CN113620315A - Seawater salt manufacturing device - Google Patents

Abstract

The invention relates to a salt manufacturing device, in particular to a seawater salt manufacturing device. The invention aims to solve the technical problem of providing a time-saving, labor-saving and high-efficiency seawater salt production device which can transport seawater and clean impurities without manpower. In order to solve the above technical problems, the present invention provides a seawater salt manufacturing apparatus, comprising: a leg having a connecting rod connected thereto; the bracket is connected to the connecting rod; a fixed plate connected to the link; the evaporation assembly is connected to the connecting rod; a grinding assembly connected to the legs. According to the invention, through the matching of the evaporation assembly and the grinding assembly, seawater is evaporated to prepare salt, the prepared salt is subjected to salt crushing, and the salt is screened through the screening assembly, so that no salt is generated when salt is manually collected.

Description

Seawater salt manufacturing device

Technical Field

The invention relates to a salt manufacturing device, in particular to a seawater salt manufacturing device.

Background

The edible salt is processed edible salt which is obtained from seawater, underground rock salt sediments and natural brine and takes sodium chloride as a main component, and does not comprise low-sodium salt, wherein the main component of the edible salt is sodium chloride, and meanwhile, the edible salt contains a small amount of water, impurities and other elements such as iron, phosphorus, iodine and the like.

At present, people salt manufacturing seawater usually manually invert the seawater in a container, then remove sundries of the seawater, then heat the seawater by manual utilization of firewood, and achieve the effect of evaporating salt manufacturing.

Therefore, it is necessary to develop a time-saving, labor-saving and efficient seawater salt production device which can transport seawater and clean impurities without manpower.

Disclosure of Invention

(1) Technical problem to be solved

The invention aims to overcome the defects that the seawater needs to be manually transported into a container and sundries need to be manually removed, time and labor are wasted, and the efficiency is low.

(2) Technical scheme

In order to solve the above technical problems, the present invention provides a seawater salt manufacturing apparatus, comprising: a leg having a connecting rod connected thereto; the bracket is connected to the connecting rod; a fixed plate connected to the link; the evaporation assembly is connected to the connecting rod; a grinding assembly connected to the legs.

Preferably, the evaporation assembly comprises: a support plate connected to the link; a guide plate connected to the support plate; and the heating pipe is connected to the guide plate.

Preferably, the grinding assembly comprises: the first rotating shaft is rotatably connected to the grinding barrel; a grinding barrel connected to the support legs; the grinding rod is connected to the first rotating shaft; the discharge port is connected to the grinding barrel; the feeding hole is connected to the grinding barrel; a motor mounted on the fixing plate; the second rotating shaft is rotatably connected to the guide plate; the first belt transmission set is connected between the second rotating shaft and the output shaft of the motor; and the second belt transmission set is connected between the second rotating shaft and the first rotating shaft.

Preferably, the screening assembly is further included, the screening assembly comprising: the sieve plate is connected to the first rotating shaft and matched with the grinding barrel; the stop lever is connected to the sieve plate; the first scroll spring is connected to the sieve plate and the grinding barrel; the first striker is rotatably connected to the first rotating shaft and matched with the stop lever; and a second scroll spring connected between the first striker and the first rotation shaft.

Preferably, still include the scraper subassembly, the scraper subassembly includes: the sliding rod is connected to the guide plate in a sliding manner; the first compression spring is sleeved between the sliding rod and the scraper; a scraper slidably connected to the slide bar; the extension spring is connected between the sliding rod and the guide plate; the transmission belt is connected to the second rotating shaft; a second striker rotatably connected to the transmission belt; a torsion spring connected between the second striker and the transmission belt; the guide frame is connected to the guide plate; the first wedge block is connected to the guide frame in a sliding manner; the second compression spring is sleeved between the first wedge block and the guide frame; the second wedge-shaped block is connected to the guide frame in a sliding manner; and the third compression spring is connected between the second wedge block and the guide frame.

Preferably, the device further comprises a feeding assembly, wherein the feeding assembly comprises: a water storage tank connected to the bracket; the nozzle is connected to the water storage tank and is positioned right above the flow guide plate; a valve connected between the water storage tank and the nozzle; the water inlet is connected to the left side of the upper part of the water storage tank and is provided with a water inlet.

Preferably, a filter assembly is further included, the filter assembly comprising: the guide rail is connected to the water storage tank; a filter screen slidably coupled to the guide rail; a handle connected to the filter screen.

Preferably, the water inlet is provided with a switch.

(3) Advantageous effects

1. Through the cooperation of evaporation subassembly and crushing subassembly to evaporate the salt of salt making to sea water and carry out the salt to the salt that makes and smash.

2. Salt is screened through the screening subassembly thereby, makes the manual work carry out and does not have the salt when collecting salt.

3. Thereby need not artifically push away the salt on the guide plate to grind the bucket in through scraping the material subassembly, use manpower sparingly and improved work efficiency.

4. Thereby need not artifical manual the sea water transport to the guide plate through the feeding subassembly on, further use manpower sparingly and improve work efficiency.

5. Thereby conveniently artifically screen the debris in the sea water and collect through feeding subassembly.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of an evaporation assembly of the present invention.

Fig. 3 is a schematic perspective view of the scraping assembly of the present invention.

Fig. 4 is a schematic partial perspective view of a first embodiment of the present invention.

Fig. 5 is a schematic partial perspective view of a second embodiment of the present invention.

Fig. 6 is a third partial perspective view of the present invention.

The labels in the figures are: 1-support leg, 2-support frame, 3-connecting rod, 4-fixed plate, 5-evaporation component, 51-support plate, 52-guide plate, 53-heating tube, 6-grinding component, 61-first rotating shaft, 62-grinding barrel, 63-grinding rod, 64-discharge port, 65-feed port, 66-motor, 67-second rotating shaft, 68-first belt transmission group, 69-second belt transmission group, 7-screening component, 71-screen plate, 72-baffle rod, 73-first volute spring, 74-first ram, 75-second volute spring, 8-scraping component, 81-sliding rod, 82-first compression spring, 83-scraping plate, 84-extension spring, 85-driving belt, 86-second ram, 87-a torsion spring, 88-a guide frame, 89-a first wedge-shaped block, 810-a second compression spring, 811-a second wedge-shaped block, 812-a third compression spring, 9-a feeding component, 91-a water storage tank, 92-a nozzle, 93-a valve, 94-a water inlet, 10-a filtering component, 101-a guide rail, 102-a filter screen and 103-a handle.

Detailed Description

The invention is further described below with reference to the figures and examples.

Example 1

A seawater salt manufacturing device is shown in figures 1, 2, 4 and 5 and comprises a support leg 1, a support 2, a connecting rod 3, a fixing plate 4, an evaporation assembly 5 and a crushing assembly 6, wherein the left side of the support leg 1 is connected with the connecting rod 3, the left side of the connecting rod 3 is connected with the support 2, the right side of the connecting rod 3 is connected with the fixing plate 4, the middle of the upper part of the connecting rod 3 is connected with the evaporation assembly 5, and the upper part of the support leg 1 is connected with the crushing assembly 6.

The evaporation component 5 comprises a support plate 51, a guide plate 52 and a heating pipe 53, the support plate 51 is connected with the front side and the rear side of the middle part of the connecting rod 3, the guide plate 52 is connected between the upper parts of the support plates 51 at the two sides, and the heating pipe 53 is arranged at the bottom of the guide plate 52.

Grinding subassembly 6 is including first pivot 61, grind bucket 62, grinding roller 63, discharge gate 64, feed inlet 65, motor 66, second pivot 67, first belt drive group 68 and second belt drive group 69, stabilizer blade 1 upper portion is connected with grinds bucket 62, it is connected with first pivot 61 to grind bucket 62 middle part rotary type, first pivot 61 evenly is connected with four grinding roller 63 along the week, it is connected with discharge gate 64 to grind bucket 62 bottom, it is connected with feed inlet 65 to grind bucket 62 upper portion left side, motor 66 is installed to fixed plate 4 top front side, the guide plate 52 left and right sides all is connected with second pivot 67, be connected with first belt drive group 68 between second pivot 67 on right side and the motor 66 output shaft, be connected with second belt drive group 69 between second pivot 67 and the first pivot 61.

When the sea water salt manufacturing needs to be carried out, can use this device, at first the manual work pours into the sea water on guide plate 52, then heat the evaporation through heating pipe 53 to the sea water, when the sea water is evaporated into salt, push away to grinding barrel 62 from feed inlet 65 through artifical manual salt that will make, artifical starter motor 66 rotates and drives the second pivot 67 rotation on right side through first belt transmission group 68 after that, the second pivot 67 on right side rotates and drives first pivot 61 through second belt transmission group 69 and rotate, first pivot 61 rotates and drives grinding roller 63 and rotate, the salt that makes to drop is stirred up, then collect the salt of processing completion through discharge gate 64.

Example 2

On the basis of embodiment 1, as shown in fig. 4, the screening device 7 further includes a screening assembly 7, the screening assembly 7 includes a screening plate 71, a blocking rod 72, a first spiral spring 73, a first collision rod 74 and a second spiral spring 75, the screening plate 71 is connected between the front and rear sides of the first rotating shaft 61, the screening plate 71 is matched with the grinding barrel 62, the blocking rods 72 are connected to the front and rear sides of the screening plate 71, the first spiral springs 73 are connected to the front and rear sides of the screening plate 71 and the front and rear sides of the grinding barrel 62, the first collision rods 74 are rotatably connected to the front and rear sides of the first rotating shaft 61, the first collision rods 74 on both sides are matched with the blocking rods 72 on both sides, and the second spiral springs 75 are connected between the first collision rods 74 on both sides and the first rotating shafts 61 on both sides.

When the first rotating shaft 61 rotates, the first rotating shaft 61 rotates to drive the first collision rod 74 to rotate, the first collision rod 74 rotates to drive the stop rod 72 to rotate, when the stop rod 72 rotates to a limit position, the first collision rod 74 rotates the second scroll spring 75 to be compressed, the stop rod 72 rotates to drive the sieve plate 71 to rotate, the sieve plate 71 rotates the first scroll spring 73 to be compressed, when the first collision rod 74 does not contact with the stop rod 72, the sieve plate 71 resets under the action of the compressed first scroll spring 73, when holes in the sieve plate 71 are overlapped with holes in the grinding barrel 62, salt drops down, and is screened through the sieve plate 71, so that no salt is found when salt is collected manually.

Example 3

On the basis of embodiment 2, as shown in fig. 3, the material scraping device 8 further includes a material scraping component 8, the material scraping component 8 includes a sliding rod 81, a first compression spring 82, a scraping plate 83, an extension spring 84, a transmission belt 85, a second striker 86, a torsion spring 87, a guide frame 88, a first wedge block 89, a second compression spring 810, a second wedge block 811 and a third compression spring 812, the sliding rod 81 is connected to both front and rear sides of the left portion of the guide plate 52 in a sliding manner, the first compression spring 82 is sleeved between the sliding rod 81 and the scraping plate 83 on both sides, the scraping plate 83 is connected between the sliding rod 81 on both sides in a sliding manner, the extension spring 84 is connected between the left side of the sliding rod 81 and the guide plate 52 on both sides, the transmission belt 85 is connected between both front and rear sides of the second rotating shaft 67 on both sides, the second striker 86 is connected to the left side of the upper portion of the transmission belt 85 on both sides, the second striker 86 on both sides and the transmission belt 85 are connected to the torsion spring 87, guide frame 88 is connected with to both sides around guide plate 52 lower part, and the guide frame 88 left part outside of both sides all is sliding type to be connected with first wedge 89, and the cover is equipped with second compression spring 810 between the first wedge 89 of both sides and the guide frame 88 of both sides, and both sides all are sliding type to be connected with second wedge 811 around the guide frame 88 right part of both sides, all overlap to be equipped with third compression spring 812 between the second wedge 811 of both sides and the guide frame 88 of both sides.

When the first rotating shaft 61 on the right side rotates, the first rotating shaft 61 on the left side drives the transmission belt 85 to rotate, the transmission belt 85 rotates to drive the second collision rod 86 to rotate, the second collision rod 86 rotates to drive the scraper 83 to move rightwards, so that salt on the guide plate 52 is not required to be manually pushed into the grinding barrel 62, labor is saved, the working efficiency is improved, the scraper 83 moves rightwards, the extension spring 84 is stretched, the scraper 83 moves rightwards to drive the second wedge 811 to move upwards, the second wedge 811 moves upwards, the third compression spring 812 is compressed, when the scraper 83 does not contact with the second wedge 811, the second wedge 811 resets under the action of the compressed third compression spring 812, when the scraper 83 moves rightwards to the limit position, the second collision rod 86 does not contact with the scraper 83, the scraper 83 resets under the action of the stretched extension spring 84, when resetting, the scraper 83 moves upwards under the action of the guide frame 88, the scraper 83 moves upward and the first compression spring 82 is compressed, and after the scraper 83 is returned to the left, the scraper 83 is returned downward by the compressed first compression spring 82.

On the basis of embodiment 2, as shown in fig. 6, the water storage and distribution device further comprises a feeding assembly 9, wherein the feeding assembly 9 comprises a water storage tank 91, a nozzle 92, a valve 93 and a water inlet 94, the top of the support 2 is connected with the water storage tank 91, the nozzle 92 is arranged on the right side of the lower portion of the water storage tank 91, the nozzle 92 is located right above the flow guide plate 52, the valve 93 is arranged between the water storage tank 91 and the nozzle 92, and the water inlet 94 is arranged on the left side of the upper portion of the water storage tank 91.

When the sea water needs to be heated to prepare salt, the water storage tank 91 is manually filled with the sea water through the water inlet 94, and then the manual control valve 93 discharges the sea water onto the guide plate 52 through the nozzle 92, so that the sea water does not need to be manually conveyed onto the guide plate 52, the labor is further saved, and the working efficiency is further improved.

On the basis of embodiment 2, as shown in fig. 6, the water storage tank further comprises a filtering assembly 10, wherein the filtering assembly 10 comprises a guide rail 101, a filter screen 102 and a handle 103, the guide rail 101 is connected to the left side and the right side inside the water storage tank 91, the filter screen 102 is connected between the guide rails 101 on the two sides in a sliding manner, and the handle 103 is connected to the middle part of the front side of the filter screen 102.

When filling storage water tank 91, filter some debris in the sea water through being equipped with filter screen 102, when stopping the water injection, artifical pulling handle 103 drives filter screen 102 and moves forward to make things convenient for the manual work to filter the debris in the sea water and collect.

The above examples are merely representative of preferred embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, various changes, modifications and substitutions can be made without departing from the invention, and all such changes, modifications and substitutions fall within the scope of the invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (8)

1. A seawater salt manufacturing device is characterized by comprising:

the support legs (1) are connected with connecting rods (3);

a bracket (2) connected to the connecting rod (3);

a fixed plate (4) connected to the link (3);

the evaporation assembly (5) is connected to the connecting rod (3);

a grinding assembly (6) connected to the legs (1).

2. A seawater desalination plant as claimed in claim 1, wherein the evaporation assembly (5) comprises:

a support plate (51) connected to the link (3);

a baffle plate (52) connected to the support plate (51);

and a heating pipe (53) connected to the deflector (52).

3. A seawater salt manufacturing apparatus as claimed in claim 2, wherein the grinding assembly (6) comprises:

a first rotating shaft (61) rotatably connected to the drum (62);

a grinding barrel (62) connected to the support leg (1);

a roller (63) connected to the first rotating shaft (61);

a discharge port (64) connected to the milling barrel (62);

a feed inlet (65) connected to the milling barrel (62);

a motor (66) mounted on the fixed plate (4);

a second rotating shaft (67) rotatably connected to the guide plate (52);

a first belt transmission group (68) connected between the second rotating shaft (67) and the output shaft of the motor (66);

and a second belt transmission group (69) connected between the second rotating shaft (67) and the first rotating shaft (61).

4. A seawater salt manufacturing apparatus according to claim 3, further comprising a screening module (7), wherein the screening module (7) comprises:

the sieve plate (71) is connected to the first rotating shaft (61), and the sieve plate (71) is matched with the grinding barrel (62);

a stop lever (72) connected to the screen plate (71);

a first scroll spring (73) connected to the sieve plate (71) and the grinding barrel (62);

a first striker (74) rotatably connected to the first rotary shaft (61), the first striker (74) being engaged with the stopper (72);

and a second scroll spring (75) connected between the first striker (74) and the first rotary shaft (61).

5. A seawater salt manufacturing apparatus as claimed in claim 4, further comprising a scraping assembly (8), wherein the scraping assembly (8) comprises:

a slide bar (81) slidably connected to the guide plate (52);

the first compression spring (82) is sleeved between the sliding rod (81) and the scraper (83);

a scraper (83) slidably connected to the slide bar (81);

an extension spring (84) connected between the sliding rod (81) and the guide plate (52);

a transmission belt (85) connected to the second rotating shaft (67);

a second striker (86) rotatably connected to the belt (85);

a torsion spring (87) connected between the second striker (86) and the transmission belt (85);

a guide frame (88) connected to the baffle plate (52);

a first wedge block (89) slidably connected to the guide frame (88);

the second compression spring (810) is sleeved between the first wedge block (89) and the guide frame (88);

a second wedge block (811) slidably connected to the guide frame (88);

and a third compression spring (812) connected between the second wedge block (811) and the guide frame (88).

6. A seawater salt manufacturing apparatus as claimed in claim 5, further comprising a feeding assembly (9), wherein the feeding assembly (9) comprises:

a water storage tank (91) connected to the bracket (2);

a nozzle (92) connected to the water storage tank (91), the nozzle (92) being positioned directly above the flow guide plate (52);

a valve (93) connected between the water tank (91) and the nozzle (92);

and the water inlet (94) is connected to the left side of the upper part of the water storage tank (91) and is provided with a water inlet (94).

7. A seawater salt manufacturing apparatus as claimed in claim 6, further comprising a filter module (10), the filter module (10) comprising:

a guide rail (101) connected to the water tank (91);

a screen (102) slidably connected to the guide rail (101);

a handle (103) connected to the filter screen (102).

8. A seawater salt manufacturing apparatus as claimed in claim 7, wherein the water inlet is provided with a switch.

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