JP4456728B2 - Container lid sterilizer - Google Patents

Description

[0001]
[Industrial application fields]
The present invention relates to a container lid sterilizer for sterilizing a container lid prior to mounting the container lid on the mouth and neck of a container filled with contents.
[0002]
[Prior art]
From a hygienic point of view, it is recently desirable to sterilize the container lid itself before attaching the container lid to the mouth neck of the container filled with the contents and sealing the mouth neck. It is not rare that Examples of the container lid sterilization apparatus that can be used to sterilize the container lid itself include Japanese Patent Laid-Open No. 10-258812, Japanese Patent Publication No. 5-82220, Japanese Patent Publication No. Hei 6-293319, and Japanese Patent Publication No. 8-9383. The thing of the form currently disclosed by the gazette can be mentioned. Such a container lid sterilizing apparatus is composed of a conveying means for conveying a container lid to be sterilized through a required conveying path, and a sterilizing means for sterilizing the container lid conveyed by the conveying means. The sterilizing means sterilizes the container lid by spraying steam, hot water or a sterilizing liquid onto the container lid.
[0003]
In the sterilization apparatus disclosed in the above-mentioned JP-A-10-258812 and JP-B-5-82220, there is a conveyance chute extending along a predetermined conveyance path to a mounting apparatus for mounting a container lid on the mouth and neck of the container. The sterilizing means sprays steam, hot water or sterilizing liquid toward the inside of the transport chute. The container lid to be sterilized is advanced in the conveyance chute by spraying steam, hot water or sterilizing liquid. Therefore, the sterilizing unit functions as a conveying unit in cooperation with the conveying chute. On the other hand, in the container lid sterilization apparatus disclosed in the above-mentioned JP-A-6-293319, the conveyor means is constituted by a belt conveyor mechanism, and the container lid sterilization disclosed in the above Japanese Patent Publication No. 8-9383. In the apparatus, a conveying means is constituted by a rotating turret mechanism.
[0004]
[Problems to be solved by the invention]
Thus, the container lid sterilizing apparatus disclosed in the above-mentioned JP-A-10-258812 and JP-B-5-82220, that is, the sterilizing means for injecting steam, hot water or sterilizing liquid also functions as the conveying means. In the container lid sterilizing apparatus, the transport chute must be extended to the mounting device, and the container lid needs to be transported side by side with no gap on the transport chute. Otherwise, the transport speed of the container lid moved through the transport chute varies depending on various factors such as the distance between the container lids, and thus the sterilization effect also varies. In such a container lid sterilization apparatus, for example, when a trouble occurs in the mounting apparatus and the container lid is temporarily stopped from being loaded into the mounting apparatus, the transport of the container lid through the transport chute is temporarily stopped. Can be stopped. Accordingly, the container lid whose movement is stopped in the container lid sterilizer is excessively sprayed with steam, hot water or sterilizing liquid over the set time, and is made of a synthetic resin disposed on the container lid. Problems arise such that the sealing means is deformed due to excessive heating, and the sterilizing liquid is excessively adhered.
[0005]
On the other hand, the container lid sterilization apparatus disclosed in the above-mentioned JP-A-6-293319, that is, the container lid sterilization apparatus in which the conveying means is constituted by a belt conveyor mechanism, and the above-mentioned JP-B-8-9383 are disclosed. In the container lid sterilization apparatus, that is, the container lid sterilization apparatus in which the conveying means is constituted by the rotating turret mechanism, there is no problem as described above. However, in the container lid sterilization apparatus of these forms, since the belt conveyor mechanism or the rotating turret mechanism constituting the conveying means is relatively bulky and relatively expensive, the entire container lid sterilization apparatus becomes large and the container The manufacturing cost of the lid sterilizer becomes expensive.
[0006]
The present invention has been made in view of the above-mentioned facts, and the main technical problem thereof is that the required transfer path is not required to increase in size and increase the production cost, regardless of the state of the mounting apparatus. It is intended to provide a new and improved container lid sterilizer capable of stably transporting a container lid at a required speed.
[0007]
According to the present invention, as a container lid sterilization apparatus that achieves the above technical problem, a conveying means for conveying a container lid to be sterilized, and a sterilizing means for sterilizing a container lid conveyed by the conveying means, Comprising
The sterilizing means is composed of a steam spraying means for spraying steam onto a container lid transported by the transporting means,
The conveying means is composed of rotating spiral blade means having a spiral blade extending substantially straight, and guide means disposed adjacent to the rotating spiral blade means,
The guide means is composed of a member having a bottom wall, a lower wall, and an upper wall that define a container lid housing groove extending along the rotary spiral blade means on the side facing the rotary spiral blade means,
The container lid to be sterilized has a circular top wall and a cylindrical skirt wall depending from the peripheral edge of the top wall, and the container lid receiving groove of the guide means is a rectangular opening whose side facing the rotating spiral blade means is open. A part of the container lid to be sterilized is located in the valley of the spiral blade of the rotating spiral blade means, and the substantially half on one side is located in the container lid receiving groove. , The spiral blade is moved along the container lid receiving groove by being rotated,
The bottom wall and the lower wall that define the container lid housing groove have through holes for guiding the steam sprayed by the steam spraying means to the container lid to be sterilized that is moved along the container lid housing groove. Formed,
A container lid sterilizing apparatus is provided.
[0008]
Furthermore, according to the present invention, as a container lid sterilization apparatus that achieves the above technical problem, a conveying means for conveying a container lid to be sterilized, and a sterilization for sterilizing the container lid conveyed by the conveying means Means,
The conveying means is composed of rotating spiral blade means having a spiral blade extending substantially straight, and guide means disposed adjacent to the rotating spiral blade means,
The guide means has a container lid receiving groove extending along the rotating spiral blade means on the side facing the rotating spiral blade means,
A part of the container lid to be sterilized is positioned in the container lid receiving groove of the guide means, a part of the container lid is positioned in a valley portion of the spiral blade of the rotating spiral blade means, and the spiral blade rotates. Being moved along the container lid receiving groove by being tightened ,
The cooling means further includes chute means connected to the downstream end of the conveying means for receiving the container lid sent from the downstream end of the conveying means, and gas injection means for injecting gas to the container lid moved through the chute means. Is attached,
A container lid sterilizing apparatus is provided.
[0009]
Good Mashiku, at the upstream end of the guide means, of the container lid receiving groove, a bottom surface facing the spiral blade has an upstream end as pivot about the downstream end from the normal position in a direction away from said helical blade At least the upstream end of the inner surface of the swivel member that is pivotally mounted and is defined by a swivel member that is elastically biased to the normal position and that defines the bottom surface of the container lid receiving groove Even in the normal position, it is inclined in a direction away from the spiral blade toward the upstream . The steam injection means is conveniently comprise a plurality of injection nozzles arranged at intervals in the conveying direction of the container closure being conveyed by the conveying means. In a preferred embodiment, the container lid includes a sterilization housing formed with an inlet opening and an outlet opening, and a container lid transported by the transport means is carried into the housing from the inlet opening, transported through the housing, and is unloaded from the housing through the outlet opening, the sterilizing means you sterilizing containers lid within the housing.
[0010]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, a container lid sterilizer constructed according to the present invention will be described in more detail with reference to the accompanying drawings.
[0011]
As shown in FIG. 1, in the illustrated embodiment, a stationary support frame including a pair of support substrates 2 and 4 extending substantially vertically at a required interval in the horizontal direction is disposed. And the sterilization area | region 6 is arrange | positioned at the one side (left side in FIG. 1) of the support substrate 4, and the cooling area | region 8 is arrange | positioned at the other side (namely, downstream of the sterilization area | region 6).
[0012]
Referring to FIGS. 2 to 4 together with FIG. 1, a sterilization housing 10 is disposed in the sterilization region 6. The sterilization housing 10 includes a main body member 12. The main body member 12 extends substantially horizontally and defines a cavity having a substantially rectangular cross-sectional shape. An end plate 14 is fixed to the upstream end (the left end in FIGS. 1 and 2) of the main body member 12, and an inlet opening 16 is formed in the end plate 14. A downstream end (right end in FIGS. 1 and 2) of the main body member 12 is connected to the support substrate 4. The support substrate 4 is formed with an outlet opening 18 positioned so as to correspond to the inlet opening 16. The inlet opening 16 and the outlet opening 18 may be rectangular. The sterilization housing 10 is defined by a part of the support substrate 4 together with the main body member 10 and the end plate 14, and has an inlet opening 16 formed in the end plate 14 and an outlet opening 18 formed in the support substrate 4. It is advantageous that it is substantially closed except. The container lid sterilizer transports the container lid 20 (FIG. 4) to be sterilized through the sterilization housing 10, more specifically, introduces the container lid 20 into the sterilization housing 10 through the inlet opening 16, transports it through the sterilization housing 10, and exits. Conveying means 22 are provided for unloading from the sterilization housing 10 through the opening 18. The container lid 20 to be sterilized may be of a known form having a circular top wall 24 and a cylindrical skirt wall 25 depending from the periphery of the top wall 24.
[0013]
Referring to FIGS. 2 to 4, it is important that the conveying means 22 is composed of a rotating spiral blade means 26 and a guiding means 28 disposed adjacent to the rotating spiral blade means 26. is there. The rotating spiral blade means 26 has a shaft member 30 that is rotatably mounted between the support substrates 2 and 4. A spiral blade 32 extending continuously is formed on the peripheral surface of the shaft member 30. A shaft member 30 having a spiral blade 32 extends substantially horizontally through the sterilization housing 10. The upstream portion of the shaft member 30 extends upstream through the inlet opening 16 of the sterilization housing 10. The downstream end of the shaft member 30 is positioned adjacent to the downstream end of the sterilization housing 10 and thus the outlet opening 18. As can be understood by referring to FIG. 3, the pitch P of the spiral blade 32 formed on the shaft member 30 corresponds to the outer diameter of the container lid 20, and more specifically, is slightly smaller than the outer diameter of the container lid 20. I'm hurt. As clearly shown in FIG. 2, the upstream end portion of the shaft member 30 penetrates the support substrate 2 and protrudes to the upstream side, and the input gear 34 is fixed to the upstream end portion. This input gear 34 is drivably coupled to a rotational drive source 38 which may be a transmission motor through appropriate transmission means including a torque limiter 36. When the rotation drive source 38 is energized, the shaft member 30 is rotated at a required speed in a predetermined direction (clockwise as viewed from the right side in FIG. 2).
[0014]
The guide means 28 includes an elongate member 40 that extends along the rotating spiral blade means 26. As can be seen from FIG. 4, the member 40 has a bottom wall 42, a lower wall 44 and an upper wall 46, along the rotating spiral blade means 26 on the side facing the rotating spiral blade means 26 (ie, the left side in FIG. 4). A container lid receiving groove 48 extending in the direction is defined. The cross-sectional shape of the container lid receiving groove 48 may be a substantially rectangular shape having an opening on the side facing the rotating spiral blade means 26. As will be further described later, the substantially half portion of the container lid 20 to be sterilized is the container lid containing groove 48. 48. As can be understood by referring to FIGS. 2 and 3, in the illustrated embodiment, the lower wall 44 of the member 40 extends beyond the upstream end of the sterilization region 6, ie, beyond the upstream end of the sterilization housing 10. Although extended to the side, the bottom wall 42 of the member 40 is omitted at the upstream end of the sterilization housing 10 (and thus the upstream end of the guide means 28). A swiveling member 50 is disposed at the upstream end of the guide means 28 instead of the bottom wall 42 integral with the lower wall 44 and the upper wall 46, and the bottom surface of the container lid housing groove 48 is the swiveling member. 50. The downstream end of the swivel member 50 is rotatably mounted on a support shaft 52 extending substantially vertically between the lower wall 44 and the upper wall 46, and the upstream end thereof is a rotating spiral blade means with the downstream end as a swivel center. It is mounted so as to be pivotable in a direction away from the 26 spiral blades 32, that is, counterclockwise in FIG. The swivel member 50 is provided with elastic means (not shown) that can be composed of an appropriate spring member that elastically biases this to the normal position shown in FIG. In the state where the turning member 50 is positioned at the normal position shown in FIG. 3, at least the upstream end portion of the inner surface of the turning member 50 is inclined in the direction away from the spiral blade 32 toward the upstream. Convenient. In the illustrated embodiment, the inner surface main portion of the turning member 50 is substantially flush with the inner surface of the bottom wall 42 of the member 40, but the upstream end of the inner surface is away from the spiral blade 32 toward the upstream. It is inclined at an inclination angle of about 15 to 30 degrees. In addition, as understood from FIG. 2, the upstream end portion of the turning member 50 is inclined at an inclination angle of about 5 to 20 degrees upward toward the upstream. Further, the upstream end portion of the upper wall 46 of the member 40 is also inclined at an inclination angle of about 5 to 20 degrees upward toward the upstream.
[0015]
As can be understood by referring to FIGS. 2 and 3, in the illustrated embodiment, a supply chute 53 is disposed upstream of the sterilization region 6. The supply chute 53, which can be formed from a plurality of elongated rods, is connected to a hopper (not shown) which may be of a well-known form, in which the container lid 20 is placed in a required posture and sequentially delivered to the supply chute 53. Has been. The downstream end portion of the supply chute 53 is inclined downwardly toward the downstream (that is, inclined downwardly toward the right in FIG. 2) and extends toward the spiral blade 32 toward the downstream. (I.e., gradually inclined upward in the right direction in FIG. 3). The container lid 20 supplied from the hopper to the supply chute 53 is in an upright state (that is, with the top wall 24 facing upward), and the spiral blade 32 of the rotating spiral blade means 26 and the container lid receiving groove 48 of the guide means 28. As shown in FIG. 4, approximately one half is positioned in the valley of the spiral blade 32, and approximately the other half is received in the container lid receiving groove 48. And it is conveyed toward the downstream according to the rotation of the spiral blade 32. As described above, at the upstream end of the container lid housing groove 48, the turning member 50 defining the bottom surface of the container lid housing groove 48 is inclined in a direction away from the spiral blade 32 toward the upstream, and Further, since the upper wall 44 defining the upper surface of the container lid housing groove 48 is also inclined upward toward the upstream side, the container lid 20 is sufficiently smoothly formed between the valley of the spiral blade 32 and the container lid housing groove 48. To be introduced. If the container lid 20 stays inadvertently at the upstream end of the guide means 28, the swivel member 50 resists the elastic biasing action as necessary, and the upstream end from the spiral blade 32 with its downstream end as the pivot center. It is possible to reliably avoid the occurrence of inconveniences such as the container lid 20 being damaged by being swung in the separating direction.
[0016]
The container lid sterilizer is provided with sterilizing means for sterilizing the container lid 20 while the container lid 20 to be sterilized by the action of the conveying means 22 is conveyed through the sterilization housing 10. is important. The sterilizing means in the illustrated embodiment is constituted by a steam injection means 54 for injecting steam onto the container lid 20. More specifically with reference to FIGS. 1 to 4, the steam injection means 54 includes an upper steam pipe 56 and a lower steam pipe 58. The upper steam pipe 56 extends substantially horizontally at the top of the sterilization housing 10, and the lower steam pipe 58 extends substantially horizontally at the bottom of the sterilization housing 10. Each of the upper steam pipe 56 and the lower steam pipe 58 passes through the side wall of the sterilization housing 10 and protrudes backward (in the direction perpendicular to the paper surface in FIG. 2 and to the left in FIG. 4), and then in FIG. As shown by a two-dot chain line, it extends to the left in FIG. 2 and is connected to a steam supply source 60 through appropriate steam piping means (not shown) including an open / close control valve and the like. The steam supply source 60 supplies steam having a required pressure to the upper steam pipe 56 and the lower steam pipe 58. The upper steam pipe 56 is provided with a plurality of (eight in the illustrated embodiment) injection nozzles 62 that hang downward from the lower end thereof at an appropriate interval in the longitudinal direction. As clearly shown in FIG. 4, the tip of each of the injection nozzles 62 is brought close to the center of the top wall 24 of the container lid 20 between the rotating spiral blade means 26 and the guide means 28. As shown in FIGS. 2 and 4, the upper steam pipe 56 is also provided with a plurality of (two in the illustrated embodiment) injection nozzles 64 extending from one side thereof in a substantially U shape. . A plurality of (two in the illustrated embodiment) through holes 66 are formed in the bottom wall 42 of the member 40 constituting the guide means 28 at intervals in the longitudinal direction, and the tip of the injection nozzle 64 is applied. It is inserted into the through-hole 66 and is positioned close to the outer peripheral surface of the skirt wall 25 of the container lid 20 conveyed by the conveying means 22. The lower steam pipe 58 is provided with a plurality (15 in the illustrated embodiment) of injection nozzles 68 projecting upward from the upper end at an appropriate interval in the longitudinal direction. A plurality of (eight in the illustrated embodiment) through holes 70 are formed in the lower wall 44 of the member 40 constituting the guide means 28 at intervals in the longitudinal direction, and the tip of the injection nozzle 68 is applied. It is positioned close to the through hole 70. As clearly understood by referring to FIG. 4, when the container lid 20 is transported through the sterilization housing 10 by the transport means 22, the spray nozzle 62 moves from the spray nozzle 64 to the top wall 24 of the container lid 20. Steam is sprayed to the outer peripheral surface of the skirt wall 25 of the container lid 20 and from the spray nozzle 68 to the inner surface of the container lid 20 through the through hole 70, whereby the container lid 20 is sterilized.
[0017]
If the description is continued with reference to FIG. 5 together with FIGS. 1, 2, and 3, the cooling means 72 is disposed in the cooling region 8 located downstream of the sterilization region 6. The cooling means 72 includes a chute means 74 connected to the downstream end of the conveying means 22 disposed in the sterilization region 6 and receiving the container lid 20 discharged from the downstream end of the conveying means 22. The chute means 74 has four side walls extending substantially horizontally, that is, a lower wall 76, an upper wall 78, and both side walls 80 and 82, and a rectangular cross-sectional shape corresponding to the side shape of the container lid 20. It defines the shape of the conveyance space. The cooling means 72 also includes gas injection means 84 for injecting a gas that may be sterilized air onto the container lid 20 that is moved through the chute means 74. More specifically, a plurality of (10 in the illustrated embodiment) through holes 86 are formed in the lower wall 76 of the chute means 74 at intervals in the longitudinal direction. A plurality of (four in the illustrated embodiment) through holes 88 are formed in each of the side walls 80 and 82 of the chute means 74 at intervals in the longitudinal direction thereof. Two injection nozzles 90 are disposed below the chute means 74 at the upstream end of the cooling region 8. The spray nozzle 90 may be a cooler 92 known per se for cooling the flowing gas supplied to the spray nozzle 90 (for example, a cooler sold under the trade name “Colder” by Sanwa Enterprise Co., Ltd.). ) Is attached. The injection nozzle 90 is connected to a compressed air source 94 via appropriate gas piping means (not shown) including an open / close control valve and the like, and the compressed air supplied from the compressed air source 94 is, for example, cooled by a cooler 92. Cooled to about −5 to + 10 ° C. and sprayed from the spray nozzle 90 and sprayed to the container lid 20 moved through the chute means 74 through the through-hole 86, thereby cooling the container lid 20. In the main part of the cooling region 8, a gas pipe 96 is disposed below the chute means 74. The gas pipe 96 is provided with an inflow pipe portion 97, and the inflow pipe portion 97 is connected to a compressed air source 94 through appropriate gas piping means including an open / close control valve. The gas pipe 96 is provided with a plurality (16 in the illustrated embodiment) of injection nozzles 98 projecting upward from the upper end of the gas pipe 96 at an appropriate interval in the longitudinal direction. The tip of the injection nozzle 98 is inserted into a through hole 86 formed in the lower wall 76 of the chute means 74, and the air supplied from the compressed air source 94 to the gas pipe 96 and injected from the injection nozzle 98 is supplied. It is sprayed onto the inner surface of the container lid 20 that has been moved through the chute means 74. The air pipe 96 is further provided with a plurality of (four in the illustrated embodiment) injection nozzles 100 extending from both sides thereof. The injection nozzles 100 are provided on both side walls of the chute means 74. It is made to enter into a through hole 88 formed in 80 and 82. Therefore, the air supplied from the compressed air source 94 to the air pipe 96 is also jetted from the jet nozzle 100 and blown to the outer peripheral surface of the skirt wall 25 of the container lid 20 moved in the chute means 74.
[0018]
A chute means 102 is further connected to the downstream end of the chute means 74 of the cooling means 72. Such chute means 102 can be connected to a mounting device (not shown) for mounting the container lid 20 on the mouth and neck of the container as required. In order to ensure that the sterilized and cooled container lid 20 is not contaminated again, the chute means 102 is advantageously a closed chute with no openings or holes.
[0019]
It is as follows when the effect | action of the container lid sterilizer as mentioned above is summarized and demonstrated. The container lid 20 delivered to the supply chute 53 in a required state from an appropriate popper (not shown) moves the supply chute 53 due to its own weight or by the action of an air flow appropriately blown to sterilize it. At the upstream end of the region 6, it is introduced into the conveying means 22. More specifically, approximately half of one side of the container lid 20 is positioned in the valley of the spiral blade 32 of the rotating spiral blade means 26, and substantially the other half of the container lid 20 is in the container lid receiving groove 48 of the guide means 28. Be positioned. Then, the inside of the sterilization housing 10 is conveyed along the container lid housing groove 48 according to the rotation of the spiral blade 32. At this time, steam is sprayed onto the container lid 20 from the steam spraying means 54 constituting the sterilizing means, and thereby the container lid 20 is sterilized. Thereafter, the sheet is discharged from the conveying means 22 and sent to the chute means 74 of the cooling means 72. Due to the rotation of the spiral blade 32 in the rotating spiral blade means 26, the container lid 20 is sent out to the chute means 74 one after another from the conveying means 22, so that the container lid 20 is appropriately moved through the chute means 74. At this time, gas is injected from the gas injection means 84 onto the container lid 20, thereby cooling the container lid 20. The sterilized and cooled container lid 20 is further moved through the chute means 102 and supplied to a mounting device (not shown).
[0020]
【The invention's effect】
According to the container lid sterilization apparatus of the present invention, the container can be stably supplied at the required speed through the required conveying path regardless of the state of the mounting apparatus without increasing the size of the apparatus and greatly increasing the manufacturing cost. The lid can be transported.
[Brief description of the drawings]
FIG. 1 is a simplified front view schematically illustrating a container lid sterilizer constructed in accordance with the present invention.
2 is a longitudinal sectional view illustrating a main part of the container lid sterilizer of FIG.
3 is a partial plan view illustrating the main part of the container lid sterilization apparatus of FIG. 1;
4 is a cross-sectional view illustrating transport means and sterilization means in the container lid sterilization apparatus of FIG. 1. FIG.
FIG. 5 is a cross-sectional view illustrating cooling means in the container lid sterilizer of FIG.
[Explanation of symbols]
6: Sterilization area 8: Cooling area 10: Sterilization housing 16: Inlet opening 18: Outlet opening 20: Container lid 22: Transport means 26: Rotating spiral blade means 28: Guide means 32: Spiral blade 48: Container lid receiving groove 50: Swivel member 54: Steam injection means (sterilization means)
56: upper steam pipe 58: lower steam pipe 62: jet nozzle 64: jet nozzle 68: jet nozzle 72: cooling means 74: chute means 84: gas jet means 90: jet nozzle 98: jet nozzle 100: jet nozzle

Claims (6)

A conveying means for conveying the container lid to be sterilized, and a sterilizing means for sterilizing the container lid conveyed by the conveying means,
The sterilizing means is composed of a steam spraying means for spraying steam onto a container lid transported by the transporting means,
The conveying means is composed of rotating spiral blade means having a spiral blade extending substantially straight, and guide means disposed adjacent to the rotating spiral blade means,
The guide means is composed of a member having a bottom wall, a lower wall, and an upper wall that define a container lid housing groove extending along the rotary spiral blade means on the side facing the rotary spiral blade means,
The container lid to be sterilized has a circular top wall and a cylindrical skirt wall depending from the peripheral edge of the top wall, and the container lid receiving groove of the guide means is a rectangular opening whose side facing the rotating spiral blade means is open. A part of the container lid to be sterilized is located in the valley of the spiral blade of the rotating spiral blade means, and the substantially half on one side is located in the container lid receiving groove. , The spiral blade is moved along the container lid receiving groove by being rotated,
The bottom wall and the lower wall that define the container lid housing groove have through holes for guiding the steam sprayed by the steam spraying means to the container lid to be sterilized that is moved along the container lid housing groove. Formed ,
A container lid sterilizer characterized by that.   At the upstream end of the guide means, the bottom surface of the container lid receiving groove facing the spiral blade is mounted so as to be rotatable from a normal position in a direction in which the upstream end is separated from the spiral blade with the downstream end as the pivot center. 2. The container lid sterilizer according to claim 1, wherein the container lid sterilizer is defined by a pivot member elastically biased to the normal position.   The at least upstream end portion of the inner surface of the swivel member defining the bottom surface of the container lid housing groove is inclined in a direction away from the spiral blade toward the upstream even in the normal position. 2. The container lid sterilizer according to 2. The container lid sterilizer according to any one of claims 1 to 3 , wherein the steam spraying means includes a plurality of spray nozzles arranged at intervals in the transport direction of the container cover transported by the transporting means. . A sterilization housing having an inlet opening and an outlet opening formed therein, wherein the container lid transported by the transport means is carried into the housing from the inlet opening, transported through the housing, and from the housing through the outlet opening; The container lid sterilizer according to any one of claims 1 to 4 , wherein the container lid sterilizer is carried out and sterilizes the container lid in the housing. A conveying means for conveying the container lid to be sterilized, and a sterilizing means for sterilizing the container lid conveyed by the conveying means,
The conveying means is composed of rotating spiral blade means having a spiral blade extending substantially straight, and guide means disposed adjacent to the rotating spiral blade means,
The guide means has a container lid receiving groove extending along the rotating spiral blade means on the side facing the rotating spiral blade means,
A part of the container lid to be sterilized is positioned in the container lid receiving groove of the guide means, a part of the container lid is positioned in a valley portion of the spiral blade of the rotating spiral blade means, and the spiral blade rotates. Being moved along the container lid receiving groove by being tightened,
The cooling means further includes chute means connected to the downstream end of the conveying means for receiving the container lid sent from the downstream end of the conveying means, and gas injection means for injecting gas to the container lid moved through the chute means. Is attached,
A container lid sterilizer characterized by that.

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