CN211170384U - Desiccator is used in sludge treatment with built-in eccentric heat conduction paddle - Google Patents

Abstract

The utility model belongs to the technical field of the waste water treatment technique and specifically relates to a desiccator for sludge treatment with built-in eccentric heat conduction paddle, include the bottom fixing base, fix the side direction supporting seat at bottom fixing base both ends. The utility model discloses a desiccator is used in sludge treatment with built-in eccentric heat conduction paddle is through the inside first that is provided with by side direction motor cooperation side direction drive mechanism drive in horizontal dry storehouse, the horizontal pivot of second, utilize the eccentric paddle in the horizontal pivot to carry and mix the mud in the storehouse, set up the vertical adjustment mouth of built-in gravity regulating block simultaneously on eccentric paddle, the fixed arc stripper plate that is used for extrudeing mud and disturbs the inside heat flow direction that is used for on the gravity regulating block, rotate through the horizontal pivot and drive its automatic position control, and come transmission heating steam through hollow structure's dry storehouse outer wall, thereby heat dry storehouse inside, and cooperate hollow structure eccentric paddle, thereby promote heat conduction efficiency greatly, the energy consumption reduces.

Description

Desiccator is used in sludge treatment with built-in eccentric heat conduction paddle

Technical Field

The utility model belongs to the technical field of the waste water treatment technique and specifically relates to a desiccator for sludge treatment with built-in eccentric heat conduction paddle.

Background

The pickling wastewater contains hydrochloric acid and metal ions such as iron, chromium and zinc, and a large amount of sludge is generated after the wastewater is neutralized by adding sodium hydroxide, the sludge belongs to dangerous solid waste, the water content of the existing neutralized sludge is 75-85%, the sludge is not easy to air dry when stacked, and a large amount of water-containing sludge pollutes the field environment; the disposal cost of hazardous waste in the market is 2000 yuan/ton, and if the sludge is not dried, the cost is increased. At present, most of drying equipment for sludge adopts water heating and electric heating modes, so that the heating cost is high, the heat conduction efficiency is limited, and the control is inconvenient.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is: in order to solve the problems existing in the background technology, an improved drying machine with a built-in eccentric heat conduction paddle for sludge treatment is provided, and the problems that at present, most drying equipment for sludge adopts water heating and electric heating modes, the heating cost is high, the heat conduction efficiency is limited, and the control is inconvenient are solved.

The utility model provides a technical scheme that its technical problem adopted is: a drier with built-in eccentric heat conduction blades for sludge treatment comprises a bottom fixed seat, lateral supporting seats fixed at two ends of the bottom fixed seat, a transverse drying bin arranged above the bottom fixed seat, an electric bolt conveyor arranged on one side of the transverse drying bin and used for conveying materials to the inside of the transverse drying bin, a lateral motor arranged at the upper end of the transverse drying bin, a steam conveying pipe and a water foam dust remover arranged at the bottom water tank, wherein a first transverse rotating shaft and a second transverse rotating shaft which are provided with hollow helical blades on the surfaces are arranged in the transverse drying bin, the end of the lateral motor near the first transverse rotating shaft and the second transverse rotating shaft is in transmission connection with the rotating shaft at the lower end of the lateral motor through a lateral transmission mechanism, the front end, the rear end and the bottom outer wall of the transverse drying bin are all of a hollow structure, and arc heat conduction grooves are formed in the front end inner wall, the rear end inner wall and the bottom inner wall of, and air inlet and outlet pipes for externally connecting a steam conveying pipe are welded and fixed on the outer wall of the front end and the outer wall of the rear end of the transverse drying bin.

Further, in order to improve heat conduction and transmission performance, the hollow helical blade comprises an assembly connecting ring and a fan-shaped structure eccentric blade, the assembly connecting ring is axially sleeved and fixed on the outer side surfaces of the first transverse rotating shaft and the second transverse rotating shaft, the fan-shaped structure eccentric blade is fixed on the outer side of the assembly connecting ring, the assembly connecting ring and the eccentric blade are both of a hollow structure, and a plurality of copper heat-conducting fins are fixedly connected inside the assembly connecting ring and the eccentric blade.

Furthermore, in order to cooperate with transmission, the lateral transmission mechanism comprises a disk-shaped transmission box fixed on the inner side wall of the transverse drying bin, an internal transmission gear movably connected inside the transmission box through a transverse rotating shaft and a top transmission shaft longitudinally inserted inside the upper end of the transmission box, the first transverse rotating shaft, the second transverse rotating shaft and the top transmission shaft are provided with annular gear grooves near the transmission box end, the annular gear grooves of the first transverse rotating shaft and the second transverse rotating shaft are inserted into the transmission box to be in meshing transmission with the gear surface on the outer side of the internal transmission gear, the plane of the outer side surface of the internal transmission gear is provided with an integral gear ring, the top transmission shaft is inserted into the transmission box through an annular gear groove and is in meshing transmission with the gear ring, the top end of the top transmission shaft is fixedly connected with the axial direction of a rotating shaft at the lower end of the lateral motor through a coupler.

Further, for automatically regulated and extrusion, eccentric paddle on seted up vertical regulation mouth, vertical regulation mouth inside sliding connection have a gravity adjustment block, the gravity adjustment block lateral surface on fixedly connected with arc stripper plate.

Furthermore, in order to facilitate assembly, a lateral assembly groove matched with the longitudinal adjustment opening is formed in the outer side surface of the gravity adjustment block, and the gravity adjustment block is sleeved inside the longitudinal adjustment opening through the lateral assembly groove and is in sliding connection with the eccentric paddle.

Furthermore, in order to facilitate feeding and discharging, the lower surface of the transverse drying bin is provided with a bottom discharging pipe, and the upper end of the transverse drying bin is provided with a top feeding pipe corresponding to the discharging end of the electric bolt conveyor.

The beneficial effects of the utility model are that, the utility model discloses a desiccator is used in sludge treatment with built-in eccentric heat conduction paddle is through the inside first that is provided with by side direction motor cooperation side direction drive mechanism drive in horizontal dry storehouse, the horizontal pivot of second, utilize the eccentric paddle in the horizontal pivot to carry and mix the mud in the storehouse, set up the vertical adjustment mouth of built-in gravity regulating block simultaneously on eccentric paddle, the fixed arc stripper plate that is used for extrudeing mud and disturbs inside heat flow direction on the gravity regulating block, rotate through horizontal pivot and drive its automatic position control, and the dry storehouse outer wall through hollow structure transmits heating steam, thereby heat dry storehouse inside, and cooperate the eccentric paddle of hollow structure, thereby promote heat conduction efficiency greatly, the energy consumption reduces.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a left side view of the present invention.

Fig. 3 is a cross-sectional view of the interior of the horizontal drying chamber of the present invention.

Fig. 4 is a partial cross-sectional view of the position of the side drive mechanism of the present invention.

In the figure, 1, a bottom fixed seat, 2, a lateral supporting seat, 3, a transverse drying bin, 5, an electric bolt conveyor, 6, a lateral motor, 7, a steam conveying pipe, 8, a bottom water tank, 9, a water foam dust remover, 10, a first transverse rotating shaft, 11, a second transverse rotating shaft, 12, an arc-shaped heat conduction groove, 13, an air inlet and outlet pipe, 14, an assembly connecting ring, 15, an eccentric paddle, 16, a copper heat conduction sheet, 17, a transmission box, 18, an internal transmission gear, 19, a top transmission shaft, 20, an annular gear groove, 21, a gear ring, 22, a longitudinal adjusting port, 23, a gravity adjusting block, 24, an arc-shaped extrusion plate, 25, a lateral assembly groove, 26, a bottom discharging pipe and 27 are arranged.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic drawings and illustrate the basic structure of the present invention only in a schematic manner, and thus show only the components related to the present invention.

FIG. 1, FIG. 2, FIG. 3 and FIG. 4 show a sludge treatment dryer with built-in eccentric heat-conducting paddle, which comprises a bottom fixing seat 1, lateral supporting seats 2 fixed at both ends of the bottom fixing seat 1, a horizontal drying chamber 3 arranged above the bottom fixing seat 1, an electric bolt conveyor 5 arranged at one side of the horizontal drying chamber 3 for conveying materials to the inside of the horizontal drying chamber 3, a lateral motor 6 arranged at the upper end of the horizontal drying chamber 3, a steam delivery pipe 7 and a foam dust remover 9 of a bottom water tank 8, wherein the horizontal drying chamber 3 is fixedly connected with the lateral supporting seats 2 through two end assembling shaft sleeves on the lateral supporting seats 2, a first lateral rotating shaft 10 and a second lateral rotating shaft 11 with hollow helical blades are arranged inside the horizontal drying chamber 3, the proximal ends of the first lateral rotating shaft 10 and the second lateral rotating shaft 11 are in transmission connection with the lower end of the lateral motor 6 through a lateral transmission mechanism, 3 front ends of horizontal drying storehouse, rear end and bottom outer wall are hollow structure, and arc heat conduction groove 12 has all been seted up to 3 front end inner walls of horizontal drying storehouse, rear end inner wall and bottom inner wall, all welded fastening has the business turn over trachea 13 that is used for external steam conveying pipe 7 on 3 front end outer walls of horizontal drying storehouse and the rear end outer wall.

Further, in order to improve the heat conduction and transmission performance, the hollow helical blade comprises an assembly connecting ring 14 and a fan-shaped structure eccentric blade 15, wherein the assembly connecting ring 14 is axially sleeved and fixed on the outer side surfaces of the first transverse rotating shaft 10 and the second transverse rotating shaft 11, the fan-shaped structure eccentric blade 15 is fixed on the outer side of the assembly connecting ring 14, both the assembly connecting ring 14 and the eccentric blade 15 are of a hollow structure, and 5 copper heat-conducting fins 16 are fixedly connected inside both the assembly connecting ring 14 and the eccentric blade 15.

Further, in order to cooperate with transmission, the lateral transmission mechanism comprises a disk-shaped transmission box 17 fixed on the inner side wall of the transverse drying chamber 3, an internal transmission gear 18 movably connected inside the transmission box 17 through a transverse rotating shaft and a top transmission shaft 19 longitudinally inserted inside the upper end of the transmission box 17, annular gear grooves 20 are formed in the first transverse rotating shaft 10, the second transverse rotating shaft 11 and the top transmission shaft 19 near the transmission box 17, the annular gear grooves 20 of the first transverse rotating shaft 10 and the second transverse rotating shaft 11 are engaged with the outer side gear surface of the internal transmission gear 18 through being inserted inside the transmission box 17 for transmission, an integral gear ring 21 is arranged on the outer side surface plane of the internal transmission gear 18, the top transmission shaft 19 is inserted inside the transmission box 17 through the annular gear grooves 20 for transmission in a meshing manner with the gear ring 21, and the top end of the top transmission shaft 19 is axially fixedly connected with the lower end rotating, further, for automatic adjustment and extrusion, a longitudinal adjusting opening 22 is formed in the eccentric blade 15, a gravity adjusting block 23 is slidably connected to the inside of the longitudinal adjusting opening 22, an arc-shaped extruding plate 24 is fixedly connected to the outer side surface of the gravity adjusting block 23, a lateral assembling groove 25 matched with the longitudinal adjusting opening 22 is formed in the outer side surface of the gravity adjusting block 23 for convenient assembly, the gravity adjusting block 23 is sleeved inside the longitudinal adjusting opening 22 through the lateral assembling groove 25 and is slidably connected with the eccentric blade 15, further, feeding and discharging are facilitated, a bottom discharging pipe 26 is arranged on the lower surface of the transverse drying bin 3, and a top feeding pipe 27 is arranged at the upper end of the transverse drying bin 3 corresponding to the discharging end of the electric bolt conveyor 5 The horizontal pivot of second, utilize horizontal epaxial eccentric paddle 15 to carry and mix the mud in the storehouse, set up built-in gravity regulating block 23's vertical regulation mouth 22 simultaneously on eccentric paddle 15, the fixed arc stripper plate 24 that is used for extrudeing mud and disturbs inside heat flow direction on gravity regulating block 23, rotate through horizontal pivot and drive its automatic position and adjust, and come transmission heating steam through hollow structure's dry storehouse outer wall, thereby heat dry storehouse inside, and cooperate hollow structure eccentric paddle 15, thereby promote heat conduction efficiency greatly, the energy consumption reduces.

In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (6)

1. The utility model provides a desiccator for sludge treatment with built-in eccentric heat conduction paddle, including bottom fixing base (1), fix side direction supporting seat (2) at bottom fixing base both ends, set up horizontal drying chamber (3) in bottom fixing base (1) top, install and be used for transporting electric bolt conveyer (5) of material to horizontal drying chamber (3) inside in horizontal drying chamber (3) one side, install side direction motor (6) in horizontal drying chamber (3) upper end, water foam dust remover (9) of steam delivery pipe (7) and bottom water tank (8), characterized by: horizontal dry storehouse (3) inside set up first transverse rotating shaft (10) and the horizontal pivot of second (11) that the surface has cavity helical blade, first transverse rotating shaft (10) and the horizontal pivot of second (11) near side to motor (6) end be connected with side direction motor (6) lower extreme pivot transmission through side direction drive mechanism, horizontal dry storehouse (3) front end, rear end and bottom outer wall be hollow structure, horizontal dry storehouse (3) front end inner wall, rear end inner wall and bottom inner wall all seted up arc heat-conducting groove (12), horizontal dry storehouse (3) front end outer wall and rear end outer wall on all welded fastening have business turn over trachea (13) that are used for external steam delivery pipe (7).

2. The dryer with a built-in eccentric heat-conducting paddle for sludge treatment as claimed in claim 1, wherein: the hollow helical blade comprises an assembly connecting ring (14) and a fan-shaped structure eccentric blade (15), wherein the assembly connecting ring (14) is axially sleeved and fixed on the outer side surfaces of the first transverse rotating shaft (10) and the second transverse rotating shaft (11), the fan-shaped structure eccentric blade (15) is fixed on the outer side of the assembly connecting ring (14), the assembly connecting ring (14) and the eccentric blade (15) are both of a hollow structure, and a plurality of copper heat conducting fins (16) are fixedly connected inside the assembly connecting ring (14) and the eccentric blade (15).

3. The dryer with a built-in eccentric heat-conducting paddle for sludge treatment as claimed in claim 1, wherein: the lateral transmission mechanism comprises a disc-shaped transmission box (17) fixed on the inner side wall of the transverse drying bin (3), an internal transmission gear (18) movably connected inside the transmission box (17) through a transverse rotating shaft and a top transmission shaft (19) longitudinally inserted inside the upper end of the transmission box (17), annular gear grooves (20) are formed in the ends, close to the transmission box (17), of the first transverse rotating shaft (10), the second transverse rotating shaft (11) and the top transmission shaft (19), the annular gear grooves (20) of the first transverse rotating shaft (10) and the second transverse rotating shaft (11) are inserted inside the transmission box (17) and are in meshed transmission with the outer side gear surface of the internal transmission gear (18), gear rings (21) of an integrated structure are arranged on the outer side surface plane of the internal transmission gear (18), the top transmission shaft (19) is inserted inside the transmission box (17) through the annular gear grooves (20) and is in meshed transmission with the gear rings (21), the top end of the top transmission shaft (19) is fixedly connected with the axial direction of a rotating shaft at the lower end of the lateral motor (6) through a coupler.

4. The dryer for sludge treatment with a built-in eccentric heat-conducting paddle according to claim 2, wherein: eccentric paddle (15) on seted up vertical regulation mouth (22), vertical regulation mouth (22) inside sliding connection have gravity regulating block (23), gravity regulating block (23) lateral surface on fixedly connected with arc stripper plate (24).

5. The dryer with a built-in eccentric heat-conducting paddle for sludge treatment as claimed in claim 4, wherein: the lateral side of the gravity adjusting block (23) is provided with a lateral assembling groove (25) matched with the longitudinal adjusting opening (22), and the gravity adjusting block (23) is sleeved inside the longitudinal adjusting opening (22) through the lateral assembling groove (25) and is in sliding connection with the eccentric paddle (15).

6. The dryer with a built-in eccentric heat-conducting paddle for sludge treatment as claimed in claim 1, wherein: the lower surface of the transverse drying bin (3) is provided with a bottom discharge pipe (26), and the upper end of the transverse drying bin (3) is provided with a top feeding pipe (27) corresponding to the discharge end of the electric bolt conveyor (5).

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