CN215312727U - Mineral separation device for improving gold recovery rate of gold ore - Google Patents

Abstract

The utility model discloses a mineral separation device for improving gold recovery rate of gold ores, which comprises a mineral separation box, a detection box, a recovery box, a control panel, an observation window, a bearing plate, supporting legs, a feeding port, a discharging port, a detection assembly, an ore recovery assembly and a screening assembly. The utility model belongs to the technical field of gold recovery, and particularly relates to a mineral separation device for improving gold recovery rate of gold ores, which improves the working efficiency of the mineral separation device for improving the gold recovery rate of gold ores, increases the recovery rate of gold ores by arranging a detection assembly and an ore recovery assembly, improves the practicability of the mineral separation device, improves the use experience of the mineral separation device for improving the gold recovery rate of gold ores by adopting a screening assembly, and effectively solves the problems of low efficiency, complex structure and inconvenient maintenance of the mineral separation device for improving the gold recovery rate of gold ores in the current market.

Description

Mineral separation device for improving gold recovery rate of gold ore

Technical Field

The utility model belongs to the technical field of gold recovery, and particularly relates to a mineral separation device for improving gold recovery rate of gold ores.

Background

Mineral separation is a process of selecting useful minerals from collected mineral raw materials according to differences of physical properties, physical and chemical properties of various minerals, a device for implementing the process is called a mineral separation device, the mineral separation device is divided into crushing, grinding, screening, sorting and dewatering devices according to mineral separation processes, and in the design and production processes of a concentrating mill, in order to recycle the useful minerals in the selected minerals to the maximum extent, reduce the energy consumption of the concentrating mill as much as possible, reduce the influence and pollution to the environment and improve the economic benefit and social benefit of the concentrating mill, the selection of crushing, grinding, flotation and concentration devices is particularly important. The existing mineral processing equipment does not have high recovery rate to cause the waste of ores, so a new mineral processing device for improving the gold recovery rate of gold ores is provided.

SUMMERY OF THE UTILITY MODEL

In view of the above situation, in order to overcome the defects of the prior art, the utility model provides the mineral separation device for improving the gold recovery rate of gold ores, so that the working efficiency of the mineral separation device for improving the gold recovery rate of gold ores is improved, the recovery rate of gold ores is increased by arranging the detection assembly and the ore recovery assembly, the practicability of the mineral separation device is improved, the use experience of the mineral separation device for improving the gold recovery rate of gold ores is improved by adopting the screening assembly, and the problems that the mineral separation device for improving the gold recovery rate of gold ores in the current market is low in efficiency, complex in structure and inconvenient to maintain are effectively solved.

The technical scheme adopted by the utility model is as follows: the utility model relates to a mineral separation device for improving gold recovery rate of gold ores, which comprises a mineral separation box, a detection box, a recovery box, a control panel, an observation window, a bearing plate, supporting legs, a feed inlet, a discharge outlet, a detection assembly, an ore recovery assembly and a screening assembly, the detection box is arranged on the side wall of the ore dressing box, the recovery box is arranged on the side wall of the detection box and is connected with the ore dressing box, the control panel is arranged on the mineral separation box, the observation window is arranged on the mineral separation box, the bearing plate is arranged at the lower ends of the mineral separation box, the detection box and the recovery box, a shock absorber is arranged between the bearing plate and the ore dressing box, the supporting legs are arranged on the lower wall of the bearing plate, the ore dressing case is located to the feed inlet water, the discharge gate link up the bearing plate and locates on the detection case, the detection subassembly is located in the detection case, the ore recovery subassembly is located in the collection box, the screening subassembly is located in the ore dressing case.

Further, the detection subassembly is including detecting the sliding tray, detecting the slide bar, monitoring the sliding table, detecting the sliding motor, detecting telescopic link, detector, detecting the conveying roller, detecting conveyer belt and vibrator, it locates on the detection case to detect the sliding tray, it locates in detecting the sliding tray to detect the slide bar, it slides and locates on detecting the slide bar to monitor the sliding table, it locates on detecting the sliding table to monitor the sliding motor, it locates on detecting the sliding motor to detect the telescopic link, the detector is located on detecting the telescopic link, it locates in the detection case to detect the conveying roller, it locates on detecting the conveying roller to detect the conveyer belt, the vibrator is located in detecting the conveyer belt.

Further, the ore recovery subassembly includes spiral accumulator, screw axis, screw motor, spiral fan piece, retrieves the discharge gate, retrieves and rotates the wheel, rotates a wheel driving motor and retrieves the conveyer belt, the spiral accumulator is located in the collection box, the screw axis is located in the collection box, screw motor locates on the collection box and rotates with the screw axis and be connected, the spiral fan piece is located on the screw axis, retrieve in the discharge gate locates the collection box, retrieve and rotate in the collection box, it locates to retrieve and rotates on the wheel to rotate wheel driving motor, it locates to retrieve and rotates on the wheel to retrieve the conveyer belt.

Further, the screening subassembly includes that ore collecting plate, ore smash groove, crushing roller, ore shake board and buffer spring, the ore collecting plate is located the ore dressing incasement, the ore crushing groove is located the ore dressing incasement and is linked to each other with the ore collecting plate, it locates the ore crushing incasement to smash the roller, the ore shakes the board and locates the ore dressing incasement, the ore shakes the board in the below in ore crushing groove, buffer spring locates the ore and shakes between board and the ore dressing case.

Furthermore, a guide plate is arranged between the detection box and the recovery box, the guide plate is rotatably connected with the detection box and the recovery box, and a rotating motor is arranged on the guide plate.

The utility model with the structure has the following beneficial effects: this scheme improves ore dressing device of gold mine gold rate of recovery, has improved the ore dressing device's that improves gold mine gold rate of recovery work efficiency, through setting up the determine module and the ore recovery subassembly, has increased the recycle ratio of gold mine, has improved ore dressing device's practicality, adopts the use that the screening subassembly has improved the ore dressing device of gold mine rate of recovery to experience, has effectively solved the ore dressing device inefficiency that improves gold mine gold rate of recovery on the existing market, and self structure is complicated, maintains comparatively inconvenient problem.

Drawings

FIG. 1 is a front cross-sectional view of a beneficiation plant for increasing gold recovery from gold ores in accordance with the present invention;

fig. 2 is a front view of a beneficiation apparatus for increasing gold recovery rate of gold ore according to the present invention.

Wherein, 1, the ore dressing case, 2, the detection case, 3, the recovery case, 4, the control panel, 5, the observation window, 6, the bearing plate, 7, the supporting leg, 8, the feeding port, 9, the discharging port, 10, the detection component, 11, the ore recovery component, 12, the screening component, 13, the shock absorber, 14, the detection sliding groove, 15, the detection sliding rod, 16, the monitoring sliding table, 17, the detection sliding motor, 18, the detection telescopic rod, 19, the detector, 20, the detection conveying roller, 21, the detection conveying belt, 22, the vibrator, 23, the spiral recovery groove, 24, the spiral shaft, 25, the spiral motor, 26, the spiral fan, 27, the recovery discharging port, 28, the recovery rotating wheel, 29, the rotating wheel driving motor, 30, the recovery conveying belt, 31, the ore collection plate, 32, the ore crushing groove, 33, the crushing roller, 34, the ore shaking plate, 35, the buffer spring, 36, 35, Guide plate, 37, rotating motor.

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

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.

As shown in figure 1-2, the utility model relates to a mineral separation device for improving gold recovery rate of gold ores, which comprises a mineral separation box 1, a detection box 2, a recovery box 3, a control panel 4, an observation window 5, a bearing plate 6, a support leg 7, a feed inlet 8, a discharge outlet 9, a detection assembly 10, an ore recovery assembly 11 and a screening assembly 12, wherein the detection box 2 is arranged on the side wall of the mineral separation box 1, the recovery box 3 is arranged on the side wall of the detection box 2 and is connected with the mineral separation box 1, the control panel 4 is arranged on the mineral separation box 1, the observation window 5 is arranged on the mineral separation box 1, the bearing plate 6 is arranged at the lower ends of the mineral separation box 1, the detection box 2 and the recovery box 3, a shock absorber 13 is arranged between the bearing plate 6 and the mineral separation box 1, the support leg 7 is arranged on the lower wall of the bearing plate 6, the feed inlet 8 is arranged on the mineral separation box 1, the discharge outlet 9 is arranged on the bearing plate 2, detection module 10 is located in detection case 2, the ore is retrieved subassembly 11 and is located in collection box 3, screening subassembly 12 is located in ore dressing case 1.

The detection assembly 10 includes detecting the sliding tray 14, detecting the slide bar 15, monitoring the sliding table 16, detecting the sliding motor 17, detecting the telescopic link 18, detector 19, detecting the conveying roller 20, detecting the conveyer belt 21 and vibrator 22, it locates on the detection case 2 to detect the sliding tray 14, it locates in detecting the sliding tray 14 to detect the slide bar 15, it locates on detecting the slide bar 15 to detect the sliding table 16 slip, it locates on detecting the sliding table to monitor the sliding motor, it locates on detecting the sliding motor 17 to detect the telescopic link 18, detector 19 locates on detecting the telescopic link 18, it locates in detecting the case 2 to detect the conveying roller 20, it locates on detecting the conveying roller 20 to detect the conveyer belt 21, vibrator 22 is located in detecting the conveyer belt 21.

The ore recovery assembly 11 comprises a spiral recovery tank 23, a spiral shaft 24, a spiral motor 25, a spiral fan sheet 26, a recovery discharge port 27, a recovery rotating wheel 28, a rotating wheel driving motor 29 and a recovery conveying belt 30, wherein the spiral recovery tank 23 is arranged in the recovery box 3, the spiral shaft 24 is arranged in the recovery box 3, the spiral motor 25 is arranged on the recovery box 3 and is rotationally connected with the spiral shaft 24, the spiral fan sheet 26 is arranged on the spiral shaft 24, the recovery discharge port 27 is arranged in the recovery box 3, the recovery rotating wheel 28 is arranged in the recovery box 3, the rotating wheel driving motor 29 is arranged on the recovery rotating wheel 28, and the recovery conveying belt 30 is arranged on the recovery rotating wheel 28.

Screening subassembly 12 includes that ore collecting plate 31, ore crush groove 32, crushing roller 33, ore shake board 34 and buffer spring 35, ore collecting plate 31 is located in ore dressing case 1, ore crush groove 32 is located in ore dressing case 1 and is linked to each other with ore collecting plate 31, crushing roller 33 is located the ore and is smashed the incasement, ore shake board 34 is located in ore dressing case 1, ore shake board 34 is in the below of ore crush groove 32, buffer spring 35 locates between ore shake board 34 and the ore dressing case 1.

A guide plate 36 is arranged between the detection box 2 and the recovery box 3, the guide plate 36 is rotatably connected with the detection box 2 and the recovery box 3, and a rotating motor 37 is arranged on the guide plate 36.

When the gold ore collecting device is used specifically, a user pours gold ore into the ore collecting box 1 from the feeding hole 8, the gold ore falls onto the ore shaking plate 34 after being rolled and crushed by the crushing roller 33, the gold ore falls onto the detection conveying belt 21 under the shaking action, the detection conveying belt 21 drives the gold ore to start moving under the rotation of the detection conveying roller 20, the detection sliding motor 17 and the detection sliding rod 19 move along the detection sliding rod 15 in the moving process and detect the gold ore, when the detected gold content exceeds the standard, the rotation motor 37 is started to drive the guide plate 36 to rotate, the gold ore enters the recovery box 3, and when the detected gold content is low, the gold ore directly flows out of the discharging hole 9; the ore entering the recovery bin 3 is carried by the auger blades 26 onto the recovery conveyor 30 and then into the ore comminution chute 32 for further processing. The above is the overall working process of the utility model, and the steps are repeated when the device is used next time.

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

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

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 utility model as defined by the appended claims.

Claims (5)

1. The utility model provides an improve ore dressing device of gold mine gold rate of recovery which characterized in that: including ore dressing case, detection case, collection box, control panel, observation window, bearing plate, supporting leg, feed inlet, discharge gate, determine module, ore recovery subassembly and screening subassembly, the detection case is located on the lateral wall of ore dressing case, the collection box is located on the lateral wall of detection case and is linked to each other with the ore dressing case, control panel locates on the ore dressing case, the observation window is located on the ore dressing case, the lower extreme of ore dressing case, detection case and collection box is located to the bearing plate, be equipped with the bumper shock absorber between bearing plate and the ore dressing case, the supporting leg is located on the lower wall of bearing plate, the feed inlet water is located on the ore dressing case, the discharge gate link up the bearing plate and locates on the detection case, determine module locates in the detection case, the ore recovery subassembly is located in the collection box, the screening subassembly is located in the ore dressing case.

2. The ore dressing device for improving the gold recovery rate of gold ores according to claim 1, characterized in that: the detection assembly comprises a detection sliding groove, a detection sliding rod, a monitoring sliding table, a detection sliding motor, a detection telescopic rod, a detector, a detection conveying roller, a detection conveying belt and a vibrator, wherein the detection sliding groove is arranged on a detection box, the detection sliding rod is arranged in the detection sliding groove, the monitoring sliding table is arranged on the detection sliding rod in a sliding mode, the monitoring sliding motor is arranged on the detection sliding table, the detection telescopic rod is arranged on the detection sliding motor, the detector is arranged on the detection telescopic rod, the detection conveying roller is arranged in the detection box, the detection conveying belt is arranged on the detection conveying roller, and the vibrator is arranged in the detection conveying belt.

3. The ore dressing device for improving the gold recovery rate of gold ores according to claim 2, characterized in that: the ore recovery assembly comprises a spiral recovery groove, a spiral shaft, a spiral motor, a spiral fan blade, a recovery discharge port, a recovery rotation wheel, a rotation wheel driving motor and a recovery conveying belt, the spiral recovery groove is arranged in a recovery box, the spiral shaft is arranged in the recovery box, the spiral motor is arranged on the recovery box and is connected with the spiral shaft in a rotating mode, the spiral fan blade is arranged on the spiral shaft, the recovery discharge port is arranged in the recovery box, the recovery rotation wheel is arranged in the recovery box, the rotation wheel driving motor is arranged on the recovery rotation wheel, and the recovery conveying belt is arranged on the recovery rotation wheel.

4. The ore dressing device for improving the gold recovery rate of gold ores according to claim 3, characterized in that: screening subassembly includes that ore collecting plate, ore smash groove, crushing roller, ore shake board and buffer spring, the ore collecting plate is located the ore dressing incasement, the ore smashes the groove and locates the ore dressing incasement and link to each other with the ore collecting plate, it smashes the incasement to smash the roller and locate the ore and smash, the ore shakes the board and locates the ore dressing incasement, the ore shakes the board in the below that the groove was smashed to the ore, buffer spring locates between ore shake board and the ore dressing case.

5. The ore dressing device for improving the gold recovery rate of gold ores according to claim 4, characterized in that: the detection box is characterized in that a guide plate is arranged between the detection box and the recovery box, the guide plate is rotatably connected with the detection box and the recovery box, and a rotating motor is arranged on the guide plate.

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