CN111271988A - Heat exchange and sand washing dual-purpose equipment - Google Patents

Abstract

The invention relates to sand washing equipment, in particular to heat exchange and sand washing dual-purpose equipment which comprises a sand feeding and washing mechanism, a heat exchange box mechanism and a dehydration mechanism, wherein the equipment can be used for carrying out heat exchange treatment to achieve the purpose of rapid cooling, the equipment can be used for carrying out sand washing, the equipment can carry out dehydration treatment, the equipment can recover moisture, the equipment can ensure longer service life, the sand washing mechanism is connected with the heat exchange box mechanism, the heat exchange box mechanism is connected with the dehydration mechanism, and the dehydration mechanism is connected with the sand washing mechanism.

Description

Heat exchange and sand washing dual-purpose equipment

Technical Field

The invention relates to sand washing equipment, in particular to heat exchange and sand washing dual-purpose equipment.

Background

The general commonality of equipment is poor, and the unobstructed intelligence of sand washing equipment is used for the sand washing, and the function is single, so designed this kind of heat transfer sand washing dual-purpose equipment.

Disclosure of Invention

The invention mainly solves the technical problem of providing the heat exchange and sand washing dual-purpose equipment, the equipment can be used for carrying out heat exchange treatment to achieve the purpose of rapid cooling, the equipment can be used for washing sand, the equipment can be used for carrying out dehydration treatment, the equipment can recover moisture, and the equipment can ensure longer service life.

In order to solve the technical problems, the invention relates to sand washing equipment, in particular to heat exchange and sand washing dual-purpose equipment which comprises a sand feeding and washing mechanism, a heat exchange box mechanism and a dehydration mechanism, wherein the equipment can be used for carrying out heat exchange treatment to achieve the purpose of rapid cooling, the equipment can be used for carrying out sand washing, the equipment can be used for carrying out dehydration treatment, moisture can be recovered, and the equipment can ensure longer service life.

The sand washing mechanism is connected with the heat exchange box mechanism, the heat exchange box mechanism is connected with the dehydration mechanism, and the dehydration mechanism is connected with the sand washing mechanism.

As a further optimization of the technical scheme, the sand washing mechanism of the heat exchange and sand washing dual-purpose equipment comprises a sand washing shell mechanism, a linkage mechanism, a feeding hopper mechanism, a sand washing spiral mechanism, a gear shaft, a bevel gear, a transmission bevel gear and a cam with a shaft, wherein the sand washing shell mechanism is connected with the linkage mechanism, the sand washing shell mechanism is connected with the feeding hopper mechanism, the sand washing shell mechanism is connected with the sand washing spiral mechanism, the gear is meshed with the sand washing spiral mechanism, the gear is connected with the gear shaft, the gear shaft is connected with the sand washing shell mechanism in a bearing connection mode, the gear shaft is connected with the bevel gear, the bevel gear is meshed with the transmission bevel gear, the transmission bevel gear is connected with the cam with the shaft, the cam with the shaft is connected with the bearing connection mode, and the cam with the shaft is contacted with the linkage mechanism; the sand washing shell mechanism comprises a sand washing shell body, an inlet, a sliding hole, a bearing seat I, a support plate with a bearing seat, a bearing seat II, a bearing seat III, an outlet, a sliding cavity and an inlet I, wherein the inlet is formed in the sand washing shell body, the sliding hole is formed in the sand washing shell body, the bearing seat I is connected with the sand washing shell body, the support plate with the bearing seat is connected with the sand washing shell body, the bearing seat II is connected with the sand washing shell body, a gear shaft is connected with the bearing seat II in a bearing mode, the bearing seat III is connected with the support plate with the bearing seat, the support plate with the bearing seat is connected with a cam with a shaft in a bearing mode, the bearing seat III is connected with the gear shaft in a bearing mode, the sliding cavity is formed in the sand washing shell body, the inlet I is formed in the sand washing shell body, the inlet is communicated with the sliding; the linkage mechanism comprises a piston, a slide rod, a connecting square hole, a slide valve, a spring, a polished rod, a connecting seat I, a pulley support, a polished rod I and a baffle plate, wherein the piston is connected with the slide rod, the slide rod is connected with the slide valve, the connecting square hole is arranged on the slide valve, the slide valve is connected with the polished rod, the spring is sleeved on the polished rod, the polished rod is connected with the connecting seat I, the connecting seat I is connected with the pulley support, the pulley support is connected with the pulley in a bearing mode, the connecting seat I is connected with the polished rod I, the polished rod I is connected with the baffle plate, the slide rod is connected with the slide hole in a sliding mode, the slide valve is connected with a sliding cavity in a sliding mode, the polished rod is connected; the feeding hopper mechanism comprises a feeding hopper body, a discharging port I, a door groove and a feeding port, the feeding hopper body is connected with the sand washing shell body, the discharging port I is formed in the feeding hopper body, the door groove is connected with a baffle in a sliding mode, and the feeding port is formed in the feeding hopper body; the sand washing screw mechanism comprises a screw, a gear I, a connecting shaft, a belt pulley, a coupler, a wind wheel and a motor, wherein the screw is connected with the gear I, the gear I is connected with the connecting shaft, the connecting shaft is connected with the belt pulley, the connecting shaft is connected with the motor through the coupler, the motor is connected with the wind wheel, and the screw is connected with a bearing in a bearing seat I connection mode.

As a further optimization of the technical scheme, the heat exchange box mechanism of the heat exchange and sand washing dual-purpose equipment comprises a circulating water box, a support leg I, a heat exchange box, a through opening, a pressure cavity, a water outlet pipe, a slide hole I, a water suction pipe, a water outlet one-way valve, a water inlet one-way valve and a communication hole, wherein the support leg I is connected with the heat exchange box, the through opening is formed in the heat exchange box, a sand washing shell body penetrates through the through opening and is connected with the heat exchange box, the heat exchange box is connected with the pressure cavity, the water outlet pipe is connected with the circulating water box, the slide hole I is formed in the pressure cavity, the slide hole I is connected with a slide rod in a sliding mode, a piston is connected with the pressure cavity in a sliding mode, the water suction pipe is connected with the heat exchange box, the water outlet one-way valve is arranged in the water outlet pipe.

As a further optimization of the technical scheme, the dehydration mechanism of the heat exchange and sand washing dual-purpose equipment comprises a dehydration screen mechanism, a bearing seat II, an air inlet pipe, an air box, a condensation wheel mechanism, a platform mechanism, a vibration motor with a supporting plate, a belt I, a motor belt pulley, a transmission belt pulley I, an eccentric wheel shaft, an eccentric wheel and a water outlet hole I, wherein the dehydration screen mechanism is connected with the platform mechanism, the bearing seat II is connected with the air box, the air box is connected with the air inlet pipe, the condensation wheel mechanism is connected with the bearing seat II in a bearing way, the air box is connected with the platform mechanism, the vibration motor with the supporting plate is connected with the dehydration screen mechanism, the vibration motor belt pulley with the supporting plate is connected with the motor belt pulley, the motor belt pulley is flexibly connected with the belt I, the belt I is flexibly connected with the transmission belt pulley, the eccentric wheel shaft is connected with the dewatering screen mechanism, and the water outlet hole I is formed in the air box; the dewatering screen mechanism comprises a sliding rod with a limiting head, a vibration spring, a dewatering support frame, a filter screen, a reinforcing rod, a bearing seat A, a water baffle plate and an outlet A, wherein the vibration spring is sleeved on the sliding rod with the limiting head, the sliding rod with the limiting head is connected with the dewatering support frame, the dewatering support frame is connected with the filter screen, the reinforcing rod is connected with the dewatering support frame, the bearing seat A is connected with the dewatering support frame, the water baffle plate is connected with the dewatering support frame, the outlet A is arranged on the water baffle plate, the bearing seat A is connected with an eccentric wheel shaft in a bearing mode, and a vibration motor with a support plate is connected; the condensing wheel mechanism comprises a belt shaft condensing wheel, a belt pulley B and a transmission belt I, the belt shaft condensing wheel is connected with a bearing seat II in a bearing connection mode, the belt shaft condensing wheel is connected with the belt pulley B, the belt pulley B is flexibly connected with the transmission belt I, and the transmission belt I is flexibly connected with the belt pulley; the platform mechanism comprises a base, a supporting leg with a hole, a launder and a door brace, wherein the base is connected with the supporting leg with the hole, the supporting leg with the hole is connected with a sliding rod with a limiting head in a sliding mode, a vibration spring abuts against the supporting leg with the hole, the launder is connected with the base, the door brace is connected with the base, and the door brace is connected with a motor.

As a further optimization of the technical scheme, the material of the flume of the heat exchange and sand washing dual-purpose equipment is stainless steel.

The heat exchange and sand washing dual-purpose equipment has the beneficial effects that:

according to the heat exchange and sand washing dual-purpose equipment, the equipment can be used for heat exchange treatment to achieve the purpose of rapid cooling, the equipment can be used for sand washing, the equipment can be used for dehydration treatment, the equipment can recover moisture, and the equipment can guarantee a long service life.

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 I of a heat exchange and sand washing dual-purpose device.

Fig. 2 is a schematic structural diagram II of the heat exchange and sand washing dual-purpose equipment.

Fig. 3 is a structural schematic diagram of a sand washing mechanism 1 of the heat exchange and sand washing dual-purpose equipment of the invention.

Fig. 4 is a structural schematic diagram of a sand washing mechanism 1 of the heat exchange and sand washing dual-purpose equipment.

Fig. 5 is a third structural schematic diagram of a sand washing mechanism 1 of the heat exchange and sand washing dual-purpose equipment of the invention.

Fig. 6 is a first structural schematic diagram of a sand washing shell mechanism 1-1 of the heat exchange and sand washing dual-purpose equipment.

Fig. 7 is a structural schematic diagram II of a sand washing shell mechanism 1-1 of the heat exchange and sand washing dual-purpose equipment.

FIG. 8 is a schematic structural diagram of a linkage mechanism 1-2 of the heat exchange and sand washing dual-purpose equipment of the invention.

FIG. 9 is a schematic structural diagram of a feed hopper mechanism 1-3 of the heat exchange and sand washing dual-purpose equipment of the invention.

Fig. 10 is a schematic structural diagram of a sand washing screw mechanism 1-4 of the heat exchange and sand washing dual-purpose device.

Fig. 11 is a first structural schematic diagram of a heat exchange box mechanism 2 of the heat exchange and sand washing dual-purpose device of the invention.

Fig. 12 is a second structural schematic diagram of a heat exchange box mechanism 2 of the heat exchange and sand washing dual-purpose device of the invention.

Fig. 13 is a third schematic structural diagram of a heat exchange box mechanism 2 of the heat exchange and sand washing dual-purpose device of the invention.

Fig. 14 is a fourth structural schematic diagram of a heat exchange box mechanism 2 of the heat exchange and sand washing dual-purpose device of the invention.

Fig. 15 is a schematic structural diagram of a dewatering mechanism 3 of a heat exchange and sand washing dual-purpose device of the invention.

Fig. 16 is a second structural schematic diagram of a dewatering mechanism 3 of the heat exchange and sand washing dual-purpose device of the invention.

Fig. 17 is a first structural schematic diagram of a dewatering screen mechanism 3-1 of the heat exchange and sand washing dual-purpose equipment.

Fig. 18 is a structural schematic diagram II of a dewatering screen mechanism 3-1 of the heat exchange and sand washing dual-purpose equipment.

FIG. 19 is a schematic structural diagram of a condensing wheel mechanism 3-5 of a heat exchange and sand washing dual-purpose device of the invention.

FIG. 20 is a schematic structural diagram of a platform mechanism 3-6 of the heat exchange and sand washing dual-purpose equipment of the invention.

In the figure: a sand washing mechanism 1; a sand washing shell mechanism 1-1; washing the sand shell body 1-1-1; an inlet 1-1-2; 1-1-3 of a slide hole; bearing seats I1-1-4; a support plate 1-1-5 with a bearing seat; bearing seats II 1-1-6; bearing seats III 1-1-7; 1-1-8 of an outlet; a sliding cavity 1-1-9; entry ports I1-1-10; a linkage mechanism 1-2; a piston 1-2-1; a slide bar 1-2-2; connecting square holes 1-2-3; 1-2-4 of a slide valve; 1-2-5 of a spring; 1-2-6 parts of a polished rod; connecting seat I1-2-7; 1-2-8 of a pulley; pulley support 1-2-9; a polish rod I1-2-10; 1-2-11 parts of a baffle plate; a feed hopper mechanism 1-3; 1-3-1 parts of a feed hopper body; a discharge port I1-3-2; 1-3-3 of a door slot; a feeding port 1-3-4; 1-4 of a sand washing spiral mechanism; helix 1-4-1; gear I1-4-2; connecting shafts 1-4-3; 1-4-4 of a belt pulley; 1-4-5 of a coupler; 1-4-6 of wind wheel; 1-4-7 of a motor; 1-5 parts of gear; gear shafts 1-6; 1-7 of bevel gears; 1-8 of a transmission bevel gear; 1-9 of cam with shaft; a heat exchange box mechanism 2; 2-1 of a circulating water tank; leg I2-2; 2-3 of a heat exchange box; 2-4 of a through port; 2-5 of pressure cavity; 2-6 of a water outlet pipe; a slide hole I2-7; 2-8 parts of a water suction pipe; 2-9 of a water outlet one-way valve; 2-10 of a water inlet one-way valve; communicating holes 2-11; a dewatering mechanism 3; a dewatering screen mechanism 3-1; a sliding rod 3-1-1 with a limiting head; a vibration spring 3-1-2; 3-1-3 of a dehydration support frame; 3-1-4 parts of a filter screen; 3-1-5 of reinforcing rods; bearing seat A3-1-6; 3-1-7 parts of a water baffle; outlet A3-1-8; bearing seat II 3-2; 3-3 of an air inlet pipe; 3-4 of an air box; 3-5 parts of a condensation wheel mechanism; 3-5-1 of a condensing wheel with a shaft; pulley B3-5-2; a transmission belt I3-5-3; 3-6 of a platform mechanism; 3-6-1 of a base; 3-6-2 parts of supporting legs with holes; 3-6-3 of a launder; 3-6-4 of a door support; 3-7 of a vibration motor with a supporting plate; belt I3-8; 3-9 parts of a motor belt pulley; a transmission belt pulley I3-10; 3-11 parts of an eccentric wheel shaft; 3-12 parts of an eccentric wheel; water outlet I3-13.

Detailed Description

The first embodiment is as follows:

the present invention relates to a sand washing apparatus, and more particularly to a heat exchange and sand washing dual-purpose apparatus, which includes a sand washing mechanism 1, a heat exchange box mechanism 2, and a dehydration mechanism 3, and can be used for heat exchange treatment to achieve the purpose of rapid cooling, the apparatus can be used for sand washing, the apparatus can be used for dehydration treatment, the apparatus can recover moisture, and the apparatus can ensure a long service life, in combination with fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, and fig. 20.

The sand washing mechanism 1 is connected with the heat exchange box mechanism 2, the heat exchange box mechanism 2 is connected with the dehydration mechanism 3, and the dehydration mechanism 3 is connected with the sand washing mechanism 1.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, and fig. 20, and the embodiment further describes the embodiment, where the sand washing mechanism 1 includes a sand washing shell mechanism 1-1, a linkage mechanism 1-2, a feed hopper mechanism 1-3, a sand washing screw mechanism 1-4, a gear 1-5, a gear shaft 1-6, a bevel gear 1-7, a transmission bevel gear 1-8, and a cam with a shaft 1-9, the sand washing shell mechanism 1-1 is connected to the linkage mechanism 1-2, the sand washing shell mechanism 1-1 is connected to the feed hopper mechanism 1-3, the sand washing shell mechanism 1-1 is connected to the sand washing screw mechanism 1-4, the gear 1-5 is meshed with the sand washing spiral mechanism 1-4, the gear 1-5 is connected with a gear shaft 1-6, the gear shaft 1-6 is connected with the sand washing shell mechanism 1-1 through a bearing, the gear shaft 1-6 is connected with a bevel gear 1-7, the bevel gear 1-7 is meshed with a transmission bevel gear 1-8, the transmission bevel gear 1-8 is connected with a cam with a shaft 1-9, the cam with a shaft 1-9 is connected with the sand washing shell mechanism 1-1 through a bearing, and the cam with a shaft 1-9 is contacted with the linkage mechanism 1-2; the sand washing shell mechanism 1-1 comprises a sand washing shell body 1-1-1, an inlet 1-1-2, a slide hole 1-1-3, a bearing seat I1-1-4, a supporting plate with a bearing seat 1-1-5, a bearing seat II1-1-6, a bearing seat III1-1-7, an outlet 1-1-8, a sliding cavity 1-1-9 and an inlet I1-1-10, wherein the inlet 1-1-2 is arranged on the sand washing shell body 1-1-1, the slide hole 1-1-3 is arranged on the sand washing shell body 1-1-1, the bearing seat I1-1-4 is connected with the sand washing shell body 1-1-1, the supporting plate with a bearing seat 1-1-5 is connected with the sand washing shell body 1-1-1, the bearing seat II1-1-6 is connected with the sand washing shell body 1-1-1, the gear shaft 1-6 is connected with the bearing seat II1-1-6 by a bearing, the bearing seat III1-1-7 is connected with the supporting plate 1-1-5 with the bearing seat, the supporting plate 1-1-5 with the bearing seat is connected with the cam 1-9 with the shaft by a bearing, the bearing seat III1-1-7 is connected with the gear shaft 1-6 by a bearing, the sliding cavity 1-1-9 is arranged on the sand washing shell body 1-1-1, the inlet port I1-1-10 is arranged on the sand washing shell body 1-1-1, the inlet port 1-1-2 is communicated with the sliding cavity 1-1-9, and the sliding cavity 1-1-9 is communicated with the inlet port I1-1-10; the linkage mechanism 1-2 comprises a piston 1-2-1, a sliding rod 1-2-2, a connecting square hole 1-2-3, a sliding valve 1-2-4, a spring 1-2-5, a polish rod 1-2-6, a connecting seat I1-2-7, a pulley 1-2-8, a pulley support 1-2-9, a polish rod I1-2-10 and a baffle 1-2-11, wherein the piston 1-2-1 is connected with the sliding rod 1-2-2, the sliding rod 1-2-2 is connected with the sliding valve 1-2-4, the connecting square hole 1-2-3 is arranged on the sliding valve 1-2-4, the sliding valve 1-2-4 is connected with the polish rod 1-2-6, the spring 1-2-5 is sleeved on the polish rod 1-2-6, the polish rod 1-2-6 is connected with the connecting seat I1-2-7, the connecting seat I1-2-7 is connected with the pulley support 1-2-9, the pulley support 1-2-9 is connected with the pulley 1-2-8 by a bearing, the connecting seat I1-2-7 is connected with the polish rod I1-2-10, the polish rod I1-2-10 is connected with the baffle 1-2-11, the slide rod 1-2-2 is connected with the slide hole 1-1-3 in a sliding way, the slide valve 1-2-4 is connected with the slide cavity 1-1-9 in a sliding way, the polish rod 1-2-6 is connected with the slide hole 1-1-3 in a sliding way, the pulley 1-2-8 is contacted with the cam 1-9 with the shaft, and the spring 1-2-5 is propped against the sliding valve 1-2-4 and the sand washing shell body 1-1-1; the feeding hopper mechanism 1-3 comprises a feeding hopper body 1-3-1, a discharging port I1-3-2, a gate groove 1-3-3 and a feeding port 1-3-4, wherein the feeding hopper body 1-3-1 is connected with the sand washing shell body 1-1-1, the discharging port I1-3-2 is arranged on the feeding hopper body 1-3-1, the gate groove 1-3-3 is in sliding connection with a baffle plate 1-2-11, and the feeding port 1-3-4 is arranged on the feeding hopper body 1-3-1; the sand washing screw mechanism 1-4 comprises a screw 1-4-1, a gear I1-4-2, a connecting shaft 1-4-3, a belt pulley 1-4-4, a coupling 1-4-5, a wind wheel 1-4-6 and a motor 1-4-7, wherein the screw 1-4-1 is connected with the gear I1-4-2, the gear I1-4-2 is connected with the connecting shaft 1-4-3, the connecting shaft 1-4-3 is connected with the belt pulley 1-4-4, the connecting shaft 1-4-3 is connected with the motor 1-4-7 through the coupling 1-4-5, the motor 1-4-7 is connected with the wind wheel 1-4-6, the connecting mode of the screw 1-4-1 and a bearing seat I1-1-4 is bearing connection, when the motor 1-4-7 runs, the wind wheel 1-4-6 is driven to rotate to drive the airflow to move, so that the bevel gear 1-7, the transmission bevel gear 1-8 and the cam with the shaft 1-9 can be helped to cool, and the service life is prolonged.

The third concrete implementation mode:

the embodiment is further described with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19 and fig. 20. the embodiment comprises a circulating water tank 2-1, a leg I2-2, a heat exchange tank 2-3, a through port 2-4, a pressure chamber 2-5, a water outlet pipe 2-6, a slide hole I2-7, a water suction pipe 2-8, a water outlet check valve 2-9, a water inlet check valve 2-10 and a communication hole 2-11, wherein the leg I2-2 is connected with the heat exchange tank 2-3, the through port 2-4 is opened on the heat exchange tank 2-3, a sand washing shell body 1-1-1 passes through the through port 2-4, is connected with a heat exchange box 2-3 through a port 2-4, the heat exchange box 2-3 is connected with a pressure cavity 2-5, a water outlet pipe 2-6 is connected with a circulating water tank 2-1, a slide hole I2-7 is arranged on the pressure cavity 2-5, a slide hole I2-7 is connected with a slide bar 1-2-2 in a sliding way, a piston 1-2-1 is connected with the pressure cavity 2-5 in a sliding way, a water suction pipe 2-8 is connected with the heat exchange box 2-3, a water outlet one-way valve 2-9 is arranged in the water outlet pipe 2-6, a water inlet one-way valve 2-10 is arranged in the water suction pipe 2-8, a communication hole 2-11 is used for communicating the heat exchange box 2-3 and the pressure cavity 2-5, materials needing heat exchange are put into a feed hopper body 1-3-1, a coupling 1-4-7 is driven by an operation motor, the coupling 1-4-5 rotates to drive the connecting shaft 1-4-3 to rotate, the connecting shaft 1-4-3 rotates to drive the screw 1-4-1 to rotate, the connecting shaft 1-4-3 rotates to drive the gear I1-4-2 to rotate, the gear I1-4-2 rotates to drive the gear 1-5 to rotate, the gear 1-5 rotates to drive the bevel gear 1-7 to rotate through the gear shaft 1-6, the bevel gear 1-7 rotates to drive the shaft cam 1-9 to rotate through the transmission bevel gear 1-8, the shaft cam 1-9 rotates to drive the pulley 1-2-8, the pulley 1-2-8 drives the pulley support 1-2-9 to move, the pulley support 1-2-9 moves to drive the baffle plate 1-2-11 to move through the connecting seat I1-2-7 and the polished rod I1-2-10, the baffle plate 1-2-11 moves to enable the materials in the feed hopper body 1-3-1 to lose the limit and move downwards from the feed port 1-3-4, the sliding valve 1-2-4 drives the connecting square hole 1-2-3 to slide, the connecting square hole 1-2-3 enables the feed port 1-3-4, the inlet 1-1-2 and the inlet I1-1-10 to be communicated, so that the heat exchange materials fall into the sand washing shell body 1-1-1, and the rotating screw 1-4-1 drives the material outlet 1-1-8 to move at the same time, in the process, the spring 1-2-5 is compressed, then the spring 1-2-5 rebounds, the spring 1-2-5 drives the sliding valve 1-2-4 to reset and stops feeding, so that intermittent feeding can be realized, the piston 1-2-1 can be driven to reciprocate while the sliding valve 1-2-4 reciprocates perfectly, when the piston 1-2-1 moves towards the pulley 1-2-8, the piston 1-2-1 can increase the pressure in the pressure cavity 2-5 and further increase the pressure in the heat exchange box 2-3, water in the heat exchange box 2-3 can be flushed out of the water one-way valve 2-9 and discharged from the water outlet pipe 2-6, when the piston 1-2-1 moves reversely, the pressure in the heat exchange box 2-3 is smaller than the outside, therefore, water in the circulating water tank 2-1 can be sucked from the water suction pipe 2-8, and the water flushes the water inlet one-way valve 2-10 to enter the heat exchange tank 2-3 to supplement cooling water, so that heat exchange treatment can be carried out on the material.

The fourth concrete implementation mode:

the embodiment is further described with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19 and fig. 20. the embodiment 3 includes a dewatering screen mechanism 3-1, a bearing support II3-2, an air inlet pipe 3-3, an air box 3-4, a condensing wheel mechanism 3-5, a platform mechanism 3-6, a vibrating motor with a support plate 3-7, a belt I3-8, a motor pulley 3-9, a driving pulley I3-10, an eccentric wheel shaft 3-11, an eccentric wheel 3-12 and a water outlet I3-13, wherein the dewatering screen mechanism 3-1 is connected with the platform dewatering mechanism 3-6, the bearing support II3-2 is connected with the air box 3-4, an air box 3-4 is connected with an air inlet pipe 3-3, a condensing wheel mechanism 3-5 is connected with a bearing seat II3-2 in a bearing way, the air box 3-4 is connected with a platform mechanism 3-6, a vibration motor 3-7 with a supporting plate is connected with a dewatering screen mechanism 3-1, the vibration motor 3-7 with the supporting plate is connected with a motor belt pulley 3-9, the motor belt pulley 3-9 is flexibly connected with a belt I3-8, the belt I3-8 is flexibly connected with a transmission belt pulley I3-10, the transmission belt pulley I3-10 is connected with an eccentric wheel shaft 3-11, the eccentric wheel shaft 3-11 is connected with an eccentric wheel 3-12, the eccentric wheel shaft 3-11 is connected with the dewatering screen mechanism 3-1, and a water outlet I3-13 is arranged on the air box 3-4; the dewatering screen mechanism 3-1 comprises a sliding rod 3-1-1 with a limiting head, a vibration spring 3-1-2, a dewatering support frame 3-1-3, a filter screen 3-1-4, a reinforcing rod 3-1-5, a bearing seat A3-1-6, a water baffle 3-1-7 and an outlet A3-1-8, wherein the vibration spring 3-1-2 is sleeved on the sliding rod 3-1-1 with the limiting head, the sliding rod 3-1-1 with the limiting head is connected with the dewatering support frame 3-1-3, the dewatering support frame 3-1-3 is connected with the filter screen 3-1-4, the reinforcing rod 3-1-5 is connected with the dewatering support frame 3-1-3, the bearing seat A3-1-6 is connected with the dewatering support frame 3-1-3, the water baffle 3-1-7 is connected with the dehydration support frame 3-1-3, the outlet A3-1-8 is arranged on the water baffle 3-1-7, the bearing seat A3-1-6 is connected with the eccentric wheel shaft 3-11 by a bearing, the vibration motor 3-7 with a support plate is connected with the dehydration support frame 3-1-3, the vibration motor 3-7 with the support plate rotates to drive the motor belt pulley 3-9 to rotate, the motor belt pulley 3-9 rotates to drive the transmission belt pulley I3-10 to rotate by the belt I3-8, the transmission belt pulley I3-10 rotates to drive the eccentric wheel shaft 3-11 to rotate, the eccentric wheel shaft 3-11 rotates to drive the eccentric wheel 3-12 to rotate, and the eccentric wheel 3-12 rotates to form a deflection force, under the coordination of the biasing force and the vibration spring 3-1-2, the dehydration support frame 3-1-3 can vibrate continuously, the dehydration support frame 3-1-3 can drive the filter screen 3-1-4 to vibrate, the filter screen 3-1-4 can vibrate to separate water from sand, the water can leak from the outlet A3-1-8 and then is discharged from the water flowing groove 3-6-3, and the sand slides away from the filter screen 3-1-4; the condensing wheel mechanism 3-5 comprises a shaft-mounted condensing wheel 3-5-1, a belt pulley B3-5-2 and a transmission belt I3-5-3, the shaft-mounted condensing wheel 3-5-1 is connected with a bearing seat II3-2 in a bearing mode, the shaft-mounted condensing wheel 3-5-1 is connected with a belt pulley B3-5-2, the belt pulley B3-5-2 is flexibly connected with a transmission belt I3-5-3, the transmission belt I3-5-3 is flexibly connected with a belt pulley 1-4-4, the belt pulley 1-4-4 is driven to rotate by the connecting shaft 1-4-3 when rotating, the transmission belt I3-5-3 of the belt pulley 1-4-4 is driven to rotate by the belt pulley B3-5-2, the belt pulley B3-5-2 rotates to drive the shaft-mounted condensing wheel 3-5-1 to rotate, the shaft-mounted condensing wheel 3-5-1 rotates to form negative pressure, water vapor near the circulating water tank 2-1 is sucked into the air box 3-4 from the air inlet pipe 3-3, so that water in the circulating water tank 2-1 can be cooled, the water vapor is condensed by the shaft-mounted condensing wheel 3-5-1 after being sucked, and the condensed water is discharged into the water flowing groove 3-6-3 from the water outlet hole I3-13 and is discharged; the platform mechanism 3-6 comprises a base 3-6-1, a support leg 3-6-2 with a hole, a launder 3-6-3 and a door support 3-6-4, wherein the base 3-6-1 is connected with the support leg 3-6-2 with the hole, the support leg 3-6-2 with the hole is connected with a sliding rod 3-1-1 with a limiting head in a sliding manner, a vibration spring 3-1-2 abuts against the support leg 3-6-2 with the hole, the launder 3-6-3 is connected with the base 3-6-1, the door support 3-6-4 is connected with the base 3-6-1, and the door support 3-6-4 is connected with a motor 1-4-7.

The fifth concrete implementation mode:

the present embodiment will be described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, and fig. 20, and the first embodiment will be further described, in which the material of the launders 3-6-3 is stainless steel.

The working principle of the device is as follows: the device can be used for heat exchange treatment to achieve the purpose of rapid cooling, materials needing heat exchange are placed into the feed hopper body 1-3-1, the operation motor 1-4-7 drives the coupler 1-4-5 to rotate, the coupler 1-4-5 drives the connecting shaft 1-4-3 to rotate, the connecting shaft 1-4-3 rotates to drive the spiral 1-4-1 to rotate, the connecting shaft 1-4-3 rotates to drive the gear I1-4-2 to rotate, the gear I1-4-2 rotates to drive the gear 1-5 to rotate, the gear 1-5 rotates to drive the bevel gear 1-7 to rotate through the gear shaft 1-6, and the bevel gear 1-7 rotates to drive the cam with the shaft 1-8 through the transmission bevel gear 1-8 9 rotates, the cam 1-9 with the shaft rotates to push the pulley 1-2-8, the pulley 1-2-8 drives the pulley support 1-2-9 to move, the pulley support 1-2-9 moves to drive the baffle 1-2-11 to move through the connecting seat I1-2-7 and the polished rod I1-2-10, the baffle 1-2-11 moves to enable the material in the feed hopper body 1-3-1 to lose the limit and move downwards from the feed port 1-3-4, the slide valve 1-2-4 drives the connecting square hole 1-2-3 to slide, and the connecting square hole 1-2-3 enables the feed port 1-3-4, the inlet 1-1-2, the feed outlet 1-3-4, the inlet 1-1-2, The inlet port I1-1-10 is communicated, so that heat exchange materials can fall into the sand washing shell body 1-1-1, the rotating spiral 1-4-1 can drive the material outlet port to move in the direction 1-1-8, the spring 1-2-5 is compressed in the process, then the spring 1-2-5 can rebound, the spring 1-2-5 can drive the sliding valve 1-2-4 to reset, and feeding is stopped, so that intermittent feeding can be realized, the sliding valve 1-2-4 can drive the piston 1-2-1 to reciprocate when reciprocating in the best degree, when the piston 1-2-1 moves in the direction 1-2-8 of the pulley, the pressure in the pressure cavity 2-5 can be increased by the piston 1-2-1, then increasing the pressure in the heat exchange box 2-3, flushing the water in the heat exchange box 2-3 out of the water outlet one-way valve 2-9 and discharging the water from the water outlet pipe 2-6, when the piston 1-2-1 moves reversely, the pressure in the heat exchange box 2-3 is smaller than the outside, so that the water in the circulating water tank 2-1 is sucked from the water suction pipe 2-8, and the water flushes the water inlet one-way valve 2-10 to enter the heat exchange box 2-3 to supplement cooling water, so that the heat exchange treatment can be carried out on the material; the device can be used for washing sand, a mixture of water and sand is placed into the feed hopper body 1-3-1, the heat exchange process of the material is repeated, the screw 1-4-1 can fully contact the water and the sand in the process of driving the water and the sand to move so as to achieve the purpose of cleaning, and then the water and the sand are discharged from the outlet 1-1-8; the equipment can carry out dehydration treatment, the motor belt pulley 3-9 is driven to rotate by the operation of the vibration motor 3-7 with the supporting plate, the motor belt pulley 3-9 rotates to drive the transmission belt pulley I3-10 to rotate by the belt I3-8, the transmission belt pulley I3-10 rotates to drive the eccentric wheel shaft 3-11 to rotate, the eccentric wheel shaft 3-11 rotates to drive the eccentric wheel 3-12 to rotate, the eccentric wheel 3-12 rotates to form a bias vibration force, the dehydration support frame 3-1-3 can carry out continuous vibration under the matching of the bias vibration force and the vibration spring 3-1-2, the dehydration support frame 3-1-3 vibrates to drive the filter screen 3-1-4 to vibrate, the filter screen 3-1-4 vibrates to separate water and sand, water can leak from the outlet A3-1-8 and then is discharged from the water flowing groove 3-6-3, and sand slides away from the filter screen 3-1-4; the device can recover moisture, the belt pulley 1-4-4 can be driven to rotate when the connecting shaft 1-4-3 rotates, the transmission belt I3-5-3 which can drive the belt pulley B3-5-2 to rotate when the belt pulley 1-4-4 rotates, the belt pulley B3-5-2 can drive the shaft-mounted condensing wheel 3-5-1 to rotate when the belt pulley B3-5-2 rotates, the shaft-mounted condensing wheel 3-5-1 rotates to form negative pressure, water vapor near the circulating water tank 2-1 is sucked into the air box 3-4 from the air inlet pipe 3-3, therefore, water in the circulating water tank 2-1 can be cooled, water vapor is condensed by the shaft-mounted condensing wheel 3-5-1 after being sucked, and condensed water is discharged into the water flowing groove 3-6-3 from the water outlet hole I3-13 and is discharged; the equipment can ensure longer service life, and when the motor 1-4-7 runs, the wind wheel 1-4-6 can be driven to rotate to drive the airflow to move, so that the bevel gear 1-7, the transmission bevel gear 1-8 and the cam with the shaft 1-9 can be helped to cool, and the service life is prolonged.

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 (5)

1. The utility model provides a dual-purpose equipment of heat transfer washing sand, includes washing sand mechanism (1), heat transfer case mechanism (2), dehydration mechanism (3), its characterized in that: the sand washing mechanism (1) is connected with the heat exchange box mechanism (2), the heat exchange box mechanism (2) is connected with the dehydration mechanism (3), and the dehydration mechanism (3) is connected with the sand washing mechanism (1).

2. The heat exchange and sand washing dual-purpose equipment of claim 1, which is characterized in that: the sand washing mechanism (1) comprises a sand washing shell mechanism (1-1), a linkage mechanism (1-2), a feed hopper mechanism (1-3), a sand washing spiral mechanism (1-4), a gear (1-5), a gear shaft (1-6), a bevel gear (1-7), a transmission bevel gear (1-8) and a cam with a shaft (1-9), the sand washing shell mechanism (1-1) is connected with the linkage mechanism (1-2), the sand washing shell mechanism (1-1) is connected with the feed hopper mechanism (1-3), the sand washing shell mechanism (1-1) is connected with the sand washing spiral mechanism (1-4), the gear (1-5) is meshed with the sand washing spiral mechanism (1-4), the gear (1-5) is connected with the gear shaft (1-6), the gear shaft (1-6) is connected with the sand washing shell mechanism (1-1) in a bearing way, the gear shaft (1-6) is connected with the bevel gear (1-7), the bevel gear (1-7) is meshed with the transmission bevel gear (1-8), the transmission bevel gear (1-8) is connected with the shaft-carrying cam (1-9), the shaft-carrying cam (1-9) is connected with the sand washing shell mechanism (1-1) in a bearing way, and the shaft-carrying cam (1-9) is contacted with the linkage mechanism (1-2); the sand washing shell mechanism (1-1) comprises a sand washing shell body (1-1-1), an inlet (1-1-2), a slide hole (1-1-3), a bearing seat I (1-1-4), a supporting plate (1-1-5) with a bearing seat, a bearing seat II (1-1-6), a bearing seat III (1-1-7), an outlet (1-1-8), a sliding cavity (1-1-9) and an inlet port I (1-1-10), wherein the inlet (1-1-2) is arranged on the sand washing shell body (1-1-1), the slide hole (1-1-3) is arranged on the sand washing shell body (1-1-1), the bearing seat I (1-1-4) is connected with the sand washing shell body (1-1-1), a supporting plate (1-1-5) with a bearing seat is connected with a sand washing shell body (1-1-1), a bearing seat II (1-1-6) is connected with the sand washing shell body (1-1-1), a gear shaft (1-6) is connected with the bearing seat II (1-1-6) in a bearing way, a bearing seat III (1-1-7) is connected with the supporting plate (1-1-5) with the bearing seat, the supporting plate (1-1-5) with the bearing seat is connected with a cam (1-9) with a shaft in a bearing way, the bearing seat III (1-1-7) is connected with the gear shaft (1-6) in a bearing way, a sliding cavity (1-1-9) is arranged on the sand washing shell body (1-1-1), the inlet I (1-1-10) is arranged on the sand washing shell body (1-1-1), the inlet (1-1-2) is communicated with the sliding cavity (1-1-9), and the sliding cavity (1-1-9) is communicated with the inlet I (1-1-10); the linkage mechanism (1-2) comprises a piston (1-2-1), a sliding rod (1-2-2), a connecting square hole (1-2-3), a sliding valve (1-2-4), a spring (1-2-5), a polish rod (1-2-6), a connecting seat I (1-2-7), a pulley (1-2-8), a pulley support (1-2-9), a polish rod I (1-2-10) and a baffle (1-2-11), the piston (1-2-1) is connected with the sliding rod (1-2-2), the sliding rod (1-2-2) is connected with the sliding valve (1-2-4), the sliding valve (1-2-4) is provided with the connecting square hole (1-2-3), the slide valve (1-2-4) is connected with the polish rod (1-2-6), the spring (1-2-5) is sleeved on the polish rod (1-2-6), the polish rod (1-2-6) is connected with the connecting seat I (1-2-7), the connecting seat I (1-2-7) is connected with the pulley support (1-2-9), the pulley support (1-2-9) is connected with the pulley (1-2-8) in a bearing mode, the connecting seat I (1-2-7) is connected with the polish rod I (1-2-10), the polish rod I (1-2-10) is connected with the baffle plate (1-2-11), the slide rod (1-2-2) is connected with the slide hole (1-1-3) in a sliding mode, the sliding valve (1-2-4) is in sliding connection with the sliding cavity (1-1-9), the polish rod (1-2-6) is in sliding connection with the sliding hole (1-1-3), the pulley (1-2-8) is in contact with the cam (1-9) with the shaft, and the spring (1-2-5) is pressed against the sliding valve (1-2-4) and the sand washing shell body (1-1-1); the feeding hopper mechanism (1-3) comprises a feeding hopper body (1-3-1), a discharging port I (1-3-2), a gate groove (1-3-3) and a feeding port (1-3-4), wherein the feeding hopper body (1-3-1) is connected with the sand washing shell body (1-1-1), the discharging port I (1-3-2) is arranged on the feeding hopper body (1-3-1), the gate groove (1-3-3) is in sliding connection with a baffle (1-2-11), and the feeding port (1-3-4) is arranged on the feeding hopper body (1-3-1); the sand washing spiral mechanism (1-4) comprises a spiral (1-4-1), a gear I (1-4-2), a connecting shaft (1-4-3), a belt pulley (1-4-4), a coupling (1-4-5), a wind wheel (1-4-6) and a motor (1-4-7), wherein the spiral (1-4-1) is connected with the gear I (1-4-2), the gear I (1-4-2) is connected with the connecting shaft (1-4-3), the connecting shaft (1-4-3) is connected with the belt pulley (1-4-4), the connecting shaft (1-4-3) is connected with the motor (1-4-7) through the coupling (1-4-5), the motor (1-4-7) is connected with the wind wheel (1-4-6), and the connection mode of the spiral (1-4-1) and the bearing seat I (1-1-4) is bearing connection.

3. The heat exchange and sand washing dual-purpose equipment of claim 1, which is characterized in that: the heat exchange box mechanism (2) comprises a circulating water tank (2-1), supporting legs I (2-2), a heat exchange box (2-3), through openings (2-4), a pressure cavity (2-5), water outlet pipes (2-6), sliding holes I (2-7), water suction pipes (2-8), a water outlet one-way valve (2-9), a water inlet one-way valve (2-10) and communication holes (2-11), wherein the supporting legs I (2-2) are connected with the heat exchange box (2-3), the through openings (2-4) are opened on the heat exchange box (2-3), a sand washing shell body (1-1-1) penetrates through the through openings (2-4) and is connected with the heat exchange box (2-3) through the openings (2-4), and the heat exchange box (2-3) is connected with the pressure cavity (2-5), the water outlet pipe (2-6) is connected with the circulating water tank (2-1), the slide hole I (2-7) is arranged on the pressure cavity (2-5), the slide hole I (2-7) is connected with the slide rod (1-2-2) in a sliding manner, the piston (1-2-1) is connected with the pressure cavity (2-5) in a sliding manner, the water suction pipe (2-8) is connected with the heat exchange tank (2-3), the water outlet one-way valve (2-9) is arranged in the water outlet pipe (2-6), the water inlet one-way valve (2-10) is arranged in the water suction pipe (2-8), and the communication hole (2-11) is communicated with the heat exchange tank (2-3) and the pressure cavity (2-5).

4. The heat exchange and sand washing dual-purpose equipment of claim 1, which is characterized in that: the dehydration mechanism (3) comprises a dehydration sieve mechanism (3-1), a bearing seat II (3-2), an air inlet pipe (3-3), an air box (3-4), a condensation wheel mechanism (3-5), a platform mechanism (3-6), a vibrating motor (3-7) with a support plate, a belt I (3-8), a motor belt pulley (3-9), a transmission belt pulley I (3-10), an eccentric wheel shaft (3-11), an eccentric wheel (3-12) and a water outlet hole I (3-13), the dehydration sieve mechanism (3-1) is connected with the platform mechanism (3-6), the bearing seat II (3-2) is connected with the air box (3-4), the air box (3-4) is connected with the air inlet pipe (3-3), the connection mode of the condensation wheel mechanism (3-5) and the bearing seat II (3-2) is bearing connection, the air box (3-4) is connected with the platform mechanism (3-6), the vibrating motor (3-7) with the supporting plate is connected with the dewatering screen mechanism (3-1), the vibrating motor (3-7) with the supporting plate is connected with the motor belt pulley (3-9), the motor belt pulley (3-9) is flexibly connected with the belt I (3-8), the belt I (3-8) is flexibly connected with the transmission belt pulley I (3-10), the transmission belt pulley I (3-10) is connected with the eccentric wheel shaft (3-11), the eccentric wheel shaft (3-11) is connected with the eccentric wheel (3-12), the eccentric wheel shaft (3-11) is connected with the dewatering screen mechanism (3-1), and the water outlet I (3-13) is formed in the air box (3-4); the dewatering screen mechanism (3-1) comprises a sliding rod (3-1-1) with a limiting head, a vibration spring (3-1-2), a dewatering support frame (3-1-3), a filter screen (3-1-4), a reinforcing rod (3-1-5), a bearing seat A (3-1-6), a water baffle (3-1-7) and an outlet A (3-1-8), the vibration spring (3-1-2) is sleeved on the sliding rod (3-1-1) with the limiting head, the sliding rod (3-1-1) with the limiting head is connected with the dewatering support frame (3-1-3), the dewatering support frame (3-1-3) is connected with the filter screen (3-1-4), the reinforcing rod (3-1-5) is connected with the dewatering support frame (3-1-3), the bearing seat A (3-1-6) is connected with the dehydration support frame (3-1-3), the water baffle plate (3-1-7) is connected with the dehydration support frame (3-1-3), the outlet A (3-1-8) is arranged on the water baffle plate (3-1-7), the bearing seat A (3-1-6) is connected with the eccentric wheel shaft (3-11) in a bearing mode, and the vibration motor (3-7) with the support plate is connected with the dehydration support frame (3-1-3); the condensing wheel mechanism (3-5) comprises a belt shaft condensing wheel (3-5-1), a belt pulley B (3-5-2) and a transmission belt I (3-5-3), the belt shaft condensing wheel (3-5-1) is connected with a bearing seat II (3-2) in a bearing way, the belt shaft condensing wheel (3-5-1) is connected with the belt pulley B (3-5-2), the belt pulley B (3-5-2) is flexibly connected with the transmission belt I (3-5-3), and the transmission belt I (3-5-3) is flexibly connected with the belt pulley (1-4-4); the platform mechanism (3-6) comprises a base (3-6-1) and a supporting leg (3-6-2) with a hole, the water flowing groove (3-6-3) and the door brace (3-6-4), the base (3-6-1) is connected with the supporting leg (3-6-2) with the hole, the supporting leg (3-6-2) with the hole is connected with the sliding rod (3-1-1) with the limiting head in a sliding mode, the vibration spring (3-1-2) abuts against the supporting leg (3-6-2) with the hole, the water flowing groove (3-6-3) is connected with the base (3-6-1), the door brace (3-6-4) is connected with the base (3-6-1), and the door brace (3-6-4) is connected with the motor (1-4-7).

5. The heat exchange and sand washing dual-purpose equipment of claim 4, characterized in that: the material of the launder (3-6-3) is stainless steel.

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