CN216604854U - A high-efficient agitating unit for production of leather auxiliary agent - Google Patents

Abstract

The utility model discloses a high-efficiency stirring device for leather additive production, which comprises a protective shell, a feeding pipe, a discharging pipe, a water inlet pipe, a water outlet pipe, a first discharging pipe, a second discharging pipe, a detection assembly and a stirring device, wherein a stirring cavity is arranged in the protective shell, the lower part of the stirring device is arranged in the stirring cavity, the bottom ends of the feeding pipe and the first discharging pipe both penetrate through the top wall of the protective shell and are arranged on the top wall of the stirring cavity, the top end of the discharging pipe penetrates through the bottom wall of the protective shell and is arranged on the bottom wall of the stirring cavity, a temperature control cavity is arranged in the side wall of the protective shell, one end of the water inlet pipe penetrates through the side wall of the protective shell and is arranged in the temperature control cavity, one end of the water outlet pipe penetrates through the side wall of the protective shell and is arranged in the temperature control cavity, the water outlet pipe is positioned at the upper part of the water inlet pipe, the stirring device is arranged on the side wall of the protective shell, and one end of the second discharging pipe penetrates through the side wall of the protective shell and is arranged in the temperature control cavity. The utility model relates to the mechanical field of leather preparation production equipment, and particularly provides a high-efficiency stirring device which is convenient for uniform stirring and used for leather auxiliary agent production.

Description

A high-efficient agitating unit for production of leather auxiliary agent

Technical Field

The utility model relates to the mechanical field of leather preparation production equipment, in particular to a high-efficiency stirring device for leather auxiliary agent production.

Background

The leather assistant is chemicals required in the whole process of making leather from animal skins, is mainly used for filling, fast soaking, softening assisting, fiber separating, degreasing, softening, tanning and the like, and a leather assistant production stirring device on the market at present is used for unidirectional stirring, and raw materials on the upper part of mixed liquid cannot be fully mixed with raw materials on the lower part of the mixed liquid, so that the stirring is not uniform, the reaction is not thorough, and the quality of the leather assistant is different.

SUMMERY OF THE UTILITY MODEL

Aiming at the situation, the utility model provides the efficient stirring device for the leather additive production, which is convenient for uniform stirring and overcomes the current technical defects.

The technical scheme adopted by the utility model is as follows: a high-efficiency stirring device for leather additive production comprises a protective shell, a feeding pipe, a discharging pipe, a water inlet pipe, a water outlet pipe, a first exhaust pipe, a second exhaust pipe, a detection assembly and a stirring device, wherein a stirring cavity is arranged in the protective shell, the lower part of the stirring device is arranged in the stirring cavity, the bottom ends of the feeding pipe and the first exhaust pipe both penetrate through the top wall of the protective shell and are arranged on the top wall of the stirring cavity, the top end of the discharging pipe penetrates through the bottom wall of the protective shell and is arranged on the bottom wall of the stirring cavity, a temperature control cavity is arranged in the side wall of the protective shell, one end of the water inlet pipe penetrates through the side wall of the protective shell and is arranged in the temperature control cavity, one end of the water outlet pipe penetrates through the side wall of the protective shell and is arranged in the temperature control cavity, the water outlet pipe is positioned at the upper part of the water inlet pipe, the stirring device is arranged on the side wall of the protective shell, and one end of the second exhaust pipe penetrates through the side wall of the protective shell and is arranged in the temperature control cavity; the stirring device comprises a support frame, a driving motor, a driving shaft, a first stirring shaft, a second stirring shaft, a third stirring shaft, a first stirring blade, a second stirring blade, a third stirring blade, a fourth stirring blade, a first driving bevel gear, a second driving bevel gear, a first driven bevel gear, a second driven bevel gear and a third driven bevel gear, wherein the support frame is arranged on the top wall of the protective shell, the driving motor is arranged on the support frame, the driving shaft is connected with an output shaft of the driving motor, the first driving bevel gear and the second driving bevel gear are sequentially arranged on the driving shaft from left to right, the bottom end of the first stirring shaft penetrates through the top wall of the protective shell and is rotatably arranged in the stirring cavity, the first driven bevel gear is arranged on the top end of the first stirring shaft, a first rotating cavity is arranged in the first stirring shaft, and the second stirring shaft is rotatably arranged in the first rotating cavity, the top end of the second stirring shaft penetrates through the top wall of the first rotating cavity and is rotatably arranged on the upper part of the first stirring shaft, the bottom end of the second stirring shaft penetrates through the bottom wall of the first rotating cavity and is rotatably arranged in the stirring cavity, the second driven bevel gear is arranged on the top end of the second stirring shaft, the first driven bevel gear and the second driven bevel gear are both meshed with the first driving bevel gear, a second rotating cavity is arranged in the second stirring shaft, the third stirring shaft is rotatably arranged in the second rotating cavity, the top end of the third stirring shaft penetrates through the top wall of the second rotating cavity and is rotatably arranged on the upper part of the second stirring shaft, the bottom end of the third stirring shaft penetrates through the bottom wall of the second rotating cavity and is rotatably arranged on the bottom wall of the stirring cavity, the third driven bevel gear is arranged on the top end of the third stirring shaft, the third driven bevel gear is meshed with the second driving bevel gear, and the first stirring blades are arranged on the side wall of the first stirring shaft, the second stirring blade is arranged on the side wall of the second stirring shaft, the third stirring blade and the fourth stirring blade are sequentially arranged on the side wall of the third stirring shaft from top to bottom, the third stirring blade is arranged in an inverted V-shaped structure, and the fourth stirring blade is arranged on the bottom wall of the stirring cavity in a sliding manner.

Further, the detecting component comprises a pH sensor, a liquid level sensor, a temperature sensor, a controller and a display screen, the side wall of the protective shell is provided with a heat insulation layer, the pH sensor, the liquid level sensor, the controller and the display screen are all arranged on the side wall of the heat insulation layer, the detecting probes of the pH sensor and the liquid level sensor are all arranged in the stirring cavity, the temperature sensor is arranged on the top wall of the protective shell, the detecting probes of the temperature sensor are arranged in the stirring cavity, the pH sensor, the liquid level sensor and the temperature sensor are all electrically connected with the controller, and the controller is electrically connected with the display screen.

Further, first stirring vane and second stirring vane all are the heliciform structure setting, first stirring vane is the slope setting, and second stirring vane is parallel arrangement with first stirring vane.

Furthermore, the side wall of the stirring cavity is provided with a plurality of groups of baffles, so that turbulence is increased, and uniform dispersion of products is facilitated.

Furthermore, the lateral wall of the protective shell is provided with a fixed seat, and the fixed seat is provided with a plurality of groups so as to install the stirring device on the fixed frame.

Further, the side wall of the protective shell is provided with an observation window so as to visually observe the reaction condition in the stirring cavity from the outside.

Furthermore, a control valve is arranged on the discharge pipe.

The utility model adopting the structure has the following beneficial effects: according to the scheme, the efficient stirring device for the leather auxiliary production is matched with the baffle plate, so that the efficient stirring device for the leather auxiliary production can be used for fully stirring the leather auxiliary raw materials, the mixed raw materials are fully mixed and fully react, and the quality of the leather auxiliary is improved; the efficient stirring device for leather additive production can accurately detect the dosage of the added reaction of the mixed raw materials through the detection assembly, realize real-time regulation and control of the feeding state in the stirring cavity, monitor the reaction process and control the product quality; the high-efficiency stirring device for producing the leather auxiliary agent can timely and accurately control the heating or cooling of the raw materials in the stirring cavity through the matching of the temperature sensor, the water inlet pipe, the water outlet pipe and the temperature control cavity.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the principles of the utility model and not to limit the utility model. In the drawings:

FIG. 1 is a schematic structural diagram of a high-efficiency stirring device for leather additive production according to the present invention in a front view;

fig. 2 is a partially enlarged view of a portion a of fig. 1.

Wherein, 1, a protective shell, 2, a feeding pipe, 3, a discharging pipe, 4, a water inlet pipe, 5, a water outlet pipe, 6, a first exhaust pipe, 7, a second exhaust pipe, 8, a detection component, 9, a stirring device, 10, a stirring cavity, 11, a temperature control cavity, 12, a support frame, 13, a driving motor, 14, a driving shaft, 15, a first stirring shaft, 16, a second stirring shaft, 17, a third stirring shaft, 18, a first stirring blade, 19, a second stirring blade, 20, a third stirring blade, 21, a fourth stirring blade, 22, a first driving bevel gear, 23, a second driving bevel gear, 24, a first driven bevel gear, 25, a second driven bevel gear, 26, a third driven bevel gear, 27, a first rotating cavity, 28, a second rotating cavity, 29, a pH sensor, 30, a liquid level sensor, 31, a temperature sensor, 32, a controller, 33, a display screen, 34. insulating layer, 35, baffle, 36, fixing base, 37, observation window, 38, control valve.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments; all other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that the terms "front," "back," "left," "right," "upper" and "lower" used in the following description refer to directions in the drawings, and the terms "inner" and "outer" refer to directions toward and away from, respectively, the geometric center of a particular component.

As shown in fig. 1-2, the technical scheme adopted by the utility model is as follows: a high-efficiency stirring device for leather additive production comprises a protective shell 1, a feeding pipe 2, a discharging pipe 3, a water inlet pipe 4, a water outlet pipe 5, a first discharging pipe 6, a second discharging pipe 7, a detection assembly 8 and a stirring device 9, wherein a stirring cavity 10 is arranged in the protective shell 1, the lower part of the stirring device 9 is arranged in the stirring cavity 10, the bottom ends of the feeding pipe 2 and the first discharging pipe 6 penetrate through the top wall of the protective shell 1 and are arranged on the top wall of the stirring cavity 10, the top end of the discharging pipe 3 penetrates through the bottom wall of the protective shell 1 and is arranged on the bottom wall of the stirring cavity 10, a temperature control cavity 11 is arranged in the side wall of the protective shell 1, one end of the water inlet pipe 4 penetrates through the side wall of the protective shell 1 and is arranged in the temperature control cavity 11, one end of the water outlet pipe 5 is arranged on the upper part of the water inlet pipe 4, the stirring device 9 is arranged on the side wall of the protective shell 1, one end of the second exhaust pipe 7 penetrates through the side wall of the protective shell 1 and is arranged in the temperature control cavity 11; the stirring device 9 comprises a support frame 12, a driving motor 13, a driving shaft 14, a first stirring shaft 15, a second stirring shaft 16, a third stirring shaft 17, a first stirring blade 18, a second stirring blade 19, a third stirring blade 20, a fourth stirring blade 21, a first driving bevel gear 22, a second driving bevel gear 23, a first driven bevel gear 24, a second driven bevel gear 25 and a third driven bevel gear 26, wherein the support frame 12 is arranged on the top wall of the protective shell 1, the driving motor 13 is arranged on the support frame 12, the driving shaft 14 is connected with an output shaft of the driving motor 13, the first driving bevel gear 22 and the second driving bevel gear 23 are sequentially arranged on the driving shaft 14 from left to right, the bottom end of the first stirring shaft 15 penetrates through the top wall of the protective shell 1 and is rotatably arranged in the stirring cavity 10, the first driven bevel gear 24 is arranged on the top end of the first stirring shaft 15, a first rotating cavity 27 is arranged in the first stirring shaft 15, the second stirring shaft 16 is rotatably arranged in the first rotating cavity 27, the top end of the second stirring shaft 16 penetrates through the top wall of the first rotating cavity 27 and is rotatably arranged on the upper part of the first stirring shaft 15, the bottom end of the second stirring shaft 16 penetrates through the bottom wall of the first rotating cavity 27 and is rotatably arranged in the stirring cavity 10, the second driven bevel gear 25 is arranged on the top end of the second stirring shaft 16, the first driven bevel gear 24 and the second driven bevel gear 25 are both meshed with the first driving bevel gear 22, the second rotating cavity 28 is arranged in the second stirring shaft 16, the third stirring shaft 17 is rotatably arranged in the second rotating cavity 28, the top end of the third stirring shaft 17 penetrates through the top wall of the second rotating cavity 28 and is rotatably arranged on the upper part of the second stirring shaft 16, the bottom end of the third stirring shaft 17 penetrates through the bottom wall of the second rotating cavity 28 and is rotatably arranged on the bottom wall of the stirring cavity 10, and the third driven bevel gear 26 is arranged on the top end of the third stirring shaft 17, the third driven bevel gear 26 is meshed with the second driving bevel gear 23, the first stirring blade 18 is arranged on the side wall of the first stirring shaft 15, the second stirring blade 19 is arranged on the side wall of the second stirring shaft 16, the third stirring blade 20 and the fourth stirring blade 21 are sequentially arranged on the side wall of the third stirring shaft 17 from top to bottom, the third stirring blade 20 is arranged in an inverted V-shaped structure, and the fourth stirring blade 21 is arranged on the bottom wall of the stirring cavity 10 in a sliding manner.

Wherein, the determine module 8 includes pH sensor 29, level sensor 30, temperature sensor 31, controller 32 and display screen 33, 1 lateral wall of protecting crust is equipped with insulating layer 34, pH sensor 29, level sensor 30, controller 32 and display screen 33 are all located on the insulating layer 34 lateral wall, the test probe of pH sensor 29 and level sensor 30 is all located in stirring chamber 10, temperature sensor 31 is located on 1 roof of protecting crust, the test probe of temperature sensor 31 is located in stirring chamber 10, pH sensor 29, level sensor 30 and temperature sensor 31 all with controller 32 electric connection, controller 32 and display screen 33 electric connection. First stirring vane 18 and second stirring vane 19 all are the heliciform structure setting, first stirring vane 18 is the slope setting, and second stirring vane 19 is parallel arrangement with first stirring vane 18. The lateral wall of the stirring cavity 10 is provided with a baffle 35, and the baffle 35 is provided with a plurality of groups so as to increase turbulence and be beneficial to uniform dispersion of products. The side wall of the protective shell 1 is provided with a fixed seat 36, and the fixed seat 36 is provided with a plurality of groups so as to install the stirring device 9 on a fixed frame. The side wall of the protective shell 1 is provided with an observation window 37 so as to visually observe the reaction condition in the stirring cavity 10 from the outside. The discharge pipe 3 is provided with a control valve 38.

When the stirring device is used specifically, the stirring device is fixed on a fixing frame through a fixing seat 36, raw materials are added into a stirring cavity 10 through a feeding pipe 2, cooling liquid is added into a temperature control cavity 11 from a water inlet pipe 4 and is discharged through a water outlet pipe 5 to perform heat exchange or cooling action on the raw materials in the stirring cavity 10, a temperature sensor 31 monitors the temperature in the stirring cavity 10 in real time and displays the temperature on a display screen 33, a pH sensor 29 and a liquid level sensor 30 detect the pH value of a mixture in the stirring cavity 10 and display the pH value on the display screen 33, a driving motor 13 drives a driving shaft 14 to rotate, the driving shaft 14 drives a first driving bevel gear 22 and a second driving bevel gear 23 to rotate, the first driving bevel gear 22 drives a first driven bevel gear 24 and a second driven bevel gear 25 to rotate, and the first driven bevel gear 24 and the second driven bevel gear 25 reversely rotate, the first driven bevel gear 24 drives the first stirring shaft 15 to rotate, the second driven bevel gear 25 drives the second stirring shaft 16 to rotate, the first stirring shaft 15 drives the first stirring blade 18 to rotate, the second stirring shaft 16 drives the second stirring blade 19 to reversely rotate, the first stirring blade 18 presses the upper layer of raw materials downwards, the second stirring blade 19 overflows the lower layer of raw materials to uniformly mix the upper and lower raw materials, the first stirring blade 18 and the second stirring blade 19 reversely rotate to sufficiently stir the raw materials, the second driving bevel gear 23 drives the third driven bevel gear 26 to stir, the third driven bevel gear 26 drives the third stirring shaft 17 to rotate, the third stirring shaft 17 drives the third stirring blade 20 to rotate, the third stirring blade 20 stirs the lower layer of raw materials, and the raw materials at the lowest layer are prevented from being insufficiently stirred, the third (mixing) shaft 17 drives fourth stirring vane 21 and stirs the raw materials of stirring chamber 10 diapire, avoids the raw materials to adhere to on stirring chamber 10 diapire, and the gaseous first exhaust pipe 6 of passing through of raw materials reaction production is discharged.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides a high-efficient agitating unit for production of leather auxiliary agent which characterized in that: the device comprises a protective shell, a feeding pipe, a discharging pipe, a water inlet pipe, a water outlet pipe, a first exhaust pipe, a second exhaust pipe, a detection assembly and a stirring device, wherein a stirring cavity is arranged in the protective shell, the lower part of the stirring device is arranged in the stirring cavity, the bottom ends of the feeding pipe and the first exhaust pipe both penetrate through the top wall of the protective shell and are arranged on the top wall of the stirring cavity, the top end of the discharging pipe penetrates through the bottom wall of the protective shell and is arranged on the bottom wall of the stirring cavity, a temperature control cavity is arranged in the side wall of the protective shell, one end of the water inlet pipe penetrates through the side wall of the protective shell and is arranged in the temperature control cavity, one end of the water outlet pipe penetrates through the side wall of the protective shell and is arranged in the temperature control cavity, the water outlet pipe is positioned at the upper part of the water inlet pipe, the stirring device is arranged on the side wall of the protective shell, and one end of the second exhaust pipe penetrates through the side wall of the protective shell and is arranged in the temperature control cavity; the stirring device comprises a support frame, a driving motor, a driving shaft, a first stirring shaft, a second stirring shaft, a third stirring shaft, a first stirring blade, a second stirring blade, a third stirring blade, a fourth stirring blade, a first driving bevel gear, a second driving bevel gear, a first driven bevel gear, a second driven bevel gear and a third driven bevel gear, wherein the support frame is arranged on the top wall of the protective shell, the driving motor is arranged on the support frame, the driving shaft is connected with an output shaft of the driving motor, the first driving bevel gear and the second driving bevel gear are sequentially arranged on the driving shaft from left to right, the bottom end of the first stirring shaft penetrates through the top wall of the protective shell and is rotatably arranged in the stirring cavity, the first driven bevel gear is arranged on the top end of the first stirring shaft, a first rotating cavity is arranged in the first stirring shaft, and the second stirring shaft is rotatably arranged in the first rotating cavity, the top end of the second stirring shaft penetrates through the top wall of the first rotating cavity and is rotatably arranged on the upper part of the first stirring shaft, the bottom end of the second stirring shaft penetrates through the bottom wall of the first rotating cavity and is rotatably arranged in the stirring cavity, the second driven bevel gear is arranged on the top end of the second stirring shaft, the first driven bevel gear and the second driven bevel gear are both meshed with the first driving bevel gear, a second rotating cavity is arranged in the second stirring shaft, the third stirring shaft is rotatably arranged in the second rotating cavity, the top end of the third stirring shaft penetrates through the top wall of the second rotating cavity and is rotatably arranged on the upper part of the second stirring shaft, the bottom end of the third stirring shaft penetrates through the bottom wall of the second rotating cavity and is rotatably arranged on the bottom wall of the stirring cavity, the third driven bevel gear is arranged on the top end of the third stirring shaft, the third driven bevel gear is meshed with the second driving bevel gear, and the first stirring blades are arranged on the side wall of the first stirring shaft, the second stirring blade is arranged on the side wall of the second stirring shaft, the third stirring blade and the fourth stirring blade are sequentially arranged on the side wall of the third stirring shaft from top to bottom, the third stirring blade is arranged in an inverted V-shaped structure, and the fourth stirring blade is arranged on the bottom wall of the stirring cavity in a sliding manner.

2. The high-efficiency stirring device for the leather auxiliary production is characterized by comprising the following components in parts by weight: the detection assembly comprises a pH sensor, a liquid level sensor, a temperature sensor, a controller and a display screen, the side wall of the protective shell is provided with a heat insulation layer, the pH sensor, the liquid level sensor, the controller and the display screen are all arranged on the side wall of the heat insulation layer, the detection probes of the pH sensor and the liquid level sensor are all arranged in the stirring cavity, the temperature sensor is arranged on the top wall of the protective shell, the detection probes of the temperature sensor are arranged in the stirring cavity, the pH sensor, the liquid level sensor and the temperature sensor are all electrically connected with the controller, and the controller is electrically connected with the display screen.

3. The high-efficiency stirring device for the leather auxiliary production is characterized by comprising the following components in parts by weight: first stirring vane and second stirring vane all are the heliciform structure setting, first stirring vane is the slope setting, and second stirring vane is parallel arrangement with first stirring vane.

4. The high-efficiency stirring device for the leather auxiliary production is characterized in that: the stirring chamber lateral wall is equipped with the baffle, and the baffle is equipped with the multiunit.

5. The high-efficiency stirring device for the leather auxiliary production is characterized in that: the protective housing lateral wall is equipped with the fixing base, the fixing base is equipped with the multiunit.

6. The high-efficiency stirring device for the leather auxiliary production is characterized by comprising the following components in parts by weight: and an observation window is arranged on the side wall of the protective shell.

7. The high-efficiency stirring device for the leather additive production as recited in claim 1, wherein: and a control valve is arranged on the discharge pipe.

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