CN212017616U - Sugar dissolving machine - Google Patents

Abstract

The utility model discloses a sugar dissolving machine, which relates to food processing equipment and aims to solve the technical problem that sugar dissolving speed is slow in the prior art, and the key points of the technical scheme are that the sugar dissolving machine comprises a frame, a sugar dissolving tank arranged on the frame and a stirring component arranged on the sugar dissolving tank, wherein a feed inlet is arranged on the top wall of the sugar dissolving tank, a liquid inlet pipe externally connected with a water source is arranged on the side wall of the sugar dissolving tank, a first valve is arranged on the side wall of the liquid inlet pipe, a liquid outlet pipe is arranged on the bottom wall of the sugar dissolving tank, a second valve is arranged on the side wall of the liquid outlet pipe, and a circulating component which is used for circularly feeding mixed sugar liquid at the bottom of the sugar dissolving tank into the top of the sugar dissolving tank is arranged between; in can pouring into the sugar dissolving tank again with sugar and the water of sugar dissolving tank bottom with this, the stirring subassembly stirs again to this can reduce the sugar that deposits sugar dissolving tank bottom, thereby can accelerate the speed that the sugar dissolved, improve sugar dissolving efficiency.

Description

Sugar dissolving machine

Technical Field

The utility model relates to a food processing equipment, more specifically say, it relates to a sugar dissolving machine.

Background

The sugar dissolving machine, also called sugar dissolving tank, is a melting and heating device, is mainly used for dissolving granulated sugar, and is also suitable for quantitatively dissolving powdered or granular materials such as powdered coconut powder, starch and other instrument additives; high speed and high efficiency, and is one of the necessary process equipment for producing food and beverage.

Chinese patent with the publication number of CN208175949U discloses a wall-scraping sugar dissolving pot, which comprises an inner cylinder, a first seal head, a second seal head, a feed inlet, a discharge outlet, a stirrer and supporting legs, wherein the supporting legs are fixed at the bottom of the first seal head, the inner cylinder is fixedly connected with the first seal head and the second seal head through a welding technology to form a sealed cavity, a jacket is sleeved outside the inner cylinder, an interlayer is arranged in the jacket, a steam inlet is arranged at the highest position of the interlayer, a condensed water outlet is arranged at the bottom of the interlayer, the stirrer is fixed on the second seal head, the stirrer comprises a driving device, a crankshaft, a first stirring paddle and a second stirring paddle, the driving device is connected with the crankshaft through a speed reducing mechanism, the first stirring paddle is fixed in the middle of the crankshaft, one or more pairs of the first stirring paddles are arranged at equal intervals, the second stirring paddle is fixed at the bottom of the crankshaft, the interlayer is used, also as the heat preservation that plays the heat preservation effect, the promotion thermal efficiency sets up many pairs of stirring rake in the inner tube, promotes stirring efficiency.

When using the sugar dissolving machine among the prior art, drop into sugar and water in the inner tube from the feed inlet, the mixer stirs sugar and water, but in the in-service use, when sugar and water pour into the inner tube into, the sugar can deposit in the bottom of inner tube because of the dead weight, when the mixer stirs water and sugar, because first stirring rake and second stirring rake horizontal rotation, it is difficult to stir the mixture with the sugar that deposits in the content bottom with water, leads to sugar dissolving speed slower, dissolves inefficiency, awaits improving.

SUMMERY OF THE UTILITY MODEL

To the not enough of prior art existence, the utility model aims to provide a dissolve sugar machine, its advantage can improve and dissolve sugar speed, improves and dissolves sugar efficiency.

The above object of the present invention can be achieved by the following technical solutions:

the utility model provides a sugar dissolving machine, includes the frame, sets up the sugar dissolving tank in the frame and sets up the stirring subassembly on the sugar dissolving tank, be equipped with the feed inlet on the roof of sugar dissolving tank, be equipped with the feed liquor pipe at external water source on the lateral wall of sugar dissolving tank, be equipped with first valve on the lateral wall of feed liquor pipe, be equipped with the drain pipe on the diapire of sugar dissolving tank, be equipped with the second valve on the lateral wall of drain pipe, be equipped with between drain pipe and the feed liquor pipe and be used for sending into the circulation subassembly at sugar dissolving tank top with the mixed sugar liquid circulation of sugar dissolving tank bottom.

Through adopting above-mentioned technical scheme, when needs dissolve sugar, with the sugar from the feed inlet drop into dissolve the sugar jar in, dissolve the sugar jar with hot water from the feed liquor pipe input, and close first valve, the stirring subassembly stirs sugar and hot water, the circulation subassembly circulates sugar and water simultaneously, after the sugar dissolves, open the second valve, the sugar liquid is along the drain pipe output, with this can be with dissolving sugar tank bottoms's sugar and water fill again and dissolve the sugar jar in, the stirring subassembly stirs again, with this can reduce the sugar that deposits and dissolve sugar tank bottoms, thereby can accelerate the speed that the sugar dissolves, improve and dissolve sugar efficiency.

Furthermore, the circulation assembly comprises an output pump and a circulation pipe arranged on the side wall of the liquid outlet pipe, one end of the circulation pipe, which is far away from the liquid outlet pipe, is connected with the liquid inlet pipe, one end of the circulation pipe, which is close to the liquid inlet pipe, is positioned between the first valve and the sugar dissolving tank, one end of the circulation pipe, which is close to the liquid outlet pipe, is positioned between the second valve and the sugar dissolving tank, and the side wall of the circulation pipe is provided with a circulation valve;

the utility model discloses a sugar dissolving tank, including drain pipe, circulating pipe and sugar dissolving tank, be equipped with the third valve on the lateral wall of drain pipe and be located between circulating pipe and the sugar dissolving tank, the both sides that just are located the third valve on the lateral wall of drain pipe are equipped with connecting pipe and output tube respectively, all be equipped with the fourth valve on the lateral wall of connecting pipe and output tube, the one end that the drain pipe was kept away from to connecting pipe and output tube is connected with the water inlet and the delivery port of delivery pump respectively.

Through adopting above-mentioned technical scheme, in sugar and water got into the sugar dissolving tank, open circulation valve, close the third valve, open the fourth valve, the solution in the output pump will dissolve the sugar tank is along drain pipe, connecting pipe, output tube, circulating pipe and feed liquor pipe input dissolve the sugar tank in to can be with dissolving in the sugar tank bottom the solution circulation input dissolve the sugar tank, with this can improve the speed that the sugar dissolved, also can improve the even degree of sugar liquid.

Further, just be located on the lateral wall of drain pipe and be equipped with the fifth valve between output tube and the circulating pipe, just be located on the lateral wall of drain pipe and be equipped with the installation pipe between output tube and the fifth valve, the one end that the drain pipe was kept away from to the installation pipe is equipped with the delivery pump, the delivery port of delivery pump is equipped with the conveyer pipe, the one end that the delivery pump was kept away from to the conveyer pipe is connected with the drain pipe, the one end that the conveyer pipe is close to the drain pipe is located between output tube and the fifth valve, all be equipped with the sixth valve on the lateral wall of conveyer pipe and installation pipe.

Through adopting above-mentioned technical scheme, use the delivery pump after for a long time, need overhaul the delivery pump, at this moment, open the third valve, close the fourth valve, close the fifth valve, open the sixth valve, the liquid that the delivery pump will dissolve in the sugar jar is along the drain pipe, the installation pipe, during conveyer pipe and circulating pipe get into the feed liquor pipe, get into at last and dissolve in the sugar jar, thereby can overhaul or change the delivery pump, thereby can reduce the possibility that the sugar dissolving machine takes place the shut down, and then can reduce the possibility that reduces production efficiency.

Further, the stirring subassembly is including setting up the motor in the frame, fixedly connected with (mixing) shaft in the drive shaft of motor, the one end that the motor was kept away from to the (mixing) shaft stretches into in the sugar dissolving tank, the (mixing) shaft stretches into and is equipped with a plurality of stirring leaf on the lateral wall of sugar dissolving tank one end.

Through adopting above-mentioned technical scheme, utilize motor drive (mixing) shaft to rotate, and then drive the stirring leaf and rotate to can stir the liquid in the sugar dissolving tank, and then can improve the efficiency that the sugar dissolved.

Further, the one end that the feed liquor pipe is close to the sugar dissolving tank is equipped with feed liquor pipe and clean pipe, be equipped with the eighth valve on the lateral wall of feed liquor pipe, the feed liquor pipe is kept away from the one end of feed liquor pipe and is stretched into in the sugar dissolving tank, be equipped with the seventh valve on the lateral wall of clean pipe, the one end that the feed liquor pipe was kept away from to clean pipe is stretched into in the sugar dissolving tank, the one end that the clean pipe stretched into the sugar dissolving tank is equipped with the shower nozzle.

By adopting the technical scheme, after the sugar dissolving tank is used for a long time, the eighth valve is closed, the first valve and the seventh valve are opened, clean liquid is input into the cleaning pipe along the liquid inlet pipe, and the spray head sprays the liquid into the sugar dissolving tank, so that residual sugar liquid in the sugar dissolving tank can be cleaned.

Furthermore, a moving frame is arranged on one side of the sugar dissolving tank, an air cylinder is arranged on the moving frame and along the height direction of the sugar dissolving tank, a supporting frame which slides on the moving frame is arranged on the end wall of a piston rod of the air cylinder, a liquid inlet pump is arranged on the supporting frame, an inlet of the liquid inlet pump is provided with an input pipe for sucking syrup, and a liquid outlet of the liquid inlet pump is provided with a liquid conveying pipe;

and a receiving pipe for the liquid delivery pipe to extend into is arranged on the top wall of the sugar dissolving tank, and the receiving pipe is arranged along the height direction of the sugar dissolving tank.

Through adopting above-mentioned technical scheme, when needs dissolve be the syrup, because the weight of syrup is heavier, so the below at the input tube is put to the bucket that will be equipped with the syrup, start the cylinder, the cylinder drives the support frame and removes, thereby can drive the feed liquor pump and move down, insert the input tube into the bucket, it moves down to drive the transfer line simultaneously, the transfer line then can insert in the adapter, thereby the thick liquid can be along the input tube, the transfer line gets into in the adapter, finally get into in the sugar dissolving jar, with this can replace the manual sugar dissolving jar of dropping into with the syrup from the feed inlet, be favorable to alleviateing workman work burden, and the work efficiency is improved.

Furthermore, a waist-shaped through groove is formed in the moving frame and in the height direction of the air cylinder, a connecting rod is arranged on the moving frame, a strip-shaped groove is formed in the side wall of the connecting rod, the strip-shaped groove and the waist-shaped through groove are mutually staggered and vertically distributed, a connecting bolt penetrating through the strip-shaped groove and the waist-shaped through groove is arranged on the side wall of the connecting rod, and one end, penetrating through the waist-shaped through groove, of the connecting bolt is connected with a connecting nut through threads;

be equipped with two spacing arms that are the L type on the lateral wall of connecting rod, two spacing arm one side all is connected with the connecting rod, the opposite side extends to the both sides of input tube respectively, one side that spacing arm is close to the connecting rod is equipped with waist type groove, be equipped with the adjusting bolt who passes waist type groove on the lateral wall of spacing arm, the one end and the connecting rod threaded connection that adjusting bolt passed waist type groove, adjusting bolt's diapire is contradicted with the roof of spacing arm.

Through adopting above-mentioned technical scheme, when placing the bucket, according to the height of bucket, the lock nut is unscrewed, goes on the connecting rod about perhaps the front and back regulation to can adjust the height of spacing arm and the length that stretches out, unscrew adjusting bolt again, with spacing arm left and right sides regulation, change the distance between two spacing arms, thereby two linking arms can carry on spacingly to the position of bucket, make things convenient for the input tube to stretch into suction syrup in the bucket smoothly.

Furthermore, the top wall of the sugar dissolving tank is provided with a bent pipe, and one end of the bent pipe, which is far away from the sugar dissolving tank, is provided with a ventilation pressure release valve.

Through adopting above-mentioned technical scheme, when sugar dissolves, produce gas easily, when gaseous too much, gaseous along the return bend discharge, through the bend of return bend to can cushion gas, reduce gaseous impact to ventilative relief valve, then ventilative relief valve opens again, and unnecessary gas overflows the sugar dissolving tank, with this can reduce the sugar dissolving tank and take place that gaseous too much leads to the cracked possibility of sugar dissolving tank.

To sum up, the utility model discloses following beneficial effect has:

1. sugar is put into the sugar dissolving tank from the feeding hole, the first valve is opened, hot water enters the sugar dissolving tank along the liquid inlet pipe, the stirring component stirs the water and the sugar, the circulating component recycles the water and the sugar, the sugar at the bottom of the sugar dissolving tank is pumped out and put into the sugar dissolving tank, and then the sugar is stirred, so that the sugar dissolving speed can be increased, and the sugar dissolving efficiency is improved;

2. water is input into the cleaning pipe by using the liquid inlet pipe, and the spray head sprays out the water, so that the sugar dissolving tank can be cleaned;

3. utilize the cylinder to promote the feed liquor pump, during the feed liquor pump drops into sugar dissolving tank with syrup along input tube, transfer line and adapter to this can reduce the manual work burden of injecting into syrup of workman, improves work efficiency.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment.

FIG. 2 is a schematic diagram of a recycling assembly in accordance with an embodiment.

Fig. 3 is a partial structure view showing a cross section along a-a in fig. 1.

Fig. 4 is a schematic structural diagram of a mobile rack in an embodiment.

Fig. 5 is an enlarged view of a portion a in fig. 4.

In the figure: 1. a frame; 2. a sugar dissolving tank; 20. a feed inlet; 21. a liquid inlet pipe; 22. a first valve; 23. a liquid outlet pipe; 24. a second valve; 25. a liquid supply tube; 26. cleaning the tube; 27. an eighth valve; 28. a seventh valve; 29. a spray head; 200. a bearing pipe; 201. bending the pipe; 202. a ventilation pressure release valve; 203. a main valve; 204. a liquid inlet; 205. a sealing door; 206. a discharge port; 3. a stirring assembly; 30. a motor; 31. a stirring shaft; 32. stirring blades; 4. a circulation component; 40. an output pump; 41. a circulation pipe; 42. a circulation valve; 43. a third valve; 44. a connecting pipe; 45. an output pipe; 46. a fourth valve; 47. a fifth valve; 48. installing a pipe; 49. a delivery pipe; 400. a sixth valve; 401. a delivery pump; 5. a movable frame; 50. a cylinder; 51. a chute; 52. a support frame; 53. a slider; 54. a liquid inlet pump; 55. an input tube; 56. a transfusion tube; 57. a waist-shaped through groove; 58. a connecting rod; 59. a strip-shaped groove; 500. a connecting bolt; 501. a connecting nut; 502. a limiting arm; 503. a waist-shaped groove; 504. adjusting the bolt; 505. and a roller.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Example (b):

referring to fig. 1, the sugar dissolving machine comprises a frame 1, wherein a sugar dissolving tank 2 is arranged on the frame 1, the sugar dissolving tank 2 is vertically arranged, a stirring component 3 is arranged on the side wall of the sugar dissolving tank 2, a feed inlet 20 and a liquid inlet pipe 21 for an external water source are respectively arranged on the top wall of the sugar dissolving tank 2, and a sealing door 205 is hinged on the side wall of the feed inlet 20 to reduce ash falling of the sugar dissolving tank 2; be equipped with first valve 22 on the lateral wall of feed liquor pipe 21, be equipped with return bend 201 on the roof of sugar dissolving tank 2, the one end that sugar dissolving tank 2 was kept away from to return bend 201 is equipped with ventilative relief valve 202, through return bend 201, can cushion steam, reduces the impact to ventilative relief valve 202, through ventilative relief valve 202, can reduce sugar dissolving tank 2 because steam too much produces the possibility that bursts.

Referring to fig. 1, a discharge port 206 is arranged on the bottom wall of the sugar dissolving tank 2, one end of the discharge port 206, which is far away from the sugar dissolving tank 2, is closed, a liquid outlet pipe 23 is arranged on the side wall of the discharge port 206, a second valve 24 is arranged on the side wall of the liquid outlet pipe 23, both the first valve 22 and the second valve 24 are electric valves, and a main valve 203 is arranged at one end of the liquid outlet pipe 23, which is close to the sugar dissolving tank 2, so that the output of sugar liquid can be controlled; be equipped with on the roof of sugar dissolving tank 2 and reserve inlet 204, when using feed liquor pipe 21, will reserve inlet 204 and seal, through reserving inlet 204, increase the mode of carrying liquid, reduce to take place feed liquor pipe 21 and block up, need sugar dissolving machine 2 and shut down the possibility of maintenance.

Referring to fig. 1, a circulation component 4 for circularly conveying the mixed sugar liquid at the bottom of the sugar dissolving tank 2 to the top of the sugar dissolving tank 2 is arranged between the liquid outlet pipe 23 and the liquid inlet pipe 21; when needs dissolve sugar, drop into from feed inlet 20 with sugar and dissolve in sugar jar 2, hot water enters into along feed liquor pipe 21 and dissolves in sugar jar 2, stirs through stirring subassembly 3, and rethread circulation subassembly 4 drops into the sugar and the liquid circulation that dissolve sugar jar 2 bottoms and dissolves in sugar jar 2, and stirring subassembly 3 stirs again to this can reduce the sugar of sediment in dissolving sugar jar 2 bottoms for sugar dissolving speed improves dissolution efficiency.

Referring to fig. 2, the circulation module 4 includes an output pump 40 disposed at one side of the sugar dissolving tank 2, a connecting pipe 44 and an output pipe 45 are respectively disposed at a liquid inlet and a liquid outlet of the output pump 40, ends of the connecting pipe 44 and the output pipe 45 far away from the output pump 40 are both connected to the liquid outlet pipe 23, ends of the connecting pipe 44 and the output pipe 45 near the liquid outlet pipe 23 are both disposed between the second valve 24 and the sugar dissolving tank 2, a fourth valve 46 is disposed on side walls of the connecting pipe 44 and the output pipe 45, a third valve 43 is disposed on a side wall of the liquid outlet pipe 23 and between the connecting pipe 44 and the output pipe 45, a circulation pipe 41 is disposed on a side wall of the liquid outlet pipe 23 and between the output pipe 45 and the second valve 24, an end of the circulation pipe 41 far away from the liquid outlet pipe 23 is connected to the liquid inlet pipe 21, an end of the circulation pipe 41 near the liquid inlet pipe 21, the recycle valve 42 is an electrically operated valve.

Referring to fig. 2, a fifth valve 47 is arranged on the side wall of the liquid outlet pipe 23 and between the output pipe 45 and the circulating pipe 41, a mounting pipe 48 is arranged on the side wall of the liquid outlet pipe 23, the mounting pipe 48 is arranged between the output pipe 45 and the fifth valve 47, a delivery pump 401 is arranged at one end of the mounting pipe 48 far away from the liquid outlet pipe 23, the delivery pump 401 and the output pump 40 are both food-grade pumps, the sugar pump is preferably a DSM horizontal middle-open single-stage double-suction structure water pump manufactured by great company macrobrachium pump industry limited company, a delivery pipe 49 is arranged at the water outlet of the delivery pump 401, one end of the delivery pipe 49 far away from the delivery pump 401 is connected with the liquid outlet pipe 23, one end of the delivery pipe 49 far away from the delivery pump 401 is arranged between the circulating pipe 41 and the fifth valve; when sugar and water are all put into the sugar dissolving tank 2, the circulation valve 42 is opened, the third valve 43 is closed, the fourth valve 46 is opened, the fifth valve 47 is opened, the sixth valve 400 is closed, sugar and liquid can enter the sugar dissolving tank 2 along the liquid outlet pipe 23, the connecting pipe 44, the output pipe 45, the circulation pipe 41 and the liquid inlet pipe 21, and the output pump 40 can put the sugar and liquid at the bottom of the sugar dissolving tank 2 into the top of the sugar dissolving tank 2 for dissolving.

Referring to fig. 2, or opening the circulation valve 42, opening the third valve 43, closing the fourth valve 46, closing the fifth valve 47, opening the sixth valve 400, and inputting sugar and liquid into the sugar dissolving tank 2 through the output pump 40 along the outlet pipe 23, the installation pipe 48, the delivery pipe 49, the circulation pipe 41, and the inlet pipe 21, thereby reducing the possibility of sugar precipitation in the sugar dissolving tank 2, increasing the sugar dissolving speed, and increasing the dissolving efficiency, and when one of the pumps is damaged or needs to be overhauled, the other pump is started to continue to operate through the delivery pump 401 and the output pump 40, thereby reducing the possibility of shutdown of the sugar dissolving tank 2, and reducing the possibility of production efficiency of the sugar dissolving tank 2.

Referring to fig. 3, the stirring assembly 3 includes a motor 30 disposed on the frame 1 and a stirring shaft 31 fixedly connected to a driving shaft of the motor 30, the motor 30 is located at the bottom of the sugar dissolving tank 2, one end of the stirring shaft 31 far away from the motor 30 is inserted into the discharge port 206 and extends into the sugar dissolving tank 2, and a plurality of stirring blades 32 are disposed on a side wall of one end of the stirring shaft 31 extending into the sugar dissolving tank 2; when sugar and liquid are put into the sugar dissolving tank 2, the motor 30 is started, the motor 30 drives the stirring shaft 31 to rotate, and then the stirring blade 32 is driven to stir the liquid in the sugar dissolving tank 2 to rotate, so that the sugar dissolving is accelerated.

Referring to fig. 2 and 3, a liquid supply pipe 25 and a cleaning pipe 26 are arranged at one end of the liquid inlet pipe 21 close to the sugar dissolving tank 2, an eighth valve 27 is arranged on the side wall of the liquid supply pipe 25, one end of the liquid supply pipe 25 far away from the liquid inlet pipe 21 extends into the sugar dissolving tank 2, a seventh valve 28 is arranged on the side wall of the cleaning pipe 26, one end of the cleaning pipe 26 far away from the liquid inlet pipe 21 extends into the sugar dissolving tank 2, and a spray head 29 is arranged at one end of the cleaning pipe 26 extending into the sugar dissolving tank 2; when the sugar dissolving tank 2 needs to be cleaned, the eighth valve 27 is closed, the seventh valve 28 is opened, water enters the cleaning pipe 26 along the liquid inlet pipe 21, the spray head 29 sprays out liquid so as to clean the sugar dissolving tank 2, the fourth valve 46 and the fifth valve 47 are opened, the third valve 43 and the sixth valve 400 are closed, the output pump 40 enters the sugar dissolving tank 2 along the liquid outlet pipe 23, the connecting pipe 44, the output pipe 45, the circulating pipe 41, the liquid inlet pipe 21 and the cleaning pipe 26, and therefore the sugar dissolving tank 2, the liquid outlet pipe 23, the connecting pipe 44, the output pipe 45, the circulating pipe 41 and the liquid inlet pipe 21 can be cleaned; or the third valve 43 and the sixth valve 400 are opened, the fourth valve 46 and the fifth valve 47 are closed, and the delivery pump 401 can feed the liquid in the sugar dissolving tank 2 into the sugar dissolving tank 2 along the liquid outlet pipe 23, the mounting pipe 48, the output pipe 45, the circulating pipe 41, the liquid inlet pipe 21 and the cleaning pipe 26, so that the sugar dissolving tank 2, the liquid outlet pipe 23, the mounting pipe 48, the output pipe 45, the circulating pipe 41 and the liquid inlet pipe 21 can be cleaned.

Referring to fig. 4, since the sugar dissolving tank 2 dissolves sugar and syrup, when the syrup needs to be dissolved, since the sugar dissolving tank 2 is high in height and the barrel containing the syrup is heavy, the syrup is put into the sugar dissolving tank 2 from the feed port 20, the workload of workers is large, a moving frame 5 is provided at one side of the sugar dissolving tank 2, a plurality of rollers 505 are provided on the bottom wall of the moving frame 5 for moving the moving frame 5, a chute 51 is provided on the moving frame 5 along the height direction of the sugar dissolving tank 2, an air cylinder 50 is provided on the moving frame 5 along the height direction of the sugar dissolving tank 2, a support frame 52 is provided on the end wall of the piston rod of the air cylinder 50, a slide block 53 sliding in the chute 51 is provided on the support frame 52, a liquid inlet pump 54 is provided on the support frame 52, a liquid inlet pipe 21 is provided along the height direction of the sugar dissolving tank 2, a liquid inlet of the pump 54 is provided with an, the liquid outlet of the liquid inlet pump 54 is provided with a liquid conveying pipe 56.

Referring to fig. 4, a receiving pipe 200 into which the liquid delivery pipe 56 extends is arranged on the top wall of the sugar dissolving tank 2, the diameter of the receiving pipe 200 is larger than that of the liquid delivery pipe 56, and the receiving pipe 200 is arranged along the height direction of the sugar dissolving tank 2; when syrup needs to be dissolved, the syrup is filled into the barrel, the barrel is placed below the input pipe 55 and slides in the sliding groove 51 through the sliding block 53, the air cylinder 50 drives the supporting frame 52 to move downwards, the input pipe 55 is inserted into the barrel, the liquid conveying pipe 56 is inserted into the receiving pipe 200, the liquid inlet pump 54 conveys the syrup into the sugar dissolving tank 2 along the input pipe 55, the liquid conveying pipe 56 and the receiving pipe 200, and therefore the syrup can be poured into the sugar dissolving tank 2 manually instead of workers, the workload of the workers can be relieved, and the working efficiency is improved.

Referring to fig. 5, remove on the frame 5 and be equipped with the logical groove 57 of waist type along the direction of height of cylinder 50, be equipped with the connecting rod 58 that is the U font on the removal frame 5, the both ends of connecting rod 58 all extend to one side of removal frame 5, connecting rod 58 is close to one side level of removal frame 5 and is equipped with bar groove 59, bar groove 59 and the logical groove 57 of waist type stagger each other and vertical distribution, be equipped with the connecting bolt 500 that passes bar groove 59 and the logical groove 57 of waist type on the lateral wall of connecting rod 58, connecting bolt 500 passes the one end threaded connection who leads to groove 57 of waist type and has coupling nut 501.

Referring to fig. 4 and 5, two limiting arms 502 are arranged on the side wall of the connecting rod 58, the limiting arms 502 are L-shaped, one sides of the two limiting arms 502 are both connected with the connecting rod 58, the other sides of the two limiting arms extend to the two sides of the input pipe 55, a waist-shaped groove 503 is arranged on one side of the limiting arm 502 close to the connecting rod 58, an adjusting bolt 504 penetrating through the waist-shaped groove 503 is arranged on the side wall of the limiting arm 502, one end of the adjusting bolt 504 penetrating through the waist-shaped groove 503 is in threaded connection with the connecting rod 58, the axis of the adjusting bolt 504 is perpendicular to the axis of the connecting bolt 500, and the bottom wall of the; the connecting nut 501 is unscrewed, the connecting rod 58 is moved up and down or back and forth, the limiting arms 502 are driven to move up and down or back and forth, the adjusting bolts 504 are unscrewed, the distance between the two limiting arms 502 is changed, the positions of the limiting arms 502 can be changed, the limiting arms 502 can limit syrup buckets with different heights, and the input pipe 55 can be conveniently and smoothly inserted into the syrup buckets.

The implementation principle of the above embodiment is as follows: when needs dissolve sugar, in throwing into feed inlet 20 with the sugar, open first valve 22, hot water gets into along feed liquor pipe 21 and dissolves in sugar jar 2, stir water and sugar through stirring subassembly 3, simultaneously through circulation subassembly 4 will dissolve sugar jar 2 bottoms sugar and water pump send into and dissolve in sugar jar 2, stirring subassembly 3 stirs once more, after the sugar dissolves and finishes, open second valve 24, the sugar liquid is discharged along drain pipe 23, take out through circulation subassembly 4 will dissolve sugar jar 2 bottoms sugar and drop into and dissolve in sugar jar 2, with this can improve sugar dissolving speed, be favorable to improving and dissolve sugar efficiency.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications to the present embodiment without inventive contribution as required after reading the present specification, but all of them are protected by patent laws within the scope of the claims of the present invention.

Claims (8)

1. A sugar dissolving machine is characterized in that: including frame (1), set up sugar dissolving tank (2) in frame (1) and stirring subassembly (3) of setting on sugar dissolving tank (2), be equipped with feed inlet (20) on the roof of sugar dissolving tank (2), be equipped with feed liquor pipe (21) at external water source on the lateral wall of sugar dissolving tank (2), be equipped with first valve (22) on the lateral wall of feed liquor pipe (21), be equipped with drain pipe (23) on the diapire of sugar dissolving tank (2), be equipped with second valve (24) on the lateral wall of drain pipe (23), be equipped with between drain pipe (23) and feed liquor pipe (21) and be used for sending into the circulation subassembly (4) at sugar dissolving tank (2) top with the mixed sugar liquid circulation of sugar dissolving tank (2) bottom into.

2. The sugar dissolving machine according to claim 1, characterized in that: the circulation assembly (4) comprises an output pump (40) and a circulation pipe (41) arranged on the side wall of the liquid outlet pipe (23), one end, far away from the liquid outlet pipe (23), of the circulation pipe (41) is connected with the liquid inlet pipe (21), one end, close to the liquid inlet pipe (21), of the circulation pipe (41) is located between the first valve (22) and the sugar dissolving tank (2), one end, close to the liquid outlet pipe (23), of the circulation pipe (41) is located between the second valve (24) and the sugar dissolving tank (2), and a circulation valve (42) is arranged on the side wall of the circulation pipe (41);

just be located on the lateral wall of drain pipe (23) and be equipped with third valve (43) between circulating pipe (41) and sugar dissolving tank (2), the both sides that just are located third valve (43) on the lateral wall of drain pipe (23) are equipped with connecting pipe (44) and output tube (45) respectively, all be equipped with fourth valve (46) on the lateral wall of connecting pipe (44) and output tube (45), the one end that drain pipe (23) were kept away from to connecting pipe (44) and output tube (45) is connected with the water inlet and the delivery port of output pump (40) respectively.

3. The sugar dissolving machine according to claim 2, characterized in that: on the lateral wall of drain pipe (23) and be located and be equipped with fifth valve (47) between output tube (45) and circulating pipe (41), just be located and be equipped with installation pipe (48) between output tube (45) and fifth valve (47) on the lateral wall of drain pipe (23), the one end that drain pipe (23) were kept away from in installation pipe (48) is equipped with delivery pump (401), the delivery port of delivery pump (401) is equipped with conveyer pipe (49), the one end that conveyer pump (401) were kept away from in conveyer pipe (49) is connected with drain pipe (23), the one end that conveyer pipe (49) are close to drain pipe (23) is located between circulating pipe (41) and fifth valve (47), all be equipped with sixth valve (400) on the lateral wall of conveyer pipe (49) and installation pipe (48).

4. A sugar dissolving machine according to claim 1 or 3, characterized in that: stirring subassembly (3) is including setting up motor (30) in frame (1), fixedly connected with (mixing) shaft (31) in the drive shaft of motor (30), motor (30) is kept away from in (mixing) shaft (31) one end stretches into sugar dissolving tank (2), be equipped with a plurality of stirring leaf (32) on (mixing) shaft (31) stretches into the lateral wall of sugar dissolving tank (2) one end.

5. The sugar dissolving machine according to claim 1, characterized in that: feed liquor pipe (21) is close to the one end of dissolving sugar jar (2) and is equipped with feed liquor pipe (25) and clean pipe (26), be equipped with eighth valve (27) on the lateral wall of feed liquor pipe (25), the one end that feed liquor pipe (21) were kept away from in feed liquor pipe (25) stretches into dissolving sugar jar (2), be equipped with seventh valve (28) on the lateral wall of clean pipe (26), the one end that feed liquor pipe (21) were kept away from in clean pipe (26) stretches into dissolving sugar jar (2), the one end that clean pipe (26) stretched into dissolving sugar jar (2) is equipped with shower nozzle (29).

6. The sugar dissolving machine according to claim 1, characterized in that: a moving frame (5) is arranged on one side of the sugar dissolving tank (2), an air cylinder (50) is arranged on the moving frame (5) and in the height direction of the sugar dissolving tank (2), a supporting frame (52) which slides on the moving frame (5) is arranged on the end wall of a piston rod of the air cylinder (50), a liquid inlet pump (54) is arranged on the supporting frame (52), an input pipe (55) for sucking syrup is arranged at a liquid inlet of the liquid inlet pump (54), and a liquid outlet of the liquid inlet pump (54) is provided with a liquid conveying pipe (56);

the top wall of the sugar dissolving tank (2) is provided with a bearing pipe (200) into which the liquid delivery pipe (56) extends, and the bearing pipe (200) is arranged along the height direction of the sugar dissolving tank (2).

7. The sugar dissolving machine according to claim 6, characterized in that: a waist-shaped through groove (57) is formed in the moving frame (5) in the height direction of the air cylinder (50), a connecting rod (58) is arranged on the moving frame (5), a strip-shaped groove (59) is formed in the side wall of the connecting rod (58), the strip-shaped groove (59) and the waist-shaped through groove (57) are staggered and vertically distributed, a connecting bolt (500) penetrating through the strip-shaped groove (59) and the waist-shaped through groove (57) is arranged on the side wall of the connecting rod (58), and one end, penetrating through the waist-shaped through groove (57), of the connecting bolt (500) is in threaded connection with a connecting nut (501);

be equipped with two spacing arms (502) that are the L type on the lateral wall of connecting rod (58), two spacing arm (502) one side all is connected with connecting rod (58), the opposite side extends to the both sides of input tube (55) respectively, one side that spacing arm (502) are close to connecting rod (58) is equipped with waist type groove (503), be equipped with adjusting bolt (504) that pass waist type groove (503) on the lateral wall of spacing arm (502), adjusting bolt (504) pass the one end and connecting rod (58) threaded connection of waist type groove (503), the diapire of adjusting bolt (504) is contradicted with the roof of spacing arm (502).

8. The sugar dissolving machine according to claim 1, characterized in that: be equipped with return bend (201) on the roof of sugar dissolving tank (2), the one end that sugar dissolving tank (2) were kept away from in return bend (201) is equipped with ventilative relief valve (202).

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