CN114674078B - Emulsifier heating device - Google Patents

Abstract

The invention relates to a heating device, in particular to an emulsifying agent heating device. The invention provides an emulsifier heating device which can collect water mist released by an emulsifier and is convenient for taking out the heated emulsifier. The invention provides an emulsifying agent heating device, which comprises a base, a shell, a first shaft seat and a first connecting block, wherein the first shaft seat is arranged on the base; the front side of the top of the base is provided with three shells, the upper side and the lower side of the left front side wall of each of the three shells are respectively provided with a first shaft seat, and each first shaft seat is respectively provided with a first connecting block in a rotary mode. The staff starts the heating tube, and heating tube release heat heats the emulsifier, and emulsifier release water smoke can be through ventilation fan and first breather pipe conveying to the collecting vessel in, and the staff starts first cooling tube and second cooling tube, makes first cooling tube and second cooling tube release air conditioning cool off the drop of water to can avoid the drop of water to cause polluting the output to the environment after the high discharge of drop of water temperature.

Description

Emulsifier heating device

Technical Field

The invention relates to a heating device, in particular to an emulsifying agent heating device.

Background

Emulsifiers are substances which enable mixed liquids of two or more mutually immiscible components to form stable emulsions, and are also one of the commonly used food additives in food processing, like surfactants, which prevent coalescence by surrounding the dispersed phase droplets to form stable colloidal dispersions in another immiscible or partially miscible liquid, and before the use of the emulsifier, the emulsifier can be heated by a worker, and the heated emulsifier can improve the stability of the emulsion.

Patent grant publication number CN214862639U discloses an emulsifier heating device, which comprises a liquid suction pipe, a delivery pump and a delivery pipe which are sequentially connected, wherein the liquid suction pipe extends into an emulsifier storage tank, a heater is arranged on the emulsifier storage tank, and a temperature sensor is arranged on the delivery pipe; the device also comprises a controller, and the temperature sensor, the heater and the delivery pump are all electrically connected with the controller. The device can heat the emulsifier, but the device is not provided with a mechanism capable of collecting the emulsifier release water mist, and is not provided with a mechanism which is convenient for a worker to push out the heated emulsifier, so that the device cannot collect the emulsifier release water mist when the emulsifier is heated, and the worker is inconvenient to take out the emulsifier after the emulsifier is heated.

Therefore, an emulsifier heating device which can collect water mist released by the emulsifier and is convenient for taking out the heated emulsifier needs to be designed.

Disclosure of Invention

In order to overcome the defects that when the prior art heats the emulsifier, water mist released by the emulsifier cannot be collected, and after the emulsifier is heated, workers are inconvenient to take out the emulsifier, the technical problem is that: an emulsifier heating device is provided which can collect water mist released by an emulsifier and can conveniently take out the heated emulsifier.

The technical proposal is as follows: the utility model provides an emulsifier heating device, the on-line screen storage device comprises a base, an outer shell, first axle bed, first torsion spring, first linkage piece, first rotating plate, the sealing strip, the observation window, the handle, the heating tube, first inner shell, gas collection mechanism and preheating mechanism, base top front side is provided with three shell, the upper and lower both sides of three shell left front side wall all are provided with first axle bed, all be provided with first linkage piece on every first axle bed in the rotation mode, all be overlapped two first torsion springs on every first axle bed, first torsion spring both ends are connected with first linkage piece and first axle bed respectively, all be connected with first rotating plate between every two similar first linkage pieces, three first rotating plate rear side wall all is provided with the sealing strip, the observation window all is embedded in three first rotating plate, the right side all is provided with the handle before the three first rotating plate, all be provided with the heating tube between the three shell inner wall, the inside first inner shell that is provided with of base, when first rotating plate is closed, can laminate with first inner shell, base top right back side is provided with gas collection mechanism is used for preheating mechanism to the top of the emulsification.

Preferably, the gas collection mechanism comprises a first connecting pipe, a first vent pipe, a second fixed ring, supporting frames, a ventilation fan, a fixing frame, a collecting vessel, a rotating cover, a third fixed ring, a partition plate, a second fixed block, a first cooling pipe, a second inner shell and a second cooling pipe, wherein the first connecting pipe is arranged between adjacent outer shells, the first connecting pipe penetrates through the outer shells, the first vent pipe is arranged on the outer shells on the right side, the right side wall of the outer shells is provided with the second fixed ring used for fixing the first vent pipe in a threaded manner, the two groups of supporting frames are arranged inside the first vent pipe, the number of the supporting frames of each group is two, the ventilation fan is rotationally arranged between the two supporting frames of each group, the fixing frame is arranged on the right rear side of the top of the base, the collecting vessel is arranged in the fixing frame, the top of the collecting vessel is rotationally arranged on the rotating cover, the right side wall of the collecting vessel is provided with the third fixed ring used for fixing the first vent pipe in a threaded manner, the lower part in the rotating cover is provided with the partition plate, the top annular uniform space is arranged on the four second fixed blocks, the first cooling pipes are arranged between the four second fixed blocks, the inner shells are arranged inside the collecting vessel is arranged inside the collecting vessel, and the second cooling vessel is arranged inside the collecting vessel.

As the preference, preheat the mechanism including preheating box, the second axle seat, second torsion spring, the third connecting block, the second rotor plate, fourth solid fixed ring, fifth solid fixed ring and second vent, the left rear side in base top is provided with the preheating box, preheat the top rear side in box and be provided with the second axle seat, be provided with the third connecting block on the second axle seat rotation, the cover has two second torsion springs on the second axle seat, second torsion spring is connected with second axle seat and third connecting block respectively, third connecting block lower part is connected with the second rotor plate, contact with preheating box when the second rotor plate is closed, be provided with the second vent between preheating box and the left shell, the second vent runs through in preheating box and shell, the left side wall of preheating box is provided with the fourth solid fixed ring that is used for fixing the second vent through the mode of screw thread, the left side shell left side wall also is provided with the fifth solid fixed ring that is used for fixing the second vent through the mode of screw thread.

Preferably, the emulsifying device further comprises a pushing mechanism for pushing out the emulsifying agent, the pushing mechanism comprises a first fixed block, an air cylinder, a push rod, a connecting ring and a first fixed ring, the first fixed block is arranged at the middle position of the rear side of the top of the base, the air cylinder is arranged on the first fixed block, a telescopic rod of the air cylinder is connected with the push rod through the connecting ring, the push rod penetrates through the outer shell and the first inner shell in a sliding mode, and three first fixed rings are arranged on the front side of the push rod.

Preferably, the temperature detecting device comprises a temperature detecting mechanism for detecting temperature, wherein the temperature detecting mechanism comprises a detecting plate, a second connecting block and temperature detectors, the front sides of the tops of the three outer shells are provided with the temperature detectors, the bottoms of the three temperature detectors are provided with the second connecting block, the second connecting block penetrates through the outer shells and the first inner shell, and the bottoms of the three second connecting blocks are provided with the detecting plate.

The novel scraper comprises a first connecting rod, a scraper blade, a placing block, a storage box, a third shaft seat, a third torsion spring and a fifth fixing block, wherein the lower portion of the push rod is provided with three first connecting rods, the first connecting rods penetrate through an outer shell and a first inner shell in a sliding mode, the front sides of the three first connecting rods are provided with the scraper blade, the scraper blade is connected with the first inner shell in a sliding mode, three placing blocks are arranged at the bottom of a base, the top of each three placing blocks is provided with the storage box, the front sides of the three placing blocks are provided with the third shaft seat in a rotating mode, the top of each third shaft seat is provided with the fifth fixing block, and the left side and the right side of each third shaft seat are sleeved with the third torsion spring, and two ends of each third torsion spring are connected with the placing blocks and the third shaft seat respectively.

The utility model provides a mechanism is closed in the first stopper, the second connecting rod, first slider, the second connecting pipe, the second stopper, the dog, fourth fixed block, protective housing and elastic component, the quantity of first stopper is five, the shell top left side on right side is provided with three first stopper, the shell top rear side on right side is provided with two first stoppers, sliding type is provided with the second connecting rod between five first stoppers, collecting vessel bottom central point puts and is provided with the second connecting pipe, the second connecting pipe runs through in base and collecting vessel, second connecting pipe bottom is provided with the second stopper, sliding type is provided with the dog in the second stopper, second connecting rod bottom rear side is provided with first slider, the dog is connected with first slider slidingly, base bottom right rear side is provided with two fourth fixed blocks, two fourth fixed block front sides all are provided with the protective housing, the protective housing runs through in the second stopper, all be connected with elastic component between dog rear side wall and the two protective housings.

The door pushing mechanism comprises a third connecting rod, a fourth shaft seat, a sliding rod and a second sliding block, wherein three third connecting rods are arranged on the front side of the push rod, sliding rods are arranged in the three third connecting rods, the front sides of the three sliding rods are hinged to the fourth shaft seat in a hinged mode, the four fourth shaft seats are hinged to the second sliding blocks, sliding grooves are formed in the rear lower sides of the three first rotating plates, and the three second sliding blocks are connected with the sliding grooves in a sliding mode.

Compared with the prior art, the invention has the following advantages: 1. the staff starts the heating tube, and heating tube release heat heats the emulsifier, and emulsifier release water smoke can be through ventilation fan and first breather pipe conveying to the collecting vessel in, and the staff starts first cooling tube and second cooling tube, makes first cooling tube and second cooling tube release air conditioning cool off the drop of water to can avoid the drop of water to cause polluting the output to the environment after the high discharge of drop of water temperature.

2. The staff starts the cylinder, and the telescopic link of cylinder drives the push rod and moves forward, when the push rod moves forward, promotes the emulsifier forward through first solid fixed ring.

3. The first connecting rod and the scraping plate are driven to move when the pushing rod moves forwards, and water drops at the bottom in the first inner shell are scraped while the scraping plate moves forwards.

Drawings

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

Fig. 2 is a schematic view of a heating mechanism of the present invention in partial perspective cross-section.

FIG. 3 is a schematic view of a partially cut-away perspective structure of the ejection mechanism of the present invention.

Fig. 4 is a schematic view of a partial perspective cross-sectional structure of the temperature detecting mechanism of the present invention.

Fig. 5 is a schematic view of a first partial perspective cross-sectional structure of the gas collection mechanism of the present invention.

Fig. 6 is an enlarged schematic view of the structure of the present invention at a.

FIG. 7 is a schematic view of a second partial perspective cross-sectional structure of the gas collection mechanism of the present invention.

Fig. 8 is a schematic view of a partial perspective structure of a preheating mechanism according to the present invention.

Fig. 9 is a schematic view of a partial perspective cross-sectional structure of the wiper mechanism of the present invention.

Fig. 10 is a schematic view showing a partial perspective structure of the wiper mechanism of the present invention.

Fig. 11 is a schematic partial perspective view of the closing mechanism of the present invention.

FIG. 12 is a schematic view of a partially cut-away perspective structure of the closure mechanism of the present invention.

Fig. 13 is a schematic view of a partially cut-away perspective structure of a door-pushing mechanism of the present invention.

Fig. 14 is an enlarged schematic view of the structure of the present invention at B.

Meaning of reference numerals in the drawings: 1: base, 2: a shell, 3: first axle bed, 4: first torsion spring, 5: first connecting block, 6: first rotating plate, 7: sealing strip, 8: observation window, 9: grip, 10: heating tube, 11: first inner shell, 12: push-out mechanism, 1201: first fixed block, 1202: cylinder, 1203: push rod, 1204: connection ring, 1205: first fixed ring, 13: temperature detection mechanism 1301: detection plate, 1302: second connecting block, 1303: temperature detector, 14: gas collection mechanism 1401: first connection tube, 1402: first breather pipe, 1403: second retaining ring, 1404: support frame, 1405: ventilation fan 1406: fixing frame, 1407: collector bucket, 1408: rotating cap, 1409: third securing ring, 1410: separator, 1411: second fixed block, 1412: first cooling tube, 1413: second inner housing, 1414: second cooling tube, 15: preheat mechanism 1501: preheating bin, 1502: second hub, 1503: second torsion spring, 1504: third connection block, 1505: second rotation plate, 1506: fourth stationary ring, 1507: fifth stationary ring 1508: second vent pipe, 16: wiper mechanism 1601: first connecting rod, 1602: squeegee, 1603: placing a block, 1604: storage box, 1605: third shaft seat, 1606: third torsion spring, 1607: fifth fixed block, 17: closing mechanism, 1701: first stopper, 1702: second connecting rod, 1703: first slider, 1704: second connecting tube, 1705: second stopper, 1706: stop, 1707: fourth fixed block, 1708: protective case, 1709: elastic piece, 18: door pushing mechanism, 1801: third connecting rod 1802: fourth shaft seat, 1803: slide bar, 1804: and a second slider.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

As shown in fig. 1, fig. 2, fig. 5, fig. 6, fig. 7 and fig. 8, an emulsifier heating device comprises a base 1, an outer shell 2, a first shaft seat 3, a first torsion spring 4, a first connecting block 5, a first rotating plate 6, a sealing strip 7, an observation window 8, a grip 9, a heating tube 10, a first inner shell 11, a gas collecting mechanism 14 and a preheating mechanism 15, wherein the front side of the top of the base 1 is provided with three outer shells 2 in a bolt connection manner, the upper side and the lower side of the left front side wall of the three outer shells 2 are respectively provided with a first shaft seat 3 in a welding manner, each first shaft seat 3 is respectively provided with a first connecting block 5 in a rotating manner, each first shaft seat 3 is respectively sleeved with two first torsion springs 4, the both ends of first torsion spring 4 are connected with first connecting block 5 and first axle bed 3 respectively, all be connected with first rotor plate 6 between every two similar first connecting blocks 5, the lateral wall all is provided with sealing strip 7 behind the three first rotor plate 6, all be provided with viewing window 8 in the three first rotor plate 6 in the embedding, right side all is provided with handle 9 before the three first rotor plate 6, all be provided with heating tube 10 between the inner wall of three shell 2, the inside first inner shell 11 that is provided with of base 1, when first rotor plate 6 is closed, sealing strip 7 laminating with first inner shell 11, base 1 top right rear side is provided with gas collecting mechanism 14, base 1 top left rear side is provided with preheating mechanism 15.

As shown in fig. 1, fig. 5, fig. 6 and fig. 7, the gas collecting mechanism 14 comprises a first connecting pipe 1401, a first ventilation pipe 1402, a second fixing ring 1403, a supporting frame 1404, a ventilation fan 1405, a fixing frame 1406, a collecting vessel 1407, a rotating cover 1408, a third fixing ring 1409, a partition plate 1410, a second fixing block 1411, a first cooling pipe 1412, a second inner shell 1413 and a second cooling pipe 1414, wherein a first connecting pipe 1401 is arranged between two adjacent outer shells 2 in a welding manner, the first connecting pipe 1401 penetrates through the outer shells 2, a first ventilation pipe 1402 is arranged on the right side of the outer shells 2, a second fixing ring 1403 for fixing the first ventilation pipe 1402 is arranged on the right side wall of the outer shells 2 in a threaded manner, two groups of supporting frames 1404 are arranged inside the first ventilation pipe 1402, the two groups of supporting frames 1404 are all provided with a fan 1405 through bolts, the right rear side of the top of the base 1 is provided with the fixing frame 1408 in a bolt connection manner, the collecting vessel 1407 is arranged in the fixing frame 1406, the collecting vessel 1407 is arranged in the rotating cover 1407 is arranged on the top of the collecting vessel, the top of the collecting vessel 1407 is provided with a fourth cooling block 1417 in a rotating manner, the inner wall 1417 is arranged in the inner walls of the second ventilation pipe 1407 is evenly arranged along the inner walls of the second fixing frame 1411, and the inner walls are evenly arranged along the inner walls of the second cooling frame 1407.

As shown in fig. 1 and fig. 8, the preheating mechanism 15 includes a preheating tank 1501, a second seat 1502, a second torsion spring 1503, a third connecting block 1504, a second rotating plate 1505, a fourth fixing ring 1506, a fifth fixing ring 1507 and a second vent pipe 1508, the preheating tank 1501 is disposed on the left rear side of the top of the base 1 in a bolt connection manner, the second seat 1502 is rotatably disposed on the second seat 1502, the third connecting block 1504 is disposed on the second seat 1502, two second torsion springs 1503 are sleeved on the second seat 1502, the second torsion spring 1503 is respectively connected with the second seat 1502 and the third connecting block 1504, a second rotating plate 1505 is connected to the lower portion of the third connecting block 1504, the second rotating plate 1505 contacts the preheating tank 1501 when being closed, a second vent pipe 1508 is disposed between the preheating tank 1501 and the left casing 2, the second vent pipe 1508 penetrates through the preheating tank 1501 and the casing 2, the fourth fixing ring 1506 is disposed on the left side wall of the preheating tank 1501 in a threaded manner, and the fifth fixing ring 1508 is also disposed on the left casing 2 in a threaded manner.

When the worker needs to preheat the emulsifying agent, the worker rotates the second rotating plate 1505 upwards by taking the second shaft seat 1502 as the center, the second torsion spring 1503 deforms when the second rotating plate 1505 rotates, the worker places the emulsifying agent needing to be preheated in the preheating box 1501, after the emulsifying agent is placed, the worker loosens the second rotating plate 1505, the second torsion spring 1503 drives the second rotating plate 1505 to rotate downwards to reset, after the second rotating plate 1505 reaches the initial position, the worker starts the preheating box 1501, the preheating box 1501 releases heat to preheat the emulsifying agent, when the preheating box 1501 preheats the melted emulsifying agent, the emulsifying agent is semi-fluid, so that the emulsifying agent releases water mist when the emulsifying agent is preheated, the worker starts the ventilation fan 1405, after the worker waits for the completion of the preheating of the emulsifier, the worker rotates the second rotating plate 1505 upwards by taking the second shaft seat 1502 as the center, the second torsion spring 1503 deforms while the second rotating plate 1505 rotates, the worker takes out the preheated emulsifier, when the emulsifier is taken out, the worker releases the second rotating plate 1505, the second torsion spring 1503 drives the second rotating plate 1505 to rotate downwards by taking the second shaft seat 1502 as the center to return to the initial position, the worker drives the first rotating plate 6 to rotate outwards by taking the first shaft seat 3 by using the grip 9 after the worker waits for the completion of the above operation, the first torsion spring 4 deforms while the first rotating plate 6 rotates, the worker places the preheated emulsifier in the first inner shell 11, when the emulsifier is placed, a worker releases the handle 9, the first torsion spring 4 drives the first rotating plate 6 to rotate inwards to reset by taking the first shaft seat 3 as the center, after the worker waits for the completion of the operation, the worker starts the heating tube 10, the heating tube 10 releases heat to heat the emulsifier, when the emulsifier in the first inner shell 11 reaches a certain temperature, the emulsifier release water mist is conveyed into the collecting barrel 1407 through the ventilation fan 1405 and the first ventilation tube 1402, when the water mist reaches the collecting barrel 1407, the worker starts the first cooling tube 1412 and the second cooling tube 1414, the first cooling tube 1412 and the second cooling tube 1414 release cold air, when the water mist in the collecting barrel 1407 is excessively accumulated, the water mist forms water bead waste water, and the first cooling tube 1412 and the second cooling tube 1414 release cold air to cool the water bead due to the higher temperature of the water bead waste water, thereby avoiding the pollution to the environment after the hot waste water is discharged, after the worker waits for the heating of the emulsifying agent to be completed, the worker closes the ventilation fan 1405, and then the worker drives the first rotating plate 6 to rotate outwards by taking the first shaft seat 3 as the center by using the grip 9, the first torsion spring 4 deforms when the first rotating plate 6 rotates, and then the worker takes out the emulsifying agent after the heating is completed, after the emulsifying agent is taken out, the worker releases the grip 9, the first torsion spring 4 drives the first rotating plate 6 to rotate inwards by taking the first shaft seat 3 as the center to reset, when the collecting barrel 1407 finishes collecting the water drops, the worker twists the rotating cover 1408, after the rotating cover 1408 is separated from the collecting barrel 1407, the worker extracts the water drops in the collecting barrel 1407, after the water drops are extracted, the worker twists the rotating cover 1408 reversely to return to the initial position, the staff utilizes the preheating tank 1501 to preheat the emulsifier, can make the emulsifier follow-up better heating at first inner shell 11, and the staff can better seal first rotor plate 6 and first inner shell 11 through sealing strip 7, and then improves the heating efficiency of heating tube 10 to the emulsifier.

Example 2

As shown in fig. 1 and fig. 4, on the basis of embodiment 1, a temperature detecting mechanism 13 is further included, the temperature detecting mechanism 13 includes a detecting plate 1301, a second connecting block 1302 and a temperature detector 1303, the front sides of the tops of the three shells 2 are all provided with the temperature detectors 1303 through bolt connection, the bottoms of the three temperature detectors 1303 are all provided with the second connecting block 1302, the second connecting block 1302 penetrates through the shells 2 and the first inner shell 11, and the bottoms of the three second connecting blocks 1302 are all provided with the detecting plate 1301.

When the emulsifier heats, a worker starts the temperature detector 1303, and then the detection plate 1301 reports the temperature in the first inner shell 11 to the temperature detector 1303 through the second connecting block 1302, and then the worker observes the value in the temperature detector 1303, and when the value in the temperature detector 1303 reaches the standard value, the worker closes the heating tube 10, and then the worker takes out the heated emulsifier, and the worker can take out the heated emulsifier at a certain temperature by using the temperature detector 1303.

As shown in fig. 1 and 3, the device further comprises a push-out mechanism 12, the push-out mechanism 12 comprises a first fixing block 1201, an air cylinder 1202, a push rod 1203, a connecting ring 1204 and a first fixing ring 1205, the first fixing block 1201 is arranged at the middle position of the rear side of the top of the base 1, the air cylinder 1202 is arranged on the first fixing block 1201 in a bolt connection mode, a telescopic rod of the air cylinder 1202 is connected with the push rod 1203 through the connecting ring 1204, the push rod 1203 slidably penetrates through the outer shell 2 and the first inner shell 11, and three first fixing rings 1205 are arranged on the front side of the push rod 1203.

As shown in fig. 1, 13 and 14, the door pushing mechanism 18 is further included, the door pushing mechanism 18 includes a third connecting rod 1801, a fourth shaft seat 1802, a sliding rod 1803 and a second sliding block 1804, three third connecting rods 1801 are disposed on the front side of the pushing rod 1203, sliding rods 1803 are disposed in the three third connecting rods 1801, the front sides of the three sliding rods 1803 are hinged to the fourth shaft seat 1802 in a hinged manner, the three fourth shaft seats 1802 are hinged to the second sliding blocks 1804, sliding grooves are formed in the rear lower sides of the three first rotating plates 6, and the three second sliding blocks 1804 are connected with the sliding grooves in a sliding manner.

When the worker needs to place the emulsifier, the worker places the emulsifier in the first fixing ring 1205, when the worker needs to take out the heated emulsifier, the worker starts the cylinder 1202, the telescopic rod of the cylinder 1202 drives the push rod 1203 to move forward, the first fixing ring 1205 is driven to move when the push rod 1203 moves forward, the first fixing ring 1205 pushes the emulsifier forward, the push rod 1203 drives the third connecting rod 1801 to move when the push rod 1203 moves forward, the third connecting rod 1801 drives the second slide block 1804 to slide left in the slide groove through the slide rod 1803, the first rotating plate 6 rotates outwards by taking the first shaft seat 3 as a center when the second slide block 1804 slides left in the slide groove, when the second slide block 1804 reaches the leftmost position of the slide groove, the first rotating plate 6 also rotates outwards by 90 degrees with the first shaft seat 3 as the center, so that a worker can take out the heated emulsifier, after the emulsifier is taken out, the worker closes the air cylinder 1202, and then the telescopic rod of the air cylinder 1202 drives the push rod 1203 to move backwards to reset, the first fixed ring 1205 is driven to move back to the initial position when the push rod 1203 moves backwards, the push rod 1203 drives the third connecting rod 1801 to move, and then the third connecting rod 1801 drives the second slide block 1804 to slide rightwards in the chute through the slide rod 1803, when the second slide block 1804 slides rightwards in the chute, the first rotating plate 6 rotates inwards with the first shaft seat 3 as the center, when the second slide block 1804 reaches the rightmost position of the chute, the first rotating plate 6 also rotates inwards with the first shaft seat 3 as the center to close, the worker opens the first rotating plate 6 through the air cylinder 1202, the emulsifying tank is convenient for workers to take out.

As shown in fig. 1, fig. 9 and fig. 10, the device further comprises a wiper mechanism 16, the wiper mechanism 16 comprises a first connecting rod 1601, a scraping plate 1602, a placement block 1603, a storage box 1604, a third shaft seat 1605, a third torsion spring 1606 and a fifth fixing block 1607, three first connecting rods 1601 are arranged at the lower portion of the push rod 1203, the first connecting rods 1601 slidably penetrate through the outer shell 2 and the first inner shell 11, the scraping plate 1602 is slidably connected with the first inner shell 11, three placement blocks 1603 are arranged at the bottom of the base 1, the top of each of the three placement blocks 1603 is provided with a storage box 1604, the front side of each of the three placement blocks 1603 is rotatably provided with a third shaft seat 1605, the top of each of the three third shaft seats 1605 is provided with a fifth fixing block 1607, the left side and the right side of each of the three third shaft seats 1605 are sleeved with third torsion springs 1606, and the two ends of each of the third torsion springs 1606 are respectively connected with the placement blocks 1603 and the third shaft seats 1605.

The push rod 1203 moves forward while driving the first connecting rod 1601 and the scraping plate 1602 to move, water mist released by the emulsifier remains in the first inner housing 11, when the water mist in the first inner housing 11 is excessively accumulated, water drops are formed, the water drops can drop to the inner bottom of the first inner housing 11, further, when the scraping plate 1602 moves forward, the scraping plate 1602 scrapes the water drops on the inner bottom of the first inner housing 11, the scraped water drops can drop in the storage box 1604, after the storage box 1604 finishes storing the water drops, the worker pulls the storage box 1604 forward, the storage box 1604 moves forward while extruding the fifth fixed block 1607, so that the fifth fixed block 1607 rotates downwards with the third shaft seat 1605 as the center, the third torsion spring 1606 deforms, after the storage box 1604 is taken out, the storage box 1604 is not contacted with the fifth fixed block 1607 any more, and then the third torsion spring 1606 drives the fifth fixed block 1607 to rotate upwards to return to the initial position by taking the third shaft seat 1605 as the center, when a worker pours out the water drops in the storage box 1604, the worker downwards presses the fifth fixed block 1607 by taking the third shaft seat 1605 as the center, so that the third torsion spring 1606 is deformed, and then the worker repositions the storage box 1604 at the initial position, when the storage box 1604 reaches the initial position, the worker releases the fifth fixed block 1607, so that the third torsion spring 1606 drives the fifth fixed block 1607 to rotate upwards to return to the initial position by taking the third shaft seat 1605 as the center, and the worker can scrape the water drops at the bottom in the first inner shell 11 through the scraping plate 1602.

As shown in fig. 1, 11 and 12, the device further comprises a closing mechanism 17, the closing mechanism 17 comprises a first limiting block 1701, a second connecting rod 1702, a first sliding block 1703, a second connecting pipe 1704, a second limiting block 1705, a stop 1706, fourth fixing blocks 1707, a protective shell 1708 and elastic pieces 1709, the number of the first limiting blocks 1701 is five, three first limiting blocks 1701 are arranged on the left side of the top of the right shell 2, two first limiting blocks 1701 are arranged on the rear side of the top of the right shell 2, a second connecting rod 1702 is arranged between the five first limiting blocks 1701 in a sliding mode, a second connecting pipe 1704 is arranged at the center of the bottom of a collecting barrel 1407, the second connecting pipe 1704 penetrates through the base 1 and the collecting barrel 1407, the second limiting block 1705 is arranged at the bottom of the second connecting pipe 1704, the stop 1706 is arranged in the second limiting block 1705 in a sliding mode, the rear side of the bottom of the second connecting rod 1702 is provided with the first sliding block 1703, the stop is connected with the first sliding block 1703, two fourth fixing blocks 1707 are arranged on the rear right side of the bottom of the base 1, the fourth limiting block 1706 is arranged between the two limiting blocks 1706 and the protective shell 1708, and the second limiting blocks 1708 penetrate through the protective shell 1708 and are arranged on the front side of the two side of the protective shell 1708.

The first rotating plate 6 rotates outwards and contacts with the second connecting rod 1702, so that the second connecting rod 1702 slides leftwards in the first limiting block 1701, the second connecting rod 1702 slides leftwards and drives the first sliding block 1703 to move, the first sliding block 1703 contacts with the stop block 1706 when the first sliding block 1703 slides forwards, the stop block 1706 moves forwards, the stop block 1706 does not isolate water drops in the collecting barrel 1407, the water drops collected in the collecting barrel 1407 can fall through the second connecting pipe 1704 and the second limiting block 1705, the first rotating plate 6 does not contact with the second connecting rod 1702 when the first rotating plate 6 rotates inwards, the elastic piece 1709 drives the stop block 1706 to move backwards to reset, the stop block 1706 contacts with the first sliding block 1703 when the stop block 1706 resets, and then the first sliding block 1703 drives the second connecting rod 1702 to slide rightwards in the first limiting block 1701 to reset, and workers can drain the water drops stored in the collecting barrel 1407 by using the stop block 1706.

It should be understood that this example is only illustrative of the invention and is not intended to limit the scope of the invention. Further, it is understood that various changes and modifications may be made by those skilled in the art after reading the teachings of the present invention, and such equivalents are intended to fall within the scope of the claims appended hereto.

Claims (6)

1. The utility model provides an emulsifier heating device, a serial communication port, including base (1), shell (2), first axle bed (3), first torsion spring (4), first linkage piece (5), first rotating plate (6), sealing strip (7), observation window (8), handle (9), heating tube (10) and first inner shell (11), base (1) top front side is provided with three shell (2), the upper and lower both sides of three shell (2) left front side wall all are provided with first axle bed (3), all rotate on every first axle bed (3) and be provided with first linkage piece (5), all overlap on every first axle bed (3) and be provided with two first torsion springs (4), first torsion spring (4) both ends are connected with first linkage piece (5) and first axle bed (3) respectively, all be connected with first rotating plate (6) between every two first linkage piece (5), three first rotating plate (6) back lateral wall all is provided with (7), all imbeds in three first rotating plate (6) on the upper and lower both sides of three shell (2), when all being provided with inner wall (10) in front of three first rotating plate (6), handle (1) are provided with between first inner shell (6) and close one side (1), the sealing strip (7) can be attached to the first inner shell (11), and is characterized by further comprising a gas collecting mechanism (14) and a preheating mechanism (15), wherein the gas collecting mechanism (14) for collecting gas is arranged on the right rear side of the top of the base (1), and the preheating mechanism (15) for preheating the emulsifying agent is arranged on the left rear side of the top of the base (1);

the gas collecting mechanism (14) comprises a first connecting pipe (1401), a first ventilating pipe (1402), a second fixed ring (1403), a supporting frame (1404), a ventilating fan (1405), a fixing frame (1406), a collecting barrel (1407), a rotating cover (1408), a third fixed ring (1409), a partition plate (1410), a second fixed block (1411), a first cooling pipe (1412), a second inner shell (1413) and a second cooling pipe (1414), wherein the first connecting pipe (1401) is arranged between adjacent outer shells (2), the first connecting pipe (1401) penetrates through the outer shells (2), the first ventilating pipe (1402) is arranged on the outer shells (2) on the right side, the second fixed ring (1403) used for fixing the first ventilating pipe (1402) is arranged on the right side wall of the outer shells (2) in a threaded mode, two groups of supporting frames (1405) are arranged in the first ventilating pipe (1402), the number of the supporting frames (1404) in each group is two, the fixing frames (1405) are respectively arranged between the two supporting frames (1404) in a rotating mode, the right rear side of the top of the base (1), the first ventilating pipe (1407) is arranged in the collecting barrel (1407), the right side wall of the collecting barrel (1407) is provided with a third fixing ring (1409) for fixing the first ventilation pipe (1402) in a threaded mode, the inner lower part of the rotating cover (1408) is provided with a baffle plate (1410), four second fixing blocks (1411) are annularly and uniformly arranged at intervals on the inner top of the rotating cover (1408), a first cooling pipe (1412) is arranged between the four second fixing blocks (1411), a second inner shell (1413) is arranged in the collecting barrel (1407), and a second cooling pipe (1414) is arranged on the inner wall of the collecting barrel (1407);

the emulsifier pushing device comprises a base (1), and is characterized by further comprising a pushing mechanism (12) for pushing out an emulsifier, wherein the pushing mechanism (12) comprises a first fixed block (1201), an air cylinder (1202), a push rod (1203), a connecting ring (1204) and a first fixed ring (1205), the first fixed block (1201) is arranged at the middle position of the rear side of the top of the base, the air cylinder (1202) is arranged on the first fixed block (1201), a telescopic rod of the air cylinder (1202) is connected with the push rod (1203) through the connecting ring (1204), the push rod (1203) penetrates through the outer shell (2) and the first inner shell (11) in a sliding mode, and three first fixed rings (1205) are arranged on the front side of the push rod (1203).

2. The emulsifier heating device according to claim 1, wherein the preheating mechanism (15) comprises a preheating box (1501), a second shaft seat (1502), a second torsion spring (1503), a third connecting block (1504), a second rotating plate (1505), a fourth fixed ring (1506), a fifth fixed ring (1507) and a second vent pipe (1508), the preheating box (1501) is arranged at the left rear side of the top of the base (1), the second shaft seat (1502) is arranged at the top rear side of the preheating box (1501), a third connecting block (1504) is rotatably arranged on the second shaft seat (1502), two second torsion springs (1503) are sleeved on the second shaft seat (1502), the second torsion springs (1503) are respectively connected with the second shaft seat (1502) and the third connecting block (1504), the lower part of the third connecting block (1504) is connected with the second rotating plate (1505), the second rotating plate (1505) is in contact with the preheating box (1501) when being closed, the second vent pipe (1508) is arranged between the preheating box (1501) and a left shell (2), the second vent pipe (1508) is arranged on the left side wall of the preheating box (1501), the second vent pipe (1508) is arranged in a way of penetrating through the second connecting block (1501) and the third connecting block (1504), the left side wall of the left housing (2) is also provided with a fifth fixing ring (1507) for fixing the second vent pipe (1508) by means of screw threads.

3. The emulsifier heating device according to claim 2, further comprising a temperature detection mechanism (13) for detecting temperature, wherein the temperature detection mechanism (13) comprises a detection plate (1301), a second connection block (1302) and temperature detectors (1303), the front sides of the tops of the three outer shells (2) are respectively provided with the temperature detectors (1303), the bottoms of the three temperature detectors (1303) are respectively provided with the second connection block (1302), the second connection block (1302) penetrates through the outer shells (2) and the first inner shell (11), and the bottoms of the three second connection blocks (1302) are respectively provided with the detection plate (1301).

4. The emulsifier heating device according to claim 3, further comprising a wiper mechanism (16), wiper mechanism (16) including head rod (1601), scraper blade (1602), place piece (1603), receiver (1604), third axle bed (1605), third torsion spring (1606) and fifth fixed block (1607), push rod (1203) lower part is provided with three head rod (1601), head rod (1601) slidingtype run through in shell (2) and first inner shell (11), three head rod (1601) front side all is provided with scraper blade (1602), scraper blade (1602) are connected with first inner shell (11) slidingtype, base (1) bottom is provided with three and places piece (1603), storage box (1604) have all been placed at three piece (1603) tops, three piece (1603) front side all rotate and are provided with third axle bed (1605), three third axle bed (1605) tops all are provided with fifth fixed block (1607), three third torsion spring (1605) all are connected with both ends (1606) of third torsion spring (1603) and both ends (1606) looks torsion spring (1605).

5. The emulsifying agent heating device of claim 4, further comprising a closing mechanism (17), wherein the closing mechanism (17) comprises a first limiting block (1701), a second connecting rod (1702), a first sliding block (1703), a second connecting pipe (1704), a second limiting block (1705), a stop block (1706), a fourth fixing block (1707), a protective shell (1708) and an elastic piece (1709), the number of the first limiting blocks (1701) is five, three first limiting blocks (1701) are arranged on the left side of the top of the right side shell (2), two first limiting blocks (1701) are arranged on the rear side of the top of the right side shell (2), a second connecting rod (1702) is arranged between the five first limiting blocks (1701) in a sliding mode, a second connecting pipe (1704) is arranged at the center of the bottom of the collecting barrel (1407), the second connecting pipe (1704) penetrates through the base (1) and the collecting barrel (1407), the second limiting block (5) is arranged at the bottom of the second connecting pipe (1704), three first limiting blocks (1701) are arranged in the second limiting block (1705) in a sliding mode, two first limiting blocks (1706) are arranged on the rear side of the right side shell (2), two first limiting blocks (1703) are arranged on the rear side of the right side of the base (1703), the front sides of the two fourth fixed blocks (1707) are provided with protective cases (1708), the protective cases (1708) penetrate through the second limiting blocks (1705), and elastic pieces (1709) are connected between the rear side walls of the stop blocks (1706) and the two protective cases (1708).

6. The emulsifier heating device according to claim 5, further comprising a door pushing mechanism (18) for automatically opening the first rotating plate (6), wherein the door pushing mechanism (18) comprises a third connecting rod (1801), a fourth shaft seat (1802), sliding rods (1803) and a second sliding block (1804), three third connecting rods (1801) are arranged on the front side of the push rod (1203), sliding rods (1803) are arranged in the three third connecting rods (1801), the front sides of the three sliding rods (1803) are all hinged with the fourth shaft seat (1802) in a rotating mode, the three fourth shaft seats (1802) are all hinged with the second sliding blocks (1804), sliding grooves are formed in the rear lower sides of the three first rotating plates (6), and the three second sliding blocks (1804) are all connected with the sliding grooves in a sliding mode.