CN214002789U - Maltose syrup holding vessel - Google Patents

Abstract

The application relates to the field of storage equipment, in particular to a maltose syrup storage tank, which comprises a storage tank body, wherein a discharging pipeline is connected to the storage tank body, a feeding pipeline is connected to the discharging pipeline, a pumping pump is arranged on the feeding pipeline, and a switch valve is also arranged on the feeding pipeline; this internal heating pipeline that is provided with of holding vessel, this external admission line and the exhaust duct of being provided with of holding vessel, heating pipeline both ends all stretch out the holding vessel outside this, and one end and admission line intercommunication, the other end and exhaust duct intercommunication, the setting of discharge pipeline is kept away from to the admission line, and the exhaust duct is close to the setting of discharge pipeline. The application has the effect of conveniently pumping maltose syrup in winter.

Description

Maltose syrup holding vessel

Technical Field

The application relates to the field of storage equipment, especially, relate to a maltose syrup holding vessel.

Background

Maltose syrup, also called "maltose", is a kind of sugar made by the action of saccharifying enzyme in malt on starch in broken rice, is light yellow, and its main components are maltose, glucose and dextrin, and its taste is sweet and soft. Maltose syrup is widely used for candy, cake products and other industries.

At present, a maltose syrup storage tank is equipment for storing syrup so as to be convenient for better making accessory food of syrup, and is widely used in the fields of candy products, cake products, jujube making industry and preserved fruits; the existing maltose syrup is prepared by a plurality of procedures such as boiling in a pot, stirring and the like, then is put into a storage tank for storage, and is used as a processing raw material of other accessory foods.

However, in winter, due to the cold weather and low temperature, the maltose syrup in the storage tank body becomes sticky and difficult to pump.

SUMMERY OF THE UTILITY MODEL

In order to facilitate pumping of maltose syrup during winter time, the present application provides a maltose syrup storage tank.

The application provides a maltose syrup holding vessel adopts following technical scheme:

a maltose syrup storage tank comprises a storage tank body, wherein a discharge pipeline is connected to the storage tank body, a feeding pipeline is connected to the discharge pipeline, a pumping pump is arranged on the feeding pipeline, and a switch valve is further arranged on the feeding pipeline; this internal heating pipeline that is provided with of holding vessel, be provided with admission line and exhaust duct outside the holding vessel body, outside the holding vessel body was all stretched out at the heating pipeline both ends, one end and admission line intercommunication, the other end and exhaust duct intercommunication, the setting of discharge duct is kept away from to the admission line, the exhaust duct is close to the setting of discharge duct.

Through adopting above-mentioned technical scheme, will treat that the maltose syrup storage of using is in the holding vessel body, through arranging material pipeline output, and sets up material pump and ooff valve on the conveying pipeline. When the maltose syrup extracting device is used, the switch valve is opened, the maltose syrup is extracted through the material extracting pump, and the maltose syrup is conveyed into a designated container through the material conveying pipeline. When this internal maltose thin viscosity of holding vessel is too big, lead to hot steam to this internal expert of holding vessel through the admission line, make hot steam get into the heating pipeline to along with the heating pipeline is at this internal flow of holding vessel, discharge in the final follow exhaust duct, to the maltose thin heating in the holding vessel body, make the maltose thin mobility that keeps, the storage vessel body is taken out to the material pump of being convenient for with maltose thin. Because the position setting of admission line and exhaust duct, the maltose syrup degree of being heated around the admission line is higher than the maltose syrup around the exhaust duct, and the maltose syrup mobility around the admission line is greater than the maltose syrup mobility around the exhaust duct for the maltose syrup that is close to the discharge duct is taken away the back, and the syrup of keeping away from the discharge duct flows to the discharge duct direction rapidly, is unlikely to appear cutting off when taking out the material.

Optionally, the heating pipeline is wave setting on holding vessel body inner wall, the heating pipeline distributes on the relative both sides wall of holding vessel body.

Through adopting above-mentioned technical scheme, set up heating pipeline into the circuitous wave of bending, distribute at the relative both ends of holding vessel body, in limited space, increaseed heating pipeline's arranging, increase heated area makes the heat dispersion even.

Optionally, the heating pipeline is arranged at one end close to the discharge pipeline, and the end far away from the discharge pipeline is not provided with the heating pipeline.

Through adopting above-mentioned technical scheme, because in food production, the volume of holding vessel body is great, and the sufficient repetitious usage of the volume of maltose syrup can not once use up, so do not need whole heating, only need the heating be close to the maltose syrup of discharge pipe one end alright, and the maltose syrup that is not provided with heating pipe one end is taken away along with the maltose syrup that is equipped with heating pipe end, is borrowing the slowly flow to discharge pipe end of waste heat. Not only saves raw materials, but also makes the maltose syrup hot and fresh.

Optionally, a drain valve is arranged on the exhaust pipeline.

Through adopting above-mentioned technical scheme, set up the trap on exhaust duct, when exhaust duct's water vapor part meets the condensation and becomes water, the trap blocks water, only allows water vapor to pass through, like this, has both reached the circulated use's of steam purpose, can reduce thermal loss again.

Optionally, the exhaust duct is connected with a bypass duct, and the bypass duct is provided with a blowoff valve.

Through adopting above-mentioned technical scheme, connect the by-pass line on exhaust duct, by-pass line one end with be close to the exhaust duct intercommunication of holding vessel body, the other end with keep away from the exhaust duct intercommunication of holding vessel body, finally unite two into one with exhaust duct, when the trap because the water of interception is too much and block up, open the blowoff valve, the water of interception in with exhaust duct is discharged to the by-pass line.

Optionally, a cleaning valve is further arranged on the feeding pipeline.

Through adopting above-mentioned technical scheme, set up clean valve on the pipeline for feeding, when the holding vessel body need wash, through opening clean valve, discharge the sewage after will wasing from the holding vessel body.

Optionally, the discharge pipeline is detachably connected with the feeding pipeline, and the air inlet pipeline and the exhaust pipeline are detachably connected with two ends of the heating pipeline respectively.

Through adopting above-mentioned technical scheme, this internal pipeline of holding vessel can dismantle with this external pipeline of holding vessel and be connected, when wearing and tearing or fracture appear in this internal and this external pipeline of holding vessel, can dismantle and change or repair, both saved raw and other materials, also convenient transport.

Optionally, the discharge pipeline is connected with the feeding pipeline through a flange, and the air inlet pipeline and the exhaust pipeline are respectively connected with two ends of the heating pipeline through flanges.

Through adopting above-mentioned technical scheme, all through flange joint between all two pipelines, this kind of connected mode not only sealing performance is good, can not have the dilute outflow of maltose or air admission, makes the dilute sclerosis of maltose that is located the pipeline, and joint strength is high moreover, and it is convenient to dismantle.

In summary, the present application includes at least one of the following beneficial technical effects:

1. through connecting row material pipeline on the holding vessel body, row material pipeline and conveying pipeline intercommunication set up pump and ooff valve on the conveying pipeline, during the use, open the ooff valve, take out maltose syrup through the pump, send designated container to through conveying pipeline. Still connect inlet line and exhaust duct on the holding vessel body, inlet line and exhaust duct and the heating pipeline intercommunication of setting in the holding vessel body. Hot steam is introduced into the storage tank body through the air inlet pipeline, enters the heating pipeline and flows in the storage tank body along with the heating pipeline, and is finally discharged from the exhaust pipeline, and maltose syrup in the storage tank body is heated, so that the maltose syrup keeps fluidity, and a pumping pump is convenient to pump the maltose syrup out of the storage tank body; effectively solve this internal maltose of holding vessel thick degree of consistency and the problem of extracting not easily when severe cold weather.

2. The heating pipelines are arranged in a wavy shape and distributed at the two opposite ends of the storage tank body, so that the arrangement of the heating pipelines is enlarged in a limited space, the heating area is enlarged, and heat is uniformly dispersed;

3. can dismantle with this external pipeline of holding vessel through making this internal pipeline of holding vessel and be connected, when wearing and tearing or fracture appear in this internal and this external pipeline of holding vessel, can dismantle the change or repair, both saved raw and other materials, also convenient transport.

Drawings

FIG. 1 is a schematic view of a maltose syrup storage tank.

Fig. 2 is a schematic structural view of a portion a in fig. 1.

Fig. 3 is a partial cross-sectional view of a maltose syrup storage tank showing a heating pipeline.

Description of reference numerals: 1. a storage tank body; 12. a discharge conduit; 13. a feed inlet; 14. a sealing plug; 2. a feed line; 21. a material pumping pump; 22. an on-off valve; 23. cleaning the valve; 3. heating the pipeline; 4. an air intake duct; 41. an intake valve; 5. an exhaust duct; 51. a drain valve; 6. a bypass conduit; 61. a blowoff valve; 7. a flange; 71. a bolt; 8. and (4) a bracket.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses a maltose syrup holding vessel. Referring to fig. 1, a dilute holding vessel of maltose includes holding vessel body 1, and holding vessel body 1 is the bellied drum in both ends, and holding vessel body 1 transversely erects on placing on the support 8 on ground, and holding vessel body 1 keeps away from the one side of support 8 and has seted up feed inlet 13, is provided with sealing plug 14 on the feed inlet 13.

Referring to fig. 1 and 2, storage tank body 1 one end bottom is connected with row material pipeline 12, arranges material pipeline 12 and storage tank body 1 welding, is connected with conveying pipeline 2 on arranging material pipeline 12, and conveying pipeline 2 just can dismantle with row material pipeline 12 intercommunication and be connected. The feed pipe 2 is last to communicate has the pump 21 of taking out material, and this pump 21 of taking out material is the rotor pump, and the shaft coupling at rotor pump both ends respectively with feed pipe 2 around both ends screw thread fastening be connected, and the rotor pump has very strong suction, constantly draws out in the holding vessel body 1 with the maltose syrup, sends the maltose syrup to in the attached preparation equipment through feed pipe 2. The feed pipe 2 is also provided with a switch valve 22 to control the outflow of maltose syrup at any time. The feed pipe 2 is also provided with a cleaning valve 23 to discharge the sewage when the inside of the storage tank body 1 is cleaned.

Be provided with heating pipeline 3 in the holding vessel body 1, outside 3 both ends of heating pipeline all stretched out holding vessel body 1, and the periphery that heating pipeline 3 stretched out the end all welded with holding vessel body 1 to keep holding vessel body 1's leakproofness. An air inlet pipeline 4 and an exhaust pipeline 5 are arranged outside the storage tank body 1, the air inlet pipeline 4 is communicated with and detachably connected with one end of the heating pipeline 3, and the exhaust pipeline 5 is communicated with and detachably connected with the other end of the heating pipeline 3; the air inlet pipeline 4 and the exhaust pipeline 5 are both positioned on the same end face with the discharge pipeline 12, so that space can be saved on the one hand, and workers can observe conveniently without walking everywhere on the other hand. The inlet duct 4 is arranged remote from the discharge duct 12 and the outlet duct 5 is arranged in close proximity to the discharge duct 12, so that the maltose syrup present beside the discharge duct 12 can be sufficiently heated for smooth discharge from the discharge duct 12.

An air inlet valve 41 is provided on the air inlet duct 4 for controlling the admission of steam. The exhaust pipe 5 is provided with a drain valve 51, when the steam discharged from the exhaust pipe 5 is partially condensed into water when meeting cold, the flow of the steam during operation is not facilitated, and at the moment, the drain valve 51 intercepts the condensed water and only allows the water vapor to pass through.

In order to discharge the water intercepted in the exhaust pipeline 5 and prevent the drain valve 51 from being blocked, a bypass pipeline 6 is welded on the exhaust pipeline 5, the bypass pipeline 6 is connected with the exhaust pipeline 5 in parallel, one end of the bypass pipeline 6 is communicated with one end, close to the drain valve 51, of the exhaust pipeline 5, and the other end of the bypass pipeline is communicated with one end, far away from the drain valve 51, of the exhaust pipeline 5. The bypass pipe 6 is provided with a blowoff valve 61, when the intercepted water in the exhaust pipe 5 is slowly accumulated to block the drain valve 51, the blowoff valve 61 is opened, the accumulated water flows out from the bypass pipe 6, enters the exhaust pipe 5, and flows back to the heating device along with the gas in the exhaust pipe 5 to continue heating and supplying the gas.

In this example, all detachable connections are flange 7 connections, that is, the air inlet pipeline 4 and the air outlet pipeline 5 are respectively connected with two ends of the heating pipeline 3 through the flanges 7, the air outlet pipeline 5 and the material outlet pipeline 12 are connected through the flanges 7, that is, the flanges 7 are cast at two ends of the pipeline in butt joint, a sealing groove is formed in the end face of the flange 7, a sealing ring is arranged in the groove, and the pipelines are tightly connected together by bolts 71 or studs after the pipe is in butt joint. In this embodiment, the fixing is performed by using bolts 71.

Referring to fig. 3, the heating pipeline 3 is wave-shaped and disposed at one end of the storage tank body 1 close to the discharge pipeline 12, and the heating pipeline 3 is symmetrically and curvedly distributed on two opposite side walls of the storage tank body 1, so that the heating area of the maltose syrup can be increased and the heat can be uniformly dispersed. The heating pipeline 3 is attached to and welded with the interior of the storage tank body 1. The end far away from the discharge pipeline is not provided with a heating pipeline so as to realize the current use of the maltose syrup.

Wherein, the materials used in the method are all food-grade stainless steel materials.

The implementation principle of this application embodiment a maltose syrup holding vessel does: when the maltose syrup storage tank is used, prepared maltose syrup is poured into the storage tank body 1 through the feeding hole 13, and the sealing plug 14 is tightly covered for use.

The boiler is heated, so that hot steam enters the air inlet pipeline 4, the air inlet valve 41 and the drain valve 51 are opened, the hot steam enters the heating pipeline 3, flows along the distribution route of the heating pipeline 3 in the storage tank body 1, and finally flows out of the exhaust pipeline 5, and maltose syrup in the storage tank body 1 is heated and then is heated, so that the maltose syrup does not become viscous. The drain valve 51 on the exhaust pipeline 5 intercepts the water condensed by the condensation and only allows the water vapor to pass through; when the intercepted water is enough to block the drain valve 51, the drain valve 61 on the bypass pipeline 6 is opened, and the accumulated water is discharged from the bypass pipeline 6, enters the exhaust pipeline 5 and finally returns to the boiler for secondary heating.

The switch valve 22 on the discharge pipeline 12 is opened, the pumping pump 21 is started, and the maltose syrup is pumped out from the discharge pipeline 12, enters the feeding pipeline 2 and is conveyed to a designated container through the feeding pipeline 2. In this process, the delivery of maltose syrup is controlled by the pump 21.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. A maltose syrup storage tank comprises a storage tank body (1), wherein a discharging pipeline (12) is connected to the storage tank body (1), a feeding pipeline (2) is connected to the discharging pipeline (12), a pumping pump (21) is arranged on the feeding pipeline (2), and a switch valve (22) is further arranged on the feeding pipeline (2); the method is characterized in that: be provided with heating pipeline (3) in holding vessel body (1), be provided with admission line (4) and exhaust duct (5) outside holding vessel body (1), outside holding vessel body (1) was all stretched out at heating pipeline (3) both ends, one end and admission line (4) intercommunication, the other end and exhaust duct (5) intercommunication, discharge duct (12) setting is kept away from in admission line (4), exhaust duct (5) are close to discharge duct (12) setting.

2. The maltose syrup storage tank of claim 1 wherein: heating pipeline (3) are the wave setting on holding vessel body (1) inner wall, heating pipeline distributes on the relative both sides wall of holding vessel body (1).

3. The maltose syrup storage tank of claim 1 wherein: the heating pipeline (3) is arranged at one end close to the discharging pipeline (12), and the heating pipeline (3) is not arranged at one end far away from the discharging pipeline (12).

4. The maltose syrup storage tank of claim 1 wherein: a drain valve (51) is arranged on the exhaust pipeline (5).

5. The maltose syrup storage tank of claim 1 wherein: and a bypass pipeline (6) is connected to the exhaust pipeline (5), and a blow-down valve (61) is arranged on the bypass pipeline (6).

6. The maltose syrup storage tank of claim 1 wherein: the feeding pipeline (2) is also provided with a cleaning valve (23).

7. The maltose syrup storage tank of claim 1 wherein: the discharging pipeline (12) is detachably connected with the feeding pipeline (2), and the air inlet pipeline (4) and the exhaust pipeline (5) are detachably connected with two ends of the heating pipeline (3) respectively.

8. The maltose syrup storage tank of claim 7 wherein: the discharging pipeline (12) is connected with the feeding pipeline (2) through a flange (7), and the air inlet pipeline (4) and the air outlet pipeline (5) are respectively connected with the two ends of the heating pipeline (3) through the flanges (7).

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