CN113620315B - Salt making device for seawater - Google Patents

Abstract

The invention relates to a salt making device, in particular to a seawater salt making device. The invention aims to solve the technical problem of providing the seawater salt making device which can transport seawater and clean sundries without manpower, and is time-saving, labor-saving and high-efficiency. In order to solve the technical problems, the invention provides a seawater salt making device, which comprises: the support leg is connected with a connecting rod; the bracket is connected to the connecting rod; a fixing plate connected to the connecting rod; an evaporation assembly connected to the connecting rod; and a grinding assembly coupled to the foot. According to the invention, the evaporation assembly and the crushing assembly are matched, so that salt is prepared by evaporating sea water, the prepared salt is crushed by salt bars, and the salt is screened by the screening assembly, so that salt bars are not generated when salt is collected manually.

Description

Salt making device for seawater

Technical Field

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

Background

The edible salt is processed edible salt which is obtained from sea water, underground rock salt sediment 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 simultaneously contains a small amount of water, impurities, other elements such as iron, phosphorus, iodine and the like.

At present, people usually invert the seawater in a container manually to make salt, then remove impurities, then heat the seawater by using firewood manually to achieve the effect of making salt by evaporation, so that the salt making needs to be transported into the container manually and the impurities are removed manually, and the salt making is time-consuming, labor-consuming and low in efficiency.

Therefore, the development of the seawater salt making device which can transport seawater and clean sundries without manpower and has the advantages of time saving, labor saving and high efficiency is needed.

Disclosure of Invention

(1) Technical problem to be solved

The invention aims to overcome the defects that seawater is required to be transported into a container manually and sundries are required to be removed manually, time and labor are wasted and the efficiency is low, and the technical problem to be solved by the invention is to provide the time-saving, labor-saving and high-efficiency seawater salt making device which can transport the seawater and remove the sundries manually.

(2) Technical proposal

In order to solve the technical problems, the invention provides a seawater salt making device, which comprises: the support leg is connected with a connecting rod; the bracket is connected to the connecting rod; a fixing plate connected to the connecting rod; an evaporation assembly connected to the connecting rod; and a grinding assembly coupled to the foot.

Preferably, the evaporation assembly comprises: a support plate connected to the link; a deflector 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 rotationally connected to the grinding barrel; a barrel connected to the leg; the grinding rod is connected to the first rotating shaft; the discharge port is connected to the grinding barrel; the feed inlet is connected to the grinding barrel; a motor mounted on the fixed plate; the second rotating shaft is rotationally connected to the guide plate; the first belt transmission group is connected between the second rotating shaft and the motor output shaft; and the second belt transmission group is connected between the second rotating shaft and the first rotating shaft.

Preferably, the screening assembly is further included, the screening assembly including: the screen 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 collision rod is rotationally connected to the first rotating shaft and is matched with the stop lever; and a second scroll spring connected between the first plunger and the first shaft.

Preferably, still include and scrape the material subassembly, scrape the material subassembly and include: 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 scraping plate; a scraper slidably connected to the slide bar; the extension spring is connected between the slide bar and the guide plate; the transmission belt is connected to the second rotating shaft; a second striker rotatably connected to the belt; a torsion spring connected between the second striker and the belt; the guide frame is connected to the guide plate; a first wedge block slidably coupled to the guide frame; the second compression spring is sleeved between the first wedge block and the guide frame; a second wedge block slidably coupled to the guide frame; and a third compression spring connected between the second wedge block and the guide frame.

Preferably, further comprising a feed assembly comprising: the water storage tank is connected to the bracket; the nozzle is connected to the water storage tank and is positioned right above the 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, the filter assembly is further comprised, the filter assembly comprising: the guide rail is connected to the water storage tank; the filter screen is connected to the guide rail in a sliding manner; a handle connected to the filter screen.

Preferably, the water inlet is provided with a switch.

(3) Advantageous effects

1. The evaporation assembly and the crushing assembly are matched, so that salt is prepared by evaporating the seawater and the prepared salt is crushed by salt crust.

2. Thereby screen the salt through screening component, make the manual work collect salt when not having the salt bar.

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

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

5. Thereby convenient manual work screens the debris in the sea water through feeding assembly and collects.

Drawings

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

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

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

Fig. 4 is a schematic partial perspective view of the 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 schematic view of a third partial perspective structure of the present invention.

The marks in the drawings are: 1-foot, 2-bracket, 3-connecting rod, 4-fixed plate, 5-evaporation component, 51-supporting plate, 52-deflector, 53-heating pipe, 6-crushing component, 61-first rotating shaft, 62-grinding barrel, 63-grinding rod, 64-discharging port, 65-feeding port, 66-motor, 67-second rotating shaft, 68-first belt transmission group, 69-second belt transmission group, 7-screening component, 71-sieve plate, 72-stop rod, 73-first scroll spring, 74-first ram, 75-second scroll spring, 8-scraping component, 81-slide bar, 82-first compression spring, 83-scraping plate, 84-extension spring, 85-driving belt, 86-second ram, 87-torsion spring, 88-guide frame, 89-first wedge block, 810-second compression spring, 811-second wedge block, 812-third compression spring, 9-feeding component, 91-water storage tank, 92-nozzle, 93-valve, 94-water inlet, 10-filtering component, 101-handle, 102-filter screen.

Detailed Description

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

Example 1

The utility model provides a sea water salt manufacturing device, as shown in fig. 1, fig. 2, fig. 4 and fig. 5, including stabilizer blade 1, support 2, connecting rod 3, fixed plate 4, evaporating subassembly 5 and crushing subassembly 6, stabilizer blade 1 left side is connected with connecting rod 3, and connecting rod 3 left side is connected with support 2, and connecting rod 3 right side is connected with fixed plate 4, and connecting rod 3 upper portion intermediate junction has evaporating subassembly 5, and stabilizer blade 1 upper portion is connected with crushing subassembly 6.

The evaporation component 5 comprises a supporting plate 51, a guide plate 52 and a heating pipe 53, wherein the supporting plate 51 is connected to 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 supporting plates 51 on the two sides, and the heating pipe 53 is arranged at the bottom of the guide plate 52.

The grinding subassembly 6 is including first pivot 61, grinding barrel 62, grinding pole 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 grinding barrel 62, grinding barrel 62 middle part rotation is connected with first pivot 61, first pivot 61 evenly is connected with four grinding poles 63 along the week, grinding barrel 62 bottom is connected with discharge gate 64, grinding barrel 62 upper portion left side is connected with feed inlet 65, motor 66 is installed to fixed plate 4 top front side, the equal rotation in guide plate 52 left and right sides 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 salt is required to be made from seawater, the device can be used, firstly, seawater is poured onto the guide plate 52 manually, then the seawater is heated and evaporated through the heating pipe 53, when the seawater is evaporated into salt, the salt is pushed into the grinding barrel 62 from the feed inlet 65 manually, then the second rotating shaft 67 on the right side is driven to rotate by the first belt transmission group 68 through the rotation of the manual starting motor 66, the first rotating shaft 61 is driven to rotate by the rotation of the second belt transmission group 69, the grinding rod 63 is driven to rotate by the rotation of the first rotating shaft 61, the dropped salt is crushed, and then the processed salt is collected through the discharge port 64.

Example 2

On the basis of embodiment 1, as shown in fig. 4, the screening assembly 7 further comprises a screening assembly 7, the screening assembly 7 comprises a screening plate 71, a stop lever 72, a first scroll spring 73, a first ram 74 and a second scroll spring 75, the screening plate 71 is connected between the front side and the rear side of the first rotating shaft 61, the screening plate 71 is matched with the grinding barrel 62, the stop lever 72 is connected to the front side and the rear side of the screening plate 71, the first scroll spring 73 is connected to the front side and the rear side of the screening plate 71 and the front side and the rear side of the grinding barrel 62, the first ram 74 on the front side and the rear side of the first rotating shaft 61 is rotatably connected to the first ram 74, the first ram 74 on the two sides is matched with the stop lever 72 on the two sides, and the second scroll spring 75 is connected between the first ram 74 on the two sides and the first rotating shaft 61 on the two sides.

When the first rotating shaft 61 rotates, the first rotating shaft 61 rotates to drive the first ram 74 to rotate, the first ram 74 rotates to drive the stop lever 72 to rotate, when the stop lever 72 rotates to the limit position, the first ram 74 rotates to compress the second scroll spring 75, the stop lever 72 rotates to drive the screen plate 71 to rotate, the screen plate 71 rotates to compress the first scroll spring 73, when the first ram 74 is not contacted with the stop lever 72, the screen plate 71 resets under the action of the compressed first scroll spring 73, when the holes on the screen plate 71 are overlapped with the holes on the grinding barrel 62, salt falls down, and the screen plate 71 screens salt, so that salt is not blocked when salt is collected manually.

Example 3

On the basis of embodiment 2, as shown in fig. 3, the scraper assembly 8 further comprises a scraper assembly 8, the scraper assembly 8 comprises a sliding rod 81, a first compression spring 82, a scraper blade 83, an extension spring 84, a driving belt 85, a second collision rod 86, a torsion spring 87, a guide frame 88, a first wedge-shaped block 89, a second compression spring 810, a second wedge-shaped block 811 and a third compression spring 812, the sliding rod 81 is connected to the front and rear sides of the left part of the guide plate 52 in a sliding manner, the first compression spring 82 is sleeved between the sliding rod 81 and the scraper blade 83 on the two sides, the scraper blade 83 is connected to the sliding rod 81 on the two 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 the two sides, the driving belt 85 on the two sides is connected with the driving belt 85 on the front and rear sides in a rotating manner, the torsion spring 87 is connected between the left side of the upper part of the driving belt 85 on the two sides, the guide frame 88 is connected to the front and rear sides of the lower part of the guide plate 52, the guide frame 88 is connected to the guide frame 88 on the left side of the two sides, the guide frame 88 is connected to the left side of the guide frame 88 on the two sides outside of the two sides, the guide frame 88 is connected with the first wedge-shaped block 89 is connected to the second wedge-shaped block 88 on the right side of the second wedge-shaped block 88, and the guide frame 88 is connected to the second wedge-shaped block 88 is connected to the guide frame 88 on the front and the front side of the two sides of the guide frame 88 is connected to the second wedge-shaped block is connected to the guide frame 88.

When the first rotating shaft 61 on the right side rotates, the first rotating shaft 61 on the left side drives the driving belt 85 to rotate, the driving belt 85 rotates to drive the second striker 86 to rotate, the second striker 86 rotates to drive the scraper 83 to move rightwards, therefore salt on the guide plate 52 is not required to be pushed into the grinding barrel 62 manually, labor is saved, the working efficiency is improved, the tension spring 84 is stretched in a rightward movement mode, the scraper 83 drives the second wedge block 811 to move upwards, the second wedge block 811 moves upwards, the third compression spring 812 is compressed, when the scraper 83 is not contacted with the second wedge block 811, the second wedge block 811 is reset under the action of the compressed third compression spring 812, when the scraper 83 moves rightwards to a limit position, the second striker 86 is not contacted with the scraper 83, the scraper 83 is reset under the action of the stretched tension spring 84, the scraper 83 moves upwards under the action of the guide frame 88, the first compression spring 82 is compressed in a rightward movement mode, and when the scraper 83 is reset, the scraper 83 is reset downwards under the action of the compressed first compression spring 82.

On the basis of embodiment 2, as shown in fig. 6, the device further comprises a feeding component 9, wherein the feeding component 9 comprises a water storage tank 91, a nozzle 92, a valve 93 and a water inlet 94, the top of the bracket 2 is connected with the water storage tank 91, the right side of the lower part of the water storage tank 91 is provided with the nozzle 92, the nozzle 92 is positioned right above the guide plate 52, the valve 93 is arranged between the water storage tank 91 and the nozzle 92, and the left side of the upper part of the water storage tank 91 is provided with the water inlet 94.

When the seawater needs to be heated for salt making, the water storage tank 91 is filled with the seawater through the water inlet 94, and then the seawater is discharged onto the guide plate 52 through the nozzle 92 by the manual control valve 93, so that the seawater is not required to be manually conveyed onto the guide plate 52, and the labor is further saved and the working efficiency is improved.

On the basis of embodiment 2, as shown in fig. 6, the filter assembly 10 is further included, the filter assembly 10 includes a guide rail 101, a filter screen 102 and a handle 103, the guide rail 101 is connected to both left and right sides of the interior of the water storage tank 91, the filter screen 102 is slidably connected between the guide rails 101 on both sides, and the handle 103 is connected to the middle portion of the front side of the filter screen 102.

When the water storage tank 91 is filled, a filter screen 102 is arranged to screen some sundries in the seawater, and when water injection is stopped, a handle 103 is manually pulled to drive the filter screen 102 to move forwards, so that the sundries in the seawater can be conveniently screened and collected manually.

The foregoing examples have shown only the preferred embodiments of the invention, which are described in more detail and are not to be construed as limiting the scope of the invention. It should be noted that modifications, improvements and substitutions can be made by those skilled in the art without departing from the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (5)

1. A seawater salt making apparatus, comprising:

the support leg (1) is connected with a connecting rod (3);

a bracket (2) connected to the link (3);

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

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

a grinding assembly (6) connected to the foot (1);

the evaporation assembly (5) comprises:

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

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

a heating pipe (53) connected to the deflector (52);

the grinding assembly (6) comprises:

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

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

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

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

a feed port (65) connected to the grinding barrel (62);

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

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

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

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

still including screening subassembly (7), screening subassembly (7) include:

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

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

a first spiral spring (73) connected to the screen plate (71) and the drum (62);

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

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

2. A seawater salt making plant according to claim 1, further comprising a scraping assembly (8), the scraping assembly (8) comprising:

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

a first compression spring (82) which is sleeved between the sliding rod (81) and the scraping plate (83);

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

a tension spring (84) connected between the slide bar (81) and the deflector (52);

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

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

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

a guide frame (88) connected to the deflector (52);

a first wedge (89) slidingly 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 (811) slidably coupled to the guide frame (88);

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

3. A seawater salt plant as claimed in claim 2, further comprising a feed assembly (9), the feed assembly (9) comprising:

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

a nozzle (92) connected to the water storage tank (91), the nozzle (92) being located directly above the deflector (52);

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

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

4. A seawater salt plant according to claim 3, further comprising a filter assembly (10), the filter assembly (10) comprising:

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

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

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

5. The seawater desalination plant of claim 4, wherein the water inlet is provided with a switch.

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