CN217688153U - Mould for pressing artificial square rock core sample - Google Patents

Abstract

The utility model belongs to the technical field of artifical square rock core, especially, be a mould of artifical square rock core sample of suppression includes the depressor main part, and fixed mounting has a plurality of support column below the depressor main part, and one side fixed mounting of depressor main part has the locating plate, and the locating plate has surely closed the qianmen, and the qianmen is located the one side of depressor main part, and the center runs through there is the spiral post below the qianmen, installs the circulator below the spiral post, and the another side fixed mounting of depressor main part has overhead briquetting. Through the both sides pressfitting that is equipped with, when placing the sample on the depressor main part, start asynchronous machine, it is rotatory to drive the gear through the pivot for the gear rack is inside to be removed, and the removal of gear rack makes the extrusion piece to suppress to the center of depressor main part surface this moment, makes the sample accomplish the suppression that comes both sides through left pressfitting and right pressfitting.

Description

Mould for pressing artificial square rock core sample

Technical Field

The utility model belongs to the technical field of artifical square core, concretely relates to mould of artifical square core sample of suppression.

Background

The core is a cylindrical rock sample taken out from a hole and ore or ore containing rock or ore taken out from an ore body or an ore bed of solid mineral products by using an annular core drill bit and other coring tools according to the requirements of geological exploration work or engineering, the core is called a core, the core is important physical geological data for researching and knowing underground geology and mineral product conditions, in the process of mineral exploration and development, drilling work needs to be carried out according to the geological designed stratum horizon and depth, the coring tools are put into a well, the rock sample taken out is drilled, the core is the most visual and practical data for knowing underground stratum and ore containing characteristics, and the core has two modes of well wall coring and well drilling coring, and the latter mode is usually taken as the main mode.

The existing artificial core brings great convenience for work, the existing artificial core is inconvenient to press in the processing process, and the manual pressing is not suitable for pressing due to insufficient accuracy, so that the artificial core needs to be improved.

SUMMERY OF THE UTILITY MODEL

For solving the above-mentioned problem that exists among the prior art, the utility model provides a mould of artifical square rock core sample of suppression has the characteristics of convenient suppression.

In order to achieve the above object, the utility model provides a following technical scheme: including the depressor main part, fixed mounting has a plurality of support column below the depressor main part, the one side fixed mounting of depressor main part has the locating plate, the locating plate has the qianmen to close surely, the qianmen is located the one side of depressor main part, the center runs through there is the spiral post below the qianmen, install the circulator below the spiral post, the another side fixed mounting of depressor main part has overhead suppression piece, overhead suppression piece is including the driving motor fixed plate that is located depressor main part one side, center department sets up slottedly below the depressor main part, both sides suppression piece is installed to the both sides of depressor main part, both sides suppression piece is including the asynchronous machine fixed plate that is located below the depressor main part. As the utility model discloses an optimal technical scheme of mould of artifical square core sample of suppression, the fixed surface of asynchronous machine fixed plate installs asynchronous machine, asynchronous machine has cup jointed the pivot, the surperficial coincidence of pivot has the gear, the surface toothing of gear has left presswork and right presswork, left side presswork and right presswork set up and are located the inner chamber of presser main part for the symmetry.

As the utility model discloses an optimal technical scheme of mould of artifical square core sample of suppression, left side briquetting is including the gear rack that is located presser main part inner chamber, the surface laminating of gear rack has the locating plate two that is located above the presser main part inner chamber, slotted two are seted up to one side of gear rack, the surface of groove two has the locating lever to engage.

As the utility model discloses a preferred technical scheme of mould of artifical square core sample of suppression, the one end fixed mounting of locating lever has the fixed plate, the fixed plate is located the inner chamber of presser main part, the spring is installed to the one side of fixed plate, the one end of spring is connected with the rack.

As the utility model discloses an optimal technical scheme of mould of artifical square core sample of suppression, the opposite side fixed mounting of rack has the extrusion piece, set up slotted three below the extrusion piece, the size in groove three is the same with the upper surface of pressing ware main part.

As the utility model discloses a preferred technical scheme of mould of artifical square core sample of suppression, fixed mounting has two gyro wheels below the extrusion piece, the gyro wheel sets up and is located the lower surface of presser main part inner chamber for the symmetry, the extrusion piece part runs through in the side of presser main part and is higher than the presser main part.

As the utility model discloses a preferred technical scheme of mould of artifical square core sample of suppression, the fixed surface of driving motor fixed plate installs driving motor, driving motor has cup jointed the disc, the one side fixed mounting of disc has the effect post, the effect post is located one side at disc center.

As the utility model discloses a preferred technical scheme of mould of artifical square core sample of suppression, the surface of action post articulates there is movable rod one, the one end of movable rod one articulates there is movable rod two, the movable rod two is located the higher authority of presser main part.

As the utility model discloses a preferred technical scheme of mould of artifical square core sample of suppression, the surface of movable rod two articulates there is the fulcrum board, the fulcrum board is located the higher authority of presser main part, and is higher than the presser main part.

As the utility model discloses a preferred technical scheme of mould of artifical square core sample of suppression, the one end of movable rod two articulates there is the connecting block, fixed mounting has heavy board below the connecting block, the connecting block is higher than the fulcrum board, heavy board is located the presser main part and just is higher than the presser main part directly over.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses when using, through the both sides pressware that is equipped with, when placing the sample the higher authority of presser main part, start asynchronous machine, it is rotatory to drive the gear through the pivot, make the gear strip inwards remove, the removal of gear strip makes the extrusion piece to suppress to presser main part surface center this moment, make the sample accomplish the suppression that comes both sides through left pressware and right pressware, the staff when using, only need put suitable position and just can accomplish the suppression through both sides pressware, it is very convenient.

2. The utility model discloses when using, through the overhead pressfitting that is equipped with, can drive the disc through start-up driving motor when the sample is put suitable position and remove for the disc drives two upper and lower functions of movable rod, and two can make the connecting block drive heavy board through the fulcrum of fulcrum board this moment, and it can make heavy board exert the power of suppression downwards to rotate at inferior, accomplishes the suppression above the sample.

Drawings

The accompanying drawings 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 invention and not to limit the invention. In the drawings:

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

fig. 2 is a schematic top view of the present invention;

FIG. 3 is a schematic view of a partial structure of the present invention;

fig. 4 is a schematic diagram of the inner cavity structure of the present invention;

fig. 5 is a schematic diagram of the explosion structure of the present invention.

In the figure: 1-a press body; 2-a support column; 3, positioning a plate; 4-front door; 5-a spiral column; 6-a rotator; 7-two-side pressing piece; 8-placing a pressing piece on the base; 9-groove one; 81-driving motor fixing plate; 82-a drive motor; 83-a disc; 84-action column; 85-a movable rod I; 86-a second movable rod; 87-connecting blocks; 88-heavy plates; 89-fulcrum plate; 700-left pressed; 711-right pressware; 71-asynchronous motor fixing plate; 72-an asynchronous machine; 73-a rotating shaft; 74-gear; 75-a gear rack; 76-groove two; 77-extrusion block; 78-groove three; 79-roller; 751-a second positioning plate; 761-positioning rod; 762-a spring; 763 fixing the plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

Examples

Referring to fig. 1-5, the present invention provides the following technical solutions: the utility model provides a mould of suppression artifical square rock core sample includes presser main part 1, its characterized in that: the following fixed mounting of depressor main part 1 has a plurality of support column 2, the one side fixed mounting of depressor main part 1 has locating plate 3, locating plate 3 has front door 4 to coincide, front door 4 is located the one side of depressor main part 1, the center runs through spiral post 5 below front door 4, install circulator 6 below spiral post 5, the another side fixed mounting of depressor main part 1 has overhead briquetting 8, overhead briquetting 8 is including the driving motor fixed plate 81 that is located the one side of depressor main part 1, center department sets up slotted 9 below the depressor main part 1, both sides briquetting 7 is installed to the both sides of depressor main part 1, both sides briquetting 7 is including the asynchronous machine fixed plate 71 that is located below the depressor main part 1.

The sample is pressed from both sides by the pressing pieces 7 on both sides, pressed from above by the upper pressing piece 8, and rotated by the rotator 6 to make the spiral column 5 drive the front door 4 to rise, so as to achieve the purpose of closing.

The surface of the asynchronous motor fixing plate 71 is fixedly provided with an asynchronous motor 72, the asynchronous motor 72 is sleeved with a rotating shaft 73, the surface of the rotating shaft 73 is matched with a gear 74, the surface of the gear 74 is engaged with a left pressing piece 700 and a right pressing piece 711, and the left pressing piece 700 and the right pressing piece 711 are symmetrically arranged and are positioned in the inner cavity of the pressing device main body 1.

The asynchronous motor 72 rotates to enable the integral left pressing piece 700 and the integral right pressing piece 711 to move inwards to apply pressure to the sample, so that the integral operation of the pressing pieces 7 on the two sides is achieved.

The left pressing piece 700 comprises a gear strip 75 positioned in the inner cavity of the pressing device main body 1, a second positioning plate 751 positioned on the upper surface of the inner cavity of the pressing device main body 1 is attached to the surface of the gear strip 75, a second groove 76 is formed in one side of the gear strip 75, and a positioning rod 761 is fitted on the surface of the second groove 76.

The second positioning plate 751 can position the gear bar 75 without sliding, and the positioning rod 761 is engaged in the second groove 76 to assist in positioning the gear bar 75.

A fixing plate 763 is fixedly installed at one end of the positioning rod 761, the fixing plate 763 is located in an inner cavity of the main body 1 of the pressing device, a spring 762 is installed on one surface of the fixing plate 763, and a gear rack 75 is connected to one end of the spring 762.

The spring 762 may provide a certain resilient force to the rack 75 when moving inward, so that it runs smoothly.

The other side of the rack 75 is fixedly provided with an extrusion block 77, the lower surface of the extrusion block 77 is provided with a groove III 78, and the size of the groove III 78 is the same as that of the upper surface of the main body 1 of the pressing device.

The pressing block 77 is a pressed block of a sample, which can effectively apply pressure, and the groove three 78 is engaged with the surface of the main body 1 of the press, so that the rack 75 is not jammed when moving.

Two rollers 79 are fixedly mounted below the extrusion block 77, the rollers 79 are symmetrically arranged and are positioned on the lower surface of the inner cavity of the presser main body 1, and the extrusion block 77 partially penetrates through the side surface of the presser main body 1 and is higher than the presser main body 1.

The roller 79 bears the pressure of the extrusion block 77, and the extrusion block 77 can move smoothly.

The surface of the driving motor fixing plate 81 is fixedly provided with a driving motor 82, the driving motor 82 is sleeved with a disc 83, one surface of the disc 83 is fixedly provided with an action column 84, and the action column 84 is positioned on one side of the center of the disc 83.

The rotation of the disc 83 causes the entire upper press 8 to operate and the action post 84 imparts a moving force to the movable rod 85.

The surface of the action column 84 is hinged with a first movable rod 85, one end of the first movable rod 85 is hinged with a second movable rod 86, and the second movable rod 86 is positioned on the upper surface of the presser main body 1.

The first movable rod 85 drives the second movable rod 86, so that the second movable rod 86 can tilt and fall.

The surface of the second movable rod 86 is hinged with a fulcrum plate 89, and the fulcrum plate 89 is positioned on the upper surface of the presser main body 1 and is higher than the presser main body 1.

The fulcrum plate 89 allows the second movable lever 86 to form a fulcrum to facilitate lifting the weight plate 88.

One end of the second movable rod 86 is hinged with a connecting block 87, a heavy plate 88 is fixedly mounted below the connecting block 87, the connecting block 87 is higher than the fulcrum plate 89, and the heavy plate 88 is positioned right above the presser main body 1 and higher than the presser main body 1.

The connecting block 87 is used for receiving the second movable rod 86 and the heavy plate 88, so that the heavy plate 88 can keep planar movement.

The utility model discloses a theory of operation and use flow: the utility model discloses in the in-process that uses, at first place artifical square rock core sample on presser main part 1, make 6 rotatory drive spiral posts of circulator 5, make qianmen 4 can close preceding empty mouth at the location of locating plate 3 below the rebound, then both sides pressfitting 7 through being equipped with, start asynchronous motor 72, it is rotatory to drive gear 74 through pivot 73, make gear strip 75 inside shift, the removal of gear strip 75 makes extrusion piece 77 suppress to presser main part 1 surface center this moment, make the sample accomplish the suppression that comes both sides through left pressfitting 700 and right pressfitting 711, then through the overhead pressfitting 8 that is equipped with, it removes to start driving motor 82 drive disc 83, make disc 83 drive two 86 upper and lower functions of movable rod, two 86 of movable rod can make connecting block 87 drive heavy board 88 upwards through the fulcrum of fulcrum board 89 this moment, the power that can make heavy board 88 exert the suppression downwards rotates once, accomplish the suppression above the sample, make the sample obtain abundant suppression.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a mould of suppression artifical square core sample, includes depressor main part (1), its characterized in that: the utility model discloses a novel hydraulic press, including depressor main part (1), fixed mounting has a plurality of support column (2) below depressor main part (1), the one side fixed mounting of depressor main part (1) has locating plate (3), locating plate (3) have qianmen (4) to coincide, qianmen (4) are located the one side of depressor main part (1), the center runs through spiral post (5) below qianmen (4), install circulator (6) below spiral post (5), the another side fixed mounting of depressor main part (1) has overhead pressware (8), overhead pressware (8) are including driving motor fixed plate (81) that are located depressor main part (1) one side, center department below the depressor main part (1) sets up slotted (9), both sides pressware (7) are installed to the both sides of depressor main part (1), both sides pressware (7) are including asynchronous motor fixed plate (71) that are located below the depressor main part (1).

2. The mold for pressing an artificial square core sample according to claim 1, wherein: the surface fixed mounting of asynchronous motor fixed plate (71) has asynchronous motor (72), asynchronous motor (72) have cup jointed pivot (73), the surperficial coincidence of pivot (73) has gear (74), the surface meshing of gear (74) has left presswork (700) and right presswork (711), left side presswork (700) and right presswork (711) are the inner chamber of symmetry setting and lie in presser main part (1).

3. The mold for pressing an artificial square core sample according to claim 2, wherein: the left pressing piece (700) comprises a gear strip (75) located in the inner cavity of the pressing device main body (1), a second positioning plate (751) located on the inner cavity of the pressing device main body (1) is attached to the surface of the gear strip (75), a second groove (76) is formed in one side of the gear strip (75), and a positioning rod (761) is fitted on the surface of the second groove (76).

4. A mold for pressing an artificial square core sample according to claim 3, wherein: one end fixed mounting of locating lever (761) has fixed plate (763), fixed plate (763) are located the inner chamber of presser main part (1), spring (762) are installed to the one side of fixed plate (763), the one end of spring (762) is connected with rack (75).

5. A mold for pressing an artificial square core sample according to claim 3, wherein: the gear rack is characterized in that an extrusion block (77) is fixedly mounted on the other side of the gear rack (75), a groove III (78) is formed in the lower surface of the extrusion block (77), and the size of the groove III (78) is the same as that of the upper surface of the presser main body (1).

6. The mold for pressing an artificial square core sample according to claim 5, wherein: two gyro wheels (79) are fixedly mounted below the extrusion piece (77), gyro wheel (79) are the lower surface that the symmetry set up and lie in squeezer main part (1) inner chamber, extrusion piece (77) part runs through in the side of squeezer main part (1) and is higher than squeezer main part (1).

7. The mold for pressing an artificial square core sample according to claim 1, wherein: the surface fixed mounting of driving motor fixed plate (81) has driving motor (82), driving motor (82) has cup jointed disc (83), the one side fixed mounting of disc (83) has effect post (84), effect post (84) are located one side at disc (83) center.

8. The mold for pressing an artificial square core sample according to claim 7, wherein: the surface of the action column (84) is hinged with a first movable rod (85), one end of the first movable rod (85) is hinged with a second movable rod (86), and the second movable rod (86) is located on the upper surface of the presser main body (1).

9. The mold for pressing an artificial square core sample according to claim 8, wherein: the surface of the second movable rod (86) is hinged with a fulcrum plate (89), and the fulcrum plate (89) is positioned on the presser main body (1) and is higher than the presser main body (1).

10. The mold for pressing an artificial square core sample according to claim 8, wherein: one end of the second movable rod (86) is hinged to a connecting block (87), a heavy plate (88) is fixedly mounted below the connecting block (87), the connecting block (87) is higher than the fulcrum plate (89), and the heavy plate (88) is located over the presser main body (1) and is higher than the presser main body (1).

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