CN215878711U - Automatic granularity separation device for diamonds - Google Patents

Abstract

The utility model discloses an automatic diamond particle size separation device, which comprises a box body, wherein a fastening assembly and a separation tube are arranged in the box body, the separation tube is fixedly connected with the box body through the fastening assembly, the fastening assembly comprises a connecting rod fixedly connected with the box body, clamping hoops symmetrically arranged and connected with the connecting rod, connecting lugs arranged at the end parts of the clamping hoops and fastening bolts used for connecting and fastening the two connecting lugs, the separation tube comprises a feeding tube, a first filter tube connected with the feeding tube and a first discharging tube connected with the feeding tube, the feeding tube penetrates through the box body and extends to the outer side, at least one particle size separation structure is further connected and arranged at the output end of the first filter tube, the device is simple to operate, intelligent and automatic separation operation of diamonds with different particle sizes is realized through multi-stage filtering and screening, and vibration effects, and the high efficiency of diamond particle size separation is improved, the convenience and the safety of the automatic diamond separation storage are further improved.

Description

Automatic granularity separation device for diamonds

Technical Field

The utility model belongs to the technical field of diamond processing production, and particularly relates to an automatic diamond particle size separation device.

Background

In the processing production of diamond, all be the mode that adopts manual work to selection and screening separation of diamond particle size, this kind of mode is wasted time and energy, and precision size is difficult to grasp, can not realize good diamond particle size fractionation's effect, along with the continuous development of technique, the part automation equipment that separates to the diamond has also appeared, but the structure of this kind of equipment is comparatively complicated, and the price is expensive, the price/performance ratio is not high, to the diamond through the not storage and the look over after the not equidimension particle size separation, it is very inconvenient, can't realize categorised convenient storage and accomodate, for this reason we need an automatic particle size separator of diamond.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an automatic diamond particle size separation device to solve the existing problems, the device is reasonable in structural design and simple to operate, intelligent and automatic separation operation of different particle sizes of diamonds is realized through multi-stage filtering screening and vibration effects, the efficiency of diamond particle size separation is improved, and the convenience and safety of automatic diamond particle size separation storage are further improved.

The technical scheme adopted by the utility model is as follows:

the utility model provides an automatic particle size separator of diamond, includes the box, be provided with in the box and set up subassembly and separator tube, the separator tube through set up the subassembly with the box is connected fixedly, set up the subassembly include with the box be connected fixed connecting rod, with the connecting rod link to each other and the symmetry set up hold the clamp, set up in hold the engaging lug of clamp tip tightly and be used for connecting the set up bolt of setting up two the engaging lug, the separator tube includes the inlet pipe, with the first filter tube that the inlet pipe is connected and with the first discharging pipe that the inlet pipe links to each other, and the inlet pipe runs through the box and extends to the outside, the slope of first filter tube sets up the left downside of inlet pipe, the slope of first discharging pipe sets up the right downside of inlet pipe, still be provided with first filter screen in the junction of first filter tube with the inlet pipe, and the below of first filter screen still is provided with miniature electromagnetic shaker, first discharging pipe with the junction of inlet pipe still is provided with first solenoid valve, just the output of first discharging pipe still is connected with first storage box, first storage box setting just realizes sliding and opens and shuts on the box lateral wall the output of first filter tube still connect to install the granularity isolating construction who is at least one, be provided with the second filter screen in the granularity isolating construction, just the mesh size of second filter screen is less than the mesh size of first filter screen, the below of granularity isolating construction still is provided with the supporting seat the box outside still is provided with control switch, just control switch respectively with miniature electromagnetic shaker and first solenoid valve electric connection.

Preferably, the fastening assemblies are uniformly distributed in M, and M is more than or equal to 2.

Further preferably, a sponge cushion is further arranged on the inner side of the clasping hoop of the fastening assembly.

Preferably, a feeding funnel is further connected and mounted at the upper end of the feeding pipe.

Preferably, the particle size separation structure comprises a second filtering pipe connected with the first filtering pipe, a second discharging pipe connected with the first filtering pipe and a second storage box connected with the second discharging pipe, a second filter screen is arranged at the joint of the second filtering pipe and the first filtering pipe, a second electromagnetic valve is arranged at the joint of the second discharging pipe and the first filtering pipe, and the second electromagnetic valve is electrically connected with the control switch.

Further preferably, the size separation structures are two groups.

Further preferably, a micro vibrator is also arranged below the second filter screen in the particle size separation structure.

Preferably, the outer side walls of the first storage box and the second storage box are both transparent glass plates.

Preferably, the first storage box and the second storage box are fixedly installed on the box body through electromagnetic locks respectively, and the electromagnetic locks are electrically connected with the control switch.

In summary, due to the adoption of the technical scheme, the utility model has the beneficial effects that:

1. in the utility model, the first-stage diamond feeding vibration screening separation operation is realized by arranging the separation pipe structure, the practicability of diamond granularity separation is improved, the feeding pipe, the first filter pipe and the first discharging pipe are integrally in an inverted Y-shaped structure, diamond with granularity larger than the aperture size of the first filter screen is blocked by the action from top to bottom and the influence of the vibration action force of the micro-vibrator below the first filter screen, meanwhile, the diamond with granularity smaller than the aperture size of the first filter screen is accelerated to pass through, the first-stage diamond filtering separation operation is further completed, the first electromagnetic valve is opened under the starting control of the control switch through the first discharging pipe in cross connection, the diamond with larger granularity is stored and contained in the first storage box, the outer side wall of the first storage box is arranged to be a transparent glass plate, and the observation of an operator is facilitated, the use value of the device is further improved;

2. in the utility model, the hierarchical separation operation of the diamond granularity is realized by arranging a plurality of granularity separation structures, the aim of multistage screening, separation and storage of the diamond is achieved, the operation is convenient and intelligent, the separation efficiency of the device is further improved, the granularity separation structures comprise a second filter pipe, a second discharge pipe, a second storage box, a second filter screen and a second electromagnetic valve, the diamond with the granularity larger than the aperture size of the second filter screen is blocked by the flowing action of the diamond from top to bottom and the influence of the vibration action force of a micro vibrator below the second filter screen, the passing of the diamond with the granularity smaller than the aperture size of the second filter screen is accelerated, the second-stage diamond filtration and separation operation is further completed, and the second electromagnetic valve is opened by the second discharge pipe in cross connection under the starting control of a control switch, the diamonds with medium granularity are stored in the second storage box, so that the intelligent separation efficiency of the device is further improved;

3. according to the diamond separation device, two groups of particle size separation structures are arranged, two-stage filtration, three-stage filtration and four-stage filtration of diamond separation operation are achieved, the structure is simple to set and reasonable in operation, the high efficiency and consistency of diamond multi-stage separation storage are further improved, the stability of a separation structure assembly is guaranteed by arranging the supporting seat below the particle size separation structures, the diamond separation structure assembly is further fastened under the fixing action of the clasping clamp and the fastening bolt by arranging the fastening assembly, the use safety of the structure is further improved, the outer side wall of the storage box is a transparent glass plate, operators can conveniently observe, disassemble and replace the storage box, the storage box and the box body are connected through the electromagnetic lock, the use safety is further guaranteed, and misoperation is prevented.

Drawings

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

FIG. 2 is an enlarged view of the portion A in FIG. 1;

figure 3 is a block diagram of the fastening assembly of the present invention.

The labels in the figure are: 1-box body, 2-fastening component, 3-separating tube, 4-connecting rod, 5-holding hoop, 6-connecting lug, 7-fastening bolt, 8-feeding tube, 9-first filtering tube, 10-first discharging tube, 11-first filtering net, 12-micro vibrator, 13-first electromagnetic valve, 14-first storage box, 15-granularity separating structure, 16-second filtering net, 17-supporting seat, 18-control switch, 19-feeding funnel, 20-second filtering tube, 21-second discharging tube, 22-second storage box and 23-second electromagnetic valve.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail with reference to the following embodiments.

As shown in connection with fig. 1-3;

an automatic diamond particle size separation device comprises a box body 1, a fastening assembly 2 and a separation tube 3 are arranged in the box body 1, the separation tube 3 is fixedly connected with the box body 1 through the fastening assembly 2, the fastening assembly 2 comprises a connecting rod 4 fixedly connected with the box body 1, clamping hoops 5 which are connected with the connecting rod 4 and symmetrically arranged, connecting lugs 6 arranged at the end parts of the clamping hoops 5 and fastening bolts 7 used for connecting and fastening the two connecting lugs 6, the fastening assemblies 2 are uniformly distributed, M is more than or equal to 2, a sponge pad is further arranged on the inner side of the clamping hoops 5 of the fastening assembly 2, the separation tube 3 comprises a feeding tube 8, a first filter tube 9 connected with the feeding tube 8 and a first discharging tube 10 connected with the feeding tube 8, the feeding tube 8 penetrates through the box body 1 to extend to the outer side, a feeding hopper 19 is further connected and installed at the upper end of the feeding tube 8, the first filter tube 9 is obliquely arranged at the lower left side of the feeding tube 8, first discharging pipe 10 slope sets up in the right downside of inlet pipe 8, still is provided with first filter screen 11 in the junction of first filter tube 9 and inlet pipe 8, and the below of first filter screen 11 still is provided with miniature electromagnetic shaker 12, and the junction of first discharging pipe 10 and inlet pipe 8 still is provided with first solenoid valve 13, and the output of first discharging pipe 10 still is connected with first storage box 14, and first storage box 14 sets up on box 1 lateral wall and realizes sliding and opens and shuts.

The first-stage diamond feeding vibration screening separation operation is realized by arranging the separation tube structure, the practicability of diamond granularity separation is improved, the feeding tube, the first filter tube and the first discharging tube are integrally arranged in an inverted Y-shaped structure, the diamond with the granularity larger than the aperture size of the first filter screen is blocked by the action from top to bottom and the influence of the vibration action force of the micro-vibrator below the first filter screen, and the diamond with the granularity smaller than the aperture size of the first filter screen is accelerated to pass through, further completing the first stage of diamond filtration and separation operation, opening the first electromagnetic valve through the first discharge pipe in cross connection under the starting control of the control switch, storing and containing the diamonds with larger granularity in the first storage box, the lateral wall that sets up first storage box is the transparent glass board, and the operating personnel of being convenient for observes, has further improved the use value of the device.

The output end of the first filtering pipe 9 is also connected with at least one granularity separating structure 15, a second filtering net 16 is arranged in the granularity separating structure 15, the mesh size of the second filtering net 16 is smaller than that of the first filtering net 11, a supporting seat 17 is arranged below the granularity separating structure 15, a control switch 18 is arranged outside the box body 1, the control switch 18 is respectively and electrically connected with the micro-vibrator 12 and the first electromagnetic valve 13, the granularity separating structure 15 comprises a second filtering pipe 20 connected with the first filtering pipe 9, a second discharging pipe 21 connected with the first filtering pipe 9 and a second storage box 22 connected with the second discharging pipe 21, the second filtering net 16 is arranged at the joint of the second filtering pipe 20 and the first filtering pipe 9, a second electromagnetic valve 23 is arranged at the joint of the second discharging pipe 21 and the first filtering pipe 9, and the second electromagnetic valve 23 is electrically connected with the control switch 18, the granularity separation structure 15 is two sets of, and the below of the second filter screen 16 in the granularity separation structure 15 also is provided with miniature electromagnetic shaker 12, and the lateral wall of first storage box 14, second storage box 22 is the transparent glass board, and first storage box 14, second storage box 22 pass through the electromagnetic lock installation with box 1 respectively and fix, electromagnetic lock and control switch 18 electric connection.

The diamond filtering and separating operation of the second level is finished by stopping the diamonds with the granularity larger than the aperture size of the second filter screen and accelerating the diamonds with the granularity smaller than the aperture size of the second filter screen to pass through under the action of the flowing of the diamonds from top to bottom and the influence of the vibration action force of a micro vibrator below the second filter screen through arranging a plurality of granularity separating structures, realizing the hierarchical separation operation of the diamond granularity, achieving the aim of multistage screening, separating and storing the diamonds, the convenience and the intelligent operation of the device, further improving the separating efficiency of the device, and simultaneously accelerating the diamonds with the granularity smaller than the aperture size of the second filter screen to pass through to further finish the diamond filtering and separating operation of the second level, opening the second electromagnetic valve through the second discharging pipe in cross connection under the starting control of a control switch to store the diamonds with the medium granularity in the second storage box, the high efficiency of the intelligent separation of the device is further improved.

Through setting up two sets of granularity separation structures, realized the second grade filtration to diamond separation operation, tertiary filtration and level four filtration, the structure sets up simply, and is reasonable in operation, the high efficiency and the uniformity that diamond multistage separation stored have further been improved, through setting up the stability that the supporting seat has guaranteed the separation structure subassembly below the granularity separation structure, and set up the subassembly through setting up, hold tightly the clamp and set up under the fixed action of bolt, the further effect of setting up of diamond separation structure subassembly has been realized, the security that this structure used has further been improved, the lateral wall that the box was stored up in the setting is the clear glass board, the operating personnel of being convenient for observes and dismantles the change, set up simultaneously and store up the structure that box and box are connected for the electromagnetic lock, the security of use has further been guaranteed, prevent the maloperation.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (9)

1. The utility model provides an automatic particle size separation device of diamond which characterized in that: comprises a box body (1), a fastening component (2) and a separation pipe (3) are arranged in the box body (1), the separation pipe (3) is fixedly connected with the box body (1) through the fastening component (2), the fastening component (2) comprises a connecting rod (4) fixedly connected with the box body (1), a clasping hoop (5) which is connected with the connecting rod (4) and symmetrically arranged, a connecting lug (6) arranged at the end part of the clasping hoop (5) and a fastening bolt (7) used for connecting and fastening two connecting lugs (6), the separation pipe (3) comprises a feeding pipe (8), a first filtering pipe (9) connected with the feeding pipe (8) and a first discharging pipe (10) connected with the feeding pipe (8), the feeding pipe (8) runs through the box body (1) and extends to the outer side, the first filtering pipe (9) is obliquely arranged at the left lower side of the feeding pipe (8), the device is characterized in that the first discharging pipe (10) is obliquely arranged at the lower right side of the inlet pipe (8), a first filter screen (11) is further arranged at the joint of the first filtering pipe (9) and the inlet pipe (8), a miniature vibrator (12) is further arranged below the first filter screen (11), a first electromagnetic valve (13) is further arranged at the joint of the first discharging pipe (10) and the inlet pipe (8), a first storage box (14) is further connected to the output end of the first discharging pipe (10), the first storage box (14) is arranged on the side wall of the box body (1) and can be opened and closed in a sliding mode, an at least one particle size separating structure (15) is further connected and mounted at the output end of the first filtering pipe (9), a second filter screen (16) is arranged in the particle size separating structure (15), and the mesh size of the second filter screen (16) is smaller than that of the first filter screen (11), the particle size separation structure is characterized in that a supporting seat (17) is further arranged below the particle size separation structure (15), a control switch (18) is further arranged on the outer side of the box body (1), and the control switch (18) is electrically connected with the micro vibrator (12) and the first electromagnetic valve (13) respectively.

2. The automatic diamond particle size separation device of claim 1, wherein: the fastening assemblies (2) are uniformly distributed in M numbers, and M is more than or equal to 2.

3. An automated diamond particle size separation apparatus as claimed in claim 2, wherein: a spongy cushion is arranged on the inner side of the clasping hoop (5) of the fastening assembly (2).

4. The automatic diamond particle size separation device of claim 1, wherein: the upper end of the feeding pipe (8) is also connected with a feeding funnel (19).

5. The automatic diamond particle size separation device of claim 1, wherein: particle size separation structure (15) including with second filter tube (20) that first filter tube (9) link to each other, with second discharging pipe (21) that first filter tube (9) link to each other and with second storage box (22) that second discharging pipe (21) link to each other, and second filter tube (20) with the junction of first filter tube (9) sets up second filter screen (16), second discharging pipe (21) with the junction of first filter tube (9) is provided with second solenoid valve (23), just second solenoid valve (23) with control switch (18) electric connection.

6. An automated diamond particle size separation apparatus as claimed in claim 5, wherein: the particle size separation structures (15) are divided into two groups.

7. An automated diamond particle size separation apparatus as claimed in claim 6, wherein: a micro vibrator (12) is also arranged below the second filter screen (16) in the granularity separation structure (15).

8. The automatic diamond particle size separation device of claim 1, wherein: the outer side walls of the first storage box (14) and the second storage box (22) are both transparent glass plates.

9. The automated diamond grain size separation device of claim 8, wherein: the first storage box (14) and the second storage box (22) are respectively fixedly installed on the box body (1) through electromagnetic locks, and the electromagnetic locks are electrically connected with the control switch (18).

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