CN214582055U - Cooling device for pagoda candy forming machine - Google Patents

Abstract

The utility model discloses a cooling device for a pagoda candy forming machine, which comprises a first cooling component arranged outside a feeding pipe and a second cooling component arranged outside a quantitative bin; the first cooling assembly comprises a first circulating water tank, a first water inlet arranged at the bottom of the first circulating water tank, a first water outlet arranged at the top of the first circulating water tank and a first temperature sensor arranged on the side surface of the first circulating water tank; the second cooling assembly comprises a second circulating water tank, a second water inlet and a second water outlet which are oppositely arranged on the side surface of the second circulating water tank, and a second temperature sensor arranged on the side surface of the second circulating water tank. This neotype first cooling module cools off the inlet pipe through the circulating water, has avoided first motor because the heat that produces when rotating the pay-off piles up, and second cooling module cools off ration storehouse, has avoided the second motor because the heat that produces when rotating the pay-off piles up, guarantees the normal operating of pagoda sugar make-up machine and the quality of product.

Description

Cooling device for pagoda candy forming machine

Technical Field

The utility model belongs to the technical field of the medicine processing, concretely relates to cooling device that pagoda sugar make-up machine was used.

Background

Piperazine phosphate pagoda sugar is a sugar block shaped like a pagoda and is mainly used for preventing and treating children ascariasis and pinworm infection. The equipment used for producing the pagoda sugar is a pagoda sugar forming machine, a motor used for feeding materials during the operation of the equipment generates heat and forms high temperature in the rotating process, the processing quality of products is influenced, the equipment is easy to damage due to the long-term high temperature, the normal production operation is influenced, and a cooling device suitable for the pagoda sugar forming machine is not seen at present.

SUMMERY OF THE UTILITY MODEL

The utility model provides a cooling device for a pagoda candy forming machine, which solves the technical problem.

In order to solve the technical problem, the utility model discloses a following technical scheme:

a cooling device for a candy cone forming machine comprises a first motor box and a feeding pipe arranged on the first motor box, wherein a feeding bin is arranged on the feeding pipe, a discharging port is formed in the side surface of the feeding pipe and is connected with a quantifying bin through a discharging pipe, a second motor box is arranged on the side surface of the quantifying bin, and the cooling device comprises a first cooling assembly arranged on the outer side of the feeding pipe; the first cooling assembly comprises a first circulating water tank, a first water inlet, a first water outlet and a first temperature sensor, the first water inlet and the first water outlet are respectively arranged at the bottom and the top of the first circulating water tank, and the first temperature sensor is arranged at the inner side of the first circulating water tank; because the pagoda sugar make-up machine uses the screw rod pay-off, first screw rod sets up in the inlet tube, when first motor drove first screw rod pay-off, because the friction of rotating can go out the production of heat, consequently, set up first circulating water groove in the inlet tube outside and cool down through the cooling water, avoid because the heat that produces when first motor rotates piles up and causes the harm to equipment, also can bring adverse effect to the quality of product when the temperature risees moreover.

Further, the first cooling assembly further comprises a flow regulating assembly, and the flow regulating assembly comprises a first flow valve arranged at the first water inlet and a second flow valve arranged at the first water outlet. Because first cooling module adopts the water-cooled form, therefore the inflow rate of outflow of water has great influence to the cooling effect, sets up first flow valve, first delivery port department at first delivery port department and sets up the second flow valve to can adjust the velocity of flow of intaking or the velocity of flow of play water according to actual in service behavior, with the actual demand that satisfies the cooling effect.

Furthermore, a clamping plate is arranged on the inner side of the first circulating water tank, a groove is formed by the clamping plate and the inner side of the first circulating water tank in a surrounding mode, and a filter screen is arranged in the groove. Scale may be deposited in the first circulating water tank after the first cooling assembly is used for a period of time, and the scale may flow out from the first water outlet when water needs to be drained, which may cause blockage of the water outlet pipeline; therefore, the filter screen that sets up in the recess can prevent debris such as incrustation scale from leading to the jam of pipeline in flowing into the pipeline through first delivery port, and the filter screen can be demolishd the change according to in service behavior in the use.

Furthermore, the first cooling assembly further comprises a cleaning assembly, the cleaning assembly comprises a support plate, a pneumatic device arranged at the top of the support plate, a connecting rod connected with the pneumatic device, a fixing plate arranged at the bottom of the connecting rod, and a wiping layer arranged on the side surface of the fixing plate; the support plate is arranged around the outer side of the feeding pipe; the cleaning component is arranged above the first cooling component and used for cleaning scale in the first circulating water tank; during the use, start pneumatic means, pneumatic means drives the connecting rod and reciprocates, and the fixed plate also reciprocates along with the connecting rod to make the scrubbing layer reciprocate in first circulation basin, clear away the incrustation scale of deposit in first circulation basin side and bottom, avoided influencing the cooling effect because the incrustation scale is stained with and attaches in first circulation basin side.

Furthermore, a hole groove is formed in the fixing plate, and a liquid level meter is arranged above the hole groove and at a position corresponding to the bottom of the support plate; because the position that first cooling module set up is than higher, the water level of the first circulation basin of observation when giving daily use brings inconvenience, consequently, set up the hole groove on the re-fixing plate, and at the inslot installation level gauge of hole, through the real-time measurement of level gauge in order conveniently to know the water level height in the first circulation basin, the operating personnel of being convenient for adjusts into water or goes out water according to actual cooling needs, and need not to worry that the water in the first circulation basin can spill over, satisfies unrealistic user demand.

Further, the side surface of the wiping layer is tightly attached to the side surface of the first circulating water tank; and a liquid adding groove is arranged at the top of the wiping layer. The wiping layer is arranged close to the side face of the first circulating water tank, scale impurities and the like on the side face of the first circulating water tank can be wiped cleanly by up-and-down moving wiping of the wiping layer, and scale deposition caused by long-term use of the first circulating water tank is avoided, so that the cooling effect of the first cooling assembly is further influenced; the liquid feeding groove that sets up is used for adding incrustation scale treatment fluid, and incrustation scale treatment fluid adds from the scrubbing layer top, can permeate on each face of scrubbing layer to improve the cleaning efficiency of incrustation scale when making the scrubbing layer scrub first circulating water tank side.

Further, the cooling device further comprises a second cooling assembly arranged outside the quantitative bin, wherein the second cooling assembly comprises a second circulating water tank, a second water inlet arranged on the side surface of the second circulating water tank, a second water outlet arranged on the opposite side of the second water inlet, and a second temperature sensor arranged on the side surface of the second circulating water tank; because the second screw is arranged in the quantitative bin of the pagoda sugar forming machine, the second screw is a quantitative screw, and the size of the pagoda sugar is controlled by controlling the feeding amount; the second screw rod is driven to operate by the second motor, so that a second cooling assembly is required to cool the joint of the second motor and the second screw rod, and the problem that the second motor and the second screw rod generate heat during operation and heat is not dissipated in time to cause temperature rise and possibly cause equipment damage or influence on product quality is prevented; the second temperature sensor can measure the temperature of the cooling water in the second circulating water tank in time, so that the adjustment of water inflow and water outflow is carried out according to actual use, and the cooling effect is guaranteed.

Further, the first cooling assembly is located at a position higher than the position of the second cooling assembly; the first water outlet of the first cooling assembly is connected with the second water inlet of the second cooling assembly through a pipeline; the height of the first cooling assembly is higher than that of the second cooling assembly, so that water at the first water outlet of the first cooling assembly flows into the second water inlet of the second cooling assembly by utilizing the height difference, and the utilization rate of the water is improved.

The utility model has the advantages that: 1. the first cooling assembly is used for cooling the feeding pipe by using circulating water, so that heat accumulation generated by the first motor during rotating feeding is avoided, normal operation of the pagoda sugar forming machine is ensured, the service life of parts is prolonged, and the quality of products is ensured; 2. the cleaning assembly is used for removing scale generated by long-term use of the first circulating water tank, so that the influence on the cooling effect due to the accumulation of the scale is avoided, and the pipeline can be blocked when the scale is discharged from the first water outlet; 3. the second cooling assembly can cool the quantitative bin, so that heat accumulation generated when the second motor drives the second screw to rotate for quantitative feeding is avoided, normal operation of the pagoda sugar forming machine is ensured, the service life of parts is prolonged, and the quality of products is ensured; this is novel to have better cooling effect, avoids because the motor drives the screw rod and rotates the harm that the high temperature that forms caused equipment and product.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of the feeding pipe, the first motor box and the first cooling assembly.

Fig. 3 is a schematic structural diagram of the filter screen.

FIG. 4 is a schematic view of a cleaning assembly.

Fig. 5 is a schematic structural diagram of the fixing plate and the wiping layer.

Fig. 6 is a schematic structural view of a second cooling assembly.

Reference numerals: 1-a candy maker, 11-a first motor box, 111-a first motor, 112-a first screw, 12-a feed pipe, 13-a feed bin, 14-a discharge port, 15-a discharge pipe, 16-a quantitative bin, 17-a second motor box, 171-a second motor, 172-a second screw, 2-a first cooling component, 21-a first circulating water tank, 22-a first water inlet, 23-a first water outlet, 24-a first temperature sensor, 25-a flow regulating component, 251-a first flow valve, 252-a second flow valve, 26-a clamping plate, 261-a groove, 27-a filtering screen, 28-a cleaning component, 281-a supporting plate, 282-a pneumatic device, 283-a connecting rod, 284-a fixing plate, 285-wiping layer, 286-hole groove, 287-liquid level meter, 288-liquid adding groove, 3-second cooling component, 31-second circulating water groove, 32-second water inlet, 33-second water outlet and 34-second temperature sensor.

Detailed Description

In order to facilitate a better understanding of the invention, the following examples are given with reference to the accompanying drawings, which belong to the scope of protection of the invention, but do not limit the scope of protection of the invention.

Examples

A cooling device for a candy cone forming machine is disclosed, as shown in fig. 1 and fig. 2, the candy cone forming machine 1 comprises a first motor box 11 and a feeding pipe 12 arranged on the first motor box 11, a feeding bin 13 is arranged on the feeding pipe 12, a discharging port 14 is arranged on the side surface of the feeding pipe 12, the discharging port 14 is connected with a quantifying bin 16 through a discharging pipe 15, a second motor box 17 is arranged on the side surface of the quantifying bin 16, and the cooling device comprises a first cooling component 2 arranged outside the feeding pipe 12; the first cooling module 2 includes a first circulation water tank 21, a first water inlet 22, a first water outlet 23, and a first temperature sensor 24, the first water inlet 22 and the first water outlet 23 are respectively provided at the bottom and the top of the first circulation water tank 21, and the first temperature sensor 24 is provided inside the first circulation water tank 21. The first motor box and the second motor box are respectively arranged on the support; a first motor 111 is arranged in the first motor box 11, and the first motor 111 is connected with a first screw rod 112 arranged in the feeding pipe 12; a second motor 171 is arranged in the second motor box 17, and the second motor 171 is connected with a second screw 172 arranged in the quantitative bin 16; the discharge port of the quantitative bin 16 is connected with an extrusion pipeline, and the tail end of the extrusion pipeline is provided with a decorating nozzle.

As shown in fig. 1 and 2, the first cooling module 2 further includes a flow regulating assembly 25, and the flow regulating assembly 25 includes a first flow valve 251 disposed at the first water inlet 22 and a second flow valve 252 disposed at the first water outlet 23.

As shown in fig. 3, a catch plate 26 is disposed inside the first circulation water tank 21, the catch plate 26 and the inside of the first circulation water tank 21 form a groove 261, and a filter 27 is disposed in the groove 261.

As shown in fig. 1, 4 and 5, the first cooling module 2 further includes a cleaning module 28, the cleaning module 28 includes a support plate 281, a pneumatic device 282 disposed on the top of the support plate 281, a connecting rod 283 connected to the pneumatic device 282, a fixing plate 284 disposed at the bottom of the connecting rod 283, and a wiping layer 285 disposed at the side of the fixing plate 284; a support plate 281 is provided around the outside of the feed tube 12; the pneumatic device may use a pneumatic cylinder; the supporting plate and the fixing plate are arranged around the outer side of the feeding pipe.

As shown in fig. 4 and 5, the fixing plate 284 is provided with a hole 286, and a liquid level gauge 287 is provided above the hole 286 and corresponding to the bottom of the support plate 281.

As shown in fig. 5, the side surface of the wiping layer 285 is closely attached to the side surface of the first circulation water tank 21; a liquid adding tank 288 is arranged on top of the wiping layer 285.

As shown in fig. 6, the cooling device further includes a second cooling module 3 disposed outside the quantitative bin 16, and the second cooling module 3 includes a second circulating water tank 31, a second water inlet 32 disposed on a side surface of the second circulating water tank 31, a second water outlet 33 disposed on an opposite side of the second water inlet 32, and a second temperature sensor 34 disposed on a side surface of the second circulating water tank 31.

The first cooling assembly 2 is positioned at a higher height than the second cooling assembly 3; the first water outlet 23 of the first cooling module 2 is connected with the second water inlet 32 of the second cooling module 3 through a pipeline.

This novel in, the concrete model of first motor, second motor, pneumatic means, first temperature sensor, second temperature sensor etc. that relate to does not belong to the utility model discloses an improve the point, do not do here and describe repeatedly.

The using method comprises the following steps: adding the raw materials of the pagoda sugar into a feeding bin; and starting the first motor and the second motor, and communicating water inlet to enable water to enter the first circulating water tank through the first water inlet. The first motor can drive the first screw rod to rotate after being started, so that the raw materials are pushed to the discharge hole and then enter the quantitative bin through the discharge pipe; after the second motor is started, the second screw rod is driven to carry out quantitative feeding on the raw materials, the raw materials are extruded from the quantitative bin to the extrusion pipe, and the pagoda candy is produced by mounting a flower nozzle.

When the first motor drives the first screw rod to operate, water enters the first circulating water tank from the first water inlet, and the inflow flow rate of the first water inlet can be controlled by adjusting the first flow valve; the water in the first circulating water tank continuously enters and exits to cool the feeding pipe, so that heat accumulation when the first motor drives the first screw to rotate for feeding is avoided, and normal production is ensured; a first temperature sensor arranged in the first circulating water tank can monitor the water temperature in the first circulating water tank, and whether the flow valve is needed to adjust the flow rate of the first water inlet or the first water outlet is judged according to the water temperature; after the first circulating water tank is used for a period of time, scale may be formed on the inner side of the first circulating water tank, so that the filter screen arranged at the first water outlet can prevent the scale and water from flowing out to cause pipeline blockage. The washing subassembly that sets up can be used for carrying out the incrustation scale clearance to ground circulation tank, after starting pneumatic means during the use, connecting rod downstream, drive fixed plate downstream, the side and the bottom of first circulation demand are cleaned in the layer of wiping of setting in the fixed plate both sides also downstream, reciprocating up-and-down motion through pneumatic means is that the layer of wiping is cleaned the side and the bottom of first circulation tank from top to bottom, thereby clear away the incrustation scale of deposit in the ground circulation tank, can add incrustation scale treatment fluid at the top of wiping the layer during wiping, the clearance effect of incrustation scale only improves, thereby ensure first cooling element's cooling effect.

When the water in the first circulating water tank reaches a certain height, the water flows out of the first water outlet and flows into the second circulating water tank from the second water inlet through the pipeline; the water in the second circulating water tank continuously enters and exits to cool the quantitative bin, so that heat accumulation is avoided when a second motor drives a second screw to rotate for feeding, and normal production is guaranteed; the second temperature sensor arranged in the second circulating water tank can monitor the water temperature in the second circulating water tank, and whether the flow valve is needed to adjust the flow rate of the first water outlet or not is judged according to the water temperature.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. The term "comprising" is used to specify the presence of stated elements, but not to preclude the presence or addition of additional like elements in a process, method, article, or apparatus that comprises the stated elements.

The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (8)

1. A cooling device for a candy cone forming machine, wherein the candy cone forming machine (1) comprises a first motor box (11) and a feeding pipe (12) arranged on the first motor box (11), a feeding bin (13) is arranged on the feeding pipe (12), a discharging port (14) is arranged on the side surface of the feeding pipe (12), the discharging port (14) is connected with a quantifying bin (16) through a discharging pipe (15), and a second motor box (17) is arranged on the side surface of the quantifying bin (16), and the cooling device is characterized by comprising a first cooling assembly (2) arranged on the outer side of the feeding pipe (12);

the first cooling assembly (2) comprises a first circulating water tank (21), a first water inlet (22), a first water outlet (23) and a first temperature sensor (24), wherein the first water inlet (22) and the first water outlet (23) are respectively arranged at the bottom and the top of the first circulating water tank (21), and the first temperature sensor (24) is arranged at the inner side of the first circulating water tank (21).

2. A cooling device for a pagoda sugar moulding machine according to claim 1, characterized in that the first cooling module (2) further comprises a flow regulating module (25), the flow regulating module (25) comprising a first flow valve (251) arranged at the first water inlet (22), a second flow valve (252) arranged at the first water outlet (23).

3. A cooling device for a pagoda candy moulding machine as claimed in claim 2, wherein a catch plate (26) is provided inside the first circulation water tank (21), the catch plate (26) and the inside of the first circulation water tank (21) enclose a groove (261), and a filter screen (27) is provided in the groove (261).

4. A cooling device for a pagoda sugar moulding machine according to any of claims 1-3, characterized in that the first cooling module (2) further comprises a washing module (28), the washing module (28) comprises a support plate (281), a pneumatic device (282) arranged on the top of the support plate (281), a connecting rod (283) connected with the pneumatic device (282), a fixing plate (284) arranged on the bottom of the connecting rod (283), and a wiping layer (285) arranged on the side of the fixing plate (284); the support plate (281) is arranged around the outside of the feed pipe (12).

5. A cooling device for a pagoda sugar moulding machine according to claim 4, characterized in that the fixing plate (284) is provided with a hole groove (286), and a level gauge (287) is provided above the hole groove (286) at a position corresponding to the bottom of the support plate (281).

6. The cooling device for a pagoda candy molding machine as set forth in claim 5, wherein the side surface of said wiping layer (285) is closely attached to the side surface of the first circulating water bath (21); and a liquid adding tank (288) is arranged at the top of the wiping layer (285).

7. A cooling device for a pagoda candy maker according to claim 6, wherein said cooling device further comprises a second cooling module (3) disposed outside said dosing bin (16), and said second cooling module (3) comprises a second circulating water tank (31), a second water inlet (32) disposed at a side of said second circulating water tank (31), a second water outlet (33) disposed at an opposite side of said second water inlet (32), and a second temperature sensor (34) disposed at a side of said second circulating water tank (31).

8. A cooling device for a pagoda candy forming machine as set forth in claim 2, characterized in that the first cooling module (2) is located at a higher level than the second cooling module (3); the first water outlet (23) of the first cooling assembly (2) is connected with the second water inlet (32) of the second cooling assembly (3) through a pipeline.

Images