CN204730554U

CN204730554U - Instant freezer

Info

Publication number: CN204730554U
Application number: CN201520364488.6U
Authority: CN
Inventors: 牟岳军
Original assignee: Shangyu Yongxing Freezing Equipment Co Ltd
Current assignee: Shangyu Yongxing Freezing Equipment Co Ltd
Priority date: 2015-05-29
Filing date: 2015-05-29
Publication date: 2015-10-28
Anticipated expiration: 2025-05-29

Abstract

The utility model discloses a kind of instant freezer, belong to Technique of Speed Freezing field.The utility model comprises frame, and frame inner chamber lower end arranges conveying mechanism, and frame arranges heat-exchange system, heat-exchange system comprises heat exchanger, axial flow blower and air deflector, each sidewall of frame inner chamber is logical forms quick-frozen room, heat exchanger and axial flow blower abutting joint are in upper end, quick-frozen room, air deflector comprises water conservancy diversion frame, baffle upper plate and chin spoiler, water conservancy diversion frame is hollow, baffle upper plate and chin spoiler are installed in the hollow cavity of water conservancy diversion frame from top to bottom successively, conveyer belt is through the gap baffle upper plate and chin spoiler, bottom surface and the water conservancy diversion frame cavity bottom of chin spoiler have a splaying, the upper end of water conservancy diversion frame and wherein a sidepiece are provided with the through hole of multiple through hollow cavity, water conservancy diversion frame the other side and be positioned at the through hole that baffle upper plate lower end is provided with multiple through water conservancy diversion frame hollow cavity, conveyer belt, baffle upper plate and chin spoiler are all provided with multiple through hole.

Description

Instant freezer

Technical field

The utility model belongs to Technique of Speed Freezing field, especially relevant with a kind of instant freezer.

Background technology

Instant freezer is a kind of high efficiency freezing equipment that can freeze large-tonnage product at short notice.The varied product being placed on instant freezer inside can be freezed effectively, economically, as the meat of various shape, fish, shrimp, a ball, vegetables and conditioning food, dairy products etc., instant freezer is mainly made up of refrigeration system, propulsion system, electric control system and quick-frozen room etc.; By being equipped with, staff treats that the product dish that freezes of jelly food enters quick-frozen track by quick-frozen entrance and moves to Way out stepping under the effect of manpower, in the process of movement, through one by the effect of blower fan and deflector under form a stable vertical ring-type low-temperature airflow, this low-temperature airflow and horizontal movement carried out heat exchange by jelly food, thus realize fast cooling freezing process.As shown in Figure 1, the heat-exchange system of existing instant freezer comprises blower fan, heat exchanger, air deflector and conveyer belt, air quantity on compressor forms cold wind by heat exchanger heat exchange and enters air deflector by blower fan drive, and frozen food is undertaken freezing by the cold wind entered on air deflector by the frozen food be positioned on conveyer belt.But the air-flow of existing heat-exchange system moves towards normally annular airflow, flow level is through conveyer belt, the airflow circulating utilization rate of this mode is low, the needs of existing fast food freezing in enormous quantities cannot be met, for this problem, applicant has researched and developed a kind of instant freezer that greatly can be promoted quick-frozen effect by the deflector structure on improved hot exchange system.

Utility model content

It is low and cause the defect that instant freezer quick-frozen effect is not high that the purpose of this utility model is intended to overcome airflow circulating utilization rate that existing instant freezer heat-exchange system exists, provides a kind of instant freezer that greatly can be promoted quick-frozen effect by the deflector structure on improved hot exchange system.

For this reason, the utility model is by the following technical solutions: instant freezer, comprise hollow chassis, frame inner chamber lower end arranges conveying mechanism, conveying mechanism comprises two drives and conveyer belt, and conveyer belt is set on two drives and forms conveying Rotary Loop, and one of them drive is driven by driving mechanism and rotarily drives conveyer belt displacement, the upper end of frame inner chamber forms heat-exchange system, and heat-exchange system and the described conveyer belt part being in frame inner chamber form quick-frozen room, it is characterized in that, described heat-exchange system comprises heat exchanger, axial flow blower and air deflector, described each sidewall of frame inner chamber forms the chamber wall of described quick-frozen room by having heat insulation effect insulation construction, heat exchanger and axial flow blower abutting joint are in described upper end, quick-frozen room, air deflector comprises water conservancy diversion frame, baffle upper plate and chin spoiler, water conservancy diversion frame is hollow, baffle upper plate and chin spoiler are installed in the hollow cavity of described water conservancy diversion frame from top to bottom successively, in the middle of baffle upper plate and chin spoiler, there is a certain distance, described conveyer belt is through the gap baffle upper plate and chin spoiler, bottom surface and the described water conservancy diversion frame cavity bottom of chin spoiler have a splaying, the upper end of water conservancy diversion frame and wherein a sidepiece are provided with the through hole of multiple through hollow cavity, water conservancy diversion frame the other side and the lower end being positioned at described baffle upper plate are provided with the through hole of multiple through water conservancy diversion frame hollow cavity, described conveyer belt, baffle upper plate and chin spoiler are all provided with multiple through hole, during work, circulated air becomes low-temperature airflow through heat exchanger, low-temperature airflow enters water conservancy diversion frame inner chamber from the top of water conservancy diversion frame and sidepiece respectively along axial flow blower, because the top of water conservancy diversion frame and sidepiece are provided with through hole, low-temperature airflow is pooled to conveyer belt from the top of baffle upper plate and the bottom of chin spoiler respectively, thus define upper and lower two strands of low-temperature airflows cooling quick-frozen is carried out to the food on conveyer belt, then air-flow cools to described heat exchanger again from the outlet return of the other end of water conservancy diversion frame.

As to technique scheme supplement and perfect, the utility model also comprises following technical characteristic.

Described instant freezer is provided with and overlaps heat-exchange system more.

Often overlap heat-exchange system to be docked with described heat exchanger by 3 axial flow blowers and work simultaneously, thus substantially increase the cooling effectiveness of instant freezer.

Described conveyer belt is corrosion resistant plate conveyer belt, and corrosion resistant plate is provided with through hole.

The centre at described chin spoiler top is arranged obliquely toward chin spoiler both sides, and the through hole arranged on chin spoiler is bellmouth.

Through hole on described baffle upper plate is strip through hole.

Use the utility model can reach following beneficial effect: the utility model is by being arranged to upper and lower two deflectors by air deflector, can be cooled the food on conveyer belt by air-flow in the top base of upper chin spoiler, first the utility model is that circulated air becomes low-temperature airflow through heat exchanger, low-temperature airflow enters water conservancy diversion frame inner chamber from the top of water conservancy diversion frame and sidepiece respectively along axial flow blower, because the top of water conservancy diversion frame and sidepiece are provided with through hole, low-temperature airflow is pooled to conveyer belt from the top of baffle upper plate and the bottom of chin spoiler respectively, thus define upper and lower two strands of low-temperature airflows cooling quick-frozen is carried out to the food on conveyer belt, then air-flow cools to described heat exchanger again from the outlet return of the other end of water conservancy diversion frame, substantially increase the cooling effectiveness of instant freezer, reduce the quick-frozen time of instant freezer to food, the Quality and yield that freezes of food also improves greatly.

Accompanying drawing explanation

Fig. 1 is the structural principle schematic diagram of existing heat-exchange system.

Fig. 2 of the present utility modelly faces structural representation.

Fig. 3 is plan structure schematic diagram of the present utility model.

Fig. 4 is the structural principle schematic diagram of heat-exchange system of the present utility model.

Fig. 5 is that heat-exchange system air-flow moves towards principle schematic.

Detailed description of the invention

Below in conjunction with accompanying drawing, detailed description of the invention of the present utility model is described in detail.

Embodiment: as shown in Fig. 2 ~ Fig. 5, the utility model comprises hollow chassis 1, frame inner chamber lower end arranges conveying mechanism, conveying mechanism comprises two drives 2 and conveyer belt 3, conveyer belt 3 is set on two drives 2 and forms conveying Rotary Loop, one of them drive 2 is driven by driving mechanism and rotarily drives conveyer belt 3 displacement, and the upper end of frame inner chamber forms heat-exchange system, and heat-exchange system and the described conveyer belt part being in frame inner chamber form quick-frozen room, wherein heat-exchange system comprises heat exchanger 7, axial flow blower 6 and air deflector, each sidewall 8 of frame inner chamber forms the chamber wall of described quick-frozen room by having heat insulation effect insulation construction, heat exchanger 7 and axial flow blower 6 abutting joint are in upper end, quick-frozen room, air deflector comprises water conservancy diversion frame 9, baffle upper plate 4 and chin spoiler 5, water conservancy diversion frame 9 is in hollow, baffle upper plate 4 and chin spoiler 5 are installed in the hollow cavity of water conservancy diversion frame 9 from top to bottom successively, in the middle of baffle upper plate 4 and chin spoiler 5, there is a certain distance, conveyer belt 3 is through the gap baffle upper plate 4 and chin spoiler 5, bottom surface and water conservancy diversion frame 9 cavity bottom of chin spoiler 5 have a splaying, the upper end of water conservancy diversion frame 9 and wherein a sidepiece are provided with the through hole of multiple through hollow cavity, water conservancy diversion frame 9 the other side and the lower end being positioned at baffle upper plate 4 are provided with the through hole of multiple through water conservancy diversion frame 9 hollow cavity, conveyer belt 3, baffle upper plate 4 and chin spoiler 5 are all provided with multiple through hole, during work, circulated air becomes low-temperature airflow through heat exchanger 7, low-temperature airflow enters water conservancy diversion frame inner chamber from the top of water conservancy diversion frame 9 and sidepiece respectively along axial flow blower 6, because the top of water conservancy diversion frame 9 and sidepiece are provided with through hole, low-temperature airflow is pooled to conveyer belt from the bottom of the top of baffle upper plate 4 and chin spoiler 5 respectively, thus define upper and lower two strands of low-temperature airflows cooling quick-frozen is carried out to the food 10 on conveyer belt 3, then air-flow cools to heat exchanger 7 again from the outlet return of the other end of water conservancy diversion frame 9.

Further, instant freezer is provided with and overlaps heat-exchange system more.As preferably, as shown in Figure 2, heat-exchange system is 4 covers; Often overlap heat-exchange system to be docked with heat exchanger 7 by 3 axial flow blowers 6 and work simultaneously, thus substantially increase the cooling effectiveness of instant freezer.

As preferably, conveyer belt 3 is corrosion resistant plate conveyer belt, and corrosion resistant plate is provided with through hole.

Further, the centre at chin spoiler 5 top is arranged obliquely toward chin spoiler 5 both sides, and the through hole arranged on chin spoiler 5 is bellmouth; Through hole on baffle upper plate 4 is strip through hole.

The utility model is by being arranged to upper and lower two deflectors by air deflector, can be cooled the food on conveyer belt by air-flow in the top base of upper chin spoiler, first the utility model is that circulated air becomes low-temperature airflow through heat exchanger, low-temperature airflow enters water conservancy diversion frame inner chamber from the top of water conservancy diversion frame and sidepiece respectively along axial flow blower, because the top of water conservancy diversion frame and sidepiece are provided with through hole, low-temperature airflow is pooled to conveyer belt from the top of baffle upper plate and the bottom of chin spoiler respectively, thus define upper and lower two strands of low-temperature airflows cooling quick-frozen is carried out to the food on conveyer belt, then air-flow cools to described heat exchanger again from the outlet return of the other end of water conservancy diversion frame, substantially increase the cooling effectiveness of instant freezer, reduce the quick-frozen time of instant freezer to food, the Quality and yield that freezes of food also improves greatly.

More than show and describe general principle of the present utility model and principal character and advantage of the present utility model.The technical staff of the industry should understand; the utility model is not restricted to the described embodiments; what describe in above-described embodiment and description just illustrates principle of the present utility model; under the prerequisite not departing from the utility model spirit and scope; the utility model also has various changes and modifications, and these changes and improvements all fall within the scope of claimed the utility model.The claimed scope of the utility model is defined by appending claims and equivalent thereof.

Claims

1. instant freezer, comprise hollow chassis (1), frame inner chamber lower end arranges conveying mechanism, conveying mechanism comprises two drives (2) and conveyer belt (3), conveyer belt (3) is set in upper formation of two drives (2) and carries Rotary Loop, one of them drive (2) is driven by driving mechanism and rotarily drives conveyer belt (3) displacement, the upper end of frame inner chamber forms heat-exchange system, and heat-exchange system and the described conveyer belt part being in frame inner chamber form quick-frozen room, it is characterized in that: described heat-exchange system comprises heat exchanger (7), axial flow blower (6) and air deflector, described each sidewall of frame inner chamber (8) forms the chamber wall of described quick-frozen room by having heat insulation effect insulation construction, heat exchanger (7) and axial flow blower (6) abutting joint are in described upper end, quick-frozen room, air deflector comprises water conservancy diversion frame (9), baffle upper plate (4) and chin spoiler (5), water conservancy diversion frame (9) is in hollow, baffle upper plate (4) and chin spoiler (5) are installed in the hollow cavity of described water conservancy diversion frame (9) from top to bottom successively, in the middle of baffle upper plate (4) and chin spoiler (5), there is a certain distance, described conveyer belt (3) is through the gap baffle upper plate (4) and chin spoiler (5), bottom surface and described water conservancy diversion frame (9) cavity bottom of chin spoiler (5) have a splaying, the upper end of water conservancy diversion frame (9) and wherein a sidepiece are provided with the through hole of multiple through hollow cavity, water conservancy diversion frame (9) the other side and the lower end being positioned at described baffle upper plate (4) are provided with the through hole of multiple through water conservancy diversion frame (9) hollow cavity, described conveyer belt (3), baffle upper plate (4) and chin spoiler (5) are all provided with multiple through hole.

2. instant freezer according to claim 1, is characterized in that: described instant freezer is provided with and overlaps heat-exchange system more.

3. instant freezer according to claim 2, is characterized in that: often overlap heat-exchange system and to be docked with described heat exchanger (7) by 3 axial flow blowers (6) and work simultaneously.

4. instant freezer according to claim 3, is characterized in that: described conveyer belt (3) is corrosion resistant plate conveyer belt, and corrosion resistant plate is provided with through hole.

5. instant freezer according to claim 4, is characterized in that: the centre at described chin spoiler (5) top is arranged obliquely toward chin spoiler (5) both sides, and the through hole arranged on chin spoiler (5) is bellmouth.

6. instant freezer according to claim 5, is characterized in that: the through hole on described baffle upper plate (4) is strip through hole.