CN210234063U - Precision carbon fiber panel for medical radioactive examination equipment - Google Patents

Abstract

The utility model relates to the mechanical medical field, in particular to a precise carbon fiber panel for medical radioactive examination equipment, which comprises a mould, a release layer, an aluminum film, an aluminum plate, a carbon cloth, a carbon fiber layer, a through hole, a silk screen area and a carbon fiber panel, wherein the carbon fiber panel is placed on the inner wall of the mould, the carbon cloth is arranged between the carbon fiber panel and the mould, the release layer is arranged between the carbon cloth and the mould, the carbon fiber panel comprises the carbon fiber layer and the aluminum plate, the silk screen area is arranged on the base surface of the carbon fiber panel, the aluminum film is adhered on one side of the carbon fiber panel close to the aluminum plate, the through hole is arranged on both sides of the carbon fiber panel, the whole device of the utility model has simple structure, effectively improves the vibration resistance, the strength, the rigidity and the damage resistance of the product, simplifies the production, meanwhile, the manufacturing cost is saved, the problem of deformation and distortion generated after the dissimilar materials are compounded is perfectly solved, and the method has a certain popularization effect.

Description

Precision carbon fiber panel for medical radioactive examination equipment

Technical Field

The utility model relates to a mechanical medical treatment field specifically is medical treatment radioactive ray physical examination equipment is with accurate carbon fiber panel.

Background

When the radioactive unstable element decays, the penetrating particle beams emitted from the atomic nucleus are divided into a first ray, a second ray and a third ray, wherein the third ray has the strongest penetrating power, in addition, the radioactive ray has certain harm to the environment and human bodies, the same radioactive element can emit several different rays because of the multilayer distribution of substances around the atomic nucleus, the outermost layer substance is the least bound by the atomic nucleus and can escape most easily, but the speed and the energy of the middle layer substance are the least, the penetrating power is the least, the wavelength is larger, the frequency is lower, the middle layer substance is closer to the atomic nucleus and can escape from the bound of the atomic nucleus only by higher speed and energy, therefore, the middle layer substance has higher speed and energy during radiation, the penetrating power is stronger, the wavelength is smaller, the frequency is higher, the innermost layer substance is the closest to the atomic nucleus and the speed of rotation around the atomic nucleus is the fastest, the radioactive ray physical examination equipment has the advantages of high speed and energy, strong penetrating power, short wavelength and high frequency when escaping from atomic nuclei, and is widely applied to the medical field, for example, the radioactive ray physical examination equipment is used during physical examination, a panel is often used in the radioactive ray physical examination equipment, the existing product is made of aluminum plates, and the defects of short service cycle, poor strength, low rigidity, poor vibration resistance, easiness in damaging glass substrates in a large batch and the like exist, so that the problem is improved by a precise carbon fiber panel for the medical radioactive ray physical examination equipment.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a medical treatment radioactive ray check-up equipment is with accurate carbon fiber panel to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

medical treatment radioactive ray physical examination equipment uses accurate carbon fiber panel, spread layer, through-hole, silk screen printing region and carbon fiber panel including mould, abscission layer, aluminium membrane, aluminum plate, carbon cloth, carbon fiber, the carbon fiber panel has been placed to the inner wall of mould, be provided with carbon cloth between carbon fiber panel and the mould, be provided with the abscission layer between carbon cloth and the mould, the carbon fiber panel includes that the carbon fiber spreads the layer and aluminum plate, it is regional to be provided with the silk screen printing on the carbon fiber panel base face, one side that the carbon fiber panel is close to aluminum plate is pasted and is provided with the aluminium membrane, the through-hole has all.

Preferably, the release layer is formed by coating and superposing release liquid.

Preferably, the two sides of the carbon fiber panel are both vertically provided with edge strips.

Preferably, the four corners of the carbon fiber panel are provided with fillets, and the edge openings of the carbon fiber panel are provided with chamfers.

Preferably, the carbon fiber paving layer is formed by paving a plurality of groups of carbon fiber prepregs in different directions by combining a vacuumizing process.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses in, during the use, carbon fiber panel through setting up combines the system vibration nature of the effectual improvement product of aluminium membrane, intensity, rigidity and endurance loss, production processes has more been simplified, the production efficiency is improved, the defective rate is reduced, manufacturing cost has greatly been practiced thrift simultaneously, and lay the layer with the carbon fiber that sets up and aluminum plate combine evacuation technology and integrative solidification, the distortion's that produces after can not only the perfect difference material is compound problem, finished product performance and practicality have been promoted more greatly, various defects that present aluminum plate exists have been solved at one stroke, still attach the advantage of being lighter and more handy simultaneously, be superior to the aluminum alloy product to perspective effect.

2. The utility model discloses in, during the use, but the carbon fiber that will spread after the layer through the mould that sets up spreads the layer precision control at mould precision range to accord with the production specification, and spread the layer with the carbon fiber and adopt multiunit carbon fiber preimpregnation material to combine evacuation technology along the equidirectional not to lay and form and make carbon fiber panel all directions's intensity and rigidity obtain abundant assurance, the while is the better separation of carbon fiber panel and mould after the convenient compound shaping through the abscission layer that sets up and carbon cloth.

Drawings

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

fig. 2 is a schematic view of the external structure of the carbon fiber panel according to the present invention;

fig. 3 is a schematic view of the external structure of the carbon fiber panel of the present invention;

in the figure: 1-mould, 2-release layer, 3-aluminum film, 4-aluminum plate, 5-carbon cloth, 6-carbon fiber layer, 7-through hole, 8-silk screen printing area and 9-carbon fiber panel.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides a technical solution:

medical treatment radioactive ray physical examination precision carbon fiber panel for equipment, including mould 1, release layer 2, aluminium membrane 3, aluminum plate 4, carbon cloth 5, carbon fiber shop front 6, through-hole 7, silk screen printing region 8 and carbon fiber panel 9, carbon fiber panel 9 has been placed to the inner wall of mould 1, be provided with carbon cloth 5 between carbon fiber panel 9 and the mould 1, be provided with release layer 2 between carbon cloth 5 and the mould 1, carbon fiber panel 9 includes that carbon fiber shop front 6 and aluminum plate 4 are spread to the carbon fiber, and during the use, but carbon fiber shop front 6 precision control after will spreading the layer through the mould 1 that sets up is in mould precision range to accord with production specification, and spread carbon fiber shop front 6 and adopt multiunit carbon fiber prepreg to combine evacuation technology along the not equidirectional bond to lay and make the intensity and the rigidity of carbon fiber panel 9 all directions obtain abundant assurance, release layer 2 and carbon cloth 5 through the setting are simultaneously make things convenient for the better branch of carbon fiber panel 9 after the composite forming and when the screen printing area 8 is arranged on the base surface of the carbon fiber panel 9, the aluminum film 3 is adhered on one side of the carbon fiber panel 9 close to the aluminum plate 4, the through holes 7 are arranged on both sides of the carbon fiber panel 9, when the screen printing device is used, the carbon fiber panel 9 is combined with the aluminum film 3, so that the vibration resistance, the strength, the rigidity and the damage resistance of the product are effectively improved, the production process is simplified, the production efficiency is improved, the fraction defective is reduced, meanwhile, the manufacturing cost is greatly saved, the arranged carbon fiber laying layer 6 and the aluminum plate 4 are combined with a vacuumizing process and integrated solidification, the problem of deformation and distortion generated after the dissimilar materials are compounded can be perfectly overcome, the performance and the practicability of finished products are greatly improved, various defects of the existing aluminum plate 4 are overcome at one stroke, meanwhile, the aluminum alloy product is also accompanied by the advantage of being lighter and more handy, and the perspective effect is superior to that of an aluminum alloy product.

The utility model discloses the theory of operation: when in use, the inner wall of the mould 1 is coated with release liquid, carbon cloth 5 is placed, a plurality of groups of carbon fiber prepregs are laid along different directions, a vacuumizing process is combined to generate a carbon fiber laying layer 6, the carbon fiber laying layer 6 is heated and pressurized and cured by an autoclave, the inherent precision is maintained to be cured and molded under the condition of uniform stress, the carbon fiber laying layer is bonded and naturally cured with an aluminum plate 4 at normal temperature, the product deformation of one material caused by different thermal expansion rates is reduced, so that a carbon fiber panel 9 is generated in a compounding way, the compounded carbon fiber panel 9 is naturally cooled to normal temperature after being heated in a furnace again, the internal stress is further released, the deformation of the carbon fiber panel 9 in the subsequent use process is avoided, finally, a superhard alloy prop is adopted for high-precision processing, and after being processed, the carbon fiber laying layer is fixed on the mould again for vacuumizing and then heated to correct the micro deformation brought in the processing process, and the aluminum film 3 is adhered to one side close to the aluminum plate 4, so that the whole device is simple in structure, the vibration resistance, the strength, the rigidity and the damage resistance of the product are effectively improved, and the device has a certain popularization value.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. Medical treatment radioactive ray physical examination precision carbon fiber panel for equipment, including mould (1), absciss layer (2), aluminium membrane (3), aluminum plate (4), carbon cloth (5), carbon fiber shop (6), through-hole (7), silk screen printing region (8) and carbon fiber panel (9), its characterized in that: carbon fiber panel (9) have been placed to the inner wall of mould (1), be provided with carbon cloth (5) between carbon fiber panel (9) and mould (1), be provided with abscission layer (2) between carbon cloth (5) and mould (1), carbon fiber panel (9) are spread layer (6) and aluminum plate (4) including the carbon fiber, be provided with silk screen printing region (8) on carbon fiber panel (9) the base plane, carbon fiber panel (9) are close to one side of aluminum plate (4) and are pasted and be provided with aluminium membrane (3), through-hole (7) have all been seted up to carbon fiber panel (9) both sides.

2. The precision carbon fiber panel for medical radiation examination equipment according to claim 1, characterized in that: the release layer (2) is formed by coating and superposing release liquid.

3. The precision carbon fiber panel for medical radiation examination equipment according to claim 1, characterized in that: edgings are vertically arranged on two sides of the carbon fiber panel (9).

4. The precision carbon fiber panel for medical radiation examination equipment according to claim 1, characterized in that: the carbon fiber panel (9) is provided with fillets at four corners and chamfers at edges.

5. The precision carbon fiber panel for medical radiation examination equipment according to claim 1, characterized in that: the carbon fiber laying layer (6) is formed by adopting a plurality of groups of carbon fiber prepregs to be laid in different directions by combining a vacuumizing process.

Images