CN210685494U - Protective cover for assembly line irradiation equipment - Google Patents

Abstract

A protective cover for assembly line irradiation equipment is characterized in that a protective cover body is formed by combining a plurality of concrete bases, each concrete base is annular, and each concrete base is composed of a steel reinforcement framework and concrete; the concrete foundation comprises a first concrete foundation from bottom to top, a second concrete foundation from top to bottom and a concrete foundation between the first concrete foundation and the second concrete foundation, wherein a fixed limiting block is arranged in the middle of the upper end of each concrete foundation, and a plurality of fixing holes are formed in the outer side of the upper end of each concrete foundation; ground is by supreme second concrete base and top first concrete base from top to bottom and mix the clean concrete base between the two down, and there is fixed spacing groove at the lower extreme middle part of every concrete base, and there are many dead levers in the lower extreme outside of encircling every concrete base, and top concrete base upper portion is closed structure, and many concrete bases are overlapped and are combined together. This novel easy and simple to handle, installation labour saving and time saving, dismantlement convenience can also reuse, save use cost.

Description

Protective cover for assembly line irradiation equipment

Technical Field

The utility model relates to an equipment field of irradiation processing food, especially a safety cover that assembly line irradiation equipment used.

Background

The irradiation food is a method for preserving food by irradiation processing, insects, eggs, larvae, bacteria and microorganisms in the food can be killed in the irradiation process, food-borne diseases harmful to human health can be eliminated, and the food is safer; the shelf life of the food is prolonged, the irradiated food can keep the original taste for a long time, and the original taste can be kept, so that the irradiation-resistant and taste-preserving food is widely applied to the food industry and the like.

The existing equipment for irradiating food generally comprises an irradiation device, a pipeline conveying device (such as a roller conveying device or a conveyor belt type conveying device), and an irradiation device protective cover (an inner hollow structure); the irradiation device body is installed on the upper portion in the irradiation device safety cover, and pipeline conveyor middle part partly lies in irradiation device safety cover lower part, and the during operation, food constantly carry into irradiation device body lower part through pipeline conveyor and carry out the irradiation processing, and the irradiation food gets into next packing station from pipeline conveyor end after the processing again, and then reaches whole production flow.

The protective cover of the prior irradiation device is generally made of concrete, and the shape generally comprises a square structure, a round structure and the like, wherein the round structure is most applied. In the prior art, when the protective cover of the concrete irradiation device is produced, the ground is leveled at the installation position, then a mold is installed, a steel frame framework is placed in the mold, concrete is poured into the mold, the concrete is waited for drying, and the whole production flow of the protective cover can be completed after the mold is disassembled. Because the inner layer mould and the outer layer mould are required to be arranged in the production process, if the moulds are not installed in place or have poor stability, the whole mould is easy to collapse in the process of producing and pouring concrete; and because the reinforcing steel bar framework needs to be placed in the die, and the lower parts of the front end and the rear end of the produced protective cover are provided with the symmetrical inlet and outlet of the assembly line conveying device, the defects of complex construction process, inconvenient operation, time and labor waste exist in the actual situation. The above-mentioned construction and production method has a problem that when the protective cover of the irradiation device needs to be moved (for example, the field needs to do other purposes, and the production line needs to be moved to other areas), the protective cover of the irradiation device is of an integral concrete structure, has a large weight and volume, and the lower foundation is located below the ground, so that the complete moving and displacement of the protective cover of the irradiation device cannot be realized, and the operation is generally carried out by adopting a demolition and destruction mode, thereby bringing unnecessary loss to manufacturers.

SUMMERY OF THE UTILITY MODEL

In order to overcome the drawback that current irradiation device safety cover exists because of processing method and structure limit, the utility model provides an adopt sectional type precast concrete part combination to form the irradiation device safety cover, the production efficiency of irradiation device safety cover has been improved (the irradiation device safety cover is produced by the producer who is responsible for producing the irradiation device safety cover specially), many concrete parts can conveniently realize separating and combining, and can realize good firm effect after the installation, reach easy and simple to handle from this, installation labour saving and time saving, it is convenient to dismantle, can also reuse, save use cost's a safety cover that assembly line irradiation equipment used.

The utility model provides a technical scheme that its technical problem adopted is:

a protective cover used for assembly line irradiation equipment is characterized in that a protective cover body is formed by combining a plurality of concrete bases, each concrete base is of an annular and hollow structure, each concrete base is composed of a steel reinforcement framework and concrete, and the concrete bases are overlapped and combined together from top to bottom; the concrete base comprises a first concrete base from bottom to top, a second concrete base from top to bottom and a concrete base between the first concrete base and the second concrete base, wherein an annular bulge is arranged in the middle of the upper end of each concrete base and serves as a fixed limiting block, and a plurality of open holes distributed from top to bottom are formed in the outer side of the upper end of each concrete base and serve as fixed holes; the second concrete base from bottom to top, the first concrete base from top to bottom and the concrete base between the second concrete base and the first concrete base are arranged, an annular groove is formed in the middle of the lower end of each concrete base and serves as a fixing limiting groove, and a plurality of metal rods distributed from top to bottom are arranged on the outer side of the lower end of each concrete base and serve as fixing rods; the upper portion of the uppermost concrete base at the top is of a closed structure, between two adjacent concrete bases, the fixed limiting block at the upper end of the lower concrete base is located in the fixed limiting groove at the lower end of the upper concrete base, and the fixing rods at the lower end of the upper concrete base are located in the fixing holes in the outer side of the upper end of the lower concrete base respectively.

Further, after the plurality of concrete bases are installed, the outer side of the whole concrete base is a smooth surface, and the outer sides of every two concrete bases are leveled by cement mortar.

Furthermore, the concrete base is integrally provided with a square opening from the front side end and the middle part of the rear side end of a plurality of the concrete bases from bottom to top, and the square opening is reserved when the concrete base is processed.

Furthermore, the number of the fixing holes and the number of the fixing rods of each concrete base are consistent, and the positions of the fixing holes and the positions of the fixing rods of every two adjacent concrete bases are consistent.

Further, the height of each fixing rod is smaller than the depth of each fixing hole, and the outer diameter of each fixing rod is smaller than the inner diameter of each fixing hole.

Furthermore, the outer diameter of the fixed limiting block of each concrete base is smaller than the inner diameter of the fixed limiting groove of each concrete base, and the width of the fixed limiting block of each concrete base is smaller than the width of the inner side of the fixed limiting groove of each concrete base.

Furthermore, the middle part of the outer side of each concrete base is provided with a plurality of lifting rings.

The utility model has the advantages that: this novel with current integral concrete irradiation device safety cover, adopt sectional type precast concrete part to make up and form, the producer of production concrete irradiation device safety cover is special production, and during the processing factory such as irradiation food of follow-up concrete irradiation device safety cover that needs to install installation, need not pour the preparation in the scene, directly with many concrete bases just can obtain the concrete irradiation device safety cover of needs through simple overlapping combination. Because the separation and the combination can be conveniently realized between every two concrete base parts, and a good stabilizing effect can be realized after the installation, the aims of simple and convenient operation, time and labor saving in installation, convenient disassembly, reutilization and use cost saving can be achieved. Based on the above, this is novel has good application prospect.

Drawings

The invention will be further explained with reference to the drawings and examples.

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

Fig. 2 is a schematic structural diagram of one of the concrete bases of the present invention.

Fig. 3 is a perspective structure diagram of one of the concrete bases of the present invention.

Fig. 4 is a schematic structural diagram of the top concrete base of the present invention.

Detailed Description

As shown in fig. 1, 2, 3 and 4, a protective cover for a pipeline irradiation device, a protective cover body 1 is formed by combining a plurality of concrete bases, each concrete base is of an annular and hollow structure, each concrete base is composed of a steel reinforcement framework 110 and concrete, the steel reinforcement framework 110 is positioned in the concrete and integrally formed with the concrete, and the plurality of concrete bases are overlapped and combined together from top to bottom; the concrete base comprises a first concrete base 102 from bottom to top, a second concrete base 103 from top to bottom and a concrete base 104 between the first concrete base and the second concrete base, wherein an annular bulge is arranged in the middle of the upper end of each concrete base and serves as a fixed limiting block 105, the horizontal heights of the upper ends of the limiting blocks 105 are consistent, and a plurality of open holes distributed from top to bottom are formed in the outer side of the upper end of each concrete base and serve as fixing holes 106; the second concrete base 102 from bottom to top, the first concrete base 101 from top to bottom and the concrete base 104 between the two are arranged, the middle part of the lower end of each concrete base is provided with an annular groove serving as a fixed limiting groove 107, the lower ends of the fixed limiting grooves 107 are consistent in horizontal height, the outer side of the lower end of each concrete base is provided with a plurality of metal rods distributed from top to bottom serving as fixing rods 108, and the metal rods 108 and a steel reinforcement framework 110 in the concrete base are integrally formed; the upper part of the uppermost concrete base 101 at the top is of a closed structure, between two adjacent concrete bases, a fixed limiting block 105 at the upper end of the lower concrete base is positioned in a fixed limiting groove 107 at the lower end of the upper concrete base, and a plurality of fixing rods 108 at the lower end of the upper concrete base are respectively positioned in a plurality of fixing holes 106 at the outer side of the upper end of the lower concrete base.

As shown in fig. 1, 2, 3 and 4, after a plurality of concrete bases 1 are installed, the overall concrete base 1 is in a semicircular eggshell shape from bottom to top, the outer side of the overall concrete base 1 is a smooth surface, no large gap exists between the upper end and the lower end of every two concrete bases, and the outer sides of every two concrete bases are leveled by using thin cement mortar. The concrete base whole body 1 is formed by respectively forming a square opening 2 in the middle of the front side end and the rear side end of a plurality of concrete bases from bottom to top, and the square opening 2 is reserved when the concrete base is processed. The number of the fixing holes 106 and the number of the fixing rods 108 of each concrete base are consistent, and the positions of the fixing holes 106 and the positions of the fixing rods 108 of every two adjacent concrete bases are consistent. The height of each fixation rod 108 is slightly less than the depth (3mm) of each fixation hole 106, and the outer diameter of each fixation rod 108 is slightly less than the inner diameter (2mm) of each fixation hole 106. The outer diameter of the fixed limiting block 105 of each concrete base is smaller than the inner diameter (2mm) of the fixed limiting groove 107 of each concrete base, and the width of the fixed limiting block 105 of each concrete base is smaller than the width (2mm) of the inner side of the fixed limiting groove 107 of each concrete base. The middle part of the outer side of each concrete base is provided with a plurality of lifting rings 109, and the lifting rings 109 and the steel reinforcement framework 110 of each concrete base are integrally formed.

As shown in figures 1, 2, 3 and 4, the novel protective cover for the existing integral concrete irradiation device is formed by combining sectional precast concrete parts, a manufacturer for producing the protective cover for the concrete irradiation device specially produces the protective cover, and during the installation of processing plants such as irradiation food and the like which need to install the protective cover for the concrete irradiation device subsequently, the protective cover for the concrete irradiation device is directly installed on a plurality of concrete bases through simple overlapping combination so as to obtain the required protective cover for the concrete irradiation device without pouring on site. Before installation, the ground of an installation area is leveled, the ground is leveled by a layer of concrete, and the installation process can be carried out after the concrete is dried and condensed. During installation, a plurality of concrete bases are overlapped from bottom to top, the outer diameter of each concrete base is smaller when the concrete bases go upwards, after the concrete bases are overlapped from bottom to top, between two adjacent concrete bases, a fixing limiting block 105 at the upper end of the lower concrete base is positioned in a fixing limiting groove 107 at the lower end of the upper concrete base, a plurality of fixing rods 108 at the lower end of the upper concrete base are respectively positioned in a plurality of fixing holes 106 at the outer side of the upper end of the lower concrete base, and a lower fixing limiting groove 107 of the uppermost concrete base 101 at the top is sleeved at two sides of the fixing limiting block 105 at the upper end of the uppermost concrete base at the adjacent lower end; a plurality of fixing holes 106 and a plurality of fixing rods 108, and a limiting block 105 and a limiting groove 107 can play a good limiting and fixing role, so that each single concrete base 1 is prevented from displacing in any direction after being installed; after a plurality of concrete bases 1 are installed, the whole concrete base 1 is in a semicircular eggshell shape from bottom to top, the outer side of the whole concrete base 1 is a smooth surface, no large gap exists between the upper end and the lower end of each two concrete bases, and then an operator trowels the outer sides of each two concrete bases with thin cement mortar (the mortar is knocked down by a tool during disassembly, and the disassembly of the whole concrete base is not hindered). Because the concrete base whole 1 respectively constitutes by lower wherein many concrete base front side end and back side end and has a square opening 2 to wherein, can make things convenient for assembly line conveyor to install in concrete base whole 1 like this (conveyor's front end is located square opening 2 in the front, conveyor's rear end is located square opening 2 in the back) and can make things convenient for irradiation unit to pass through the installation frame and install on the interior upper portion of concrete base whole 1 with expansion bolts etc.. When the concrete base is disassembled, the mortar smeared on the outer side of the concrete base can be conveniently disassembled only by knocking down (the disassembly cannot cause damage, and the mortar can be recombined for use after the disassembly). In the novel structure, because the outer side of each concrete base is provided with the hanging ring 109, a plurality of hooks of a lifting rope of a lifting appliance (crane) are hung on the hanging rings for operation no matter the concrete base is mounted or dismounted. Because can conveniently realize separation and combination between this novel two concrete foundation parts, and can realize good firm effect after the installation, consequently can reach easy and simple to handle, installation labour saving and time saving, dismantle convenient, can also reuse, save use cost's purpose ground.

The basic principles and essential features of the invention and the advantages of the invention have been shown and described above, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but rather can be embodied in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

It should be understood that although the present description refers to embodiments, not every embodiment contains only a single technical solution, and such description is for clarity only, and those skilled in the art should take the description as a whole, and the technical solutions in the examples can also be combined appropriately to form other embodiments that can be understood by those skilled in the art.

Claims (7)

1. A protective cover used for assembly line irradiation equipment is characterized in that a protective cover body is formed by combining a plurality of concrete bases, each concrete base is of an annular and hollow structure, each concrete base is composed of a steel reinforcement framework and concrete, and the concrete bases are overlapped and combined together from top to bottom; the concrete base comprises a first concrete base from bottom to top, a second concrete base from top to bottom and a concrete base between the first concrete base and the second concrete base, wherein an annular bulge is arranged in the middle of the upper end of each concrete base and serves as a fixed limiting block, and a plurality of open holes distributed from top to bottom are formed in the outer side of the upper end of each concrete base and serve as fixed holes; the second concrete base from bottom to top, the first concrete base from top to bottom and the concrete base between the second concrete base and the first concrete base are arranged, an annular groove is formed in the middle of the lower end of each concrete base and serves as a fixing limiting groove, and a plurality of metal rods distributed from top to bottom are arranged on the outer side of the lower end of each concrete base and serve as fixing rods; the upper portion of the uppermost concrete base at the top is of a closed structure, between two adjacent concrete bases, the fixed limiting block at the upper end of the lower concrete base is located in the fixed limiting groove at the lower end of the upper concrete base, and the fixing rods at the lower end of the upper concrete base are located in the fixing holes in the outer side of the upper end of the lower concrete base respectively.

2. The protective cover for the pipeline irradiation equipment according to claim 1, wherein after the multiple concrete bases are installed, the outer side of the whole concrete base is a smooth surface, and the outer sides of every two concrete bases are leveled by cement mortar.

3. The protective cover for the pipeline irradiation equipment according to claim 1, wherein the concrete base is integrally formed with a square opening from bottom to top, wherein the square opening is reserved when the concrete base is processed.

4. The protective cover for the pipeline irradiation equipment according to claim 1, wherein the number of the fixing holes and the number of the fixing rods of each concrete base are identical, and the positions of the fixing holes and the fixing rods of every two adjacent concrete bases are identical.

5. The protective cover for the inline irradiation equipment of claim 1, wherein the height of each fixing rod is smaller than the depth of each fixing hole, and the outer diameter of each fixing rod is smaller than the inner diameter of each fixing hole.

6. The protective cover for the pipeline irradiation equipment according to claim 1, wherein the outer diameter of the fixed limiting block of each concrete base is smaller than the inner diameter of the fixed limiting groove of each concrete base, and the width of the fixed limiting block of each concrete base is smaller than the width of the inner side of the fixed limiting groove of each concrete base.

7. The protective cover for the pipeline irradiation equipment according to claim 1, wherein the outer middle part of each concrete base is provided with a plurality of hanging rings.

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