CN113600478B - Hidden nondestructive transition type self-reset dust suppression ore screening machine - Google Patents

Abstract

The invention discloses a hidden nondestructive transition type self-resetting dust suppression ore screening machine which comprises a hidden nondestructive transition unit for ores, a self-resetting type dust primary suppression passive collection unit, a passive action type vibration conversion dust suppression unit, a primary vibration screening unit, a gravity conversion type passive vibration secondary screening unit, a circulating motion advancing unit, a supporting operation platform, an ore harvesting groove and a collection unit operation groove. The invention belongs to the field of ore screening equipment, and particularly relates to a hidden nondestructive transition type self-resetting ore screening machine for dust suppression; the invention still realizes the automatic falling of part of the collected splashed ores without any sensor, and also realizes the 'grabbing' of the splashed ores without any mechanical transmission mechanism, thereby solving the contradictory technical problems that the ore is required to be screened and the ore is ensured not to be flicked and fly in the screening process, which are difficult to solve in the prior art.

Description

Hidden nondestructive transition type self-reset dust suppression ore screening machine

Technical Field

The invention belongs to the technical field of ore screening equipment, and particularly relates to a hidden nondestructive transition type self-resetting ore screening machine for dust suppression.

Background

Ore refers to a collection of minerals from which useful components can be extracted or which themselves have some property that can be exploited. Can be divided into metal mineral and nonmetal mineral. The unit content of useful components in the ore is called ore grade, the precious metal ore such as gold, platinum and the like is expressed by gram or ton, and other ores are expressed by percentage. The value of the ore is measured by the ore grade, but the ore value is influenced by the composition of gangue and the amount of harmful impurities in the effective component ore.

The existing ore is screened in a vibration screening mode, but part of the ore can be flicked off at four positions while vibrating, so that part of the collected ore is wasted, if a protection plate is directly arranged at the top of the screening equipment, on one hand, the ore and the protection plate are frequently impacted (the protection plate is easy to damage), and the ore after being impacted with the protection plate can still be flicked off, on the other hand, the frequent impact of the ore and the protection plate increases unnecessary shaking of the screening equipment, and the service life of the screening equipment is influenced; when the ore is subjected to vibration screening, soil attached to the ore can fall off, and the soil is generally directly stacked in an ore collection place to influence the ore collection work, so that the soil needs to be recovered; the existing ore screening equipment can cause dust to be diffused in the ambient air in the screening process, so that dust falling treatment is needed; in addition, the existing ore screening equipment cannot move, and the ore screening at different positions of a mining point is inconvenient, so that the hidden type nondestructive transition type ore screening machine capable of self-resetting dust suppression is required to be provided.

Disclosure of Invention

Aiming at the situation and overcoming the defects of the prior art, the invention provides a hidden lossless transition type self-resetting dust suppression ore screening machine, which still realizes the automatic falling of part of the collected splashed ores under the condition of not using any sensor and still realizes the 'grabbing' of the splashed ores under the condition of not using any mechanical transmission mechanism, applies the technical principle of the intermediary principle (using an intermediate object to transmit or execute an action) to the technical field of ore screening equipment, uses wrapping type transition colloid, waffle paper and rice paper as the intermediate object to execute the temporary grabbing work of the splashed ores, ensures that the splashed ores cannot generate secondary bounce, and applies the capillary phenomenon generated by the rice paper to the design of the hidden lossless transition mechanism, the method solves the contradiction technical problems that the prior art is difficult to solve, namely the ore is screened and the ore is ensured not to bounce around in the screening process; the self-resetting dust preliminarily inhibits the setting of the passive collecting mechanism, the automatic resetting of a self-resetting circulating action medium is still realized under the condition of not using an additional power source, the metal property of a nickel-titanium alloy material which can immediately recover the shape after being heated is skillfully utilized as the power for the automatic resetting of the soil collecting bag, the nickel-titanium alloy material can be repeatedly and circularly used, and the non-Newtonian fluid filled in the soil collecting bag is used as an intermediate object, so that the impact force when the soil falls into the soil collecting bag is perfectly relieved, the soil collecting bag is prevented from being damaged and influencing the service life, and the technical problem that the soil is difficult to recover in the prior art during ore screening is solved; by arranging the dust-settling piece and the dust-settling small hole, under the condition of no extra power source and dust-settling equipment, dust-settling treatment during ore screening is still realized, reciprocating vibration of the primary vibration screening mechanism is skillfully applied to the dust-settling piece, so that the dust-settling small hole is continuously contacted with air and generates a large amount of foam after the dust-settling piece is coated with bubble liquid, and the technical problem that dust-settling treatment is carried out on the periphery during ore screening which is difficult to solve in the prior art is solved; through the arrangement of the circulating motion advancing mechanism, the movement of the ore screening equipment is realized.

The technical scheme adopted by the invention is as follows: the invention relates to a concealed non-destructive transition type self-resetting dust suppression ore screening machine, which consists of a concealed ore non-destructive transition mechanism, a self-resetting type dust preliminary suppression passive collection mechanism, a passive action type vibration conversion dust suppression mechanism, a primary vibration screening mechanism, a gravity conversion type passive vibration secondary screening mechanism, a circulating motion advancing mechanism, a supporting operation platform, an ore harvesting groove and a collection mechanism operation groove, wherein the ore harvesting groove is arranged on the supporting operation platform and is convenient for subsequently collecting screened ores, the collection mechanism operation groove is arranged on the supporting operation platform, the self-resetting type dust preliminary suppression passive collection mechanism is arranged on the collection mechanism operation groove and is convenient for subsequently screening silt and ores again, the circulating motion advancing mechanism is arranged on the supporting operation platform, the primary vibration screening mechanism is arranged on the supporting operation platform, the concealed ore non-destructive transition mechanism is arranged on the primary vibration screening mechanism, the passive action type vibration conversion dust settling mechanism is arranged on the primary vibration screening mechanism, and the gravity conversion type passive vibration secondary screening mechanism is arranged on the supporting operation platform.

Further, the self-reset type passive dust primary inhibition collecting mechanism comprises a non-Newtonian fluid, a self-reset circulation acting medium, an earth collecting bag, a transmission gear ring, a transmission gear, a gear ring rotation guide body, a guide body sliding groove, an arc-shaped transmission groove, a collecting transmission slide block, a sliding telescopic rod, a bottom through hole and a manual transmission mechanism, wherein the guide body sliding groove is arranged on the inner wall of the collecting mechanism operation groove, the gear ring rotation guide body is embedded and rotatably arranged on the guide body sliding groove, so that the rotation of the gear ring rotation guide body is stably carried out, the gear ring rotation guide body is cylindrical, the transmission gear ring is fixedly connected to the gear ring rotation guide body, the sliding telescopic rod is embedded and slidably arranged on the inner wall of the collecting mechanism operation groove, the sliding telescopic rod array is arranged on the collecting mechanism operation groove, the bottom through hole is arranged at the bottom of the collecting mechanism operation groove in a penetrating manner, the self-reset circulation acting medium is connected to the sliding telescopic rod, the self-resetting circulation action medium is in a circular ring shape, the soil collection bag is arranged on the self-resetting circulation action medium, non-Newtonian fluid is filled in the wall of the soil collection bag, the shaft of the transmission gear rotates and is arranged on the collection mechanism operation groove, the arc-shaped transmission groove array is arranged on the transmission gear ring, one end of the collection transmission sliding block is arranged on the sliding telescopic rod, the other end of the collection transmission sliding block is embedded and slides and is arranged on the arc-shaped transmission groove, the soil collection bag penetrates through the through hole in the bottom, the manual transmission mechanism is arranged on the transmission gear, the transmission gear ring is meshed with the transmission gear, and the self-resetting circulation action medium can be controlled to seal the soil collection bag through manually operating the manual transmission mechanism.

Preferably, the hidden type ore nondestructive transition mechanism comprises a wrapping type transition colloid, wafer paper, rice paper, a paper embedding groove, a paper suction water tank, a water tank connecting support, a horizontal connecting arm, a rolling sliding table, a rolling control ball, a ball protection baffle plate and a ball embedding groove, wherein the wrapping type transition colloid is attached to the primary vibration screening mechanism, the rice paper is attached to the bottom of the wrapping type transition colloid, the wafer paper is arranged at the bottom of the rice paper, so that the wafer paper can be rapidly melted by utilizing the capillary diffusion phenomenon of the rice paper, two sides of the water tank connecting support are fixedly connected to the supporting operation platform, the paper suction water tank is fixedly connected to the water tank connecting support, the paper embedding groove is arranged on the water tank connecting support, one end of the rice paper is embedded in the paper embedding groove, the horizontal connecting arm is arranged on the primary vibration screening mechanism, the rolling sliding table is fixedly connected between the horizontal connecting arms, the ball body protection baffle is fixedly connected to one end of the roll sliding table, the ball body embedding groove is formed in the roll sliding table, and the roll control ball is embedded in the ball body embedding groove.

The passive-action type vibration conversion dust-settling mechanism comprises a dust-settling piece, a dust-settling small hole and a vibration conversion connecting disc, the vibration conversion connecting disc is fixedly connected to the first-level vibration screening mechanism, the dust-settling piece array is arranged on the vibration conversion connecting disc, and the dust-settling small hole array is arranged on the dust-settling piece.

Preferably, the passive vibration second grade screening mechanism of gravity conversion formula includes vibrating spring, spring support plate, the second grade screening board, second grade sieve mesh and sieve leading truck, the sieve leading truck divide two sets of support operation platform of locating on, the second grade screening board gomphosis slides and locates between the sieve leading truck, the spring support plate rigid coupling is on supporting operation platform, on spring support plate was located to vibrating spring's one end, on the second grade screening board was located to vibrating spring's the other end, the second grade sieve mesh was located on the second grade screening board.

Further, the primary vibration screening mechanism consists of a primary vibration driving motor, a screening driving rocker, a screening connecting cross rod and a motor supporting frame, one-level screening frame, one-level screening connecting rod, one-level sieve mesh and top are enclosed and are kept off the frame and constitute, motor support frame rigid coupling is on supporting operation platform, motor support frame is located to one-level vibration driving motor's fuselage, screening drive rocker is located on one-level vibration driving motor's the output, one-level screening connecting rod articulates on supporting operation platform's outer wall, one-level screening frame is located on one-level screening connecting rod, one-level screening connecting rod articulates on one-level screening frame, the one end of horizontal pole is connected in the screening, the other end of horizontal pole is connected in the bottom of one-level screening frame in the screening, the one-level sieve mesh is located on one-level screening frame, the top is enclosed and is kept off the top of frame rigid coupling in one-level screening frame, one-level screening connecting rod is equipped with two sets ofly.

In order to realize the forward motion of whole device, the circulating motion mechanism of advancing includes the main pendulum rod of advancing, the supplementary pendulum rod one of advancing, the supplementary pendulum rod two of advancing, the support frame of advancing, the motion driving motor and the motor standing groove of advancing, the motor standing groove is located on the outer wall that supports operation platform, the motion driving motor's that advances fuselage is located on the motor standing groove, the one end of the main pendulum rod that advances is located on the motion driving motor's that advances output, the support frame that advances is located on the main pendulum rod of advancing, the main pendulum rod that advances articulates on the support frame of advancing, the one end of the supplementary pendulum rod one of advancing articulates on the outer wall that supports operation platform, the other end of the supplementary pendulum rod one of advancing articulates on the support frame of advancing, the one end of the supplementary pendulum rod two of advancing articulates on the outer wall that supports operation platform, the other end of the supplementary pendulum rod two of advancing articulates on the support frame of advancing.

The manual transmission mechanism comprises a first bevel gear, a second bevel gear rotating shaft and a manual crank, the first bevel gear is arranged on a shaft of the transmission gear, the second bevel gear rotating shaft penetrates through and rotates on a side wall of the supporting operation platform, the second bevel gear is arranged on the second bevel gear rotating shaft, the manual crank is arranged on the second bevel gear rotating shaft, and the first bevel gear and the second bevel gear are in meshed connection.

In order to match with the feeding and screening of ores, a feeding port is arranged on the supporting operation platform.

In order to skillfully utilize the vibration of the primary vibration screening mechanism, the horizontal connecting arm is fixedly connected to the top surrounding baffle frame.

In order to realize the passive dust settling of the passive action type vibration conversion dust settling mechanism, a vibration conversion connecting disc is fixedly connected to the top surrounding baffle frame.

Wherein, the coating type transition colloid is attached to the inner wall of the top surrounding barrier frame.

In order to realize the automatic reset of the self-reset circulation action medium, the self-reset circulation action medium is made of nickel-titanium alloy.

In order to better realize the wrapping of the splashed ore, the wrapping type transition colloid is made of an all-purpose cleaning adhesive material.

The invention with the structure has the following beneficial effects: the scheme is that the hidden lossless transition type self-resetting dust suppression ore screening machine still realizes automatic falling of part of splashed ores after collection under the condition of not using any sensor through the arrangement of a hidden type ore lossless transition mechanism, and still realizes 'grabbing' of the splashed ores under the condition of not using any mechanical transmission mechanism, applies the technical principle of an intermediary substance principle (using an intermediate object to transmit or execute an action) to the technical field of ore screening equipment, uses wrapping type transition colloid, waffle paper and rice paper as the intermediate object to execute temporary grabbing work of the splashed ores, ensures that the splashed ores cannot generate secondary bounce, applies the capillary phenomenon generated by the rice paper to the design of the hidden type ore lossless transition mechanism, and solves the problem that the prior art is difficult to solve that the ores are screened, but also ensures that the ores cannot be bounced off everywhere in the screening process; the self-resetting dust preliminarily inhibits the setting of the passive collecting mechanism, the automatic resetting of a self-resetting circulating action medium is still realized under the condition of not using an additional power source, the metal property of a nickel-titanium alloy material which can immediately recover the shape after being heated is skillfully utilized as the power for the automatic resetting of the soil collecting bag, the nickel-titanium alloy material can be repeatedly and circularly used, and the non-Newtonian fluid filled in the soil collecting bag is used as an intermediate object, so that the impact force when the soil falls into the soil collecting bag is perfectly relieved, the soil collecting bag is prevented from being damaged and influencing the service life, and the technical problem that the soil is difficult to recover in the prior art during ore screening is solved; by arranging the dust-settling piece and the dust-settling small hole, under the condition of no extra power source and dust-settling equipment, dust-settling treatment during ore screening is still realized, reciprocating vibration of the primary vibration screening mechanism is skillfully applied to the dust-settling piece, so that the dust-settling small hole is continuously contacted with air and generates a large amount of foam after the dust-settling piece is coated with bubble liquid, and the technical problem that dust-settling treatment is carried out on the periphery during ore screening which is difficult to solve in the prior art is solved; through the arrangement of the circulating motion advancing mechanism, the movement of the ore screening equipment is realized.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a cross-sectional view of the present invention;

FIG. 3 is a top view of the self-resetting dust initial restraining passive collection mechanism and collection mechanism chute of the present invention with the manual actuator removed;

FIG. 4 is a top cross-sectional view of the self-resetting dust initial restraining passive collection mechanism and collection mechanism chute of the present invention with the manual actuator removed;

FIG. 5 is a cross-sectional view of the non-Newtonian fluid, the self-resetting circulation medium and the mud collection bag of the present invention;

fig. 6 is a partially enlarged view of a portion a of fig. 1;

fig. 7 is a partial enlarged view of a portion B of fig. 2;

fig. 8 is a partially enlarged view of a portion C of fig. 2;

fig. 9 is a partial enlarged view of a portion D of fig. 2;

fig. 10 is a partially enlarged view of a portion E of fig. 2.

Wherein, 1, a hidden ore lossless transition mechanism, 2, a self-reset type dust preliminary inhibition passive collection mechanism, 3, a passive action type vibration conversion dust fall mechanism, 4, a primary vibration screening mechanism, 5, a gravity conversion type passive vibration secondary screening mechanism, 6, a circulating motion advancing mechanism, 7, a supporting operation platform, 8, an ore harvesting groove, 9, a collection mechanism operation groove, 10, a wrapping type transition colloid, 11, wafer paper, 12, rice paper, 13, a paper embedding groove, 14, a paper absorbing water tank, 15, a water tank connecting bracket, 16, a horizontal connecting arm, 17, a rolling sliding table, 18, a rolling control ball, 19, a ball protective baffle, 20, a ball embedding groove, 21, non-Newtonian fluid, 22, a self-reset circulating action medium, 23, an earth collection bag, 24, a transmission gear ring, 25, a transmission gear, 26 and a gear ring rotation guide body, 27. a guide body sliding groove 28, an arc-shaped transmission groove 29, a collecting transmission slide block 30, a sliding telescopic rod 31, a bottom through hole 32, a manual transmission mechanism 33, a dust falling part 34, a dust falling small hole 35, a vibration conversion connecting disc 36, a vibration spring 37, a spring supporting plate 38, a second-stage screening plate 39, a second-stage screen hole 40, a screen plate guide frame 41, a first-stage vibration driving motor 42, a screening driving rocker 43, a screening connecting cross rod 44, a motor supporting frame 45, a first-stage screening frame 46, a first-stage screening connecting rod 47, a first-stage screen hole 48, a top baffle frame 49, a forward main swing rod 50, a forward auxiliary swing rod I, 51, a forward auxiliary swing rod II, 52, a forward supporting frame 53, a motion forward driving motor 54, a motor placing groove 55, a bevel gear I, 56, a bevel gear II, 57 and a bevel gear second-stage rotating shaft, 58. a manual crank, 59 and a feeding port.

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

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.

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

As shown in figures 1-2, the invention relates to a concealed non-destructive transition type self-resetting dust suppression ore screening machine, which comprises a concealed ore non-destructive transition mechanism 1, a self-resetting type dust preliminary suppression passive collection mechanism 2, a passive action type vibration conversion dust suppression mechanism 3, a primary vibration screening mechanism 4, a gravity conversion type passive vibration secondary screening mechanism 5, a circulating motion advancing mechanism 6, a supporting operation platform 7, an ore harvesting tank 8 and a collection mechanism operation tank 9, wherein the ore harvesting tank 8 is arranged on the supporting operation platform 7 to facilitate the subsequent collection of screened ores, the collection mechanism operation tank 9 is arranged on the supporting operation platform 7, the self-resetting type dust preliminary suppression passive collection mechanism 2 is arranged on the collection mechanism operation tank 9 to facilitate the subsequent re-screening of silt and ores, the circulating motion advancing mechanism 6 is arranged on the supporting operation platform 7, on support operation platform 7 was located to one-level vibration screening mechanism 4, hidden type ore nondestructive transition mechanism 1 located one-level vibration screening mechanism 4, passive effect formula vibration conversion dust fall mechanism 3 located one-level vibration screening mechanism 4 on, gravity conversion formula passive vibration second grade screening mechanism 5 located support operation platform 7 on.

As shown in fig. 3, 4 and 5, the self-resetting passive dust suppression collecting mechanism 2 includes a non-newtonian fluid 21, a self-resetting circulation medium 22, a soil collecting bag 23, a transmission toothed ring 24, a transmission gear 25, a toothed ring rotation guide 26, a guide sliding groove 27, an arc-shaped transmission groove 28, a collecting transmission slider 29, a sliding telescopic rod 30, a bottom through hole 31 and a manual transmission mechanism 32, the guide sliding groove 27 is disposed on an inner wall of the collecting mechanism operation groove 9, the toothed ring rotation guide 26 is rotatably fitted on the guide sliding groove 27, so that the rotation of the toothed ring rotation guide 26 is smoothly performed, the toothed ring rotation guide 26 is cylindrical, the transmission toothed ring 24 is fixedly connected to the toothed ring rotation guide 26, the sliding telescopic rod 30 is slidably fitted on the inner wall of the collecting mechanism operation groove 9, the array of the sliding telescopic rods 30 is disposed on the collecting mechanism operation groove 9, the bottom through hole 31 is arranged at the bottom of the collection mechanism operation groove 9 in a penetrating way, the self-resetting circulation action medium 22 is connected to the sliding telescopic rod 30, the self-resetting circulation action medium 22 is in a circular ring shape, the soil collection bag 23 is arranged on the self-resetting circulation action medium 22, the non-Newtonian fluid 21 is filled in the wall of the soil collection bag 23, the shaft of the transmission gear 25 is arranged on the collection mechanism operation groove 9 in a rotating way, the arc-shaped transmission grooves 28 are arranged on the transmission toothed ring 24 in an array way, one end of the collection transmission slide block 29 is arranged on the sliding telescopic rod 30, the other end of the collection transmission slide block 29 is arranged on the arc-shaped transmission grooves 28 in an embedding and sliding way, the soil collection bag 23 is arranged on the bottom through hole 31 in a penetrating way, the manual transmission mechanism 32 is arranged on the transmission gear 25, and the transmission toothed ring 24 and the transmission gear 25 are connected in a meshing way, the self-resetting circulation action medium 22 can be controlled to seal the soil collection bag 23 by manually operating the manual transmission mechanism 32.

As shown in fig. 1, 2, 7 and 8, the hidden type ore nondestructive transition mechanism 1 comprises a wrapping type transition colloid 10, wafer paper 11, rice paper 12, a paper embedding groove 13, a paper suction water tank 14, a water tank connecting support 15, a horizontal connecting arm 16, a rolling sliding table 17, a rolling control ball 18, a ball protection baffle plate 19 and a ball embedding groove 20, wherein the wrapping type transition colloid 10 is attached to the primary vibration screening mechanism 4, the rice paper 12 is attached to the bottom of the wrapping type transition colloid 10, the wafer paper 11 is arranged at the bottom of the rice paper 12, so that the wafer paper 11 is rapidly melted by utilizing the capillary diffusion phenomenon of the rice paper 12, two sides of the water tank connecting support 15 are fixedly connected to the supporting operation platform 7, the paper suction water tank 14 is fixedly connected to the water tank connecting support 15, the paper embedding groove 13 is arranged on the water tank connecting support 15, one end of the rice paper 12 is embedded in the paper groove 13, the horizontal connecting arm 16 is arranged on the one-level vibration screening mechanism 4, the roll sliding tables 17 are fixedly connected between the horizontal connecting arms 16, the sphere protection baffle plate 19 is fixedly connected to one end of the roll sliding tables 17, the sphere embedding grooves 20 are arranged on the roll sliding tables 17, and the roll control balls 18 are embedded in the sphere embedding grooves 20.

As shown in fig. 6, the passive acting type vibration conversion and dust fall mechanism 3 includes a dust fall part 33, a dust fall small hole 34 and a vibration conversion connecting disc 35, the vibration conversion connecting disc 35 is fixedly connected to the primary vibration screening mechanism 4, the dust fall part 33 is arranged on the vibration conversion connecting disc 35 in an array, and the dust fall small hole 34 is arranged on the dust fall part 33 in an array.

As shown in fig. 2 and 9, the gravity conversion type passive vibration secondary screening mechanism 5 includes a vibration spring 36, a spring support plate 37, a secondary screening plate 38, a secondary screening hole 39 and a screening plate guide frame 40, wherein the screening plate guide frame 40 is divided into two groups and arranged on the support operation platform 7, the secondary screening plate 38 is embedded and slidably arranged between the screening plate guide frames 40, the spring support plate 37 is fixedly connected on the support operation platform 7, one end of the vibration spring 36 is arranged on the spring support plate 37, the other end of the vibration spring 36 is arranged on the secondary screening plate 38, and the secondary screening hole 39 is arranged on the secondary screening plate 38.

As shown in fig. 1-2, the primary vibration screening mechanism 4 comprises a primary vibration driving motor 41, a screening driving rocker 42, a screening connecting cross bar 43, a motor support frame 44, a primary screening frame 45, a primary screening connecting rod 46, a primary screening hole 47 and a top surrounding frame 48, wherein the motor support frame 44 is fixedly connected to the supporting operation platform 7, a body of the primary vibration driving motor 41 is arranged on the motor support frame 44, the screening driving rocker 42 is arranged on an output end of the primary vibration driving motor 41, the primary screening connecting rod 46 is hinged on an outer wall of the supporting operation platform 7, the primary screening frame 45 is arranged on the primary screening connecting rod 46, the primary screening connecting rod 46 is hinged on the primary screening frame 45, one end of the screening connecting cross bar 43 is hinged on the screening driving rocker 42, the other end of the screening connecting cross bar 43 is hinged on the bottom of the primary screening frame 45, the primary screening hole 47 is arranged on the primary screening frame 45, the top baffle frame 48 is fixedly connected to the top of the first-level screening frame 45, and two sets of first-level screening connecting rods 46 are arranged.

As shown in fig. 1, the circulating movement forward mechanism 6 includes a forward main swing link 49, a forward auxiliary swing link one 50, a forward auxiliary swing link two 51, the support frame 52 moves ahead, move driving motor 53 and motor standing groove 54 that moves ahead, motor standing groove 54 is located on the outer wall that supports operation platform 7, the fuselage that moves ahead driving motor 53 locates on motor standing groove 54, the one end of the main pendulum rod 49 that moves ahead is located on the output of the driving motor 53 that moves ahead, the support frame 52 that moves ahead is located on the main pendulum rod 49 that moves ahead, the main pendulum rod 49 that moves ahead articulates on the support frame 52 that moves ahead, the one end of the supplementary pendulum rod 50 that moves ahead articulates on the outer wall that supports operation platform 7, the other end of the supplementary pendulum rod 50 that moves ahead articulates on the support frame 52 that moves ahead, the one end of the supplementary pendulum rod two 51 that moves ahead articulates on the outer wall that supports operation platform 7, the other end of the supplementary pendulum rod two 51 that moves ahead articulates on the support frame 52 that moves ahead.

As shown in fig. 10, the manual transmission mechanism 32 includes a first bevel gear 55, a second bevel gear 56, a second bevel gear rotating shaft 57 and a manual crank 58, the first bevel gear 55 is disposed on the shaft of the transmission gear 25, the second bevel gear 56 rotating shaft is rotatably disposed on the side wall of the supporting operation platform 7, the second bevel gear 56 is disposed on the second bevel gear rotating shaft 57, the manual crank 58 is disposed on the second bevel gear rotating shaft 57, and the first bevel gear 55 and the second bevel gear 56 are in meshing connection.

As shown in fig. 1, a feeding port 59 is provided on the supporting operation platform 7, the horizontal connecting arm 16 is fixedly connected to the top surrounding frame 48, and the vibration conversion connecting disc 35 is fixedly connected to the top surrounding frame 48.

As shown in fig. 2, the wrapping-type transition rubber 10 is attached to the inner wall of the top barrier 48.

When the device is used specifically, the first-stage vibration driving motor 41 is started, the screening driving rocker 42 rotates to drive the screening connecting cross rod 43 to do reciprocating motion, the first-stage screening frame 45 is driven to do reciprocating vibration, the two groups of first-stage screening connecting rods 46 swing back and forth at the moment to support the first-stage screening frame 45, the first-stage screening frame 45 vibrates back and forth to enable the top baffle frame 48 to vibrate synchronously, ores are fed through the feeding port 59 at the moment, the ores fall onto the first-stage screening frame 45, the first-stage screening frame 45 vibrates continuously and rolls towards the left and the lower side along the first-stage screening frame 45, part of the ores are flicked upwards in the vibration process of the ores, the flicked ores collide against the wafer paper 11, the wrapping type transition colloid 10 is concave at the moment, the flicked ores are embedded into pits formed on the wafer paper 11, the rice paper 12 and the wrapping type transition colloid 10, at this time, the popped ore is obviously not popped again, when the primary vibration screening mechanism 4 vibrates, the horizontal connecting arm 16 drives the rolling sliding table 17 to vibrate, so that the rolling control ball 18 is separated from the ball embedding groove 20 and rolls downwards along the rolling sliding table 17, the ball protection baffle 19 ensures that the rolling control ball 18 does not roll towards other directions, so that the rolling control ball 18 rolls down onto the rice paper 12 along the rolling sliding table 17, the rice paper 12 is separated from the paper embedding groove 13 due to the gravity action of the rolling control ball 18, one end of the rice paper 12 is immersed into the water in the paper suction water tank 14, so that the water in the paper suction water tank 14 is diffused to the whole piece of rice paper 12 through the capillary phenomenon of the rice paper 12, at this time, the rice paper 11 is immediately melted after absorbing the water on the rice paper 12, so that the ore gradually falls off from the rice paper 11 and falls into the primary screening frame 45 again, silt and small ore screened by the primary vibration screening mechanism 4 pass through the primary sieve holes 47 and fall onto the secondary screening plate 38, and other ore falls into the ore harvesting groove 8 along the primary screening frame 45, so that visible, through the arrangement of the hidden ore nondestructive transition mechanism 1, under the condition without any sensor, automatic falling of part of the collected splashed ore is still realized, and under the condition without any mechanical transmission mechanism, the 'grabbing' of the splashed ore is still realized, the technical principle of the intermediary principle is applied to the technical field of ore screening equipment, the wrapping type transition colloid 10, the wafer paper 11 and the rice paper 12 are used as intermediate objects, the temporary grabbing work of the splashed ore is executed by utilizing the good wrapping type property of the wrapping type transition colloid 10, the splashed ore is ensured not to generate secondary bounce, and the capillary phenomenon generated by the rice paper 12 is applied to the design of the hidden ore nondestructive transition mechanism 1, the method solves the contradiction technical problems that the prior art is difficult to solve, namely the ore is screened and the ore is ensured not to bounce around in the screening process; after silt and small ore fall into the second-stage screening plate 38, due to the impact force of the silt and the small ore and the arrangement of the vibration spring 36, the two sides of the second-stage screening plate 38 slide back and forth along the screen plate guide frame 40, so that the screening speed of the second-stage screening plate 38 is increased without an additional power source, the silt enters the silt collecting bag 23 after passing through the second-stage screen holes 39, the non-Newtonian fluid 21 is arranged to protect the silt collecting bag 23, the impact force when the silt falls into the silt collecting bag 23 is relieved, the silt collecting bag 23 is prevented from being damaged and affecting the service life, the remaining small ore rolls down into the ore harvesting groove 8 along the second-stage screening plate 38, in order to prevent the silt collected in the silt collecting bag 23 from floating into the air, the manual handle 58 is manually operated after the collection is completed, so that the second-stage bevel gear shaft 57 rotates to drive the bevel gear 56 to rotate, the bevel gear I55 rotates, then the transmission gear 25 rotates to drive the transmission gear ring 24 to rotate, at the moment, the gear ring rotation guide body 26 connected with the transmission gear ring 24 rotates along the guide body sliding groove 27 to guide the transmission gear ring 24 to rotate, then the arc-shaped transmission groove 28 rotates along with the transmission gear ring 24 to drive the collection transmission slide block 29 to rotate along the arc-shaped transmission groove 28, the sliding telescopic rod 30 is connected to the collection transmission slide block 29, the sliding telescopic rod 30 is embedded and slidably arranged on the inner wall of the collection mechanism operation groove 9, then a plurality of groups of sliding telescopic rods 30 slide and are drawn close to the middle, so that the self-resetting circulation action medium 22 is deformed into a mass, then the opening of the soil collection bag 23 is sealed, when the silt in the soil collection bag 23 needs to be treated, the self-resetting circulation action medium 22 is heated, due to the metal property of the nickel-titanium alloy material, the self-resetting circulating medium 22 is quickly restored to the original circular ring shape after being heated, the soil collection bag 23 is also unfolded at the moment, the self-resetting circulating medium 22 and the soil collection bag 23 cannot be damaged even if the self-resetting circulating medium 22 is used for a long time, therefore, the arrangement of the passive collection mechanism 2 is preliminarily inhibited through the self-resetting dust, the automatic reset of the self-reset circulation action medium 22 is still realized without the help of an additional power source, the metal property of the nickel-titanium alloy material which can immediately recover the shape after being heated is skillfully utilized as the power for the automatic reset of the soil collection bag 23, the non-Newtonian fluid 21 filled in the soil collection bag 23 is used as an intermediate object, so that the impact force when the soil falls into the soil collection bag 23 is perfectly relieved, the soil collection bag 23 is prevented from being damaged and the service life is prevented from being influenced, and the technical problem that the soil is recovered during ore screening, which is difficult to solve in the prior art, is solved; prepared bubble liquid is coated on the dust falling small holes 34 of the dust falling part 33 in advance, when the top baffle frame 48 vibrates, the dust falling part 33 synchronously vibrates in a reciprocating mode, so that a large amount of foam is generated when air passes through the dust falling small holes 34 and floats in ambient air, dust particles are wet after encountering the foam in the vibration screening process, and then can descend and do not float in the air any more and can not be sucked by a human body, and therefore, through the arrangement of the dust falling part 33 and the dust falling small holes 34, under the condition of no extra power source and dust falling equipment, dust falling treatment in ore screening is still achieved, and the technical problem that dust falling treatment is conducted on the surroundings in ore screening, which is difficult to solve in the prior art, is solved; the moving forward driving motor 53 is started to drive the moving forward main swing rod 49 to rotate, the moving forward auxiliary swing rod one 50 and the moving forward auxiliary swing rod two 51 synchronously rotate to drive the moving forward support frame 52 to circularly move together, the movement of the whole device is realized, and simple movement can be carried out on different mining points in a mine, so that the device is very convenient.

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 invention, the scope of which is defined in the appended claims and their equivalents.

The present invention and its embodiments have been described above, and the description is not intended to be limiting, and the drawings are only one embodiment of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (9)

1. The utility model provides a hidden harmless transition formula is from ore screening machine that restores to throne dust restraines which characterized in that: comprises a hidden type ore lossless transition mechanism (1), a self-reset type dust preliminary inhibition passive collection mechanism (2), a passive action type vibration conversion dust fall mechanism (3), a one-level vibration screening mechanism (4), a gravity conversion type passive vibration secondary screening mechanism (5), a circulating motion preceding mechanism (6), a supporting operation platform (7), an ore harvesting groove (8) and a collection mechanism operation groove (9), wherein the ore harvesting groove (8) is arranged on the supporting operation platform (7), the collection mechanism operation groove (9) is arranged on the supporting operation platform (7), the self-reset type dust preliminary inhibition passive collection mechanism (2) is arranged on the collection mechanism operation groove (9), the circulating motion preceding mechanism (6) is arranged on the supporting operation platform (7), the one-level vibration screening mechanism (4) is arranged on the supporting operation platform (7), the hidden type ore lossless transition mechanism (1) is arranged on the one-level vibration screening mechanism (4), the passive action type vibration conversion dust falling mechanism (3) is arranged on the one-level vibration screening mechanism (4), the gravity conversion type passive vibration secondary screening mechanism (5) is arranged on the supporting operation platform (7), the hidden type ore lossless transition mechanism (1) comprises a package type transition colloid (10), waffle paper (11), rice paper (12), a paper embedding groove (13), a paper absorbing water tank (14), a water tank connecting support (15), a horizontal connecting arm (16), a roll falling sliding table (17), a roll control ball (18), a ball protective baffle (19) and a ball embedding groove (20), the package type transition colloid (10) is laminated on the one-level vibration screening mechanism (4), the rice paper (12) is laminated on the bottom of the package type transition colloid (10), the utility model discloses a rice paper roll screen, including rice paper, water tank linking bridge (15), paper suction water tank (14), horizontal connecting arm (16), roll slip table (17) rigid coupling between horizontal connecting arm (16), spheroid protection baffle (19) rigid coupling in the one end of roll slip table (17), spheroid embedding groove (20) are located on roll slip table (17), roll control ball (18) gomphosis is located on spheroid embedding groove (20).

2. The concealed, non-destructive, transitional, self-resetting dust suppression ore screening machine of claim 1, wherein: the self-reset type passive dust suppression collecting mechanism (2) comprises non-Newtonian fluid (21), a self-reset circulation action medium (22), a soil collecting bag (23), a transmission toothed ring (24), a transmission gear (25), a toothed ring rotation guide body (26), a guide body sliding groove (27), an arc-shaped transmission groove (28), a collecting transmission sliding block (29), a sliding telescopic rod (30), a bottom through hole (31) and a manual transmission mechanism (32), wherein the guide body sliding groove (27) is formed in the inner wall of a collecting mechanism operation groove (9), the toothed ring rotation guide body (26) is embedded and rotatably arranged on the guide body sliding groove (27), the toothed ring rotation guide body (26) is cylindrical, the transmission toothed ring (24) is fixedly connected onto the toothed ring rotation guide body (26), the sliding telescopic rod (30) is embedded and slidably arranged on the inner wall of the collecting mechanism operation groove (9), the utility model discloses a collection mechanism, including slip telescopic link (30), bottom through-hole (31), collection mechanism fortune groove (9), set up in collection mechanism fortune groove (9) bottom through-hole (31), connect on slip telescopic link (30) from circulation medium (22), from circulation medium (22) that restores to the throne be the ring form, earth is collected bag (23) and is located on circulation medium (22) that restores to the throne, non-Newton's fluid (21) are filled and are located in the wall of earth collection bag (23), the axle rotation of drive gear (25) is located on collection mechanism fortune groove (9), arc drive groove (28) array is located on drive ring gear (24), the one end of collecting drive slider (29) is located on slip telescopic link (30), the other end gomphosis of collecting drive slider (29) slides and locates on arc drive groove (28), the soil collection bag (23) penetrates through the bottom through hole (31), the manual transmission mechanism (32) is arranged on the transmission gear (25), and the transmission gear ring (24) is meshed with the transmission gear (25).

3. The concealed, non-destructive, transitional, self-resetting dust suppression ore screening machine of claim 2, wherein: passive effect formula vibration conversion dust fall mechanism (3) are including dust fall piece (33), dust fall aperture (34) and vibration conversion connection pad (35), vibration conversion connection pad (35) rigid coupling is on one-level vibration screening mechanism (4), on vibration conversion connection pad (35) was located to dust fall piece (33) array, dust fall aperture (34) array was located on dust fall piece (33).

4. A concealed, non-destructive, transitional, self-resetting dust suppression ore screening machine according to claim 3, wherein: gravity conversion formula passive vibration second grade screening mechanism (5) are including vibrating spring (36), spring support board (37), second grade screening board (38), second grade sieve mesh (39) and sieve leading truck (40), sieve leading truck (40) divide two sets of to locate on supporting operation platform (7), second grade screening board (38) gomphosis slides and locates between sieve leading truck (40), spring support board (37) rigid coupling is on supporting operation platform (7), the one end of vibrating spring (36) is located on spring support board (37), the other end of vibrating spring (36) is located on second grade screening board (38), second grade sieve mesh (39) are located on second grade screening board (38).

5. The concealed, non-destructive, transitional, self-resetting dust suppression ore screening machine of claim 4, wherein: the one-level vibration screening mechanism (4) comprises a one-level vibration driving motor (41), a screening driving rocker (42), a screening connecting cross rod (43), a motor supporting frame (44), a one-level screening frame (45), a one-level screening connecting rod (46), a one-level sieve mesh (47) and a top surrounding blocking frame (48), wherein the motor supporting frame (44) is fixedly connected to the supporting operation platform (7), the body of the one-level vibration driving motor (41) is arranged on the motor supporting frame (44), the screening driving rocker (42) is arranged on the output end of the one-level vibration driving motor (41), the one-level screening connecting rod (46) is hinged on the outer wall of the supporting operation platform (7), the one-level screening frame (45) is arranged on the one-level screening connecting rod (46), the one-level screening connecting rod (46) is hinged on the one-level screening frame (45), and one end of the screening connecting cross rod (43) is hinged on the screening driving rocker (42), the other end of horizontal pole (43) is connected in the bottom of one-level screening frame (45) in the screening, one-level sieve mesh (47) are located on one-level screening frame (45), the top encloses the top that keeps off frame (48) rigid coupling in one-level screening frame (45), one-level screening connecting rod (46) are equipped with two sets ofly.

6. The concealed, non-destructive, transitional, self-resetting dust suppression ore screening machine of claim 5, wherein: the cyclic motion advancing mechanism (6) comprises a advancing main oscillating bar (49), an advancing auxiliary oscillating bar I (50), an advancing auxiliary oscillating bar II (51), an advancing support frame (52), an advancing driving motor (53) and a motor placing groove (54), wherein the motor placing groove (54) is formed in the outer wall of the support operation platform (7), the body of the moving advancing driving motor (53) is arranged on the motor placing groove (54), one end of the advancing main oscillating bar (49) is arranged at the output end of the moving advancing driving motor (53), the advancing support frame (52) is arranged on the advancing main oscillating bar (49), the advancing main oscillating bar (49) is hinged on the advancing support frame (52), one end of the advancing auxiliary oscillating bar I (50) is hinged on the outer wall of the support operation platform (7), and the other end of the advancing auxiliary oscillating bar I (50) is hinged on the advancing support frame (52), one end of the forward auxiliary swing rod II (51) is hinged to the outer wall of the supporting operation platform (7), and the other end of the forward auxiliary swing rod II (51) is hinged to the forward supporting frame (52).

7. The concealed, non-destructive, transitional, self-resetting dust suppression ore screening machine of claim 6, wherein: manual drive mechanism (32) include bevel gear (55), bevel gear two (56), bevel gear second grade pivot (57) and manual crank (58), on bevel gear (55) were located the epaxial of drive gear (25), bevel gear two (56) level pivot run through to rotate and locate on the lateral wall that supports operation platform (7), bevel gear two (56) are located on bevel gear second grade pivot (57), manual crank (58) are located on bevel gear two (56) level pivot, meshing connection between bevel gear one (55) and bevel gear two (56).

8. The concealed, non-destructive, transitional, self-resetting dust suppression ore screening machine of claim 7, wherein: and a feeding port (59) is arranged on the supporting operation platform (7).

9. The concealed, non-destructive, transitional, self-resetting dust suppression ore screening machine of claim 8, wherein: horizontal connecting arm (16) rigid coupling is enclosed on keeping off frame (48) at the top, vibration conversion connection pad (35) rigid coupling is enclosed on keeping off frame (48) at the top, parcel type transition colloid (10) laminating is located on the inner wall that the top enclosed and keeps off frame (48), parcel type transition colloid (10) are omnipotent clean gluey material, from restoring to the throne circulation medium (22) for nickel titanium alloy material.

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