CN217747525U - Fault observation mechanism of high-speed continuous flow centrifugal machine - Google Patents

Abstract

The utility model provides a high-speed continuous flow centrifuge fault observation mechanism, include: a housing; the limiting frame is fixedly arranged inside one side of the shell, a first sliding groove is formed in one side of the inner side surface of the limiting frame, a transparent plate is fixedly arranged on the inner side surface of the limiting frame, and a second sliding groove is fixedly formed in the other side of the inner side surface of the limiting frame; and the moving plate is arranged on the inner side surface of the moving frame. The utility model provides a pair of high-speed continuous flow centrifuge fault observation mechanism, through transparent plate and lighting assembly, the user can observe centrifuge's inside when not dismantling centrifuge, seeks the position of damage, then confirms, dismantles centrifuge again, so can be before dismantling just can be accurate the position of location damage, conveniently dismantle the maintenance, increased work efficiency, also alleviateed staff's labour.

Description

Fault observation mechanism of high-speed continuous flow centrifugal machine

Technical Field

The utility model relates to a centrifuge technical field especially relates to a high-speed continuous flow centrifuge fault observation mechanism.

Background

The centrifugal machine is a machine for separating components in a mixture of liquid and solid particles or liquid and liquid by utilizing centrifugal force, and is mainly used for separating the solid particles from the liquid in suspension or separating two liquids which have different densities and are not mutually soluble in emulsion; it can also be used to remove liquids from wet solids, such as by spin drying clothes in a washing machine; the special overspeed tubular separator can also separate gas mixtures with different densities; some settling centrifuges can also grade solid particles according to density or granularity by utilizing the characteristic that solid particles with different densities or granularities have different settling speeds in liquid.

At present, the centrifugal machine casing of great majority all adopts closed structure, consequently covers the back when centrifugal machine's cap, and inside people just can not observe centrifugal machine, when centrifugal machine damages and can not use, the staff need dismantle centrifugal machine and investigate inside, owing to the position that can't confirm the damage, so the staff need dismantle a large amount of parts when overhauing the investigation, the consuming time and the power of operation getting up.

Therefore, it is necessary to provide a fault observation mechanism for a high-speed continuous flow centrifuge to solve the above technical problems.

SUMMERY OF THE UTILITY MODEL

The utility model provides a high-speed continuous flow centrifuge fault observation mechanism has solved when dismantling the maintenance to centrifuge, can't confirm to damage the position and need dismantle the problem of a large amount of parts power consumptive time.

In order to solve the technical problem, the utility model provides a pair of high-speed continuous flow centrifuge fault observation mechanism, include:

a housing;

the limiting frame is fixedly arranged inside one side of the shell, a first sliding groove is formed in one side of the inner side surface of the limiting frame, a transparent plate is fixedly arranged on the inner side surface of the limiting frame, and a second sliding groove is fixedly formed in the other side of the inner side surface of the limiting frame;

the movable plate is arranged on the inner side surface of the limiting frame, limiting plates are fixedly mounted at two ends of the movable plate, and the limiting plates are respectively connected to the inner side surface of the first sliding chute in a sliding mode;

the fixed plate is connected to the inner side face of the second sliding groove in a sliding mode through a clamping plate, a lighting assembly is fixedly installed on one side of the fixed plate, and installation grooves are formed in the two ends of the fixed plate;

and the magnets are fixedly arranged on one sides of the fixed plate and the movable plate respectively.

Preferably, a second sliding groove and a first sliding groove are respectively arranged on two sides of the transparent plate.

Preferably, limiting plates are fixedly mounted at the top and the bottom of the inner side surface of the mounting groove, a sliding groove is formed in one side of each limiting plate, sliding rods are fixedly mounted on two sides of the inner side surface of the sliding groove, sliding plates are connected to the outer side surfaces of the sliding rods in a sliding mode, springs are arranged on two sides of each sliding plate, and the springs are sleeved on the outer side surfaces of the sliding rods respectively.

Preferably, a rotating shaft is fixedly mounted on one side of the sliding plate, and the outer side surface of the rotating shaft is rotatably connected with a roller.

Preferably, the top fixed mounting of one side of fixed plate has fixed box, the equal fixed mounting in both sides of the medial surface of fixed box has the torsional spring, the one end fixed mounting of torsional spring has the dwang.

Preferably, the both ends of dwang rotate respectively connect in the both sides of the medial surface of fixed box, the lateral surface fixed mounting of dwang has the take-up pulley.

Preferably, the outer side face of the take-up pulley is sleeved with a power line, and one end of the power line penetrates through the inner side face of the fixing box and extends to the outer side face.

Compared with the prior art, the utility model provides a pair of high-speed continuous flow centrifuge fault observation mechanism has following beneficial effect:

the utility model provides a high-speed continuous flow centrifuge fault observation mechanism, through transparent plate and lighting assembly, the user can observe centrifuge's inside when not dismantling centrifuge, seeks the position of damage, then confirms, dismantles centrifuge again, so can be before dismantling just can be accurate the position of location damage, conveniently dismantle the maintenance, increased work efficiency, also alleviateed staff's labour.

Drawings

Fig. 1 is a schematic structural diagram of a first embodiment of a fault observation mechanism of a high-speed continuous flow centrifuge according to the present invention;

FIG. 2 is a schematic cross-sectional view of the limiting frame shown in FIG. 1;

FIG. 3 is a schematic side view of the moving plate, the limiting plate and the magnet shown in FIG. 1;

FIG. 4 is a side view of the mounting plate and lighting assembly of FIG. 1;

fig. 5 is a schematic view of the bottom structure of the limiting plate shown in fig. 1;

FIG. 6 is an enlarged view of the portion A shown in FIG. 1;

FIG. 7 is an enlarged view of the portion B shown in FIG. 4;

fig. 8 is a schematic structural diagram of a second embodiment of a fault observation mechanism of a high-speed continuous flow centrifuge according to the present invention;

fig. 9 is an enlarged view of the portion C shown in fig. 8.

Reference numbers in the figures: 1. the wire winding device comprises a shell, 2, a limiting frame, 21, a first limiting groove, 22, a transparent plate, 23, a second sliding groove, 3, a moving plate, 31, a limiting plate, 32, a pushing plate, 33, a magnet, 4, a fixing plate, 41, a lighting assembly, 5, a limiting plate, 51, a mounting groove, 52, a sliding groove, 53, a sliding rod, 54, a spring, 55, a sliding plate, 56, a rotating shaft, 57, a roller, 6, a fixing box, 61, a torsion spring, 62, a rotating rod, 63, a wire winding wheel, 64 and a power wire.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and embodiments.

First embodiment

Please refer to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6 and fig. 7 in combination, wherein fig. 1 is a schematic structural diagram of a first embodiment of a fault observation mechanism for a high-speed continuous flow centrifuge according to the present invention; FIG. 2 is a schematic cross-sectional view of the limiting frame shown in FIG. 1; FIG. 3 is a schematic side view of the moving plate, the limiting plate and the magnet shown in FIG. 1; FIG. 4 is a side view of the mounting plate and lighting assembly of FIG. 1; fig. 5 is a schematic view of the bottom structure of the limiting plate shown in fig. 1; FIG. 6 is an enlarged view of portion A of FIG. 1; fig. 7 is an enlarged view of the portion B shown in fig. 4. A high-speed continuous flow centrifuge fault observation mechanism comprising: a housing 1;

the housing 1 is a housing 1 of a centrifuge.

The limiting frame 2 is fixedly arranged inside one side of the shell 1, a first sliding groove 21 is formed in one side of the inner side face of the limiting frame 2, a transparent plate 22 is fixedly arranged on the inner side face of the limiting frame 2, and a second sliding groove 23 is fixedly formed in the other side of the inner side face of the limiting frame 2;

limiting frame 2 is installed at the side that is used for the driven position in centrifuge bottom, conveniently observes the inside driven spare part of centrifuge through transparent plate 22.

The movable plate 3 is arranged on the inner side surface of the limiting frame 2, limiting plates 31 are fixedly mounted at two ends of the movable plate 3, and the limiting plates 31 are respectively connected to the inner side surface of the first sliding groove 21 in a sliding manner;

the moving plate 3 slides on one side of the limit frame 2 through the limit plate 31, and the two magnets 33 are both installed on one side close to the transparent plate 22, so that the magnetic force of the magnets 33 is not completely blocked by the interval of the transparent plate 22 when in use.

The fixing plate 4 is connected to the inner side surface of the second sliding chute 23 in a sliding mode through a clamping plate, the lighting assembly 41 is fixedly installed on one side of the fixing plate 4, and installation grooves 51 are formed in the two ends of the fixing plate 4;

and magnets 33, wherein the magnets 33 are fixedly mounted on one side of the fixed plate 4 and one side of the moving plate 3, respectively.

The two sides of the transparent plate 22 are respectively provided with a second sliding chute 23 and a first sliding chute 21.

The top and the bottom of the inner side surface of the mounting groove 51 are both fixedly provided with a limiting plate 5, one side of the limiting plate 5 is provided with a sliding groove 52, both sides of the inner side surface of the sliding groove 52 are both fixedly provided with a sliding rod 53, the outer side surface of the sliding rod 53 is slidably connected with a sliding plate 55, both sides of the sliding plate 55 are both provided with springs 54, and the springs 54 are respectively sleeved on the outer side surface of the sliding rod 53.

The two springs 54 push the roller 57 toward the center, restrain the fixed plate 4, and enhance the sliding ability of the fixed plate 4 to facilitate sliding.

A rotating shaft 56 is fixedly mounted on one side of the sliding plate 55, and a roller 57 is rotatably connected to the outer side surface of the rotating shaft 56.

The utility model provides a pair of high-speed continuous flow centrifuge fault observation mechanism's theory of operation as follows:

when the inside of centrifuge is damaged, turn on illumination component 41 through switch, then move moving plate 3 through push pedal 32, moving plate 3 is inhaled mutually through two magnet 33 this moment, is driving fixed plate 4, moves in one side of transparent plate 22 to fixed plate 4 drives illumination component 41 and moves in the inside of centrifuge, and the user can see through transparent plate 22 inside centrifuge this moment, and through the removal to illumination component 41, can be to the inside multiple-range illumination of centrifuge.

Compared with the prior art, the utility model provides a pair of high-speed continuous flow centrifuge fault observation mechanism has following beneficial effect:

through transparent plate 22 and lighting assembly 41, the user can observe the inside of centrifuge when not dismantling centrifuge, look for the position of damage, then confirm, dismantle centrifuge again, so can be before dismantling just can be accurate the position of location damage, conveniently dismantle the maintenance, increased work efficiency, also alleviateed staff's labour.

Second embodiment

Referring to fig. 8 and 9 in combination, a second embodiment of the present application provides another high-speed continuous flow centrifuge fault observation mechanism based on a high-speed continuous flow centrifuge fault observation mechanism provided by the first embodiment of the present application. The second embodiment is only the preferred mode of the first embodiment, and the implementation of the second embodiment does not affect the implementation of the first embodiment alone.

Specifically, the difference that a high-speed continuous flow centrifuge fault observation mechanism that the second embodiment of this application provided lies in, a high-speed continuous flow centrifuge fault observation mechanism, the top fixed mounting of one side of fixed plate 4 has fixed box 6, the equal fixed mounting in both sides of the medial surface of fixed box 6 has torsional spring 61, the one end fixed mounting of torsional spring 61 has dwang 62.

The both ends of dwang 62 rotate respectively connect in the both sides of the medial surface of fixed box 6, the lateral surface fixed mounting of dwang 62 has take-up pulley 63.

The outer side face of the take-up pulley 63 is sleeved with a power line 64, and one end of the power line 64 penetrates through the inner side face of the fixing box 6 and extends to the outer side face.

The utility model provides a pair of high-speed continuous flow centrifuge fault observation mechanism's theory of operation as follows:

when the time, fixed plate 4 is followed the movable plate 3 and is removed, when the power cord 64 that fixed plate 4 kept away from and the inside power connection department of centrifuge, take-up pulley 63 can turn over inversely, emits power cord 64, and dwang 62 is at the one end antiport of torsional spring 61 this moment, and torsional spring 61 tightens up, when the original way returns, can accomodate power cord 64 to the above of take-up pulley 63 again through the elasticity of torsional spring 61.

Compared with the prior art, the utility model provides a pair of high-speed continuous flow centrifuge fault observation mechanism has following beneficial effect:

through the rotation of torsional spring 61, can accomodate power cord 64 through dwang 62 and take-up pulley 63, prevent to twine in centrifuge's inside and cause centrifuge's damage.

The above only is the embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures or equivalent processes of the present invention are used in the specification and the attached drawings, or directly or indirectly applied to other related technical fields, and the same principle is included in the protection scope of the present invention.

Claims (7)

1. A high-speed continuous flow centrifuge fault observation mechanism, comprising:

a housing;

the limiting frame is fixedly arranged inside one side of the shell, a first sliding groove is formed in one side of the inner side surface of the limiting frame, a transparent plate is fixedly arranged on the inner side surface of the limiting frame, and a second sliding groove is fixedly formed in the other side of the inner side surface of the limiting frame;

the movable plate is arranged on the inner side surface of the limiting frame, limiting plates are fixedly arranged at two ends of the movable plate, and the limiting plates are respectively connected to the inner side surface of the first sliding chute in a sliding mode;

the fixed plate is connected to the inner side face of the second sliding groove in a sliding mode through a clamping plate, a lighting assembly is fixedly installed on one side of the fixed plate, and installation grooves are formed in the two ends of the fixed plate;

and the magnets are fixedly arranged on one sides of the fixed plate and the movable plate respectively.

2. The mechanism of claim 1, wherein the transparent plate is provided with a second sliding groove and a first sliding groove on two sides.

3. The mechanism of claim 1, wherein a limiting plate is fixedly installed on the top and the bottom of the inner side of the mounting groove, a sliding groove is formed on one side of the limiting plate, a sliding rod is fixedly installed on both sides of the inner side of the sliding groove, a sliding plate is slidably connected to the outer side of the sliding rod, and springs are disposed on both sides of the sliding plate and are respectively sleeved on the outer side of the sliding rod.

4. The mechanism of claim 3, wherein a rotating shaft is fixedly installed on one side of the sliding plate, and a roller is rotatably connected to an outer side surface of the rotating shaft.

5. The mechanism of claim 1, wherein a fixing box is fixedly installed at a top of one side of the fixing plate, torsion springs are fixedly installed at two sides of an inner side surface of the fixing box, and a rotating rod is fixedly installed at one end of each torsion spring.

6. The mechanism of claim 5, wherein two ends of the rotating rod are rotatably connected to two sides of the inner side surface of the fixing box, and a take-up pulley is fixedly mounted on the outer side surface of the rotating rod.

7. The mechanism of claim 6, wherein the outer side of the take-up pulley is sleeved with a power cord, and one end of the power cord penetrates through the inner side of the fixing box and extends to the outer side.

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