CN211601276U

CN211601276U - Spiral quick-freezing plant convenient to clearance

Info

Publication number: CN211601276U
Application number: CN202020247146.7U
Authority: CN
Inventors: 马悦
Original assignee: Hebei American Food Group Ltd By Share Ltd
Current assignee: Hebei American Food Group Ltd By Share Ltd
Priority date: 2020-03-03
Filing date: 2020-03-03
Publication date: 2020-09-29
Anticipated expiration: 2030-03-03

Abstract

The utility model relates to a spiral quick-freeze device convenient to clearance relates to spiral quick-freeze device's technical field, including the closed storehouse body and the guipure that returns the feeding frame from the play work or material rest, the guipure below that returns the feeding frame from the play work or material rest sets up vertical motion and beats the guipure and from the jet-propelled guipure clearance mechanism of top downwards. The spiral quick-freezing device has the effects of being convenient to clean and improving the working efficiency.

Description

Spiral quick-freezing plant convenient to clearance

Technical Field

The utility model belongs to the technical field of spiral quick-freezing installation's technique and specifically relates to a spiral quick-freezing installation convenient to clearance is related to.

Background

The spiral quick-freezing device is an energy-saving quick-freezing device with compact structure, wide application range, small occupied area and large freezing capacity, and is a preferred machine type for quick-freezing meat and other frozen products with large thickness, large volume and high feeding temperature in food processing enterprises at home and abroad at present. For example, the spiral quick-freezing device is adopted to quickly freeze in the production of popcorn chicken.

The present chinese utility model patent that has the grant bulletin number CN209840503U discloses a single spiral quick-freeze device of adjustable ejection of compact direction, including the closed storehouse body, the feeding frame, go out the work or material rest, the spiral tower, the guipure, rotating cage and refrigerating unit, the rotating cage rotates at spiral tower central authorities, one side at the spiral tower is installed including the evaporimeter to the refrigerating unit, guipure one end enters into the inside of the closed storehouse body from the feeding frame, walks around the upper portion of first guiding axle in proper order, rotating cage and second guiding axle, turns back the inside of the closed storehouse body in a work or material rest department to be in the same place with the guipure tip closure connection of feeding frame department. The rotation of first guiding axle, second guiding axle and rotating cage drives the guipure and constantly moves, and the food that needs the quick-freeze is placed the back on the guipure, can reach the effect of quick-freeze in the closed storage internal process cold air quench cooling.

In the preparation process of the popcorn chicken, the popcorn chicken with higher temperature after being fried is directly placed on the mesh belt of the feeding frame and is transmitted into the closed storehouse body for quick freezing. However, due to the gaps on the mesh belt, the chicken popcorn pieces can be clamped on the mesh belt or fall on the ground in the closed storehouse body along with the transmission. The guipure can the cycle rotation use, and the piece of card on the guipure is difficult to the clearance.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a spiral quick-freezing installation convenient to clearance to prior art exists, has the spiral quick-freezing installation of being convenient for clear up, improves work efficiency's effect.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme:

the utility model provides a spiral quick-freeze device convenient to clearance, includes the sealed storehouse body and returns the guipure of feeding frame from the play work or material rest, and the guipure clearance mechanism that vertical motion was beaten the guipure and from the top jet-propelled downwards is set up to the guipure below that returns the feeding frame from the play work or material rest.

Through adopting above-mentioned scheme, the guipure is seen off from the play work or material rest after getting into the closed storage body from the feeding frame and quick-freezing the puffed rice, and the guipure returns the way of feeding frame from the play work or material rest, and guipure clearance mechanism beats the guipure surface, knocks off remaining residue on the guipure to the bottom surface, and guipure clearance mechanism is jet-propelled to the guipure surface, with the residue on its surface further clean up, then the staff clear up again ground can, convenient clearance.

The present invention may be further configured in a preferred embodiment as: the mesh belt cleaning mechanism comprises a pair of control assemblies erected on two sides of a mesh belt, a motor is connected with the control assembly on one side, a knocking shaft is vertically and slidably connected onto the control assemblies, and the knocking shaft is in contact with the mesh belt.

By adopting the scheme, the motor drives the control assembly, so that the control assembly can drive the knocking shaft to vertically slide, the knocking shaft can continuously knock the mesh belt along with the operation of the motor, and the residual residues on the mesh belt are knocked off. The control assembly realizes automatic cleaning of the mesh belt.

The present invention may be further configured in a preferred embodiment as: the control assembly comprises a pair of limiting plates erected on two sides of the mesh belt, one side of the limiting plate, which deviates from the mesh belt, is connected with a sliding rod in a sliding mode, the knocking shaft is fixed to the top end of the sliding rod, the control assembly further comprises a rotating rod connected to the output end of the motor, the other end of the rotating rod is connected with a poking rod in a rotating mode, and the poking rod is connected with the sliding rod in a rotating.

By adopting the above scheme, the motor drives the rotating rod to rotate, the rotating rod drives the poke rod to move, and the other end of the poke rod is connected with the sub-sliding rod, so that the poke rod drives the sliding rod to slide on the limiting plate. The limiting plate drives the knocking shaft to slide in the vertical direction, so that linkage between the control assemblies is realized, and the mesh belt is automatically cleaned.

The present invention may be further configured in a preferred embodiment as: the surface that the spacing board deviates from is to its inside sunken vertical spacing groove, and the slide bar slides in the spacing groove, and the slide bar is not less than the length in spacing groove.

Through adopting above-mentioned scheme, the slide bar is under the drive of poker rod, and vertical slip in the spacing groove, and the spacing groove has restricted the slide direction of slide bar and beating the axle, makes it only to beat the guipure in vertical direction. And the slide bar is not shorter than the length of the limit groove, and the slide bar cannot be separated from the limit groove when sliding.

The present invention may be further configured in a preferred embodiment as: and two groups of limiting grooves, two groups of sliding rods and two groups of beating shafts are arranged on the limiting plate.

By adopting the scheme, the two beating shafts beat in the vertical direction in a staggered manner, so that the mesh belt is cleaned as much as possible in a short time, and the efficiency is improved.

The present invention may be further configured in a preferred embodiment as: the center of the two groups of limiting grooves is rotatably connected with a linkage rod, the centers of the two ends of the linkage rod are provided with sliding grooves, and the sliding rods are provided with fixing buckles sliding in the sliding grooves.

By adopting the scheme, when one group of limiting rods slides, the fixed buckle pries the linkage rod to rotate by the center of the linkage rod to drive the other group of limiting rods on the other side to slide, and the sliding direction of the fixed buckle is opposite to the movement direction of the sliding rod which slides actively. The vertical movement direction of the second tapping shaft is opposite to that of the first tapping shaft. The two groups of beating shafts can alternately clean the mesh belt.

The present invention may be further configured in a preferred embodiment as: the guipure clearance mechanism is including setting up the air jet system who is close to the feed frame direction at the guipure, and air jet system is including the mount of transversely putting in the guipure top, and the fixed tip is towards the air jet head of guipure on the mount, and the air jet head is connected with the connecting pipe that runs through closed storehouse body wall, and the connecting pipe is connected with the outer gas pitcher of closed storehouse.

By adopting the scheme, the air jet head blows to the surface of the mesh belt. The connecting pipe connects the air nozzle with the air tank and penetrates through the side wall of the closed tank body, and the air tank is arranged outside the closed tank body. After the knocking shaft is preliminarily cleaned, the residue on the mesh belt is further blown to the ground by the air injection mechanism.

The present invention may be further configured in a preferred embodiment as: the side wall of the closed warehouse body where the discharging frame is located is provided with an access door, and the side wall of the closed warehouse body is fixedly provided with a ground cleaning mechanism for blowing air in the direction where the access door is located.

Through adopting above-mentioned scheme, after the guipure clearance mechanism cleared up the guipure to ground clearance mechanism blows the subaerial residue of the internal portion of closed storehouse to the direction that is close to the access door, opens the access door and can enter into the internal portion of closed storehouse, clears up ground, and the clearance of being convenient for improves work efficiency.

The present invention may be further configured in a preferred embodiment as: the ground cleaning mechanism comprises a support fixed on the inner side wall of the closed warehouse body, a fixed buckle is arranged on the support, an inclined downward air nozzle is fixedly buckled, the air nozzle is connected with a connecting pipe penetrating through the wall of the closed warehouse body, and the connecting pipe is connected with an air tank outside the closed warehouse body.

Through adopting above-mentioned scheme, support frame and fixed knot play the effect of supporting fixed air nozzle, and air nozzle inclined plane is towards ground, and air nozzle spouts the gas, blows the residue as far as possible, makes things convenient for the staff to clear up. Since the temperature in the closed tank body is low, the gas tank is arranged outside the closed tank body.

To sum up, the utility model discloses a following at least one useful technological effect:

1. the mesh belt cleaning mechanism knocks off residues left on the mesh belt to the ground, the mesh belt cleaning mechanism sprays air to the surface of the mesh belt to further clean the residues on the surface of the mesh belt, and then workers clean the ground, so that the cleaning is convenient;

2. ground clearance mechanism blows the subaerial residue of the internal portion of closed storehouse to the direction that is close to the access door, opens the access door and can enter into the internal portion of closed storehouse, clears up ground, and the clearance of being convenient for improves work efficiency.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a schematic view of the internal structure of the present invention;

fig. 3 is a schematic structural view of the mesh belt cleaning mechanism of the present invention;

fig. 4 is a partially enlarged schematic view of a portion a of the present invention;

fig. 5 is a schematic structural diagram of the air injection mechanism of the present invention;

fig. 6 is a schematic structural diagram of the novel medium-sized ground cleaning mechanism.

In the figure, 1, a closed storehouse body; 11. an entrance and exit door; 12. erecting a frame; 121. an upper guide shaft; 122. a lower guide shaft; 2. a feeding frame; 21. a first guide shaft; 3. a discharging frame; 31. a second guide shaft; 4. a spiral tower; 5. a mesh belt; 6. rotating the cage; 7. a refrigeration unit; 8. a mesh belt cleaning mechanism; 81. a control component; 811. a limiting plate; 812. a bottom bar; 813. a limiting groove; 814. a slide bar; 815. a connecting buckle; 816. rotating the rod; 817. a poke rod; 818. a linkage rod; 819. a chute; 82. knocking the shaft; 83. a motor; 84. an air injection mechanism; 841. a fixed mount; 842. a gas showerhead; 843. a connecting pipe; 844. a gas tank; 845. a fixing buckle; 9. a ground cleaning mechanism; 91. a support frame.

Detailed Description

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

Referring to fig. 1 and 2, for the utility model discloses a spiral quick-freezing device convenient to clearance, including setting up guipure clearance mechanism 8 and ground clearance mechanism 9 in the closed storehouse body 1. Wherein the feeding frame 2 and the discharging frame 3 are respectively positioned on a group of opposite surfaces of the closed warehouse body 1, wherein an access door 11 is further arranged on the side wall of the closed warehouse body 1 where the discharging frame 3 is positioned, and the access door 11 can be opened to enter the closed warehouse body 1. The mesh belt cleaning mechanism 8 is arranged on the way that the mesh belt 5 returns to the feeding frame 2 after conveying food, and cleans the scraps remained on the mesh belt 5, wherein the mesh belt 5 is a mesh belt with holes (the mesh belt is not shown in the figure and has a mesh structure). Ground clearance mechanism 9 sets up in the one side at refrigerating unit 7 place, gathers the subaerial piece to the one side that is close to access door 11 place, makes things convenient for the staff to clear up.

The first guide shaft 21 is used for guiding the mesh belt 5 at the feeding frame 2, and the second guide shaft 31 is used for guiding the mesh belt 5 at the discharging frame 3. Two vertical frames 12 are also vertically arranged in the closed storehouse body 1, and the vertical frames 12 are close to the discharging frame 3. Two guide shafts, namely an upper guide shaft 121 and a lower guide shaft 122, are horizontally arranged on the vertical frame 12, the lower guide shaft 122 is axially parallel to the first guide shaft 21 and has the same height, and after the mesh belt 5 sequentially rounds the lower part of the second guide shaft 31, the upper part of the upper guide shaft 121 and one side of the lower guide shaft 122 close to the discharging frame 3, the mesh belt returns to the bottom of the first guide shaft 21 from the bottom of the lower guide shaft 122 for circular transmission.

Referring to fig. 3 and 4, the mesh belt cleaning mechanism 8 includes a control module 81 driven by an output shaft of a motor 83 to rotate, and the control module 81 drives two beating shafts 82 to beat the mesh belt 5 in a staggered manner, so as to drop the residue left on the mesh belt 5 onto the ground. The control component 81 comprises two limit plates 811 respectively supported on the ground at two sides of the mesh belt 5, the limit plates 811 are suspended on the ground under the support of the bottom rods 812, two vertical limit grooves 813 sunken into the limit plates 811 are formed in the side walls of the limit plates 811 departing from the mesh belt 5, sliding rods 814 vertically slide in the limit grooves 813, the length of the sliding rods 814 is longer than that of the limit grooves 813, and the sliding rods 814 can only vertically slide and cannot be separated from the limit grooves 813, so that the two groups of sliding rods 814 are arranged in parallel along the extension direction of the mesh belt 5. The two ends of the knocking shaft 82 are fixed with the top ends of a group of sliding rods 814 and are positioned below the mesh belt 5, and the knocking shaft 82 is in an arc shape with the center bent upwards so as to be directly contacted with the mesh belt 5.

The sliding rod 814 has a protruding cylindrical coupling button 815 at the center. The output shaft of the motor 83 is fixed with a rotating rod 816, the end of the rotating rod 816 is rotatably connected with a shifting rod 817, and the other end of the shifting rod 817 is rotatably connected with a connecting buckle 815 fixed on one of the sliding rods 814. Therefore, when the motor 83 rotates, it drives the rotating rod 816 and the shifting rod 817 to link, and the shifting rod 817 pulls the sliding rod 814 to move along with the rotating rod 816, so that when the end of the rotating rod 816 rotates to the direction close to the bottom surface, the shifting rod 817 pulls the sliding rod 814 to move vertically downward; when the end part of the rotating rod 816 rotates away from the ground, the poke rod 817 pulls the sliding rod 814 to move vertically upwards until the knocking shaft 82 contacts the mesh belt 5, and the residue on the mesh belt 5 is cleaned.

A linkage rod 818 is arranged between the two groups of sliding rods 814, the center of the linkage rod 818 is rotatably connected with the center of the limiting plate 811, the centers of the two ends of the linkage rod 818 are provided with sliding grooves 819, and the connecting buckles 815 are clamped in the sliding grooves 819. When one of the two sets of rods slides, the connecting link 815 pries the linkage rod 818 to rotate around its center, so as to drive the other set of sliding rods 814 on the other side to slide, and the sliding direction of the connecting link 815 is opposite to the moving direction of the sliding rods 814 which are actively sliding. The vertical movement direction of the second tapping shaft 82 is opposite to that of the first tapping shaft 82. The two groups of beating shafts 82 can alternately clean the mesh belt 5.

Referring to fig. 5, the mesh belt cleaning mechanism 8 further includes an air injection mechanism 84, and the air injection mechanism 84 includes a fixing frame 841, an air injection head 842, a connecting pipe 843, and an air tank 844. The fixing frame 841 is arranged at one side of the control component 81 close to the feeding frame 2, the fixing frame 841 is supported on the ground and transversely arranged above the mesh belt 5, and a cylindrical fixing buckle 845815 is fixed on the fixing frame 841. The air jet head 842 is passed through the holder 845 and fixed, and the air jet head 842 is blown toward the surface of the mesh belt 5. A connecting tube 843 connects the jet head 842 to the gas tank 844 and passes through the side wall of the closed bank 1. Since the temperature in the closed casing 1 is low, the gas cylinders 844 are disposed outside the closed casing 1. After the preliminary cleaning by the knocking shaft 82, the air blowing mechanism 84 further blows the residue on the mesh belt 5 off to the ground.

Referring to fig. 6, the floor cleaning mechanism 9 blows the residue to the side near the access door 11 due to the complicated internal structure of the closed housing body 1. The ground cleaning mechanism 9 comprises a support 91 fixed with the side wall of the closed warehouse body 1, a plurality of fixing buckles 845 are equidistantly fixed on the support 91, an air nozzle 842 is installed on the fixing buckles 845, the air nozzle 842 is connected with one end of a connecting pipe 843, and the other end of the connecting pipe 843 penetrates through the side wall of the closed warehouse body 1 and is connected with an air tank 844. The air jet head 842 faces the ground obliquely, and the air jet head 842 jets air to blow residues farther as far as possible, so that the cleaning of workers is facilitated.

The utility model discloses an implement the principle: when the mesh belt 5 needs to be cleaned, the mesh belt 5 is started to run. The motor 83 is started, the motor 83 drives the rotating rod 816 to rotate, the poke rod 817 pulls the sliding rods 814 to slide vertically, the linkage rod 818 enables the two groups of sliding rods 814 to slide reversely, and the two knocking shafts 82 knock the mesh belt 5 in succession. The gas jet heads 842 jet out a gas and blow it toward the mesh belt 5.

When the mesh belt 5 needs to be cleaned internally when stopping running, the ground cleaning mechanism 9 is started, the gas of the gas tank 844 is ejected through the gas nozzle 842 through the connecting pipe 843, and the gas nozzle 842 brings convenience for cleaning workers to the side where the access door 11 is close to the residues on the ground inside the closed warehouse body 1.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims

1. The utility model provides a spiral quick-freeze plant convenient to clearance, includes the sealed storehouse body (1) and returns guipure (5) of feeding frame (2) from play work or material rest (3), its characterized in that: and a mesh belt cleaning mechanism (8) which vertically moves to beat the mesh belt (5) and jet air downwards from the upper part is arranged below the mesh belt (5) returned to the feeding frame (2) from the discharging frame (3).

2. The spiral quick-freezing device convenient to clean as claimed in claim 1, wherein: the mesh belt cleaning mechanism (8) comprises a pair of control assemblies (81) which are vertically arranged on two sides of a mesh belt (5), a motor (83) drives the control assemblies (81) on one side to move, the control assemblies (81) are vertically connected with a knocking shaft (82) in a sliding mode, and the knocking shaft (82) is in contact with the mesh belt (5).

3. The spiral quick-freezing device convenient to clean as claimed in claim 2, wherein: control assembly (81) is including erectting a pair of limiting plate (811) in guipure (5) both sides, and one side sliding connection that limiting plate (811) deviated from mutually has slide bar (814), beats axle (82) and fixed with slide bar (814) top, and control assembly (81) is still including connecting dwang (816) at motor (83) output, and dwang (816) other end is rotated and is connected poker rod (817), and poker rod (817) are rotated with slide bar (814) and are connected.

4. The spiral quick-freezing device convenient to clean as claimed in claim 3, wherein: the surface that limiting plate (811) deviated from is to its inside sunken vertical spacing groove (813), and slide bar (814) slides in spacing groove (813), and slide bar (814) is not shorter than the length in spacing groove (813).

5. The spiral quick-freezing device convenient to clean as claimed in claim 4, wherein: two groups of limiting grooves (813), sliding rods (814) and knocking shafts (82) are arranged on the limiting plate (811).

6. The spiral quick-freezing device convenient to clean as claimed in claim 4, wherein: the center of the two groups of limiting grooves (813) is rotatably connected with a linkage rod (818), the centers of two ends of the linkage rod (818) are provided with sliding grooves (819), and the sliding rod (814) is provided with fixing buckles (845) which slide in the sliding grooves (819).

7. The spiral quick-freezing device convenient to clean as claimed in claim 1, wherein: guipure clearance mechanism (8) are including setting up air-jet mechanism (84) that are close to feed frame (2) direction in guipure (5), air-jet mechanism (84) are including horizontal mount (841) in guipure (5) top, fixed tip is towards air jet head (842) of guipure (5) on mount (841), air jet head (842) are connected with connecting pipe (843) that run through the closed storehouse body (1) wall, connecting pipe (843) are connected with gas pitcher (844) outside the closed storehouse body (1).

8. The spiral quick-freezing device convenient to clean as claimed in claim 1, wherein: an access door is arranged on the side wall of the closed warehouse body (1) where the discharging frame (3) is located, and a ground cleaning mechanism (9) blowing air to the direction where the access door (11) is located is fixed on the side wall of the closed warehouse body (1).

9. The spiral quick-freezing device convenient to clean as claimed in claim 8, wherein: ground clearance mechanism (9) are including fixing support frame (91) on the closed storehouse body (1) inside wall, have fixed knot (845) on support frame (91), have the downward jet head (842) of slope on fixed knot (845), and jet head (842) are connected with connecting pipe (843) that run through closed storehouse body (1) wall, and connecting pipe (843) are connected with outer gas pitcher (844) of closed storehouse body (1).