CN108895770B - Industrial dehydrator with sewage disposal device - Google Patents

Abstract

The invention discloses an industrial dehydrator with a sewage disposal device, which structurally comprises a motor, a dehydrating device, a vibration damper, a shell, a base, an annular seat and a water outlet pipe, wherein the motor is mechanically connected with the dehydrating device, the dehydrating device is fixedly arranged on the annular seat, the annular seat is fixedly connected with the base, the vibration damper is arranged in an inner cavity of the shell, and the shell is fixedly connected with the base.

Description

Industrial dehydrator with sewage disposal device

Technical Field

The invention relates to the field of industrial dewaterers, in particular to an industrial dewaterer with a pollution discharge treatment device.

Background

A spin dryer is a kind of washing machine, and is generally used for a water removal process after washing clothes, textile articles, crops and the like. After dehydration, the drying machine is used for drying, and the effect of thorough drying can be achieved. The shock attenuation effect of current hydroextractor is not good, leads to the hydroextractor to operate not steady enough when high-speed rotatory centrifugal dehydration, and current hydroextractor is when using moreover, and the sewage of production can directly discharge away, can cause the pollution of environment, for this reason, we provide an industrial hydroextractor with blowdown processing apparatus.

The industrial dehydrator with the sewage disposal device in the prior art has poor damping effect, so that the dehydrator can not work stably enough when rotating at high speed and performing centrifugal dehydration.

Disclosure of Invention

Aiming at the defects of the prior art, the invention is realized by the following technical scheme: the industrial dehydrator with the sewage disposal device structurally comprises a motor, a dehydrating device, a vibration damper, a shell, a base, an annular seat and a water outlet pipe, wherein the motor is mechanically connected with the dehydrating device;

the vibration damping device consists of a first buffer mechanism, a connecting mechanism, a bottom buffer device, a mechanical balance device, a first fixing device, a second buffer mechanism, a second fixing device and a rectangular working cavity;

the connecting mechanism is used for mechanically connecting the dehydration device with the mechanical balance device, the bottom buffer device is arranged at the bottom of the dehydration device and is mechanically connected with the dehydration device, the second buffer mechanism is mechanically matched with the mechanical balance device, the mechanical balance device is mechanically connected with the first buffer mechanism, and the first fixing device and the second fixing device are fixedly connected with the rectangular working cavity.

As a further optimization of the technical scheme, the first buffer mechanism is composed of a first fixed rod, a triangular fixed block, a rubber layer, a rectangular plate, an annular frame, a limiting rod, a first fixed connecting rod, a first fixed shaft and an annular frame fixing seat, wherein the first fixed rod is provided with two fixed rods which are arranged on the annular frame in parallel, one end of the first fixed rod, which is far away from the annular frame, is vertically welded with the rectangular plate, the rubber layer is arranged on one side of the rectangular plate, which is close to the mechanical balance device, the rubber layer is attached to the mechanical balance device, the triangular fixed block is arranged between the two first fixed rods and is fixedly connected with the annular frame, the rectangular plate and the triangular fixed block form a lever structure, the first fixed connecting rods are provided with three fixed rods which are equally distributed on the annular frame, and one ends, which are connected with the three first fixed connecting rods, are penetrated through by the first fixed shaft and are fixed at, the gag lever post be equipped with two and all be symmetrical structure welding on the gag lever post is inboard, annular frame fixed mounting on annular frame fixing base, under mechanical balancing unit's effect, the rectangular plate atress is and according to lever principle, first fixed link pole atress is followed along with the rectangular plate is rotatory on the annular frame, the establishment of gag lever post can ensure first fixed link pole at the stability of annular frame rotatory orbit, when first fixed link pole rotates to zero limit point, because energy conservation, first fixed link pole has a reverse effort and promotes first fixed link pole and reset to realize the buffering of power, reach absorbing effect.

As a further optimization of the technical scheme, the connecting mechanism consists of three damping blocks, a rectangular cavity, a sponge layer and a first driving connecting rod, the damping blocks are uniformly distributed in the rectangular cavity, the rectangular cavity and the damping blocks are filled through the sponge layer, the first driving connecting rod is provided with two driving connecting rods and is perpendicularly welded with the rectangular cavity, the other end of the first driving connecting rod is mechanically connected with the dewatering device, the rectangular cavity is tightly attached to the mechanical balancing device, under the action of the dewatering device, the vibration generated during the working of the dewatering device is transmitted into the rectangular cavity through the first driving connecting rod, the damping blocks firstly perform vibration absorption, and the subsequent vibration is transmitted into the mechanical balancing device.

As a further optimization of the technical scheme, the bottom buffer device is composed of a second driving connecting rod, a first connecting rod, a floating plate fixing rod, a floating plate, a brine cavity, a second fixing rod and a first annular seat, the second driving connecting rod is mechanically connected with the dehydration device, two second driving connecting rods are arranged and are symmetrically arranged to be vertically welded with the floating plate, the floating plate is installed in the brine cavity, the floating plate fixing rods are arranged at two ends of the floating plate, one end, far away from the floating plate, of each floating plate fixing rod is mechanically connected with the second fixing rod through the first connecting rod, the second fixing rod is fixed on the first annular seat, two first annular seats are arranged and are symmetrically arranged on the inner wall of the brine cavity, the buoyancy of the brine cavity is far greater than the gravity of the floating plate, so that the floating plate floats in the brine cavity, and when the floating plate moves downwards under the action of the shock sense through the second driving connecting rod, the buoyancy of the saline cavity exerts a reverse acting force on the floating plate, thereby achieving the effect of slowing down the vibration.

As a further optimization of the technical scheme, the mechanical balancing device comprises a conical fixed rod, a second fixed shaft, two movable plates, a third fixed shaft, movable rods and a second annular fixed seat, the conical fixed rod is fixedly arranged at the center of the rectangular working cavity, the movable plates and the conical fixed rod form a lever structure, the second fixed shaft penetrates through the center of the movable plates and fixes the movable plates on the conical fixed rod, the movable plates are tightly attached to the rectangular cavity, the third fixed shafts are arranged at two ends of the movable plates, the movable plates are mechanically connected with the movable rods through the third fixed shaft, one ends of the movable rods are fixed on the second annular fixed seat, the movable plates are mechanically connected with a second buffer mechanism, and under the action of the rectangular cavity, the movable plates move along with the rectangular cavity in the same direction, so that the two movable rods move oppositely, the vibration is transmitted to the second buffer mechanism through the movable plate.

As the further optimization of this technical scheme, first fixing device constitute by kelly, draw-in groove fixing base, third annular fixing base, kelly and draw-in groove looks block, draw-in groove fixed mounting on the draw-in groove fixing base, third annular fixing base and the perpendicular welding of rectangle working chamber outer wall, the kelly keep away from the one end of draw-in groove and fix on third annular fixing base, kelly and draw-in groove looks block can realize fixing the rectangle working chamber, avoids buffer gear during operation to produce the displacement, and guarantee equipment can normal operating.

As a further optimization of the technical scheme, the second buffer mechanism consists of a hemisphere, a fourth fixed rod, a fourth fixed shaft, a connecting block and a driving rod, the two hemispheroids are symmetrically arranged in an up-and-down structure, the connecting blocks are arranged on the hemispheroids, the fourth fixing rod penetrates through the connecting block and is fixed in the hemispheroid, the fourth fixing rod and the driving rod are mutually vertical, one end of the fourth fixed rod connected with the driving rod is penetrated and fixed by a fourth fixed shaft, one end of the driving rod far away from the fourth fixed rod is vertically welded with the movable plate, under the action of the movable plate, the two driving rods move oppositely according to the lever principle, the driving rods drive the hemispheroid to rotate through the fourth fixed rod, due to the characteristic of the hemisphere, the rotating hemisphere can automatically reset, and therefore the vibration sense is buffered.

As a further optimization of this technical scheme, second fixing device constitute by fixing base, a nail, second fixed link, third fixed link, trapezoidal fixing base, the fixing base on be equipped with two nails, two nails be symmetrical structure and establish, a nail run through third fixed link's one end and fix it on the fixing base, third fixed link's the other end fix on trapezoidal fixing base, two third fixed link between be equipped with second fixed link, second fixed link and third fixed link mechanical weld, second fixed link and third fixed link are the A font and establish to fix on fixing base, trapezoidal fixing base, can realize fixing the rectangle working chamber, guarantee equipment can normal operating.

Advantageous effects

The invention relates to an industrial dehydrator with a sewage disposal device, when the dehydrating device runs, a vibration sense is generated and transmitted through a second driving connecting rod, as the buoyancy of a saline cavity is far larger than the gravity of a floating plate, the floating plate floats in the saline cavity, when the floating plate moves downwards under the action of the vibration sense through the second driving connecting rod, the buoyancy of the saline cavity exerts a reverse acting force on the floating plate, thereby achieving the effect of relieving the vibration sense, under the action of the dehydrating device, the vibration sense generated when the dehydrating device works is transmitted into a rectangular cavity through the first driving connecting rod, a damping block firstly damps, the subsequent vibration sense is transmitted into a mechanical balancing device, under the action of the rectangular cavity, a movable plate moves along with the rectangular cavity in the same direction, thereby enabling two movable rods to move oppositely, the vibration sense is transmitted to a second buffer mechanism through the movable plate, under the action of the movable plate, according to the lever principle, the two driving rods move oppositely, the driving rods drive the hemispheroid to rotate through the fourth fixed rod, the rotating hemispheroid can automatically reset due to the characteristic of the hemispheroid, so that the buffering of the vibration sense is realized, under the action of the mechanical balancing device, the rectangular plate is stressed, the first fixed connecting rod is stressed on the annular frame and rotates along with the rectangular plate according to the lever principle, the establishment of the limiting rod can ensure the stability of the first fixed connecting rod in the rotating track of the annular frame, when the first fixed connecting rod rotates to a zero limit point, due to energy conservation, the first fixed connecting rod has a reverse acting force to push the first fixed connecting rod to reset, so that the buffering of force is realized, the damping effect is realized, the second fixed connecting rod and the third fixed connecting rod are established in an A shape and are fixed on the fixed seat and the trapezoidal fixed seat, the fixing of the rectangular working cavity can be realized, and the fixing of the rectangular working cavity can be realized by the clamping rod and the, the buffer mechanism is prevented from generating displacement during working, and normal operation of the equipment is guaranteed.

Based on the prior art, under the combined action of the first buffer mechanism, the connecting mechanism, the bottom buffer device, the mechanical balance device, the first fixing device, the second buffer mechanism and the second fixing device, the vibration sense generated when the dewatering device works can be relieved, and therefore the dewatering device can be guaranteed to stably work when the dewatering device rotates at a high speed and is used for centrifugal dewatering.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic view showing the construction of an industrial dehydrator equipped with a sewage treatment apparatus according to the present invention.

FIG. 2 is a schematic view showing a first operation state of a vibration damper of an industrial dehydrator according to the present invention.

Fig. 3 is a structural view showing a second operation state of the vibration damper of the industrial dehydrator with a sewage treatment apparatus according to the present invention.

FIG. 4 is a schematic view showing the structure of a bottom buffer of an industrial dehydrator with a sewage treatment apparatus according to the present invention.

In the figure: a motor-1, a dewatering device-2, a vibration damping device-3, a shell-4, a base-5, an annular base-6, a water outlet pipe-7, a first buffer mechanism-301, a connecting mechanism-302, a bottom buffer device-303, a mechanical balancing device-304, a first fixing device-305, a second buffer mechanism-306, a second fixing device-307, a rectangular working cavity-308, a first fixing rod-3011, a triangular fixing block-3012, a rubber layer-3013, a rectangular plate-3014, an annular frame-3015, a limiting rod-3016, a first fixing connecting rod-3017, a first fixing shaft-3018, an annular frame fixing seat-3019, a damping block-3021, a rectangular cavity-3022, a sponge layer-3023, a first driving connecting rod-3024, a first driving connecting rod-3027, a first fixing shaft-3018, a circular frame fixing, The device comprises a second driving connecting rod-3031, a first connecting rod-3032, a floating plate fixing rod-3033, a floating plate-3034, a saline cavity-3035, a second fixing rod-3036, a first annular seat-3037, a conical fixing rod-3041, a second fixing shaft-3042, a movable plate-3043, a third fixing shaft-3044, a movable rod-3045, a second annular fixing seat-3046, a clamping rod-3051, a clamping groove-3052, a clamping groove fixing seat-3053, a third annular fixing seat-3054, a hemispheroid-3061, a fourth fixing rod-3062, a fourth fixing shaft-3063, a connecting block-3064, a driving rod-3065, a fixing seat-3071, a first nail-3072, a second fixing connecting rod-3073, a third fixing connecting rod-3074 and a trapezoidal fixing seat-3075.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.

Examples

Referring to fig. 1-4, the present invention provides an industrial dehydrator with a sewage disposal device, which comprises a motor 1, a dehydration device 2, a vibration damping device 3, a housing 4, a base 5, an annular seat 6, and a water outlet pipe 7, wherein the motor 1 is mechanically connected with the dehydration device 2, the dehydration device 2 is fixedly installed on the annular seat 6, the annular seat 6 is fixedly connected with the base 5, the vibration damping device 3 is installed in an inner cavity of the housing 4, and the housing 4 is fixedly connected with the base 5;

the vibration damping device 3 consists of a first buffer mechanism 301, a connecting mechanism 302, a bottom buffer device 303, a mechanical balance device 304, a first fixing device 305, a second buffer mechanism 306, a second fixing device 307 and a rectangular working cavity 308;

the connecting mechanism 302 mechanically connects the dehydration device 2 with the mechanical balancing device 304, the bottom buffering device 303 is arranged at the bottom of the dehydration device 2 and is mechanically connected with the dehydration device 2, the second buffering mechanism 306 is mechanically matched with the mechanical balancing device 304, the mechanical balancing device 304 is mechanically connected with the first buffering mechanism 301, and the first fixing device 305 and the second fixing device 307 are both fixedly connected with the rectangular working cavity 308.

The first buffer mechanism 301 comprises a first fixing rod 3011, a triangular fixing block 3012, a rubber layer 3013, a rectangular plate 3014, an annular frame 3015, a limiting rod 3016, a first fixing connecting rod 3017, a first fixing shaft 3018 and an annular frame fixing seat 3019, wherein the first fixing rod 3011 is provided with two fixing rods 3015 which are parallel to each other and are arranged on the annular frame 3015, one end of the first fixing rod 3011 far away from the annular frame 3015 is vertically welded with the rectangular plate 3014, one side of the rectangular plate 3014 close to the mechanical balancing device 304 is provided with the rubber layer 3013, the rubber layer 3013 is attached to the mechanical balancing device 304, the triangular fixing block 3012 is arranged between the two fixing rods 3011 and is fixedly connected with the annular frame 3015, the rectangular plate 3014 and the triangular fixing block 3012 form a lever structure, the first fixing connecting rods 3017 are provided with three fixing rods and are equally distributed on the annular frame 3015, and one end of the three first fixing connecting rods 3017 is penetrated through by the first fixing shaft 3018 and fixed on the annular frame 3015 The shape frame 3015 is central, gag lever post 3016 be equipped with two and all be symmetrical structure welding on gag lever post 3016 inboard, annular frame 3015 fixed mounting on annular frame fixing base 3019, under the effect of mechanical balancing unit 304, rectangular plate 3014 atress and according to lever principle, first fixed link 3017 atress follows rectangular plate 3014 rotation on annular frame 3015, setting up of gag lever post 3016 can ensure the stability of first fixed link 3017 at annular frame 3015 rotation orbit, when first fixed link 3017 rotated to zero limit point, because energy conservation, first fixed link 3017 has a reverse effort and promotes first fixed link 3017 and reset to realize the buffering of power, reach the absorbing effect.

The connecting mechanism 302 comprises a damping block 3021, a rectangular cavity 3022, a sponge layer 3023 and a first driving connecting rod 3024, the damping blocks 3021 are three and are uniformly distributed in the rectangular cavity 3022, the rectangular cavity 3022 and the damping block 3021 are filled with the sponge layer 3023, the first driving connecting rod 3024 is provided with two pieces and is perpendicularly welded to the rectangular cavity 3022, the other end of the first driving connecting rod 3024 is mechanically connected to the dehydration device 2, the rectangular cavity 3022 is tightly attached to the mechanical balancing device 304, under the action of the dehydration device 2, a vibration generated when the dehydration device 2 works is transmitted to the rectangular cavity 3022 through the first driving connecting rod 3024, the damping block 3021 firstly damps, and a subsequent vibration is transmitted to the mechanical balancing device 304.

The bottom buffer device 303 is composed of a second driving connecting rod 3031, a first connecting rod 3032, a floating plate fixing rod 3033, a floating plate 3034, a brine cavity 3035, a second fixing rod 3036 and a first annular seat 3037, the second driving connecting rod 3031 is mechanically connected with the dewatering device 2, two second driving connecting rods 3031 are symmetrically arranged and vertically welded with the floating plate 3034, the floating plate 3034 is installed in the brine cavity 3035, the floating plate fixing rods 3033 are arranged at two ends of the floating plate 3034, one end of the floating plate fixing rod 3033 far away from the floating plate 3034 is mechanically connected with the second fixing rod 3036 through the first connecting rod 3032, the second fixing rod 3036 is fixed on the first annular seat 3037, the first annular seat 3037 is provided with two floating plate fixing rods 3033 on the inner wall of the brine cavity 3035 in a symmetrical structure, and as the buoyancy of the brine cavity 3035 is far greater than the gravity of the floating plate 3034 in the brine cavity 3035, when the floating plate 3034 moves downwards under the action of the vibration sense through the second driving connecting rod 3031, the buoyancy of the saline water chamber 3035 exerts an opposite acting force on the floating plate 3034, thereby achieving the effect of damping the vibration sense.

The mechanical balancing device 304 is composed of a conical fixed rod 3041, a second fixed shaft 3042, a movable plate 3043, a third fixed shaft 3044, a movable rod 3045 and a second annular fixed seat 3046, the conical fixed rod 3041 is fixedly installed at the center of the rectangular working cavity 308, the movable plate 3043 and the conical fixed rod 3041 form a lever structure, the second fixed shaft 3042 penetrates through the center of the movable plate 3043 and fixes the movable plate 3043 on the conical fixed rod 3041, the movable plate 3043 is tightly attached to the rectangular cavity 3022, the third fixed shaft 3044 is provided with two fixed shafts and arranged at two ends of the movable plate 3043, the third fixed shaft 3044 mechanically connects the movable plate 3043 and the movable rod 3045, one end of the movable rod 3045 is fixed on the second annular fixed seat 3046, the movable plate 3043 is mechanically connected to the second buffer mechanism 306, under the action of the rectangular cavity 3022, the movable plate 3043 moves along with the rectangular cavity 3022 in the same direction, thereby causing the two movable rods 3045 to move oppositely, and transmitting the vibration sensation to the second damping mechanism 306 through the movable plate 3043.

First fixing device 305 constitute by kelly 3051, draw-in groove 3052, draw-in groove fixing base 3053, third annular fixing base 3054, kelly 3051 and draw-in groove 3052 looks block, draw-in groove 3052 fixed mounting on draw-in groove fixing base 3053, third annular fixing base 3054 and the perpendicular welding of rectangle working chamber 308 outer wall, kelly 3051 keep away from the one end of draw-in groove 3052 and fix on third annular fixing base 3054, kelly 3051 and draw-in groove 3052 looks block can realize fixing rectangle working chamber 308, avoids buffer gear during operation to produce the displacement, and guarantee equipment can normal operating.

The second buffer mechanism 306 comprises a hemisphere 3061, a fourth fixed rod 3062, a fourth fixed shaft 3063, a connecting block 3064 and a driving rod 3065, the hemisphere 3061 is provided with two connecting blocks 3064, the fourth fixed rod 3062 penetrates through the connecting block 3064 and is fixed in the hemisphere 3061, the fourth fixed rod 3062 and the driving rod 3065 are vertically arranged, one end of the fourth fixed rod 3062 connected with the driving rod 3065 is penetrated and fixed by the fourth fixed shaft 3063, one end of the driving rod 3065 far away from the fourth fixed rod 3062 is vertically welded with a movable plate 3063, under the action of the movable plate 3043, the two driving rods 3065 oppositely move according to the lever principle, the driving rod 3065 drives the hemisphere 3061 to rotate through the fourth fixed rod 3062, and the rotating hemisphere 3061 automatically resets due to the characteristic of the hemisphere 3061, thereby realizing the cushioning of the vibration sense.

The second fixing device 307 is composed of a fixing seat 3071, a first nail 3072, a second fixing connecting rod 3073, a third fixing connecting rod 3074 and a trapezoid fixing seat 3075, the fixed seat 3071 is provided with two first nails 3072, the two first nails 3072 are arranged in a symmetrical structure, the first nail 3072 penetrates through one end of the third fixing connecting rod 3074 and fixes it on the fixing seat 3071, the other end of the third fixed connecting rod 3074 is fixed on the trapezoidal fixed seat 3075, a second fixed connecting rod 3073 is arranged between the two third fixed connecting rods 3074, the second fixed connecting rod 3073 is mechanically welded with the third fixed connecting rod 3074, the second fixed connecting rod 3073 and the third fixed connecting rod 3074 are arranged in an A shape, and fix on fixing base 3071, trapezoidal fixing base 3075, can realize fixing rectangle working chamber 308, ensure that equipment can normal operating.

When the dewatering device 2 operates, a vibration sense is generated and transmitted through the second driving connecting rod 3031, since the buoyancy of the brine chamber 3035 is much greater than the gravity of the floating plate 3034, so that the floating plate 3034 floats in the brine chamber 3035, when the floating plate 3034 moves downwards under the action of the vibration sense through the second driving connecting rod 3031, the buoyancy of the brine chamber 3035 exerts an opposite acting force on the floating plate 3034, so as to achieve the effect of damping the vibration sense, under the action of the dewatering device 2, the vibration sense generated when the dewatering device 2 operates is transmitted into the rectangular chamber 3022 through the first driving connecting rod 3024, the shock absorption block 3021 firstly performs shock absorption, the subsequent vibration sense is transmitted into the mechanical balancing device 304, under the action of the rectangular chamber 3022, the movable plate 3043 moves in the same direction with the rectangular chamber 3022, so that the two movable rods 3045 move oppositely, the vibration sense is transmitted to the second buffer mechanism 306 through the movable plate 3043, according to the lever principle, the two driving rods 3065 move oppositely, the driving rods 3065 drive the hemispheroids 3061 to rotate through the fourth fixing rods 3062, due to the characteristics of the hemispheroids 3061, the rotating hemispheroids 3061 can reset automatically, so that the vibration buffering is realized, under the action of the mechanical balancing device 304, the rectangular plate 3014 is stressed, the first fixed connecting rod 3017 is stressed on the annular frame 3015 to rotate along with the rectangular plate 3014 according to the lever principle, the arrangement of the limiting rod 3016 can ensure the stability of the rotating track of the first fixed connecting rod 3017 on the annular frame 3015, when the first fixed connecting rod 3017 rotates to a zero limit point, due to energy conservation, the first fixed connecting rod 3017 has a reverse acting force to push the first fixed connecting rod 3017 to reset, so that the force buffering is realized, the shock absorption effect is realized, the second fixed connecting rod 3073 and the third fixed connecting rod 3074 are arranged in an A shape and are fixed on the fixed seats 71, 71, On trapezoidal fixing base 3075, can realize fixing rectangle working chamber 308, kelly 3051 and draw-in groove 3052 looks block can realize fixing rectangle working chamber 308, avoids buffer gear during operation to produce the displacement, and guarantee equipment can normal operating.

The motor 1 of the present invention is a medium for converting electric energy into mechanical energy and outputting the mechanical energy.

The problem to be solved by the invention is that the industrial dehydrator with the sewage disposal device has poor shock absorption effect, so that the dehydrator can not work stably enough when rotating at high speed and performing centrifugal dehydration, and the vibration sense generated when the dehydrating device 2 works can be relieved under the combined action of the first buffer mechanism 301, the connecting mechanism 302, the bottom buffer device 303, the mechanical balance device 304, the first fixing device 305, the second buffer mechanism 306 and the second fixing device 307 through the mutual combination of the components, so that the stable work of the dehydrator can be ensured when rotating at high speed and performing centrifugal dehydration.

While there have been shown and described what are at present considered the fundamental principles of the invention, the essential features and advantages thereof, it will be understood by those skilled in the art that the present invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but rather, is capable of numerous changes and modifications in various forms without departing from the spirit or essential characteristics thereof, and it is intended that the invention be limited not by the foregoing descriptions, but rather by the appended claims and their equivalents.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (1)

1. Industrial hydroextractor with blowdown processing apparatus, its structure includes motor (1), dewatering device (2), vibration damper (3), shell (4), base (5), annular seat (6), outlet pipe (7), motor (1) and dewatering device (2) mechanical connection, dewatering device (2) fixed mounting on annular seat (6), annular seat (6) and base (5) fixed connection, vibration damper (3) install in shell (4) inner chamber, shell (4) and base (5) fixed connection, its characterized in that:

the vibration damping device (3) consists of a first buffer mechanism (301), a connecting mechanism (302), a bottom buffer device (303), a mechanical balance device (304), a first fixing device (305), a second buffer mechanism (306), a second fixing device (307) and a rectangular working cavity (308);

the connecting mechanism (302) is used for mechanically connecting the dehydration device (2) with the mechanical balancing device (304), the bottom buffering device (303) is arranged at the bottom of the dehydration device (2) and is mechanically connected with the dehydration device (2), the second buffering mechanism (306) is mechanically matched with the mechanical balancing device (304), the mechanical balancing device (304) is mechanically connected with the first buffering mechanism (301), and the first fixing device (305) and the second fixing device (307) are both fixedly connected with the rectangular working cavity (308);

the first buffer mechanism (301) is composed of a first fixing rod (3011), a triangular fixing block (3012), a rubber layer (3013), a rectangular plate (3014), an annular frame (3015), a limiting rod (3016), a first fixing connecting rod (3017), a first fixing shaft (3018) and an annular frame fixing seat (3019), wherein the first fixing rod (3011) is provided with two fixing rods and arranged on the annular frame (3015) in parallel, one end, far away from the annular frame (3015), of the first fixing rod (3011) is perpendicularly welded to the rectangular plate (3014), the rubber layer (3013) is arranged on one side, close to the mechanical balancing device (304), of the rectangular plate (3014), the rubber layer (3013) is attached to the mechanical balancing device (304), the triangular fixing block (3012) is arranged between the two first fixing rods (3011) and fixedly connected with the annular frame (3015), and the plate (3014), The triangular fixing blocks (3012) form a lever structure, the first fixing connecting rods (3017) are provided with three first fixing connecting rods and are uniformly distributed on the annular frame (3015), one ends of the three first fixing connecting rods (3017) connected with each other penetrate through the first fixing shaft (3018) and are fixed in the center of the annular frame (3015), the limiting rods (3016) are provided with two first fixing connecting rods and are welded on the inner side of the limiting rod (3016) in a symmetrical structure, and the annular frame (3015) is fixedly installed on the annular frame fixing seat (3019);

the connecting mechanism (302) consists of three shock-absorbing blocks (3021), a rectangular cavity (3022), a sponge layer (3023) and a first driving connecting rod (3024), wherein the shock-absorbing blocks (3021) are uniformly distributed in the rectangular cavity (3022), the rectangular cavity (3022) and the shock-absorbing blocks (3021) are filled with the sponge layer (3023), the first driving connecting rod (3024) is provided with two shock-absorbing blocks and is vertically welded with the rectangular cavity (3022), the other end of the first driving connecting rod (3024) is mechanically connected with the dehydration device (2), and the rectangular cavity (3022) is tightly attached to the mechanical balancing device (304);

the bottom buffer device (303) consists of a second driving connecting rod (3031), a first connecting rod (3032), a floating plate fixing rod (3033), a floating plate (3034), a brine cavity (3035), a second fixing rod (3036) and a first annular seat (3037), the second driving connecting rod (3031) is mechanically connected with the dehydration device (2), the second driving connecting rod (3031) is provided with two symmetrical structures which are vertically welded with the floating plate (3034), the floating plate (3034) is arranged in the saline cavity (3035), floating plate fixing rods (3033) are arranged at the two ends of the floating plate (3034), one end of the floating plate fixing rod (3033) far away from the floating plate (3034) is mechanically connected with a second fixing rod (3036) through a first connecting rod (3032), the second fixing rod (3036) is fixed on the first annular seat (3037), and two first annular seats (3037) are arranged and are symmetrically arranged on the inner wall of the brine cavity (3035);

the mechanical balancing device (304) comprises a conical fixed rod (3041), a second fixed shaft (3042), a movable plate (3043), a third fixed shaft (3044), a movable rod (3045) and a second annular fixed seat (3046), wherein the conical fixed rod (3041) is fixedly installed at the center in the rectangular working cavity (308), the movable plate (3043) and the conical fixed rod (3041) form a lever structure, the second fixed shaft (3042) penetrates through the center of the movable plate (3043) and fixes the movable plate (3043) on the conical fixed rod (3041), the movable plate (3043) is tightly attached to the rectangular cavity (3022), the third fixed shaft (3044) is provided with two movable plates (3043), the third fixed shaft (3044) mechanically connects the movable plate (3043) and the movable rod (3045), one end of the movable rod (3045) is fixed on the second annular fixed seat (3046), the movable plate (3043) is mechanically connected with the second buffer mechanism (306);

the first fixing device (305) is composed of a clamping rod (3051), a clamping groove (3052), a clamping groove fixing seat (3053) and a third annular fixing seat (3054), the clamping rod (3051) is clamped with the clamping groove (3052), the clamping groove (3052) is fixedly installed on the clamping groove fixing seat (3053), the third annular fixing seat (3054) is vertically welded with the outer wall of the rectangular working cavity (308), and one end, far away from the clamping groove (3052), of the clamping rod (3051) is fixed on the third annular fixing seat (3054);

the second buffer mechanism (306) comprises a hemisphere (3061), a fourth fixed rod (3062), a fourth fixed shaft (3063), a connecting block (3064) and a driving rod (3065), wherein the hemisphere (3061) is provided with two connecting blocks (3064) which are symmetrically arranged in an up-and-down structure, the hemisphere (3061) is provided with the connecting block (3064), the fourth fixed rod (3062) penetrates through the connecting block (3064) and is fixed in the hemisphere (3061), the fourth fixed rod (3062) and the driving rod (3065) are vertically arranged, one end of the fourth fixed rod (3062) connected with the driving rod (3065) is penetrated through and fixed by the fourth fixed shaft (3063), and one end of the driving rod (3065) far away from the fourth fixed rod (3062) is vertically welded with the movable plate (3043);

second fixing device (307) constitute by fixing base (3071), nail (3072), second fixed link (3073), third fixed link (3074), trapezoidal fixing base (3075), fixing base (3071) on be equipped with two nails (3072), two nails (3072) be symmetrical structure and establish, nail (3072) run through the one end of third fixed link (3074) and fix it on fixing base (3071), the other end of third fixed link (3074) fix on trapezoidal fixing base (3075), two third fixed link (3074) between be equipped with second fixed link (3073), second fixed link (3073) and third fixed link (3074) mechanical welding.

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