CN215310494U - Vacuum concentration device for extracting agar - Google Patents

Abstract

The utility model relates to the technical field of agar processing, in particular to a vacuum concentration device for extracting agar, which comprises a vacuum compression box, a feed hopper, a blocking component, a vacuum compression component and the like; one side of the vacuum compression box is connected with a feed hopper, the vacuum compression box is provided with a separation component, and the vacuum compression box is provided with a vacuum compression component. Through the inclined plane board and the cooperation of pushing away from board and last device, the inclined plane board can drive and push away from board and the direction motion of last device towards keeping away from electric putter, the agar residue on the filter sieve otter board can promote the direction motion of baffler towards keeping away from each other, make the baffler board no longer plug up the vacuum compression case, thereby make the opening that the agar residue on the filter sieve otter board passes through on the vacuum compression case drop to other collecting device on, clear up the agar residue on the filter sieve otter board through pushing away from the board, the follow-up use of can being convenient for, reached and to have can be automatically with the effect of filtering the agar residue on the sieve otter board and clear away.

Description

Vacuum concentration device for extracting agar

Technical Field

The utility model relates to the technical field of agar processing, in particular to a vacuum concentration device for extracting agar.

Background

Agar is a colorless solid without fixed shape, is dissolved in hot water, is mainly prepared from eucheuma or cauliflower in Hainan, is called agar by people because the acronym of Hainan is agar, has wide application in the aspects of food industry, pharmaceutical industry, daily chemical industry, bioengineering and the like, and is often used as a culture medium, an ointment base and other purposes in chemical industry and medical scientific research.

Agar needs to filter it when the preparation, prior art is for improving the filter effect, adopt the multiple stage filtration mode mostly, adopt a plurality of filter screens promptly, but current filtering method still has the weak point, do not possess the agar raw materials to the filter screen and carry out extruded function, simultaneously because every filter screen is all fixed, agar concentrates on a certain department of filter screen easily and filters, lead to the low-usage of filter screen, and the filter screen is inside this equipment, lead to being difficult to wasing the filter screen, can not satisfy people's user demand.

SUMMERY OF THE UTILITY MODEL

In view of the above, it is necessary to provide a vacuum concentration apparatus for agar extraction, which can sufficiently extrude and filter an agar raw material and can automatically remove agar residue on a filter screen for subsequent operations, so as to solve the problems of the background art that the function of extruding the agar raw material on the filter screen is not provided, the utilization rate of the filter screen is low, and the cleaning is difficult.

The technical scheme is as follows: the utility model provides a draw vacuum concentration device that agar was used, pushes away from subassembly and ejection of compact subassembly including vacuum compression case, feeder hopper, separation subassembly, vacuum compression subassembly, impurity, and the hookup of vacuum compression case one side has the feeder hopper, is equipped with the separation subassembly on the vacuum compression case, is equipped with the vacuum compression subassembly on the vacuum compression case, is equipped with impurity on the vacuum compression case and pushes away from the subassembly, is equipped with ejection of compact subassembly on the vacuum compression case.

Furthermore, the separation assembly comprises a separation plate and a separation spring, the vacuum compression box is connected with a pair of separation plates in a sliding mode, the two separation plates are in contact, and the separation spring is symmetrically connected between the separation plates and the vacuum compression box.

Furthermore, the vacuum compression assembly comprises an electric push rod, an L-shaped rod, a drive plate, buffer springs, a compression plate and a filter screen plate, the electric push rod is connected to the outer side of the vacuum compression box, the L-shaped rod is connected to one end of the electric push rod, the drive plate is connected to the bottom end of the L-shaped rod, the drive plate is in sliding fit with the vacuum compression box, four buffer springs are connected to the bottom of the drive plate in a distributed mode, the compression plate is connected to the other end of each buffer spring, the compression plate is in sliding fit with the vacuum compression box, and the filter screen plate is connected to the inside of the vacuum compression box.

Further, the impurity pushing and separating assembly comprises a support plate, a pushing and separating plate, a guide rod, a reset spring, a guide plate, an inclined plate, an extension spring, a guide plate, a guide strip, a clamping strip and a first compression spring, the support plate is connected to the vacuum compression box in a connected mode, the pushing and separating plate is connected to the vacuum compression box in a sliding mode, the guide rod is connected to the pushing and separating plate in a connected mode, the guide plate is connected to the outer side of the vacuum compression box in a sliding mode, the inclined plate is connected to the guide plate in a sliding mode, a clamping groove is formed in the inclined plate, the extension spring is connected between the inclined plate and the guide plate, the guide plate is connected to the guide plate in a connected mode, the guide strip is connected to the L-shaped rod in a connected mode, the clamping strip is connected to the guide plate in a sliding mode, the clamping strip is in contact with the guide plate, and the first compression spring is connected between the clamping strip and the guide strip.

Further, ejection of compact subassembly is including backup pad, striker plate, second compression spring, abnormal shape connecting rod and catch bar, and the hookup of vacuum compression case top has the backup pad, and the sliding type is connected with the striker plate in the backup pad, striker plate and vacuum compression case slidingtype cooperation, striker plate and feeder hopper contact, and the symmetry hookup has second compression spring between striker plate and the backup pad, and the hookup has abnormal shape connecting rod on the striker plate, has the catch bar through elastic hinge connection on the abnormal shape connecting rod.

The beneficial effects are that:

the agar raw materials on the filter screen plate are fully extruded through the compression plate, the agar raw materials meeting the production standard are filtered out through the filter screen plate, residues which do not meet the production standard are remained at the top of the filter screen plate, and because no air gap exists between the compression plate, the agar raw materials and the filter screen plate, a vacuum environment is simulated, and the effect of efficiently filtering the agar raw materials is realized.

Through the cooperation of the inside spare part of equipment, push away from the board and push away outside the equipment with remaining the agar residue on the filter sieve otter board effectively, the equipment secondary of being convenient for carries out processing to the agar raw materials, has reached the effect that can clear away the agar residue on the filter sieve otter board automatically.

The side surface of the separation plate is in a trapezoidal surface, when agar raw materials are filled in the vacuum compression box, the agar raw materials cannot flow out under the action of the separation plate, and when the push-off plate moves to be in contact with the separation plate, the separation plate can be jacked up by the push-off plate, so that agar residues can be pushed out conveniently.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

Fig. 3 is a partially cut-away perspective view of the present invention.

Figure 4 is a schematic view of a cross-sectional, separated perspective structure of the barrier assembly of the present invention.

FIG. 5 is a schematic perspective view of the vacuum compressing assembly and the discharging assembly according to the present invention.

Fig. 6 is a schematic perspective view of a portion of the impurity pushing-off assembly according to the present invention.

Fig. 7 is a partially disassembled perspective view of the impurity pushing-off assembly of the present invention.

Reference numerals: 1_ vacuum compression box, 2_ feed hopper, 3_ blocking component, 31_ blocking plate, 32_ blocking spring, 4_ vacuum compression component, 41_ electric push rod, 42_ L-shaped rod, 43_ drive plate, 44_ buffer spring, 45_ compression plate, 46_ filter screen plate, 5_ impurity push-off component, 51_ support plate, 52_ push-off plate, 53_ guide rod, 54_ return spring, 55_ guide plate, 56_ inclined plane plate, 57_ extension spring, 58_ guide plate, 59_ guide strip, 510_ clamping strip, 511_ first compression spring, 6_ discharge component, 61_ support plate, 62_ material baffle plate, 63_ second compression spring, 64_ special-shaped connecting rod and 65_ push rod.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the utility model but are not intended to limit the scope of the utility model.

Example (b): the utility model provides a draw vacuum concentration device that agar was used, as shown in fig. 1-7, including vacuum compression case 1, feeder hopper 2, separation subassembly 3, vacuum compression subassembly 4, impurity pushes away from subassembly 5 and ejection of compact subassembly 6, vacuum compression case 1 one side hookup has feeder hopper 2, be equipped with separation subassembly 3 on the vacuum compression case 1, be equipped with vacuum compression subassembly 4 on the vacuum compression case 1, be equipped with impurity on the vacuum compression case 1 and push away from subassembly 5, impurity pushes away from subassembly 5 and is used for driving the agar residue on filtering screen plate 46, be equipped with ejection of compact subassembly 6 on the vacuum compression case 1, ejection of compact subassembly 6 is used for throwing the agar raw materials into on filtering screen plate 46.

Separation subassembly 3 is including separation board 31 and separation spring 32, and the sliding type is connected with a pair of separation board 31 on vacuum compression case 1, and two separation board 31 contacts, the symmetric connection has separation spring 32 between separation board 31 and the vacuum compression case 1, and separation spring 32 is used for driving separation board 31 and resets.

The vacuum compression assembly 4 comprises an electric push rod 41, an L-shaped rod 42, a drive plate 43, a buffer spring 44, a compression plate 45 and a filter sieve plate 46, the electric push rod 41 is connected with the outer side of the vacuum compression box 1, the electric push rod 41 is used for driving the L-shaped rod 42 and a device on the L-shaped rod to reciprocate up and down, the L-shaped rod 42 is connected with one end of the electric push rod 41, the drive plate 43 is connected with the bottom end of the L-shaped rod 42, the drive plate 43 is in sliding fit with the vacuum compression box 1, the four buffer springs 44 are connected at the bottom of the drive plate 43 in a distributed manner, the compression plate 45 is connected with the other end of the four buffer springs 44, the compression plate 45 can fully extrude agar raw materials on the filter sieve plate 46 through the matching of the drive plate 43, the buffer springs 44 and the compression plate 45 are in sliding fit with the vacuum compression box 1, the filter sieve plate 46 is connected inside the vacuum compression box 1, under the action of the filter sieve plate 46, can effectively filter out residues in the agar raw material.

The impurity pushing and separating assembly 5 comprises a support plate 51, a pushing and separating plate 52, a guide rod 53, a return spring 54, a guide plate 55, an inclined plate 56, an extension spring 57, a guide plate 58, a guide strip 59, a clamping strip 510 and a first compression spring 511, the support plate 51 is connected to the vacuum compression box 1, the pushing and separating plate 52 is connected to the vacuum compression box 1 in a sliding manner, the pushing and separating plate 52 is used for cleaning agar residues on the filter screen plate 46, the guide rod 53 is connected to the pushing and separating plate 52, the guide rod 53 is in sliding fit with the support plate 51, the return spring 54 is connected between the support plate 51 and the pushing and separating plate 52, the return spring 54 is used for driving the pushing and separating plate 52 and the upper device to reset, the guide plate 55 is connected to the outer side of the vacuum compression box 1 in a sliding manner, the inclined plate 56 is connected to the guide plate 55 in a sliding manner, the inclined plate 56 is used for driving the pushing and the upper device to move towards a direction far away from the electric inclined plate 41, a clamping groove is arranged on the inclined plate 56, an extension spring 57 is connected between the inclined plane plate 56 and the guide plate 55, the extension spring 57 is used for driving the inclined plane plate 56 to reset, the guide plate 55 is connected with a guide plate 58, the L-shaped rod 42 is connected with a guide bar 59, the guide bar 59 is connected with a clamping bar 510 in a sliding mode, the clamping bar 510 is in contact with the guide plate 58, a first compression spring 511 is connected between the clamping bar 510 and the guide bar 59, and the clamping bar 510 can move along one side of the guide plate 58 through the cooperation of the first compression spring 511, the clamping bar 510 and the guide plate 58.

Discharge assembly 6 is including backup pad 61, striker plate 62, second compression spring 63, heterotypic connecting rod 64 and catch bar 65, the 1 top hookup of vacuum compression case has backup pad 61, sliding connection has striker plate 62 on backup pad 61, striker plate 62 is used for blocking feeder hopper 2, striker plate 62 and the 1 sliding type cooperation of vacuum compression case, striker plate 62 and feeder hopper 2 contact, the symmetry hookup has second compression spring 63 between striker plate 62 and the backup pad 61, second compression spring 63 is used for driving striker plate 62 and resets, the hookup has heterotypic connecting rod 64 on the striker plate 62, there is catch bar 65 through elastic hinge connection on the heterotypic connecting rod 64.

Agar raw materials are placed on the top of the filtering screen plate 46 in advance, the electric push rod 41 is controlled to be contracted manually, the L-shaped rod 42 and the device on the L-shaped rod move downwards, the compression plate 45 is matched with the driving plate 43 and the buffer spring 44, the agar raw materials on the filtering screen plate 46 are fully extruded by the compression plate 45, residues in the agar raw materials can be effectively filtered out under the action of the filtering screen plate 46, and the effect that the agar raw materials on the filtering screen plate 46 can be fully extruded and filtered is achieved.

In the process of downward movement of the L-shaped lever 42 and the device thereon, since the first compression spring 511 is in a compressed state, the first compression spring 511, the clip strip 510 and the guide plate 58 cooperate with each other, so that the clip strip 510 moves downward along one side of the guide plate 58, the clip strip 510 drives the push rod 65 to rotate in the process, then the clip strip 510 moves to the position below the push rod 65, the push rod 65 resets, then the clip strip 510 contacts the inclined plane plate 56, and the clip strip 510 is clipped into the clip slot on the inclined plane plate 56 by the cooperation of the inclined plane plate 56, the clip strip 510 and the first compression spring 511.

Then the electric push rod 41 is manually controlled to extend, so that the L-shaped rod 42 and the device thereon are reset, the clamping strip 510 drives the inclined plane plate 56 and the device thereon to move upwards, the extension spring 57 is accordingly extended, then the inclined plane plate 56 drives the push-off plate 52 and the device thereon to move away from the electric push rod 41, the reset spring 54 is accordingly compressed, the push-off plate 52 pushes the agar residues on the filter screen plate 46 to move together, the agar residues on the filter screen plate 46 pushes the blocking plate 31 to move away from each other, the blocking spring 32 is accordingly compressed, so that the blocking plate 31 does not block the vacuum compression box 1, the agar residues on the filter screen plate 46 fall onto other collection equipment through the opening on the vacuum compression box 1, the push-off plate 52 cleans the agar residues on the filter screen plate 46, and the subsequent use can be facilitated, the effect of automatically removing the agar residue on the filter screen plate 46 is achieved, and when the agar residue on the filter screen plate 46 completely falls out, the blocking plate 31 is reset under the reset action of the blocking spring 32.

Subsequently, under the guiding action of the guide plate 58, the clamping strip 510 can be separated from the inclined plane plate 56, the inclined plane plate 56 can be reset under the resetting action of the extension spring 57, the push-off plate 52 and the device thereon can be reset under the resetting action of the reset spring 54, then the clamping strip 510 can drive the push rod 65 and the device thereon to move upwards, the second compression spring 63 can be compressed therewith, so that the material baffle plate 62 no longer blocks the feed hopper 2, then agar raw materials can be conveyed towards the feed hopper 2 through other feeding equipment, and then the agar raw materials can fall onto the filter screen plate 46 through the feed hopper 2, so that the subsequent operation is facilitated, and the effect of automatically feeding the agar raw materials onto the filter screen plate 46 is achieved.

Then under the guiding action of the guide plate 58, the clamping strip 510 is separated from the pushing rod 65, the striker plate 62 and the devices thereon are reset along with the resetting of the second compression spring 63, finally, the electric push rod 41 is manually controlled to stop operation, and the operations are repeated to continuously treat the agar.

In the description of the present invention, unless otherwise specified, "plurality" means two or more, and the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the referred device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, are not to be construed as limiting the present invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Claims (3)

1. A vacuum concentration device for extracting agar is characterized by comprising a vacuum compression box, a feed hopper, a separation component, a vacuum compression component, an impurity pushing-separating component and a discharging component, wherein the feed hopper is connected to one side of the vacuum compression box;

the separation assembly comprises a separation plate and a separation spring, a pair of separation plates are connected on the vacuum compression box in a sliding mode, the two separation plates are in contact, and the separation spring is symmetrically connected between the separation plates and the vacuum compression box;

the vacuum compression assembly comprises an electric push rod, an L-shaped rod, a drive plate, buffer springs, a compression plate and a filter screen plate, the electric push rod is connected to the outer side of a vacuum compression box, the L-shaped rod is connected to one end of the electric push rod, the drive plate is connected to the bottom end of the L-shaped rod, the drive plate is in sliding fit with the vacuum compression box, four buffer springs are connected to the bottom of the drive plate in a distributed mode, the compression plate is connected to the other end of each buffer spring, the compression plate is in sliding fit with the vacuum compression box, and the filter screen plate is connected to the inside of the vacuum compression box.

2. The vacuum concentration device for extracting agar as claimed in claim 1, wherein the impurity pushing-off assembly comprises a support plate, a pushing-off plate, a guide rod, a return spring, and a guide plate, the inclined plane plate is connected to the vacuum compression box in a sliding mode, the pushing plate is connected to the vacuum compression box in a pushing mode, the guide rod is connected to the pushing plate in a connecting mode, the guide rod is matched with the support plate in a sliding mode, a reset spring is connected between the support plate and the pushing plate, a guide plate is connected to the outer side of the vacuum compression box in a connecting mode, the inclined plane plate is connected to the guide plate in a sliding mode, a clamping groove is formed in the inclined plane plate, the extension spring is connected between the inclined plane plate and the guide plate, the guide plate is connected to the guide plate in a connecting mode, the guide strip is connected to the L-shaped rod in a connecting mode, the clamping strip is connected to the guide plate in a sliding mode, the clamping strip is in contact with the guide plate, and the first compression spring is connected between the clamping strip and the guide strip.

3. The vacuum concentration device for extracting agar as claimed in claim 2, wherein the discharging assembly comprises a supporting plate, a baffle plate, a second compression spring, a special-shaped connecting rod and a pushing rod, the top of the vacuum compression box is connected with the supporting plate, the baffle plate is connected with the vacuum compression box in a sliding manner, the baffle plate is matched with the vacuum compression box in a sliding manner, the baffle plate is in contact with the feeding hopper, the second compression spring is symmetrically connected between the baffle plate and the supporting plate, the special-shaped connecting rod is connected onto the baffle plate, and the pushing rod is connected onto the special-shaped connecting rod through an elastic hinge.

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