CN109442829A - A kind of ice machine evaporation and heat-exchange inner barrel device - Google Patents

Abstract

The invention discloses a kind of ice machine evaporation and heat-exchange inner barrel devices, including main cylinder, the middle part lateral wall of the main cylinder is equipped with coiled coil portion, outer sleeve body is welded on the lateral wall in coiled coil portion, the lateral wall of the inner sidewall of outer sleeve body, coiled coil portion and main cylinder forms helical form circulation road, pipe for flowing of refrigerant is connected on the lateral wall of the upper and lower part of outer sleeve body, pipe for flowing of refrigerant is communicated with helical form circulation road.It forms helical form circulation road by the lateral wall of the inner sidewall of outer sleeve body, coiled coil portion and main cylinder, refrigerant flows in helical form circulation road, so that being only separated with the side wall of main cylinder between aqueous in refrigerant and main cylinder, barrier between reduction greatly improves its heat transfer effect, improves refrigerating efficiency, simultaneously, vertical groove is formed on the inner sidewall of its main cylinder, aqueous is frozen in vertical groove, and the thermal coefficient of ice is lower than the thermal coefficient of metal.

Description

A kind of ice machine evaporation and heat-exchange inner barrel device

Technical field:

The present invention relates to ice machine technical fields, more specifically to a kind of ice machine evaporation and heat-exchange inner barrel device.

Background technique:

Ice making main component in existing ice machine is heat exchange inner cylinder, is usually that coiling is changed on the lateral wall of cylinder Heat pipe leads to refrigerant in heat exchanger tube, and aqueous is equipped in cylinder, can thus be exchanged heat by refrigerant and aqueous, by aqueous The part for being close to heat exchange inner cylinder, which is realized to freeze, forms Sorbet, and rotary shaft is typically provided inside the inner cylinder that exchanges heat, the outside of rotary shaft Molding rotation screw thread on wall rotates the lateral wall of screw thread close to the inner sidewall of heat exchange inner cylinder, is rotated by rotary shaft, so that rotation The lateral wall of screw thread will be born the Sorbet come and be scraped in the thread groove of rotation screw thread on the inner sidewall for the inner cylinder that exchanges heat, and due to changing The inner sidewall of hot inner cylinder entirely can form Sorbet, and frictional force is big between the lateral wall of rotation screw thread, be easy to make rotary shaft It is stuck, influence hanging sand effect.

Summary of the invention:

The purpose of the present invention is overcoming the deficiencies of the prior art and provide a kind of ice machine evaporation and heat-exchange inner barrel device, it Helical form circulation road is formed by the lateral wall of the inner sidewall of outer sleeve body, coiled coil portion and main cylinder, refrigerant is in helical form It is flowed in circulation road, so that the side wall of main cylinder is only separated between the aqueous in refrigerant and main cylinder, the barrier between reduction, Its heat transfer effect is greatly improved, refrigerating efficiency is improved, meanwhile, vertical groove is formed on the inner sidewall of main cylinder, so that water Liquid can freeze in vertical groove, and the thermal coefficient of ice be lower than metal thermal coefficient, i.e., in vertical groove on ice after The ability that the continuous ability to freeze will freeze lower than the side wall of main cylinder, therefore, the ice in vertical groove is not easy to continue to freeze, With lubricating action, so that the ice part in the lateral wall and vertical groove of the rotation screw thread of the rotary shaft rotated in main cylinder is rubbed It is small to wipe power, reduces the frictional force of rotary shaft entirely rotated, ensure that the normal rotation of rotary shaft, it is not easy to stuck.

The solution to the technical problem of the present invention is as follows:

A kind of ice machine evaporation and heat-exchange inner barrel device, including main cylinder, the middle part lateral wall of the main cylinder are equipped with Coiled coil portion is welded with outer sleeve body, inner sidewall, coiled coil portion and the master of outer sleeve body on the lateral wall in coiled coil portion The lateral wall of cylinder forms helical form circulation road, has connected refrigerant circulation on the lateral wall of the upper and lower part of outer sleeve body Pipe, pipe for flowing of refrigerant are communicated with helical form circulation road.

Coiled coil portion is formed on the middle part lateral wall of the main cylinder.

Coiled coil portion is welded on the middle part lateral wall of the main cylinder.

Multiple vertical grooves are formed on the inside middle portion wall of the main cylinder.

All vertical grooves are evenly arranged on the inner sidewall of main cylinder centered on the central axis of main cylinder.

The bottom end side wall of the main cylinder has connected aqueous runner pipe.

Side through hole, the end sleeve of pipe for flowing of refrigerant are formed on the lateral wall of the upper and lower part of the outer sleeve body In side through hole, the end lateral wall of pipe for flowing of refrigerant is weldingly fixed on the inner sidewall of side through hole.

The bottom end side wall of the main cylinder forms bottom end side through hole, and the end sleeve of aqueous runner pipe is in bottom end side through hole In, the end lateral wall of aqueous runner pipe is weldingly fixed on the inner sidewall of bottom end side through hole.

Protrusion effect of the invention is:

Compared with prior art, it forms spiral shell by the lateral wall of the inner sidewall of outer sleeve body, coiled coil portion and main cylinder Shape circulation road is revolved, refrigerant flows in helical form circulation road, so that being only separated with master between the aqueous in refrigerant and main cylinder The side wall of cylinder, the barrier between reduction greatly improve its heat transfer effect, improve refrigerating efficiency, meanwhile, the inside of main cylinder Vertical groove is formed on wall, and aqueous is frozen in vertical groove, and the thermal coefficient of ice is thermally conductive lower than metal Coefficient, i.e., the ability that the ability for continuing to freeze on ice in vertical groove will freeze lower than the side wall of main cylinder are therefore, vertical recessed Ice in slot is not easy to continue to freeze, with lubricating action, so that the rotation screw thread of the rotary shaft rotated in main cylinder is outer Side wall and the ice partial frictional power in vertical groove are small, reduce the frictional force of rotary shaft entirely rotated, ensure that rotary shaft Normal rotation, it is not easy to it is stuck.

Detailed description of the invention:

Fig. 1 is schematic perspective view of the invention；

Fig. 2 is the partial structural diagram that the present invention removes outer sleeve body；

Fig. 3 is partial sectional view of the invention；

Fig. 4 is that Fig. 2 changes angled arrangement schematic diagram.

Specific embodiment:

Embodiment is shown in as shown in Figure 1 and Figure 4, a kind of ice machine evaporation and heat-exchange inner barrel device, including main cylinder 10, institute The middle part lateral wall for stating main cylinder 10 is equipped with coiled coil portion 11, is welded with housing on the lateral wall in coiled coil portion 11 The lateral wall of body 12, the inner sidewall of outer sleeve body 12, coiled coil portion 11 and main cylinder 10 forms helical form circulation road 1, outer sleeve body Pipe for flowing of refrigerant 13, pipe for flowing of refrigerant 13 and helical form circulation road 1 have been connected on the lateral wall of 12 upper and lower part It communicates.

Further, coiled coil portion 11 is formed on the middle part lateral wall of the main cylinder 10.

Further, coiled coil portion 11 is welded on the middle part lateral wall of the main cylinder 10.

Further, multiple vertical grooves 14 are formed on the inside middle portion wall of the main cylinder 10.

Further, all vertical grooves 14 are evenly arranged on main cylinder 10 centered on the central axis of main cylinder 10 On inner sidewall.

Further, the bottom end side wall of the main cylinder 10 has connected aqueous runner pipe 15.

Further, side through hole, refrigerant stream are formed on the lateral wall of the upper and lower part of the outer sleeve body 12 For the end sleeve of siphunculus 13 in side through hole, the end lateral wall of pipe for flowing of refrigerant 13 is weldingly fixed on the inner sidewall of side through hole On.

Further, the bottom end side wall of the main cylinder 10 forms bottom end side through hole, the end of aqueous runner pipe 15 In the side through hole of bottom end, the end lateral wall of aqueous runner pipe 15 is weldingly fixed on the inner sidewall of bottom end side through hole sleeve.

When in use, in main cylinder 10, the lateral wall of the rotation screw thread on the lateral wall of rotary shaft leans on rotary shaft sleeve The inner sidewall of nearly main cylinder 10, one of 13 system cryogen of pipe for flowing of refrigerant, so that refrigerant is in helical form circulation road 1 It flows and is discharged from another pipe for flowing of refrigerant 13, realize circulation, and be inoculated with aqueous in main cylinder 10, refrigerant and aqueous Heat exchange, so that condensing Sorbet on the inner sidewall of main cylinder 10, Sorbet is scraped rotation screw thread by the lateral wall by rotating screw thread Thread groove in and with rotation screw thread rotation be conveyed out main cylinder 10.

In the present embodiment, spiral shell is formed by the lateral wall of the inner sidewall of outer sleeve body 12, coiled coil portion 11 and main cylinder 10 Revolve shape circulation road 1, refrigerant flows in helical form circulation road 1 so that between the aqueous in refrigerant and main cylinder 10 only every There is the side wall of main cylinder 10, the barrier between reduction greatly improves its heat transfer effect, refrigerating efficiency is improved, meanwhile, main cylinder Vertical groove 14 is formed on 10 inner sidewall, and aqueous is frozen in vertical groove 14, and the thermal coefficient of ice is low In the thermal coefficient of metal, i.e., what the ability for continuing to freeze on ice in vertical groove 14 will freeze lower than the side wall of main cylinder 10 Ability, therefore, 14 ice is not easy to continue to freeze in vertical groove, with lubricating action, so that rotated in main cylinder 10 14 ice partial frictional power is small in the lateral wall and vertical groove of the rotation screw thread of rotary shaft, reduces the entire rotation of rotary shaft Frictional force, ensure that the normal rotation of rotary shaft, it is not easy to stuck.

Claims (8)

1. a kind of ice machine evaporation and heat-exchange inner barrel device, including main cylinder (10), it is characterised in that: the main cylinder (10) Middle part lateral wall is equipped with coiled coil portion (11), is welded with outer sleeve body (12) on the lateral wall of coiled coil portion (11), Lateral wall formation helical form circulation road (1) of the inner sidewall, coiled coil portion (11) and main cylinder (10) of outer sleeve body (12), housing It has been connected on the lateral wall of the upper and lower part of body (12) pipe for flowing of refrigerant (13), pipe for flowing of refrigerant (13) and helical form Circulation road (1) communicates.

2. a kind of ice machine evaporation and heat-exchange inner barrel device according to claim 1, it is characterised in that: the main cylinder (10) coiled coil portion (11) are formed on middle part lateral wall.

3. a kind of ice machine evaporation and heat-exchange inner barrel device according to claim 1, it is characterised in that: the main cylinder (10) coiled coil portion (11) are welded on middle part lateral wall.

4. a kind of ice machine evaporation and heat-exchange inner barrel device according to claim 1, it is characterised in that: the main cylinder (10) multiple vertical grooves (14) are formed on inside middle portion wall.

5. a kind of ice machine evaporation and heat-exchange inner barrel device according to claim 4, it is characterised in that: all is vertical recessed Slot (14) is evenly arranged on the inner sidewall of main cylinder (10) centered on the central axis of main cylinder (10).

6. a kind of ice machine evaporation and heat-exchange inner barrel device according to claim 1, it is characterised in that: the main cylinder (10) bottom end side wall has connected aqueous runner pipe (15).

7. a kind of ice machine evaporation and heat-exchange inner barrel device according to claim 1, it is characterised in that: the outer sleeve body (12) side through hole is formed on the lateral wall of upper and lower part, the end sleeve of pipe for flowing of refrigerant (13) is in side through hole In, the end lateral wall of pipe for flowing of refrigerant (13) is weldingly fixed on the inner sidewall of side through hole.

8. a kind of ice machine evaporation and heat-exchange inner barrel device according to claim 6, it is characterised in that: the main cylinder (10) bottom end side wall forms bottom end side through hole, and the end sleeve of aqueous runner pipe (15) is in the side through hole of bottom end, aqueous stream The end lateral wall of siphunculus (15) is weldingly fixed on the inner sidewall of bottom end side through hole.