CN211346257U - Hydroextractor with spiral pay-off effect - Google Patents

Abstract

The utility model discloses a hydroextractor with spiral pay-off effect, including base, electric telescopic frame, support frame and hydroextractor shell, the embedded hydraulic telescoping rod that installs in bottom of base, electric telescopic frame is located the upper surface left end of base, the support frame is fixed in the upper surface right side of base through the welded mode, the hydroextractor shell is located the inboard of support frame, the preceding both sides homogeneous body of hydroextractor shell is provided with the fixed block, the lower surface bolted fixation of hydroextractor shell has the guide plate, the middle part of hydroextractor shell runs through there is the power shaft, and the outside of power shaft installs helical blade, the upside right-hand member of hydroextractor shell is fixed with the magazine, and the downside left end of hydroextractor shell is provided with the bin outlet. This hydroextractor with spiral pay-off effect, the convenience is adjusted the transport height of raw materials, uses enough in a flexible way, and dewaters effectually to be convenient for remove, improved the device's practicality.

Description

Hydroextractor with spiral pay-off effect

Technical Field

The utility model relates to a hydroextractor technical field specifically is a hydroextractor with spiral pay-off effect.

Background

The dehydrator is an automatic dehydration device after crushing and cleaning crushed aggregates, at present, the dehydrator with the spiral feeding function is mostly used, materials can be conveyed to a preset position after being dehydrated, and the production efficiency is improved, but the currently used dehydrator with the spiral feeding function still has the defects;

the utility model provides a be CN 205079557U's utility model provides a horizontal spiral feeding hydroextractor, this hydroextractor pay-off dehydration is integrative to be accomplished, provides work efficiency, realizes intelligent monitoring and automated control simultaneously, but inconvenient highly adjusts the transport of raw materials, uses not nimble enough, and water only discharges from the delivery port department of dehydrator shell left end, and the dehydration effect is not good, consequently, the utility model provides a hydroextractor with spiral feeding effect to solve the above-mentioned problem that proposes.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a hydroextractor with spiral pay-off effect to the hydroextractor that has spiral pay-off effect of using at present who proposes in solving above-mentioned background art is inconvenient adjusts the transport height of raw materials, uses not nimble enough, and the not good problem of dehydration effect.

In order to achieve the above object, the utility model provides a following technical scheme: a dehydrator with spiral feeding function comprises a base, an electric expansion bracket, a support frame and a dehydrator shell, wherein the bottom of the base is embedded with a hydraulic expansion rod, the lower end of the hydraulic expansion rod is provided with a roller, the electric expansion bracket is positioned at the left end of the upper surface of the base, the upper end of the electric expansion bracket is provided with a support block, the support frame is fixed at the right side of the upper surface of the base in a welding mode, an installation shaft penetrates through the upper end of the support frame, the dehydrator shell is positioned at the inner side of the support frame, the front two sides of the dehydrator shell are provided with fixed blocks in an integrated mode, the fixed blocks are connected with the inner end of the installation shaft, a guide plate is fixed on the lower surface of the dehydrator shell through a bolt, the right end of the guide plate is provided with a drain pipe, a, the feed hopper is fixed to the upper side right-hand member of hydroextractor shell, and the downside left end of hydroextractor shell is provided with the bin outlet.

Preferably, the vertical section of the supporting block is of a concave structure, and the supporting block is connected with the supporting frame in a clamping manner.

Preferably, the support frame is symmetrical about the hydroextractor shell front and back and is set up, and the front end welded fastening that is located the installation axle of hydroextractor shell front side has the driving disc to the laminating of below of driving disc sets up the control shaft.

Preferably, the control shaft and the transmission disc form a worm gear structure, and the control shaft penetrates through the front side surface of the support frame.

Preferably, the lower surface of the shell of the dewatering machine is of a honeycomb structure, and the honeycomb structure is positioned above the guide plate.

Preferably, the fixed block is welded with the mounting shaft, and the mounting shaft and the support frame form a rotating structure.

Compared with the prior art, the beneficial effects of the utility model are that: the dehydrator with the spiral feeding function is convenient to adjust the conveying height of the raw materials, flexible to use, good in dehydration effect, convenient to move and capable of improving the practicability of the device;

1. the worm and worm wheel structure formed between the transmission disc and the control shaft facilitates the installation shaft to drive the shell of the dehydrator to rotate, so that the height position of raw material conveying is adjusted, the use is more flexible, and the stability of the device in the operation process is ensured by matching with the support of the support block on the shell of the dehydrator;

2. the honeycomb structure on the lower surface of the shell of the dehydrator can ensure that water flows out in time and the dehydration effect is ensured, and meanwhile, the water is convenient to collect under the action of the guide plate and the drain pipe;

3. through the hydraulic telescoping rod of embedding in the base bottom, conveniently adjust the height of gyro wheel to make things convenient for the device's removal and fixed, improved the device practicality.

Drawings

Fig. 1 is a schematic view of the front cross-sectional structure of the present invention;

FIG. 2 is a schematic view of the connection structure between the supporting block and the dehydrator casing;

FIG. 3 is a schematic diagram of a side view cross-sectional structure of the supporting block and the dehydrator casing of the present invention;

FIG. 4 is a schematic view of the top-view cross-sectional structure of the shell and the supporting frame of the dehydrating machine of the present invention.

In the figure: 1. the automatic dewatering device comprises a base, 2, a hydraulic telescopic rod, 3, rollers, 4, an electric telescopic frame, 5, a supporting block, 6, a supporting frame, 7, an installation shaft, 8, a transmission disc, 9, a control shaft, 10, a dewatering machine shell, 11, a fixing block, 12, a guide plate, 13, a drainage pipe, 14, a power shaft, 15, helical blades, 16, a feeding hopper, 17 and a discharge port.

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. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Unless the direction is defined separately, the directions of up, down, left, right, front, back, etc. referred to herein are the directions of up, down, left, right, front, back, etc. in the drawings of the present invention, and are herein incorporated by reference.

Referring to fig. 1-4, the present invention provides a technical solution: a dehydrator with spiral feeding function comprises a base 1, a hydraulic telescopic rod 2, rollers 3, an electric telescopic frame 4, supporting blocks 5, a supporting frame 6, an installation shaft 7, a transmission disc 8, a control shaft 9, a dehydrator shell 10, a fixed block 11, a guide plate 12, a drain pipe 13, a power shaft 14, spiral blades 15, a feeding hopper 16 and a discharge port 17, wherein the hydraulic telescopic rod 2 is installed at the bottom of the base 1 in an embedded mode, the rollers 3 are installed at the lower end of the hydraulic telescopic rod 2, the electric telescopic frame 4 is located at the left end of the upper surface of the base 1, the supporting blocks 5 are installed at the upper end of the electric telescopic frame 4, the supporting frame 6 is fixed on the right side of the upper surface of the base 1 in a welding mode, the installation shaft 7 penetrates through the upper end of the supporting frame 6, the dehydrator shell 10 is located on the inner side of the supporting, the fixed block 11 is connected with the inner end of the mounting shaft 7, a guide plate 12 is fixed on the lower surface of the dehydrator casing 10 through a bolt, a drain pipe 13 is arranged at the right end of the guide plate 12, a power shaft 14 penetrates through the middle of the dehydrator casing 10, a helical blade 15 is arranged on the outer side of the power shaft 14, a feeding hopper 16 is fixed at the right end of the upper side of the dehydrator casing 10, and a discharge outlet 17 is arranged at the left end of the lower side of the dehydrator casing 10;

specifically, as shown in fig. 3, the vertical section of the supporting block 5 is of a concave structure, and the supporting block 5 is connected with the supporting frame 6 in a clamping manner, so that the dehydrator casing 10 is conveniently supported, as shown in fig. 2 and 4, the supporting frame 6 is symmetrically arranged in front and back of the dehydrator casing 10, the front end of the mounting shaft 7 positioned on the front side of the dehydrator casing 10 is fixedly welded with the transmission disc 8, and the control shaft 9 is arranged below the transmission disc 8 in a fitting manner, so that the stability of the dehydrator casing 10 is ensured;

specifically, as the constitution worm gear structure of control shaft 9 and driving disc 8 in fig. 2 and fig. 4, and control shaft 9 runs through in the front side surface of support frame 6, it drives installation axle 7 pivoted stability to have guaranteed driving disc 8, be the cellular structure below like dehydration machine shell 10 in fig. 1 and fig. 3, and this cellular structure is located guide plate 12's top, made things convenient for to derive water, be the welding like the connected mode of fixed block 11 and installation axle 7 in fig. 4, and installation axle 7 constitutes revolution mechanic with support frame 6, made things convenient for the inclination to dewaterer shell 10 to adjust.

Specifically, when the dehydrator with the spiral feeding function is used, firstly, as shown in fig. 1, the device is moved to a preset position through the roller 3, then, the roller 3 is retracted through the action of the hydraulic telescopic rod 2, the lower surface of the base 1 is contacted with the ground, then, according to the height required to be conveyed by raw materials, as shown in fig. 2 and 4, the control shaft 9 which forms a worm and worm gear structure with the transmission disc 8 is driven by the driving device to rotate, so that the mounting shaft 7 drives the dehydrator shell 10 to rotate, the height of the discharge port 17 at the left end of the dehydrator shell 10 is adjusted, as shown in fig. 3, the support block 5 is driven to ascend through the electric telescopic frame 4 after the adjustment is completed, the support block 5 is clamped with the dehydrator shell 10, the dehydrator shell 10 is supported, and the load between the control shaft 9 and the transmission disc 8 can be effectively reduced, the service life of the transmission disc 8 and the control shaft 9 is prolonged, after the adjustment is completed, the driving device drives the power shaft 14 to rotate, raw materials are put into the dehydrator shell 10 through the feeding hopper 16, the raw materials are conveyed under the operation of the spiral blades 15 and are discharged to a preset position through the discharge port 17, meanwhile, water in the raw materials is discharged into the guide plate 12 through the position where the lower surface of the dehydrator shell 10 is of a honeycomb structure, and is output through the drain pipe 13, the collection of the water is facilitated, and the use method of the dehydrator with the spiral feeding effect is achieved.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications and variations can be made in the embodiments or in part of the technical features of the embodiments without departing from the spirit and the principles of the present invention.

Claims (6)

1. The utility model provides a hydroextractor with spiral pay-off effect, includes base (1), electronic expansion bracket (4), support frame (6) and hydroextractor shell (10), its characterized in that: the bottom of the base (1) is embedded with a hydraulic telescopic rod (2), the lower end of the hydraulic telescopic rod (2) is provided with a roller (3), the electric telescopic frame (4) is located at the left end of the upper surface of the base (1), the upper end of the electric telescopic frame (4) is provided with a supporting block (5), the supporting frame (6) is fixed at the right side of the upper surface of the base (1) in a welding mode, an installation shaft (7) penetrates through the upper end of the supporting frame (6), the dewatering machine shell (10) is located at the inner side of the supporting frame (6), the front two sides of the dewatering machine shell (10) are uniformly provided with fixed blocks (11), the fixed blocks (11) are connected with the inner end of the installation shaft (7), the lower surface of the dewatering machine shell (10) is fixed with a guide plate (12) through bolts, and the right end of the, the middle part of the dehydrator shell (10) is penetrated with a power shaft (14), the outer side of the power shaft (14) is provided with a spiral blade (15), the upper side right end of the dehydrator shell (10) is fixed with a feeding hopper (16), and the lower side left end of the dehydrator shell (10) is provided with a discharge outlet (17).

2. The dehydrator with spiral feeding function according to claim 1, wherein: the vertical section of the supporting block (5) is of a concave structure, and the supporting block (5) is connected with the supporting frame (6) in a clamping manner.

3. The dehydrator with spiral feeding function according to claim 1, wherein: the support frame (6) is symmetrical about dehydrator shell (10) and sets up, and is located the front end welded fastening of installation axle (7) of dehydrator shell (10) front side has drive plate (8) to the laminating of below of drive plate (8) sets up control shaft (9).

4. The dehydrator with spiral feeding function according to claim 3, wherein: the control shaft (9) and the transmission disc (8) form a worm gear structure, and the control shaft (9) penetrates through the front side surface of the support frame (6).

5. The dehydrator with spiral feeding function according to claim 1, wherein: the lower part of the shell (10) of the dehydrator is of a honeycomb structure, and the honeycomb structure is positioned above the guide plate (12).

6. The dehydrator with spiral feeding function according to claim 1, wherein: the connection mode of fixed block (11) and installation axle (7) is the welding, and installation axle (7) and support frame (6) constitute rotating-structure.

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