supplemented into the connecting bent pipe 2-35, then the water can enter the water inlet box 1-3 from the water inlet pipe 1-4 with the flange plate and then enter the heat exchange box 1-14, liquid needing heat exchange enters the inlet box 1-13 from the heat exchange inlet pipe 1-12 with the flange plate, then flows into the buffer box 1-27 through the heat exchange connecting pipe 1-28 and then flows away from the heat exchange outlet pipe 1-26 with the flange plate, and when the liquid passes through the heat exchange connecting pipe 1-28, the liquid can exchange heat with the water in the heat exchange box 1-14, so that the heat exchange function is completed.

The fourth concrete implementation mode:

the following describes the present embodiment with reference to fig. 1 to 28, and the present embodiment further describes the first embodiment, wherein the wastewater treatment mechanism 3 includes a driven plate 3-1, a piston rod 3-2, a push-pull box 3-3, a flanged inlet pipe I3-4, an inlet check valve 3-5, a branched pipe 3-6, a perforated connecting plate 3-7, a water bucket 3-8, a water bucket seat 3-9, a sloping bucket 3-10, a connecting pipe I3-11, a filter box 3-12, a sewage outlet pipe 3-13, a bearing seat B3-14, a hinged door 3-15, a special-shaped support 3-16, a squeezing box with supporting legs 3-17, a push rod 3-18, a hinged arm A3-19, a ladder limiting column 3-20, a perforated seat 3-21, a perforated seat A3-22, a stepped limiting column 3-20, a stepped limiting column 3-21, a perforated, 3-23 parts of hydraulic cylinder support, 3-24 parts of hydraulic cylinder, 3-25 parts of hydraulic rod, 3-26 parts of limiting seat, a square column A3-27, a square hole I3-28, 3-29 parts of cleaning rod seat, 3-30 parts of cleaning rod, 3-31 parts of cleaning port, 3-32 parts of stepping motor, 3-33 parts of coupling B3-33, 3-34 parts of filter disc, 3-35 parts of filter hole, 3-36 parts of buffer groove, 3-37 parts of cleaning outlet pipe, 3-38 parts of spring I3-38, 3-39 parts of water outlet one-way valve, 3-40 parts of piston, 3-41 parts of extrusion spring and 3-42 parts of extrusion seat, wherein the driven plate 3-1 is contacted with a cam I2-15, the driven plate 3-1 is connected with a piston rod 3-2, the spring I3-38 is sleeved on the piston rod 3-2, and the spring I3-38 is, A push-pull box 3-3, a piston rod 3-2 is connected with the push-pull box 3-3 in a sliding way, the piston rod 3-2 is connected with a piston 3-40, the piston 3-40 is connected with the push-pull box 3-3 in a sliding way, the push-pull box 3-3 is connected with a flanged inlet pipe I3-4 in a sliding way, an inlet one-way valve 3-5 is arranged in a flanged inlet pipe I3-4, the push-pull box 3-3 is connected with a branched pipe 3-6, the branched pipe 3-6 is connected with a perforated connecting plate 3-7, the perforated connecting plate 3-7 is connected with a water bucket 3-8, the water bucket 3-8 is connected with a water bucket seat 3-9, the water bucket seat 3-9 is connected with a water tank 2-27, the water bucket 3-8 is connected with an inclined bucket 3-10 and communicated with the inclined bucket 3-12 through a connecting pipe I3-11, the inclined bucket, the filter box 3-12 is connected with the sewage outlet pipe 3-13, the sewage outlet pipe 3-13 is concentric with the connecting pipe I3-11, the bearing seat B3-14 is connected with the filter box 3-12, the hinged door 3-15 is hinged with the extrusion box with supporting legs 3-17, the perforated seat 3-21 is connected with the extrusion box with supporting legs 3-17, the perforated seat A3-22 is connected with the hinged door 3-15, the step spacing column 3-20 is connected with the perforated seat 3-21 in a sliding way, the step spacing column 3-20 is connected with the perforated seat A3-22 in a sliding way, the extrusion box with supporting legs 3-17 is connected with the base 1-1, the push rod 3-18 is connected with the extrusion box with supporting legs 3-17 in a sliding way, the push rod 3-18 is hinged with the hinged arm A3-19, the hinged arm A3-19 is hinged with the spacing seat 3-26, the special-shaped support 3-16 is connected with the base 1-1, the special-shaped support 3-16 is connected with the hydraulic cylinder support 3-23, the hydraulic cylinder support 3-23 is connected with the hydraulic cylinder 3-24, the hydraulic cylinder 3-24 is connected with the hydraulic rod 3-25, the hydraulic rod 3-25 is connected with the limiting seat 3-26, the limiting seat 3-26 is connected with the square column A3-27, the square column A3-27 is connected with the square hole I3-28 in a sliding manner, the square hole I3-28 is arranged on the special-shaped support 3-16, the square column A3-27 is connected with the cleaning rod seat 3-29, the cleaning rod seat 3-29 is connected with the cleaning rod 3-30, the cleaning port 3-31 is arranged on the filter box 3-12, the stepping motor 3-32 is connected with the coupling B3-33, the coupling B3-33 is connected with the filter disc 3-34, the filter disc 3-34 is connected with the filter box 3-12 by a bearing, the filter disc 3-34 is symmetrically provided with buffer grooves 3-36, the buffer grooves 3-36 are communicated with filter holes 3-35, the filter holes 3-35 are arranged on the filter disc 3-34, a cleaning outlet pipe 3-37 is used for communicating the extrusion box 3-17 with supporting legs and the filter box 3-12, a stepping motor 3-32 is connected with a motor base 1-18, a cleaning port 3-31 is concentric with the cleaning outlet pipe 3-37, a water outlet one-way valve 3-39 is arranged in a branched pipe 3-6, an extrusion spring 3-41 is sleeved on a push rod 3-18, the extrusion spring 3-41 is abutted against the extrusion seat 3-42 and the inner wall of the extrusion box 3-17 with the supporting legs, the extrusion seat 3-42 is connected with the push rod 3-18, the extrusion seats 3-42 are connected in the extrusion box 3-17 with the supporting legs in a sliding way, water after heat exchange flows back into the water tank 2-27 from the water return pipe 1-16 with the flange, the running motor 2-26 drives the coupling 2-25 to rotate, the rotating direction is clockwise rotation seen from the motor 2-26 to the coupling 2-25, the coupling 2-25 drives the roller B2-23 to rotate, the roller B2-23 drives the belt B2-24 to move, the belt B2-24 drives the filter plate 2-21 to move, so that the water flowing back from the water return pipe 1-16 with the flange can be filtered, meanwhile, the water in the water tank 2-27 is filtered, when the pressurizing motor 2-28 rotates, the belt pulley 2-7 can be driven by the rotation of the connecting shaft A2-33, the belt pulley 2-7 drives the belt 2-8, the transmission belt pulley 2-9, the belt shaft transmission belt pulley A2-12, the belt A2-13, the driven belt pulley 2-14, the belt shaft bevel gear 2-19, the bevel gear 2-18 and the transmission cam I2-15 of the transmission shaft 2-17 to rotate, the cam I2-15 drives the driven plate 3-1 to compress the spring I3-38, then the spring I3-38 drives the driven plate 3-1 to reset, so that the driven plate 3-1 drives the piston 3-40 to reciprocate through the piston rod 3-2, when the piston 3-40 moves towards the direction that the spring I3-38 is compressed, the piston 3-40 pressurizes the water pre-stored in the push-pull box 3-3, and the water in the push-pull box 3-3 pushes out the water one-way branching valve 3-39 and then passes through the belt shaft transmission belt pulley 3-13 and the driven plate 3-1 to compress the water 6, when the piston 3-40 moves reversely, the pressure in the push-pull box 3-3 is reduced, water in a water pipe externally connected to the inlet pipe I3-4 with a flange is flushed to enter the one-way valve 3-5 to be supplemented to enter the push-pull box 3-3, the water continuously flows out from the branch pipe 3-6 to flush the filter plate 2-21 after being filtered, the flushed water with filtered impurities falls into the water bucket 3-8 and then flows away through the inclined bucket 3-10, the water flows into the connecting pipe I3-11 from the inclined bucket 3-10 and then enters the filter box 3-12, is filtered through the filter holes 3-35 and then is discharged into the water tank 1-17 from the sewage outlet pipe 3-13, when the filter holes 3-35 are blocked, the stepping motor 3-32 is operated to drive the coupler B3-33 to rotate for a quarter of a circle, the coupler B3-33 can drive the filter disc 3-34 to rotate for a quarter of a circle, so that a new filter hole 3-35 can be filtered, when the new filter hole 3-35 is blocked again, the stepping motor 3-32 is operated again to drive the coupler B3-33 to rotate for a quarter of a circle, so that when the filter hole 3-35 which is blocked for the first time rotates for a half of a circle and is aligned with the cleaning port 3-31, hydraulic oil is injected into the hydraulic cylinder 3-24 to drive the hydraulic rod 3-25 to move downwards, the hydraulic rod 3-25 moves downwards to drive the limiting seat 3-26 to move downwards, the limiting seat 3-26 can drive the cleaning rod 3-30 to move through the square column A3-27 and the cleaning rod seat 3-29, the cleaning rod 3-30 can be inserted into the filter hole 3-35 to eject silt blockage into the extrusion box with supporting legs 3-17, then, hydraulic oil is reversely injected into the hydraulic cylinders 3-24 to drive the cleaning rods 3-30 to reset, the limiting seats 3-26 can drive the push rods 3-18 to reciprocate through the hinged arms A3-19 in the up-and-down movement process, the push rods 3-18 can drive the extrusion seats 3-42 to reciprocate, the extrusion seats 3-42 can extrude the sludge barriers which are continuously cleaned, the subsequent recovery is facilitated, the step limiting columns 3-20 are upwards pulled out when the recovery is needed, and then the hinged doors 3-15 are opened for recovery.

The fifth concrete implementation mode:

the present embodiment will be described with reference to fig. 1 to 28, and the present embodiment will further describe the first embodiment in which a heat insulating material is provided on the inner wall of the ice box 1-10.

The working principle of the device is as follows: the equipment can carry out fluid heat exchange, before the equipment is used, a heat exchange inlet pipe 1-12 with a flange is connected with an inlet pipe of liquid needing heat exchange, a heat exchange outlet pipe 1-26 with a flange is connected with a receiving pipe of the liquid needing heat exchange, then water is filled in a water tank 2-27, a bent pipe 2-2, an acceleration box 2-4 and a connecting bent pipe 2-35, the inlet pipe I3-4 with the flange is externally connected with a water pipe, a pressurizing motor 2-28 is operated to drive a coupler A2-30 to rotate, the rotating direction is anticlockwise rotation seen from the pressurizing motor 2-28 to the coupler A2-30, the coupler A2-30 can drive a water wheel 2-32 to rotate, the water wheel 2-32 can be pushed to play a role in pushing water, so that the water in the connecting bent pipe 2-35 and the acceleration box 2-4 flows towards the bent pipe 2-2, at the moment, water in the water tank 2-27 can flush the drain check valve 2-34 and be supplemented into the connecting elbow pipe 2-35, then the water can enter the water inlet tank 1-3 from the water inlet pipe 1-4 with the flange plate and then enter the heat exchange tank 1-14, liquid needing heat exchange enters the tank 1-13 from the heat exchange inlet pipe 1-12 with the flange plate, then flows into the buffer tank 1-27 through the heat exchange connecting pipe 1-28, then flows away from the heat exchange outlet pipe 1-26 with the flange plate, and can exchange heat with the water in the heat exchange tank 1-14 when passing through the heat exchange connecting pipe 1-28, so that the heat exchange function is completed; the device can utilize fluid power to add ice blocks, when water flows through the water inlet tank 1-3, the driven impeller 1-48 can be driven to rotate, the driven impeller 1-48 can drive the cam shaft 1-6 to rotate, the cam shaft 1-6 can drive the cam 1-5 and the cam A1-7 to synchronously rotate, the direction of the cam 1-5 and the cam A1-7 is opposite, so that the moving direction of the driven seat 1-8 with the square column is opposite to that of the driven seat A1-51 with the square column, when the cam A1-7 drives the driven seat 1-8 with the square column to move to compress the spring 1-29 to the limit position, the communication groove 1-33 can be communicated with the discharge port 1-30, at the moment, the ice blocks in the ice block tank 1-10 can fall down, at the moment, the communication groove A1-37 is staggered with the middle opening 1-35, when the springs 1-29 recover to deform, the cams 1-5 can drive the driven seat A1-51 with the square column to compress the springs A1-41, when the springs A1-41 are compressed to the limit position, the communication grooves 1-33 are staggered with the discharge ports 1-30, the middle openings 1-35 are communicated with the communication grooves A1-37, previously dropped ice blocks can enter the water inlet tank 1-3 from the middle openings 1-35, the communication grooves A1-37 and the feeding ports 1-38, the ice blocks can continuously repeat the dropping process due to the continuous rotation of the cam shafts 1-6, and in the process, the blocks 1-32 and the blocks A1-36 can form relative motion with the water inlet tank 1-3 during the movement, so that a certain shearing effect is provided for the ice blocks, the ice blocks are crushed into small blocks, the small blocks are collected into the water inlet tank 1-3 and then enter the heat exchange tank 1-14 for heat exchange, thereby achieving better heat exchange effect, without consuming independent power, the heat exchange is realized by the kinetic energy of the heat exchange water, the cam shaft 1-6 drives the cam B1-47 to rotate when rotating, the cam B1-47 drives the passive seat A1-46 to reciprocate by matching with the spring B1-45, the passive seat A1-46 drives the hinge joint 1-25 to reciprocate by the connecting square column 1-43, the hinge joint 1-25 drives the hinge arm 1-22 to reciprocate around the hinge joint point with the hinge seat 1-24, the hinge arm 1-22 drives the boss seat 1-23 to reciprocate by the waist slot 1-21, the boss seat 1-23 drives the push seat 1-42 to reciprocate by the connecting seat 1-20 with the square column, thus, the pushing seats 1-42 can repeatedly push the ice blocks in the ice block boxes 1-10, so that the ice blocks can fall better; the equipment can filter heat exchange water, the heat exchange water can flow back into the water tank 2-27 from the flanged water return pipe 1-16, the motor 2-26 is operated to drive the coupler 2-25 to rotate, the rotation direction is clockwise rotation seen from the motor 2-26 to the coupler 2-25, the coupler 2-25 can drive the roller B2-23 to rotate, the roller B2-23 can drive the belt B2-24 to move, the belt B2-24 can drive the filter plate 2-21 to move, so that the water flowing back from the flanged water return pipe 1-16 can be filtered, meanwhile, the water in the water tank 2-27 can be filtered, when the pressurizing motor 2-28 operates, the rotation of the connecting shaft A2-33 can drive the belt pulley 2-7 to rotate, and the belt pulley 2-7 can drive the belt 2-8, The transmission belt pulleys 2-9, the belt shaft transmission belt pulley A2-12, the belt A2-13, the driven belt pulley 2-14, the belt shaft bevel gear 2-19, the bevel gear 2-18 and the transmission shaft 2-17 drive the cam I2-15 to rotate, the cam I2-15 drives the driven plate 3-1 to compress the spring I3-38, then the spring I3-38 drives the driven plate 3-1 to reset, so that the driven plate 3-1 drives the piston 3-40 to reciprocate through the piston rod 3-2, when the piston 3-40 moves to the direction that the spring I3-38 is compressed, the piston 3-40 pressurizes the water prestored in the push-pull box 3-3, so that the water in the push-pull box 3-3 is flushed out of the water one-way valve 3-39 and then flows out of the belt branch pipe 3-6, when the piston 3-40 moves reversely, the pressure in the push-pull box 3-3 is reduced, water in a water pipe externally connected to the inlet pipe I3-4 with a flange can be flushed and enter the one-way valve 3-5 to be supplemented into the push-pull box 3-3, the water can continuously flow out from the branch pipe 3-6 to flush the filter plate 2-21 after being filtered, the flushed water with filtered impurities can fall into the water bucket 3-8, then flows away through the inclined bucket 3-10, flows into the connecting pipe I3-11 from the inclined bucket 3-10 and then enters the filter box 3-12, and is discharged into the water tank 1-17 from the sewage outlet pipe 3-13 after being filtered by the filter holes 3-35; the equipment can extrude filter residues while cleaning the filter residues, when the filter holes 3-35 are blocked, the stepping motor 3-32 is operated to drive the coupler B3-33 to rotate for a quarter of a circle, the coupler B3-33 can drive the filter disc 3-34 to rotate for a quarter of a circle, so that new filter holes 3-35 can be filtered, when the new filter holes 3-35 are blocked again, the stepping motor 3-32 is operated again to drive the coupler B3-33 to rotate for a quarter of a circle, so that when the blocked filter holes 3-35 rotate for a half of a circle and are aligned with the cleaning ports 3-31 for the first time, hydraulic oil is injected into the hydraulic cylinder 3-24 to drive the hydraulic rod 3-25 to move downwards, the hydraulic rod 3-25 moves downwards to drive the limiting seats 3-26 to move downwards, and the limiting seats 3-26 can pass through the square columns A3-27, The cleaning rod seats 3-29 drive the cleaning rods 3-30 to move, the cleaning rods 3-30 are inserted into the filter holes 3-35, silt obstructions are ejected into the extrusion boxes 3-17 with the support legs, then hydraulic oil is reversely injected into the hydraulic cylinders 3-24 to drive the cleaning rods 3-30 to reset, the limit seats 3-26 drive the push rods 3-18 to reciprocate through the articulated arms A3-19 in the up-and-down movement process, the push rods 3-18 drive the extrusion seats 3-42 to reciprocate, the extrusion seats 3-42 extrude the silt obstructions which are continuously cleaned, so that the later recovery is facilitated, when the recovery is needed, the stepped limit columns 3-20 are upwards pulled out, and then the articulated doors 3-15 are opened for recovery.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides a fluid indirect heating equipment, includes heat transfer mechanism (1), filter mechanism (2), waste water treatment mechanism (3), its characterized in that: the heat exchange mechanism (1) is connected with the filtering mechanism (2), the filtering mechanism (2) is connected with the wastewater treatment mechanism (3), and the wastewater treatment mechanism (3) is connected with the heat exchange mechanism (1).

2. A fluid heat exchange device according to claim 1 wherein: the heat exchange mechanism (1) comprises a base (1-1), supporting legs (1-2), a water inlet tank (1-3), a water inlet pipe (1-4) with a flange plate, a cam (1-5), a cam shaft (1-6), a cam A (1-7), a driven seat (1-8) with a square column, an ice cube transfer tank (1-9), an ice cube tank (1-10), a threaded plug (1-11), a heat exchange inlet pipe (1-12) with a flange, an inlet tank (1-13), a heat exchange tank (1-14), a water outlet pipe (1-15), a return water pipe (1-16) with a flange, a water tank (1-17), a motor base (1-18), supporting legs A (1-19), a connecting seat (1-20) with a square column, a kidney slot (1-21), The device comprises an articulated arm (1-22), a seat with a protrusion (1-23), an articulated seat (1-24), an articulated joint (1-25), a heat exchange outlet pipe (1-26) with a flange, a buffer box (1-27), a heat exchange connecting pipe (1-28), a spring (1-29), a discharge port (1-30), a connecting square pipe (1-31), a stop block (1-32), a communicating groove (1-33), a sliding cavity (1-34), a middle opening (1-35), a stop block A (1-36), a communicating groove A (1-37), an inlet (1-38), a square hole (1-39), a stepped square hole A (1-40), a spring A (1-41), a pushing seat (1-42), a connecting square column (1-43), a square hole B (1-44), A spring B (1-45), a driven seat A (1-46), a cam B (1-47), a driven impeller (1-48), a pushing spring (1-49), a support leg B (1-50), a driven seat A (1-51) with a square column, a rear support leg (1-52) and a connecting square tube A (1-53), wherein the base (1-1) is connected with the support leg (1-2), the support leg (1-2) is connected with a water inlet tank (1-3), the water inlet tank (1-3) is connected with a water inlet tube (1-4) with a flange plate, the cam (1-5) is connected with a cam shaft (1-6), the cam shaft (1-6) is connected with the water inlet tank (1-3) in a bearing mode, and the cam shaft (1-6) is connected with the cam A (1-7), the cam A (1-7) is contacted with a driven seat (1-8) with a square column, the ice block transfer box (1-9) is connected with a connecting square pipe (1-31), the connecting square pipe (1-31) is connected with an ice block box (1-10), a discharge port (1-30) is used for communicating the ice block transfer box (1-9), the connecting square pipe (1-31) and the ice block box (1-10), a spring (1-29) is sleeved on the driven seat (1-8) with the square column, the spring (1-29) is propped against the driven seat (1-8) with the square column and the ice block transfer box (1-9), the driven seat (1-8) with the square column is connected with a square hole (1-39) in a sliding manner, the square hole (1-39) is arranged on the ice block transfer box (1-9), a stop block (1-32) is connected with the driven seat (1-8) with the square column, the communicating groove (1-33) is arranged on the block (1-32), the block (1-32) is connected with the sliding cavity (1-34) in a sliding way, the sliding cavity (1-34) is arranged in the ice cube transfer box (1-9), the sliding cavity (1-34) is communicated with the discharge port (1-30) and the middle opening (1-35), the middle opening (1-35) is communicated with the stepped square hole A (1-40), the stepped square hole A (1-40) is connected with the block A (1-36) in a sliding way, the block A (1-36) is provided with the communicating groove A (1-37), the stepped square hole A (1-40) is arranged on the ice cube transfer box (1-9), the adding port (1-38) is communicated with the water inlet box (1-3), the water inlet box (1-3) is connected with the ice cube transfer box (1-9), the spring A (1-41) is sleeved on the driven seat A (1-51) with the square column, the driven seat A (1-51) with the square column is in sliding connection with the step square hole A (1-40), the driven seat A (1-51) with the square column is in contact with the cam (1-5), the ice cube box (1-10) is in threaded connection with the threaded plug (1-11), the heat exchange inlet pipe (1-12) with the flange is connected with the inlet box (1-13), the inlet box (1-13) is connected with the heat exchange box (1-14), the heat exchange box (1-14) is connected with the connecting square pipe A (1-53), the connecting square pipe A (1-53) is connected with the water inlet box (1-3), the heat exchange box (1-14) is connected with the water outlet pipe (1-15), the water outlet pipe (1-15) is connected with a return pipe (1-16) with a flange, the water tank (1-17) and the motor base (1-18) are connected with the base (1-1), the inlet box (1-13) is connected with the support leg A (1-19), the support leg A (1-19) is connected with the base (1-1), the connecting seat (1-20) with a square column is connected with the base (1-23) with a bulge, the base (1-23) with a bulge is connected with the waist groove (1-21) in a sliding way, the waist groove (1-21) is arranged on the hinge arm (1-22), the hinge arm (1-22) is hinged with the hinge seat (1-24), the hinge seat (1-24) is connected with the ice cube transfer box (1-9), the hinge arm (1-22) is hinged with the hinge arm head (1-25), the hinged joint (1-25) is connected with a connecting square column (1-43), the connecting square column (1-43) is in sliding connection with a square hole B (1-44), the square hole B (1-44) is arranged on a water inlet tank (1-3), a spring B (1-45) is sleeved on the connecting square column (1-43), the spring B (1-45) abuts against the water inlet tank (1-3) and a driven seat A (1-46), the driven seat A (1-46) is connected with the connecting square column (1-43), the driven seat A (1-46) is contacted with a cam B (1-47), the cam B (1-47) is connected with a cam shaft (1-6), the cam shaft (1-6) is connected with a driven impeller (1-48), the driven impeller (1-48) is arranged in the water inlet tank (1-3), two ends of a heat exchange connecting pipe (1-28) are respectively connected with an inlet box (1-13) and a buffer box (1-27), a heat exchange outlet pipe (1-26) with a flange is connected with the buffer box (1-27), a connecting seat (1-20) with a square column is connected with a pushing seat (1-42), the pushing seat (1-42) is connected with an ice box (1-10) in a sliding way, the connecting seat (1-20) with the square column is connected with an ice box (1-10) in a sliding way, a pushing spring (1-49) is sleeved on the connecting seat (1-20) with the square column, the pushing spring (1-49) is abutted against the ice box (1-10) and the connecting seat (1-20) with the square column, the buffer box (1-27) is connected with a supporting leg B (1-50), the supporting leg B (1-50) is connected with a base (1-1), the ice cube box (1-10) is connected with the rear legs (1-52), and the rear legs (1-52) are connected with the base (1-1).

3. A fluid heat exchange device according to claim 1 wherein: the filter mechanism (2) comprises a flange A (2-1), a bent pipe (2-2), a pipe fixing seat (2-3), an acceleration box (2-4), a box seat (2-5), a bearing seat (2-6), a belt pulley (2-7), a belt (2-8), a transmission belt pulley (2-9), a bearing seat A (2-10), a supporting seat A (2-11), a transmission belt pulley A (2-12) with a shaft, a belt A (2-13), a driven belt pulley (2-14), a cam I (2-15), a bearing seat I (2-16), a transmission shaft (2-17), a bevel gear (2-18), a bevel gear (2-19) with a shaft, a roller (2-20), a filter plate (2-21), a roller A (2-22), Roller B (2-23), belt B (2-24), shaft coupling (2-25), motor (2-26), water tank (2-27), pressurizing motor (2-28), bearing seat II (2-29), shaft coupling A (2-30), water tank supporting leg (2-31), pushing water wheel (2-32), connecting shaft A (2-33), launching check valve (2-34), connecting bend (2-35), flange A (2-1) is connected with water inlet pipe (1-4) with flange plate, flange A (2-1) is connected with bending pipe (2-2), bending pipe (2-2) is connected with pipe fixing seat (2-3), pipe fixing seat (2-3) is connected with base (1-1), bending pipe (2-2) is connected with accelerating box (2-4), an acceleration box (2-4) is connected with a box seat (2-5), the box seat (2-5) is connected with a base (1-1), the box seat (2-5) is connected with a bearing seat (2-6), a belt pulley (2-7) is in friction connection with a belt (2-8), the belt (2-8) is in friction connection with a transmission belt pulley (2-9), the transmission belt pulley (2-9) is connected with a belt shaft transmission belt pulley A (2-12), the belt shaft transmission belt pulley A (2-12) is in bearing connection with the bearing seat A (2-10), the bearing seat A (2-10) is connected with a support seat A (2-11), the belt shaft transmission belt pulley A (2-12) is in friction connection with a belt A (2-13), and the belt A (2-13) is in friction connection with a driven belt pulley (2-14), the driven belt pulleys (2-14) are connected with shaft-bearing bevel gears (2-19), the shaft-bearing bevel gears (2-19) are connected with the supporting seats A (2-11) in a bearing mode, the shaft-bearing bevel gears (2-19) are meshed with the bevel gears (2-18), the bevel gears (2-18) are connected with transmission shafts (2-17), the transmission shafts (2-17) are connected with bearing seats I (2-16) in a bearing mode, the bearing seats I (2-16) are connected with the supporting seats A (2-11), the transmission shafts (2-17) are connected with cams I (2-15), the rollers (2-20) are connected with water tanks (2-27) in a bearing mode, the rollers A (2-22) are connected with the water tanks (2-27) in a bearing mode, the connection mode of the roller B (2-23) and the water tank (2-27) is that a bearing is connected, the roller B (2-20) is connected with a belt B (2-24) in a friction mode, the roller A (2-22) is connected with the belt B (2-24) in a friction mode, the roller B (2-23) is connected with the belt B (2-24) in a friction mode, a filter plate (2-21) is connected with the belt B (2-24), the roller B (2-23) is connected with a motor (2-26) through a coupler (2-25), the motor (2-26) is connected with the water tank (2-27), a pressurizing motor (2-28) is connected with a connecting shaft A (2-33) through a coupler A (2-30), the pressurizing motor (2-28) is connected with a base (1-1), the connecting shaft A (2-33) is connected with a pushing water wheel (2-32), the water pushing wheels (2-32) are arranged in the acceleration boxes (2-4), bearing seats II (2-29) are arranged on the acceleration boxes (2-4), the bearing seats II (2-29) are connected with connecting shafts A (2-33) in a bearing mode, the connecting shafts A (2-33) are connected with the bearing seats (2-6) in a bearing mode, the water tanks (2-27) are connected with water tank supporting legs (2-31), the water tank supporting legs (2-31) are connected with a base (1-1), the water tanks (2-27) and the acceleration boxes (2-4) are communicated through connecting bent pipes (2-35), the launching check valves (2-34) are arranged in the connecting bent pipes (2-35), and belt pulleys (2-7) are connected with the connecting shafts A (2-33).

4. A fluid heat exchange device according to claim 1 wherein: the wastewater treatment mechanism (3) comprises a driven plate (3-1), a piston rod (3-2), a push-pull box (3-3), a flanged inlet pipe I (3-4), an inlet one-way valve (3-5), a branched pipe (3-6), a perforated connecting plate (3-7), a water bucket (3-8), a water bucket seat (3-9), an inclined bucket (3-10), a connecting pipe I (3-11), a filter box (3-12), a sewage outlet pipe (3-13), a bearing seat B (3-14), a hinged door (3-15), a special-shaped support (3-16), an extrusion box (3-17) with supporting legs, a push rod (3-18), a hinged arm A (3-19), a stepped limiting column (3-20), a perforated seat (3-21), A holed seat A (3-22), a hydraulic cylinder support (3-23), a hydraulic cylinder (3-24), a hydraulic rod (3-25), a limiting seat (3-26), a square column A (3-27), a square hole I (3-28), a cleaning rod seat (3-29), a cleaning rod (3-30), a cleaning port (3-31), a stepping motor (3-32), a coupler B (3-33), a filter disc (3-34), a filter hole (3-35), a buffer tank (3-36), a cleaning outlet pipe (3-37), a spring I (3-38), a water outlet one-way valve (3-39), a piston (3-40), an extrusion spring (3-41) and an extrusion seat (3-42), wherein a driven plate (3-1) is contacted with a cam I (2-15), the passive plate (3-1) is connected with a piston rod (3-2), a spring I (3-38) is sleeved on the piston rod (3-2), the spring I (3-38) is abutted on the passive plate (3-1) and a push-pull box (3-3), the piston rod (3-2) is connected with the push-pull box (3-3) in a sliding way, the piston rod (3-2) is connected with a piston (3-40), the piston (3-40) is connected with the push-pull box (3-3) in a sliding way, the push-pull box (3-3) is connected with a flanged inlet pipe I (3-4) in a sliding way, an inlet check valve (3-5) is arranged in the flanged inlet pipe I (3-4), the push-pull box (3-3) is connected with a branched pipe (3-6), the branched pipe (3-6) is connected with a perforated connecting plate (3-7), the perforated connecting plate (3-7) is connected with the water bucket (3-8), the water bucket (3-8) is connected with the water bucket seat (3-9), the water bucket seat (3-9) is connected with the water tank (2-27), the water bucket (3-8) is connected and communicated with the inclined bucket (3-10), the inclined bucket (3-10) is communicated with the filter box (3-12) by the connecting pipe I (3-11), the filter box (3-12) is connected with the sewage outlet pipe (3-13), the sewage outlet pipe (3-13) is concentric with the connecting pipe I (3-11), the bearing seat B (3-14) is connected with the filter box (3-12), the hinged door (3-15) is hinged with the extrusion box (3-17) with the supporting legs, the perforated seat (3-21) is connected with the extrusion box (3-17) with the supporting legs, a perforated seat A (3-22) is connected with a hinged door (3-15), a step limiting column (3-20) is connected with a perforated seat (3-21) in a sliding way, a step limiting column (3-20) is connected with the perforated seat A (3-22) in a sliding way, a squeezing box (3-17) with supporting legs is connected with a base (1-1), a push rod (3-18) is connected with the squeezing box (3-17) with supporting legs in a sliding way, the push rod (3-18) is hinged with a hinged arm A (3-19), the hinged arm A (3-19) is hinged with a limiting seat (3-26), a special-shaped support (3-16) is connected with the base (1-1), the special-shaped support (3-16) is connected with a hydraulic cylinder support (3-23), the hydraulic cylinder support (3-23) is connected with a hydraulic cylinder (3-24), the hydraulic cylinder (3-24) is connected with the hydraulic rod (3-25), the hydraulic rod (3-25) is connected with the limiting seat (3-26), the limiting seat (3-26) is connected with the square column A (3-27), the square column A (3-27) is connected with the square hole I (3-28) in a sliding mode, the square hole I (3-28) is arranged on the special-shaped support (3-16), the square column A (3-27) is connected with the cleaning rod seat (3-29), the cleaning rod seat (3-29) is connected with the cleaning rod (3-30), the cleaning port (3-31) is arranged on the filter box (3-12), the stepping motor (3-32) is connected with the coupler B (3-33), the coupler B (3-33) is connected with the filter disc (3-34), and the filter disc (3-34) is connected with the filter box (3-12) in a bearing mode, buffer grooves (3-36) are symmetrically arranged on the filter disc (3-34), the buffer grooves (3-36) are communicated with the filter holes (3-35), the filter holes (3-35) are arranged on the filter disc (3-34), a cleaning outlet pipe (3-37) is used for communicating the extrusion box (3-17) with the supporting legs with the filter box (3-12), a stepping motor (3-32) is connected with a motor base (1-18), a cleaning port (3-31) is concentric with the cleaning outlet pipe (3-37), a water outlet one-way valve (3-39) is arranged in a branched pipe (3-6), an extrusion spring (3-41) is sleeved on a push rod (3-18), the extrusion spring (3-41) is abutted against the extrusion base (3-42) and the inner wall of the extrusion box (3-17) with the supporting legs, the extrusion seats (3-42) are connected with the push rods (3-18), and the extrusion seats (3-42) are connected in the extrusion box (3-17) with the supporting legs in a sliding manner.

5. A fluid heat exchange device according to claim 2 wherein: the inner wall of the ice cube box (1-10) is provided with a heat insulating material.