CN214927377U - Electrolytic manganese sediment is with compression packing apparatus - Google Patents

Abstract

The utility model discloses an electrolytic manganese sediment is with compression packing apparatus, including the box, the inside below welding of box has the backup pad, and the rear side at backup pad middle part is run through to insert and is equipped with the compression pipe, and the internal fixed surface of the box that compression pipe upper end corresponds installs first hydraulic telescoping rod, and both sides welding has the suppression head around the suppression piece lower surface middle part, and the one end surface mounting that first shaping groove was kept away from to the module has the second hydraulic telescoping rod that is the horizontality, and the surface mounting at compression pipe front side middle part has the adapter sleeve. The utility model discloses at the in-process that uses, simple structure, convenient to use, at the in-process that this device used, improved the work efficiency to the in-process of electrolytic manganese sediment compression packing, and compressed packing is carried out the electrolytic manganese sediment and then made things convenient for more after depositing and transporting in piling up, and then be favorable to using widely.

Description

Electrolytic manganese sediment is with compression packing apparatus

Technical Field

The utility model relates to an electrolytic manganese sediment processing technology field especially relates to an electrolytic manganese sediment is with compression packing apparatus.

Background

Electrolytic manganese belongs to the hydrometallurgy trade, the biggest characteristic of hydrometallurgy is exactly can produce a large amount of industrial waste residues, the production of these industrial waste residues will exert an influence to the environmental protection, electrolytic manganese sediment is the filtration acid sludge that produces behind the electrolytic manganese metal, be the key pollutant of electrolytic manganese trade, if can concentrate to select separately the processing and then can follow the environmental pollution that electrolytic manganese sediment discharged and cause, ecological destruction and potential safety hazard problem to electrolytic manganese sediment, the tradition is complicated and inefficient to the in-process operation of electrolytic manganese sediment compression packing, and be not convenient for pile up after compressing electrolytic manganese sediment and pack and deposit and transport. Therefore, a compression and packing device for electrolytic manganese slag is provided.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the defects existing in the prior art and providing a compression and packaging device for electrolytic manganese slag.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a compression packing device for electrolytic manganese slag comprises a box body, supporting legs are fixedly welded at four corners of the lower surface of the outer portion of the box body, a supporting plate is welded below the inner portion of the box body, a compression pipe is inserted into the rear side of the middle portion of the supporting plate in a penetrating mode, a first hydraulic telescopic rod is fixedly installed on the inner surface of the box body corresponding to the upper end of the compression pipe, the output end of the first hydraulic telescopic rod vertically faces downwards and is provided with a pressing block, pressing heads are welded on the front side and the rear side of the middle portion of the lower surface of the pressing block, modules are arranged on the front side and the rear side of the lower end of the compression pipe, a first forming groove is formed in the pressing block corresponding to the end close to each module, a second forming groove is formed in the bottom of the first forming groove corresponding to the pressing head, a second hydraulic telescopic rod in a horizontal state is installed on the outer surface of the end, far away from the modules, of the second hydraulic telescopic rod, a mounting plate is installed on the end, far away from the modules, the upper surface of the mounting plate is fixedly connected with the lower surface of the supporting plate, the outer surface of the middle part of the front side of the compression pipe is provided with a connecting sleeve, the top of the front end of the box body is provided with a blanking pipe in a vertical state, a vibration groove is jointly arranged between the lower part of the blanking pipe and the inside of the connecting sleeve, one end of the vibration groove close to the blanking pipe is higher than one end of the inside of the connecting sleeve, the outer surface of the front end of the vibration groove is provided with a supporting spring, one end of the supporting spring far away from the vibration groove is connected with the upper surface of the supporting plate, the outer surface of the rear end of the vibration groove is provided with a fixing head, the fixing head is connected with a supporting rod in a vertical state through a bolt pin, one end of the supporting rod far away from the fixing head is connected with the upper surface of the supporting plate, the lower surface of the box body below the module is provided with a falling opening, and a rubber plate is arranged below the falling opening, rubber rods are fixedly connected between the four corners of the rubber plate and the outer surface of the lower end of the box body.

Preferably, the module is provided with a connecting rod at one side of the lower end face close to the module, the lower end of the connecting rod is welded with a baffle plate, the lower surface of the baffle plate is in contact with the lower bottom face of the interior of the box body, and when the module is close to the module, the two baffle plates are attached to each other between the adjacent end faces.

Preferably, the middle part of the lower surface of the outer side of the vibration groove is fixedly provided with a vibration motor, the lower end of the vibration groove is inserted into the front end of the connecting sleeve, and the vibration groove is positioned between the outer surface of the groove body in the connecting sleeve and the inner surface of the connecting sleeve at intervals.

Preferably, the upper end of the blanking pipe extends out of the outer surface of the upper end of the box body, a blanking hopper with a conical section is fixedly installed on the upper end of the blanking pipe, and a shielding cover is covered on the upper end of the blanking hopper.

Preferably, the pressing head is cylindrical, the second forming groove is in an equal-division cutting semi-cylindrical shape, the depth of the second forming groove is equal to the height of the pressing head, and the radius of the curved surface of the second forming groove is equal to the radius of the circular surface of the pressing head.

The utility model provides a pair of electrolytic manganese sediment is with compression packing apparatus, beneficial effect lies in: in the using process of the scheme, after the shielding cover above the blanking hopper is taken down, electrolytic manganese slag is poured into the blanking hopper through the blanking hopper, then the electrolytic manganese slag falls into the vibration groove through the blanking pipe, after the vibration groove is further opened to enable the vibration groove to vibrate, the electrolytic manganese slag uniformly enters the compression pipe through the connecting sleeve after passing through the vibration groove and then falls into the first forming groove and the second forming groove, and then the first hydraulic telescopic rod is opened, the pressing block and the pressing head on the lower side can be pushed to move downwards when the first hydraulic telescopic rod is opened, the pressing block and the pressing head can extrude the electrolytic manganese slag in the first forming groove and the second forming groove into blocks, the second hydraulic telescopic rod is further opened, the module is pulled to move towards two sides when the second hydraulic telescopic rod is opened, and then the connecting rod and the shielding plate which are fixedly connected with the module move towards two sides, and then make the inside electrolytic manganese sediment piece in first shaping groove and second shaping groove fall to the rubber slab top through the whereabouts mouth, further collect electrolytic manganese sediment piece, consequently whole device simple structure, convenient to use at the in-process that this device used, improved the work efficiency to the in-process of electrolytic manganese sediment compression packing, and more convenient after compressing the packing to electrolytic manganese sediment and depositing and transporting in piling up, and then be favorable to using widely.

Drawings

FIG. 1 is a schematic structural view of a compression and packing device for electrolytic manganese slag provided by the utility model;

fig. 2 is a top view of the compressing and packaging device for electrolytic manganese slag provided by the utility model.

In the figure: supporting leg 1, box 2, lower hopper 3, unloading pipe 4, vibrations groove 5, shock dynamo 6, backup pad 7, compression pipe 8, first hydraulic telescoping rod 9, briquetting 10, suppression head 1001, mounting panel 11, second hydraulic telescoping rod 12, module 13, first shaping groove 14, second shaping groove 1401, whereabouts mouth 15, fixed head 16, bracing piece 17, shielding cover 18, rubber pole 19, rubber slab 20, connecting rod 21, shielding plate 22, adapter sleeve 23, supporting spring 24.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Referring to fig. 1-2, a compression and packaging device for electrolytic manganese slag comprises a box body 2, supporting legs 1 are fixedly welded at four corners of the outer lower surface of the box body 2, the supporting legs 1 support and fix the box body 2, a supporting plate 7 is welded at the lower part inside the box body 2, a compression pipe 8 is inserted through the rear side of the middle part of the supporting plate 7, a first hydraulic telescopic rod 9 is fixedly installed on the inner surface of the box body 2 corresponding to the upper end of the compression pipe 8, a pressing block 10 is vertically installed downwards at the output end of the first hydraulic telescopic rod 9, pressing heads 1001 are welded at the front side and the rear side of the middle part of the lower surface of the pressing block 10, modules 13 are arranged at the front side and the rear side of the lower end of the compression pipe 8, a first forming groove 14 is arranged corresponding to the pressing block 10 at the end close to the modules 13, a second forming groove 1401 is arranged at the bottom of the first forming groove 14 corresponding to the pressing head 1001, the pressing head 1001 is cylindrical, the second forming groove 1401 is in an equant cutting semi-cylindrical shape, the depth of the second forming groove 1401 is equal to the height of the pressing head 1001, the radius of the curved surface of the second forming groove 1401 is equal to the radius of the circular surface of the pressing head 1001, and the shapes of the pressing head 1001 and the second forming groove 1401 are matched to enable the compressed electrolytic manganese slag blocks to be placed conveniently.

The outer surface of one end of the module 13, which is far away from the first forming groove 14, is provided with a second hydraulic telescopic rod 12 in a horizontal state, one end of the second hydraulic telescopic rod 12, which is far away from the module 13, is provided with a mounting plate 11, the upper surface of the mounting plate 11 is fixedly connected with the lower surface of the supporting plate 7, one side, which is close to the lower end surface of the module 13, is fixedly provided with a connecting rod 21, the lower end of the connecting rod 21 is welded with a baffle plate 22, the lower surface of the baffle plate 22 is contacted with the lower bottom surface inside the box body 2, when the module 13 is close to the module, the adjacent end surfaces of the two baffle plates 22 are attached, the baffle plate 22 can seal the bottom of the device to prevent dust and dirt and foreign matters from entering from the bottom of the device to affect the use, the outer surface of the middle part of the front side of the compression pipe 8 is provided with a connecting sleeve 23, the top part of the front end of the box body 2 is provided with a blanking pipe 4 in a vertical state, the upper end of the blanking pipe 4 extends out of the upper end of the box body 2 and is fixedly provided with a blanking hopper 3 with a conical section, the upper end of the lower hopper 3 is covered with a shielding cover 18.

A vibration groove 5 is jointly arranged between the lower part of the blanking pipe 4 and the inside of the connecting sleeve 23, one end of the vibration groove 5 close to the blanking pipe 4 is higher than one end of the inside of the connecting sleeve 23, a supporting spring 24 is arranged on the outer surface of the bottom of the front end of the vibration groove 5, one end of the supporting spring 24 far away from the vibration groove 5 is connected with the upper surface of the supporting plate 7, the supporting spring 24 plays a role in supporting and limiting the vibration groove 5, a fixing head 16 is arranged on the outer surface of the bottom of the rear end of the vibration groove 5, the fixing head 16 is connected with a supporting rod 17 in a vertical state through a bolt pin, one end of the supporting rod 17 far away from the fixing head 16 is connected with the upper surface of the supporting plate 7, a vibration motor 6 is fixedly arranged in the middle of the lower surface of the outer side of the vibration groove 5, the lower end of the vibration groove 5 is inserted in the inside of the front end of the connecting sleeve 23, and the outer surface of the groove body of the connecting sleeve 23 and the inner surface of the connecting sleeve 23 are in an interval state, a falling opening 15 is formed in the lower surface of the box body 2 below the module 13, a rubber plate 20 is arranged below the falling opening 15, and rubber rods 19 are fixedly connected between four corners of the rubber plate 20 and the outer surface of the lower end of the box body 2.

To sum up, in the using process of the present invention, after the shielding cover 22 above the discharging hopper 3 is taken down, the electrolytic manganese slag is poured into the discharging hopper 3, and then the electrolytic manganese slag falls into the vibration groove 5 through the discharging pipe 4, after the vibration groove 5 is vibrated by further opening the vibration motor 6, the electrolytic manganese slag uniformly enters the compression pipe 8 through the connection sleeve 23 after passing through the vibration groove 5, and then falls into the first forming groove 14 and the second forming groove 1401, and further the first hydraulic telescopic rod 9 is opened, the pressing block 10 and the pressing head 1001 on the lower side are pushed to move downwards when the first hydraulic telescopic rod 9 is opened, the pressing block 10 and the pressing head 1001 block the electrolytic manganese slag in the first forming groove 14 and the second forming groove 1401, the second hydraulic telescopic rod 12 is further opened, the pulling module 13 is pulled to move towards both sides when the second hydraulic telescopic rod 12 is opened, and then make the connecting rod 21 and the shielding plate 22 with module 13 fixed connection remove to both sides, and then make the inside electrolytic manganese sediment piece of first shaping groove 14 and second shaping groove 1401 fall to rubber slab 20 top through whereabouts mouth 15, further collect electrolytic manganese sediment piece, consequently whole device simple structure, high durability and convenient use, at the in-process that this device used, the work efficiency to the in-process of electrolytic manganese sediment compression packing has been improved, and more convenient after carrying out the compression packing to electrolytic manganese sediment in piling up deposit and transportation, and then be favorable to using widely.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (5)

1. The utility model provides an electrolytic manganese sediment is with compression packing apparatus, includes box (2), the four corners fixed welding of the outside lower surface of box (2) has supporting leg (1), the inside below welding of box (2) has backup pad (7), its characterized in that, the rear side at backup pad (7) middle part is run through and is inserted and be equipped with compression pipe (8), the internal surface fixed mounting of box (2) that compression pipe (8) upper end corresponds has first hydraulic telescoping rod (9), the output of first hydraulic telescoping rod (9) is vertical downwards and installs briquetting (10), both sides welding has suppression head (1001) around briquetting (10) lower surface middle part, both sides are equipped with module (13) around compression pipe (8) lower extreme, first shaping groove (14) have been seted up to the one end that module (13) are close to mutually corresponding briquetting (10), the bottom of the first forming groove (14) is provided with a second forming groove (1401) corresponding to the pressing head (1001), the outer surface of one end, far away from the first forming groove (14), of the module (13) is provided with a second hydraulic telescopic rod (12) in a horizontal state, one end, far away from the module (13), of the second hydraulic telescopic rod (12) is provided with a mounting plate (11), the upper surface of the mounting plate (11) is fixedly connected with the lower surface of the supporting plate (7), the outer surface of the middle part of the front side of the compression pipe (8) is provided with a connecting sleeve (23), the top of the front end of the box body (2) is provided with a discharging pipe (4) in a vertical state, a vibration groove (5) is jointly arranged between the lower part of the discharging pipe (4) and the inside of the connecting sleeve (23), one end, close to the discharging pipe (4), of the vibration groove (5) is higher than one end of the inside of the connecting sleeve (23), vibrations groove (5) front end bottom surface mounting has supporting spring (24), the one end that vibrations groove (5) were kept away from in supporting spring (24) is connected with backup pad (7) upper surface, vibrations groove (5) rear end bottom surface mounting has fixed head (16), fixed head (16) are connected with bracing piece (17) that are vertical state through the bolt pin, the one end that fixed head (16) were kept away from in bracing piece (17) is connected with the upper surface of backup pad (7), is located whereabouts mouth (15) have been seted up to box (2) lower surface of module (13) below, whereabouts mouth (15) below is equipped with rubber slab (20), fixedly connected with rubber pole (19) between rubber slab (20) four corners and the surface of box (2) lower extreme.

2. The electrolytic manganese slag compression and packing device according to claim 1, wherein the lower end faces of the modules (13) are fixedly provided with connecting rods (21) at the sides close to each other, the lower ends of the connecting rods (21) are welded with shielding plates (22), the lower surfaces of the shielding plates (22) are in contact with the lower bottom surface of the interior of the box body (2), and when the modules (13) are close to each other, the adjacent end faces of the two shielding plates (22) are attached to each other.

3. The electrolytic manganese slag compression and packaging device according to claim 1, wherein a vibration motor (6) is fixedly mounted in the middle of the lower surface of the outer side of the vibration groove (5), the lower end of the vibration groove (5) is inserted into the front end of the connecting sleeve (23), and the vibration groove (5) is positioned between the outer surface of the groove body in the connecting sleeve (23) and the inner surface of the connecting sleeve (23) at intervals.

4. The electrolytic manganese slag compression and packing device according to claim 1, wherein the upper end of the blanking pipe (4) extends out of the outer surface of the upper end of the box body (2) and is fixedly provided with a blanking hopper (3) with a conical section, and the upper end of the blanking hopper (3) is covered with a shielding cover (18).

5. The compressing and baling device for electrolytic manganese slag according to claim 1, wherein said pressing head (1001) is cylindrical, said second forming groove (1401) is semi-cylinder cut equally, the depth of said second forming groove (1401) is equal to the height of the pressing head (1001), and the radius of the curved surface of said second forming groove (1401) is equal to the radius of the circular surface of the pressing head (1001).

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