CN216874847U - Desalination field for processing preserved fruits - Google Patents

Abstract

The application discloses a desalination field for candied fruit processing usefulness relates to the technical field of candied fruit production, and it includes the base member, the base member top is provided with the rinsing bath, a plurality of rinsing baths have been seted up on the rinsing bath, be provided with the inlet tube that is used for the water supply stream to enter into the rinsing bath on the rinsing bath, be provided with the outlet pipe that is used for rivers in the rinsing bath of discharging on the rinsing bath, the base member top is provided with a plurality of firm posts that encircle the rinsing bath, firm capital portion is provided with the sunshade that is used for sheltering from the rinsing bath, be provided with the support column that is located directly over the rinsing bath between the firm post, be provided with on the support column and be used for hoisting the material frame and drive the aviation of material frame motion to the rinsing bath and hang. This application can reduce the water waste when desalting.

Description

Desalination field for processing preserved fruits

Technical Field

The application relates to the technical field of preserved fruit production, in particular to a desalting field for processing preserved fruits.

Background

During the production process of preserved fruits, the fruits are generally coated with a layer of salt to promote dehydration of the fruits, and the salt on the surfaces of the fruits is removed after the dehydration is finished.

When salt on the surface of fruits is removed, the fruits are usually placed in a material frame, and then the fruits in the material frame are washed through a water pipe connected with a water source, so that the salt on the surface of the fruits is removed.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: when the salt on the surface of the fruit is removed, the fruit is washed by water, so that the water resource waste is easily caused.

SUMMERY OF THE UTILITY MODEL

In order to reduce the waste of water resources during desalination, the application provides a desalination field for processing preserved fruits.

The application provides a desalination field for preserved fruit processing uses adopts following technical scheme:

the utility model provides a desalination field for sweetmeat processing usefulness, includes the base member, the base member top is provided with the wash bowl, a plurality of wash bowls have been seted up on the wash bowl, be provided with the inlet tube that is used for the water supply stream to enter the wash bowl on the wash bowl, be provided with the outlet pipe that is used for rivers in the wash bowl of discharging on the wash bowl, the base member top is provided with a plurality of firm posts that are located the wash bowl both sides, firm capital portion is provided with the sunshade that is used for sheltering from the wash bowl, be provided with the support column that is located directly over the wash bowl between the firm post, be provided with on the support column and be used for hoisting the material frame and drive the aviation hoist that the material frame moved to the wash bowl.

Through adopting above-mentioned technical scheme, with the material frame fixed during the desalination on the aviation crane, move the material frame through the aviation crane and move, dip one by one from the wash bowl of wash bowl one side to the wash bowl of opposite side until with the material frame, make the salinity on fruit surface weld in rivers gradually when soaking in rivers, accomplish the desalination work, the rivers that the desalination was used can be at the wash bowl internal recycle, rethread outlet pipe discharges when the concentration of rivers is too high, pour into rivers into again through the inlet tube simultaneously, be favorable to reducing the waste of water resource.

Optionally, the washing tank is of a plastic box structure, and the bottom of the washing tank is abutted against the top of the base body.

By adopting the technical scheme, the washing tank is of a plastic box structure, and the position of the washing tank can be changed according to actual requirements.

Optionally, the top of the base body is provided with a positioning groove matched with the size of the water washing pool, and the water washing pool is clamped into the positioning groove.

Through adopting above-mentioned technical scheme, the washing pond card is gone into in the constant head tank, can reduce the impact that rivers motion produced when the desalination and drive the washing pond and appear the possibility of motion.

Optionally, a treading table for treading and heightening when observing the rinsing bath is arranged at the top of the base body.

By adopting the technical scheme, the user can ascend through the trampling table during use, and the desalting condition in the rinsing bath can be conveniently observed.

Optionally, the rinsing pond comprises a plurality of cell bodies, the rinsing pond is opened in the cell body and with the cell body one-to-one, adjacent be provided with coupling assembling between the cell body.

By adopting the technical scheme, the rinsing bath is composed of a plurality of bath bodies, the number of the rinsing baths can be increased or reduced according to actual demands, and the space waste caused by the fact that the rinsing baths occupy the base bodies when not used is reduced.

Optionally, the connection assembly includes a connection column and an insertion column, the connection column is disposed on a side wall of one side of the cell body, the insertion column is disposed on a side wall of one side of the cell body away from the connection column, an insertion groove for inserting the insertion column is disposed on one side of the connection column away from the cell body, a mounting groove extending downward is disposed on a groove wall of a bottom of the insertion groove, the connection column is provided with a fixing column sliding up and down in the mounting groove, a driving surface is disposed on one side of the fixing column away from the cell body, the insertion column slides on the driving surface when being inserted into the insertion groove, a fixing groove for inserting the fixing column is disposed at the bottom of the insertion column, the connection column is provided with a spring installed in the mounting groove and used for driving the fixing column to insert into the fixing groove, and the connection column is provided with a control assembly for controlling the fixing column to slide-in or slide-out of the mounting groove.

Through adopting above-mentioned technical scheme, during the use in the plug column inserts the inserting groove, inserts the fixed slot through the fixed column simultaneously and realizes connecting fixedly in, rethread control assembly control fixed column slides in the mounting groove when needing to dismantle. Whole process is simple, and realization spliced pole that can be comparatively convenient is connected with the grafting post, reduces the degree of difficulty that the cell body is connected.

Optionally, the connecting column is provided with a supporting plate which slides up and down in the mounting groove, the bottom of the spring is fixed at the top of the supporting plate, the control assembly comprises a control column and a control block, the control column is connected to the connecting column in a sliding manner, the control column is perpendicular to the connecting column, the control block is arranged at the top of the control column, one side of the control block, which faces the supporting plate, is provided with a power surface for driving the supporting plate to move upwards, and the bottom of the supporting plate is abutted against the outer peripheral side of the control column, so that the fixing column completely enters the mounting groove.

By adopting the technical scheme, when the fixing device is used, the control block is driven to move through the control column, so that the control block pushes the supporting plate to push the fixing column out of the mounting groove, and the fixing of the connecting column and the fixing column is realized; or the control block is driven to be far away from the supporting plate, so that the supporting plate moves downwards under the action of gravity, the fixing column is driven to enter the mounting groove, and the connecting column and the inserting column are convenient to disassemble.

Optionally, the end of the control column is provided with a mounting column, one side of the mounting column, which is far away from the control column, is rotatably connected with a stirring column, the stirring column is in threaded connection with the mounting column, and the stirring column extends out of the area where the side wall of the tank body is located.

Through adopting above-mentioned technical scheme, stir the post through the rotation and drive the control post motion during the use, can control the state of control block.

Optionally, an upper inlet for the insertion column to enter the insertion groove is formed in the top of the connecting column.

By adopting the technical scheme, when the inserting column is limited by the space to be obstructed and can not be directly inserted into the inserting groove, the inserting column can enter the inserting groove from the upper inlet, and the connection of the connecting column and the inserting column is realized.

Optionally, a side inlet for the insertion column to enter the insertion groove is formed in the side wall of the connecting column, a sliding surface is formed in one side of the fixing column facing the side inlet, and the insertion column slides on the sliding surface.

Through adopting above-mentioned technical scheme, when the spliced pole has the obstacle restriction unable disect insertion inserting groove by the space, the spliced pole can be followed the side and advanced the mouth and get into in the spliced groove, makes things convenient for being connected between spliced pole and the spliced pole fixed.

In summary, the present application includes at least one of the following benefits:

1. the water flow is stored in the washing tank during the desalting work, so that the water flow for desalting can be recycled, and the waste of water resources in the desalting work process can be greatly reduced;

2. the washing tank is composed of a plurality of tank bodies, so that the number of the washing tanks can be increased or reduced according to actual requirements during desalination, and the possibility that the washing tanks are insufficient in number, the washing tanks need to be washed again, and water resource waste is generated can be reduced.

Drawings

FIG. 1 is a schematic overall structure diagram of a first embodiment of the present application;

FIG. 2 is a schematic overall structure diagram of a second embodiment of the present application;

FIG. 3 is a schematic cross-sectional view of two adjacent tank connection structures according to an embodiment of the present application;

FIG. 4 is an enlarged schematic view of section A of FIG. 3;

FIG. 5 is an enlarged schematic view of section B of FIG. 2;

FIG. 6 is a schematic view of the internal structure of a two-piece connecting column according to an embodiment of the present application;

fig. 7 is an enlarged schematic view of the portion C of fig. 6.

Reference numerals: 1. a substrate; 2. a water washing pool; 3. a rinsing bath; 4. a water inlet pipe; 5. a water outlet pipe; 6. a stabilizing column; 7. a sunshade; 8. a support pillar; 9. carrying out aerial lift; 10. positioning a groove; 11. treading the platform; 12. a tank body; 13. a connecting assembly; 131. connecting columns; 1311. a control slot; 1312. accommodating grooves; 132. inserting the column; 14. inserting grooves; 15. mounting grooves; 16. fixing a column; 17. a drive face; 18. fixing grooves; 19. a spring; 20. a control component; 201. a control column; 202. a control block; 21. a support plate; 22. a sliding surface; 23. a power surface; 24. a side entry port; 25. shifting the column; 26. an upper inlet.

Detailed Description

The present application is described in further detail below with reference to figures 1-7.

The embodiment of the application discloses a desalting field for processing preserved fruits. Referring to fig. 1, a desalination plant for the processing of confectionary comprises a substrate 1, and means, structures for desalination are provided on the substrate 1.

The first embodiment is as follows:

referring to fig. 1, a washing tank 2 is arranged at the top of a base body 1, the washing tank 2 can be made of plastic materials into a box structure, the overall shape of the washing tank 2 can be customized according to actual requirements, and the top end face can be of a rectangular structure or an L-shaped structure. The locating slot 10 has been seted up at 1 top of base member, the size of locating slot 10 and the big or small looks adaptation of washing pond 2, and the joint is in locating slot 10 in washing pond 2 bottom for the gliding possibility appears in reduction washing pond 2.

Referring to fig. 1, a plurality of washing tanks 3 extending downwards are uniformly arranged at the top of a washing tank 2 at intervals, water flow is stored in the washing tanks 3 before washing, fruits are placed in the washing tanks 3 during washing, and in order to improve the washing effect, the fruits can be placed into the washing tank 2 one by one from one side to the other side of the washing tank 2 to be soaked one by one in an initial state, so that the fruits are washed for many times when leaving the washing tank, and the desalting work is completed; when the concentration of the water flow in the rinsing bath 3 is increased to a certain degree, the water flow in the rinsing bath 3 can be independently replaced, and meanwhile, the material frames are placed in the sequence and then are delayed, so that the replaced rinsing bath is finally placed in the material frames.

Referring to fig. 1, the washing tank 2 is provided with a plurality of water inlet pipes 4 and a plurality of water outlet pipes 5, the water inlet pipes 4 are arranged at the top of the washing tank 2, and the water inlet pipes 4 correspond to the washing tanks 3 one by one. When in use, the water inlet pipe 4 is communicated with an external water source and is used for introducing water flow into the rinsing bath 3. The water outlet pipes 5 are arranged at the bottom of the water storage tank, the water outlet pipes 5 correspond to the rinsing baths 3 one by one, and water flow in the rinsing baths 3 is discharged through the water outlet pipes 5.

Referring to fig. 1, two groups of stabilizing columns 6 are symmetrically arranged on the top of the base 1, the two groups of stabilizing columns 6 are located on two sides of the rinsing bath 2, and a plurality of stabilizing columns 6 are respectively arranged at the positions, close to the edges in the length direction, of the base 1. The tops of the two groups of stabilizing columns 6 are fixedly connected with a sunshade 7 for shielding sunlight and rainfall and facilitating the desalination. Be provided with the track between the firm post 6 of the same group, it is provided with support column 8 to slide between two tracks, and support column 8 is located rinsing pond 2 directly over, lifts by crane 9 through navigating during the desalination, carries the motion of material frame, is provided with driving motor on the track, can drive navigating to hang 9 and slide along the track for the material frame can move between rinsing pond 2. In order to observe the progress of the desalting work conveniently, the top of the base body 1 is fixedly connected to the stepping platform 11, the stepping platform 11 can be stepped to realize ascending during the desalting work, and the condition in the rinsing bath 3 is convenient to observe.

The implementation principle of a desalting field for processing preserved fruits in the first embodiment of the application is as follows:

during desalination, the material frame is fixed on the aerial crane 9, then the material frame is lifted by the aerial crane 9, and then the material frame is put into and soaked one by one from the water washing tank 3 on one side to the water washing tank 3 on the other side, so that the salt on the fruits is welded in water, and the purpose of desalination is realized. And after the desalting work is finished, taking down the material frame from the aviation crane 9. When the salinity in the wash tank 3 is too high, it is possible to discharge the water stream through the water outlet pipe 5 and refill the water stream through the water inlet pipe 4. The whole process is simple, fruits do not need to be washed by water flow all the time, the water flow can be recycled, and water resource saving is facilitated.

Example two:

referring to fig. 2, the difference between the present embodiment and the first embodiment is that the top of the base 1 is not provided with a positioning groove 10; the rinsing tank 2 is composed of a plurality of tank bodies 12, the rinsing tanks 3 are arranged on the tank bodies 12, and the rinsing tanks 3 correspond to the tank bodies 12 one by one.

Referring to fig. 3 and 4, a connecting assembly 13 is disposed between two adjacent cell bodies 12 for connecting and fixing the cell bodies 12. Connecting assembly 13 includes a connecting column 131 and a connecting peg 132, connecting column 131 is fixedly connected to a position of a side wall of one side of cell body 12 close to the top corner, and connecting peg 132 is fixedly connected to a position of a side wall of one side of cell body 12 far away from connecting column 131 close to the top corner. One side of the connecting column 131, which is far away from the tank body 12, is provided with an inserting groove 14 extending towards the direction of the tank body 12, the size of the inserting column 132 is matched with the inserting groove 14, when the two tank bodies 12 are connected, the inserting column 132 of one of the tank bodies 12 is inserted into the inserting groove 14 of the other tank body 12, and the primary connection of the two tank bodies 12 is completed.

Referring to fig. 3 and 4, an installation groove 15 extending downward along the vertical direction is formed on the bottom groove wall of the insertion groove 14, a fixing column 16 is arranged on the connecting column 131, and the fixing column 16 is of a long-strip square column structure and slides up and down in the installation groove 15. The connecting column 131 is provided with a spring 19, the spring 19 is installed in the installation groove 15, and the fixing column 16 is driven to move upwards by the spring 19 when in use. The top of the fixing post 16 away from the tank body 12 is provided with a driving surface 17 in an inclined manner, and when the inserting post 132 is inserted into the inserting groove 14, the inserting post 132 slides on the driving surface 17 to push the fixing post 16 into the mounting groove 15 completely. Fixed slot 18 has been seted up to grafting post 132 bottom, and when grafting post 132 kept away from cell body 12 one side butt when inserting groove 14 just to notch one side cell wall, fixed slot 18 is aligned with fixed column 16, and spring 19 elastic release promotes fixed column 16 upwards to insert in fixed slot 18 this moment, realizes connecting fixedly between two cell bodies 12. The wall of the opposite two sides of the mounting groove 15 is respectively communicated with a limiting groove extending along the vertical direction, the side walls of the opposite two sides of the fixing column 16 are respectively fixed with a limiting block made of rubber, and the limiting blocks slide up and down in the limiting grooves during use and are used for limiting the position of the fixing block, so that the plug-in column 132 can slide on the driving surface 17 when being inserted into the plug-in groove 14, and the limiting blocks enter the limiting grooves through extrusion during installation.

Referring to fig. 4 and 5, the top of the connecting column 131 is provided with an upper inlet 26, the upper inlet 26 penetrates through the top wall of the inserting groove 14 until communicating with the inserting groove 14, and the inserting column 132 can enter the inserting groove 14 from the upper inlet 26 above when connecting. A side inlet 24 penetrating through the side wall of the insertion groove 14 until being communicated with the insertion groove 14 is formed in the side wall of one side of the connecting column 131, a sliding surface 22 is obliquely formed in one side of the fixing column 16 close to the side inlet 24, the insertion column 132 can enter the insertion groove 14 through the side inlet 24, meanwhile, the insertion column 132 slides on the sliding surface 22 when entering, the fixing column 16 is pushed into the installation groove 15 until the fixing column 16 is aligned with the fixing groove 18, the spring 19 pushes the fixing column 16 to be inserted into the fixing groove 18, and the convenience that the insertion column 132 enters the insertion groove 14 when the installation space of the tank body 12 is not met is facilitated.

Referring to fig. 4 and 6, the connection column 131 is provided with a control assembly 20 for controlling the fixing column 16 to slide into or out of the mounting groove 15, so that the connection column 132 can be separated from the connection groove 14 to realize the mutual separation between the cell bodies 12.

Referring to fig. 5 and 7, the control assembly 20 includes a control column 201 and a control block 202, the control column 201 is a long square column structure, a control groove 1311 is formed on the connecting column 131, the control groove 1311 is communicated with the mounting groove 15 and is perpendicular to the length direction of the connecting column 131, and the control groove 1311 is located below the mounting groove 15. The control column 201 slides within the control slot 1311. The control block 202 is clamped and fixed on the top part of the control column 201, the control column 201 is firstly installed during installation, then the control block 202 is clamped and installed on the control column 201 from the installation groove 15, and then the support plate 21, the spring 19 and other parts are installed. An accommodating groove 1312 is formed in the connecting column 131, the accommodating groove 1312 is positioned above the control groove 1311 and is communicated with the mounting groove 15 and the control groove 1311, and the control block 202 can slide into the mounting groove 15 from the accommodating groove 1312 along the length direction of the control column 201. The connecting column 131 is provided with a supporting plate 21, the supporting plate 21 slides up and down in the mounting groove 15, the bottom of the spring 19 is fixed at the top of the supporting plate 21, the top of the spring is fixed at the bottom of the fixing column 19, and one side of the control block 202 close to the supporting plate 21 is inclined and provided with a power surface 23. When the connection column 131 is required to be separated from the insertion column 132, the control column 201 is slid, so that the control block 202 is far away from the support plate 21, then the support plate 21 slides downwards under the action of gravity until the bottom of the support plate 21 abuts against the top of the control column 201, and at this time, the fixing column 16 completely slides into the installation groove 15. When the connection post 131 is connected to the insertion post 132 (the insertion post 132 is labeled in fig. 4), the control block 202 is controlled by the control post 201 to slide toward the support plate 21, the support plate 21 slides on the power surface 23 to drive the support plate 21 to slide upward, when the bottom of the support plate 21 abuts against the top of the control block 202, the fixing post 16 slides out of the installation groove 15, and at this time, the insertion post 132 can slide on the driving surface 17 when inserted into the insertion groove 14.

Referring to fig. 5 and 7, a mounting column is coaxially fixed at an end of the control column 201, the mounting column is rotatably connected with a toggle column 25 of a cylindrical structure through a bearing, the toggle column 25 is coaxially arranged with the mounting column, and the toggle column 25 protrudes out of the connecting column 131 and is in threaded connection with the connecting column 131. Toggle column 25 is of a relatively long length and can project beyond the area covered by the opposite side walls when two tanks 12 are connected. When the control block 202 is used, the control column 201 can be driven to slide by rotating the toggle column 25, so that the state of the control block 202 is kept.

The implementation principle of a desalting field for processing preserved fruits in the second embodiment of the application is as follows:

put into one by one material frame through navigation during the washing from one side cell body 12 to opposite side cell body 12 direction through the separation of hanging 9, desalt the fruit, when material frame moves in the cell body 12 of opposite side through wasing the result article surface and still remain the salt timesharing, can increase the quantity of cell body 12 through coupling assembling 13 for need not to clear away final salinity through the mode of water-washed during the washing, can reduce the waste of water resource. When the salinity concentration of the water flow reaches a certain degree, the water flow in the tank body 12 can be independently replaced, and then the sequence of putting fruits into the tank body 12 is continued during cleaning, so that the replaced tank body 12 is finally put with fruits.

The above are preferred embodiments of the present application, and the scope of protection of the present application is not limited thereto, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. A desalination site for processing of preserved fruit, comprising: including base member (1), base member (1) top is provided with wash bowl (2), a plurality of wash bowl (3) have been seted up on wash bowl (2), be provided with inlet tube (4) that are used for supplying water stream to go into wash bowl (3) on wash bowl (2), be provided with outlet pipe (5) that are used for discharging wash bowl (2) interior rivers on wash bowl (2), base member (1) top is provided with a plurality of firm post (6) that are located wash bowl (2) both sides, firm post (6) top is provided with sunshade (7) that are used for sheltering from wash bowl (2), be provided with support column (8) that are located directly over wash bowl (3) between firm post (6), be provided with on support column (8) and be used for hoisting the material frame and drive material frame and move to wash bowl (3) hang (9).

2. The desalination site for confectionary processing of claim 1, wherein: the washing tank (2) is of a plastic box structure, and the bottom of the washing tank (2) is abutted against the top of the base body (1).

3. The desalination site for confectionary processing of claim 2, wherein: the top of the base body (1) is provided with a positioning groove (10) matched with the size of the water washing pool (2), and the water washing pool (2) is clamped into the positioning groove (10).

4. The desalination site for confectionary processing of claim 3, wherein: the top of the base body (1) is provided with a stepping table (11) for stepping and heightening when observing the rinsing bath (3).

5. The desalination site for confectionary processing of claim 1, wherein: the washing tank (2) is composed of a plurality of tank bodies (12), the washing tank (2) is arranged on the tank bodies (12) and is in one-to-one correspondence with the tank bodies (12), and connecting assemblies (13) are arranged between the tank bodies (12).

6. The desalination site for confectionary processing of claim 5, wherein: the connecting assembly (13) comprises a connecting column (131) and an inserting column (132), the connecting column (131) is arranged on the side wall of one side of the pool body (12), the inserting column (132) is arranged on the side wall of one side of the pool body (12) far away from the connecting column (131), one side of the connecting column (131) far away from the pool body (12) is provided with an inserting groove (14) for the inserting column (132) to insert, the bottom groove wall of the inserting groove (14) is provided with a mounting groove (15) extending downwards, the connecting column (131) is provided with a fixing column (16) sliding in the mounting groove (15) up and down, one side of the fixing column (16) far away from the pool body (12) is provided with a driving surface (17), the inserting column (132) slides in the driving surface (17) when being inserted into the inserting groove (14), the bottom of the inserting column (132) is provided with a fixing groove (18) for the fixing column (16) to insert, the connecting column (131) is provided with a spring (19) which is arranged in the mounting groove (15) and used for driving the fixing column (16) to be inserted into the fixing groove (18), and the connecting column (131) is provided with a control assembly (20) used for controlling the fixing column (16) to slide into or out of the mounting groove (15).

7. The desalination site for confectionary processing of claim 6, wherein: the utility model discloses a pneumatic control device, including spliced pole (131), spring (19), control assembly (20), control post (201), control piece (202), control post (201) sliding connection in spliced pole (131), control post (201) and spliced pole (131) are mutually perpendicular, control piece (202) set up in control post (201) top, the ascending power face (23) of drive backup pad (21) are seted up to one side of control piece (202) orientation backup pad (21), fixed column (16) completely gets into in mounting groove (15) when backup pad (21) bottom butt in control post (201) periphery side, backup pad (19) bottom is fixed in backup pad (21) top, control assembly (20) include control post (201) and control piece (202).

8. The desalination site for confectionary processing of claim 7, wherein: the tip of control post (201) is provided with the erection column, one side swivelling joint that control post (201) was kept away from to the erection column has to stir post (25), stir post (25) and spliced pole (131) threaded connection, stir post (25) and extend to outside the cell body (12) lateral wall place region.

9. The desalination site for use in the processing of preserved fruit according to claim 8, wherein: the top of the connecting column (131) is provided with an upper inlet (26) for the inserting column (132) to enter the inserting groove (14).

10. The desalination site for confectionary processing of claim 8, wherein: the side wall of the connecting column (131) is provided with a side inlet (24) for the insertion column (132) to enter the insertion groove (14), one side of the fixing column (16) facing the side inlet (24) is provided with a sliding surface (22), and the insertion column (132) slides on the sliding surface (22).

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