CN223529458U - Support components for breast scans - Google Patents

Abstract

The utility model discloses a support component for breast scanning, which comprises a shell, wherein a plurality of annular support mechanisms are fixedly arranged in the shell, a plurality of scanning bed frameworks are fixedly arranged among the plurality of annular support mechanisms, each scanning bed framework comprises a fixed plate and a first vertical plate, the middle part of the top end of the fixed plate is fixedly connected with the bottom end of the first vertical plate, the support component for breast scanning is provided with the annular support mechanisms, the length pole, extension rod and stiffening rod are cut apart into a plurality of stable triangle-shaped with supporting shell inner space, have improved the compressive property of supporting shell self, and the roof has anticorrosive, fire-retardant and compressive property, and annular supporting mechanism's establishment has improved the compressive property of whole supporting component, avoids the supporting component probably to appear surface damage under the effect of external force collision, or the phenomenon that the surface appears sunken deformation has guaranteed the normal use of follow-up mammary gland scanning equipment.

Description

Support assembly for breast scanning

Technical Field

The utility model relates to the technical field of mammary gland CT, in particular to a support component for mammary gland scanning.

Background

The CT examination of mammary gland is to detect if there is serious disease, such as breast cancer, malignant tumor, etc., and early prevention and treatment, CT of mammary gland, i.e. computer tomography, is to examine by X-ray scanning, it uses X-ray to penetrate the mammary gland tissue, processes the scanning data by computer, displays the internal structure of mammary gland in image form, and nuclear magnetic resonance of mammary gland is to examine by changing the position of water molecule in vivo caused by magnetic field, under the action of magnetic field, the hydrogen atom in water molecule resonates to generate signal, and then forms the image of mammary gland, the support component for supporting equipment is installed on CT of mammary gland.

However, the conventional support assembly has the following disadvantages:

the traditional supporting component has poor compression resistance, and the supporting component can be damaged on the surface or deformed on the surface under the action of external force collision, so that the normal use of the subsequent breast scanning equipment is affected.

Disclosure of utility model

The utility model aims to provide a support component for breast scanning, which solves the problems that the traditional support component provided in the background art has poor compression resistance, and the support component is likely to be damaged on the surface or deformed due to the sinking under the action of external force collision, thereby influencing the normal use of subsequent breast scanning equipment.

The technical scheme includes that the support assembly for breast scanning comprises a shell, a plurality of annular support mechanisms are fixedly arranged in the shell, a plurality of scanning bed frameworks are fixedly arranged among the annular support mechanisms, the scanning bed frameworks comprise fixing plates and first vertical plates, the middle of the top ends of the fixing plates are fixedly connected with the bottom ends of the first vertical plates, a second vertical plate is fixedly arranged on one side of the first vertical plates, a plurality of assembling plates are fixedly arranged on one side of the second vertical plates, the annular support mechanisms comprise annular support rings and two triangular support frames, one ends of the two triangular support frames are fixedly connected with one side opposite to the annular support rings, the shell is fixed on the annular support mechanisms, the annular support mechanisms are connected with the shell and are fixed on the scanning bed frameworks for bearing and supporting the shell, and the scanning bed frameworks are connected with the annular support mechanisms for bearing all the annular support mechanisms and bearing the weight of the shell.

Preferably, two the equal fixed mounting of one side that annular support ring was kept away from to the triangular supports frame has the mounting plate, and two the mounting hole has all been seted up on the surface of mounting plate, and triangular supports frame adopts triangle-shaped structure, has high stability, and this kind of structure can provide firm support in equipment, can disperse the pressure that equipment received effectively to prolong the life ‌ of equipment.

Preferably, one side of each of the two mounting plates is fixedly connected with the scanning bed framework, a user screws the screw to penetrate through the mounting hole, threads on the surface of the screw are matched with threads on the inner wall of the mounting hole, and the mounting plates are fixed on the scanning framework.

Preferably, sealing strips are paved on the top end of the annular supporting ring and the bottom end of the annular supporting ring, a plurality of radiating holes are formed in the surface of the annular supporting ring, the sealing strips are protected in a dustproof and waterproof sealing mode from the top of the annular supporting ring and the bottom end of the annular supporting ring, and the radiating holes are formed in the mode that heat generated in the mammary gland scanning equipment and external environment low-temperature gas are subjected to heat transfer and interaction heat radiation ‌.

Preferably, the fixing holes are formed in two sides of the top end of the fixing plate, the screws penetrate through the fixing holes, threads on the inner wall of each fixing hole are matched with threads on the surface of each screw, and therefore the screws stretch and retract relative to the fixing holes in a rotating mode to fix the fixing plate.

Preferably, the surface of the first vertical plate and the surface of the second vertical plate are provided with a plurality of threading holes, and a wire connected with the breast scanning equipment passes through the threading holes in a limited way, so that the phenomenon of line-to-line cross arrangement is avoided.

Preferably, one end of the assembling plates far away from the second vertical plate is fixedly connected with the annular supporting mechanism, and the scanning bed framework is installed on the annular supporting mechanism through the assembling plates.

Compared with the prior art, the utility model has the beneficial effects that the inner space of the support shell is divided into a plurality of stable triangles by the annular support mechanism, the length rod, the extension rod and the reinforcing rod, so that the compression resistance of the support shell is improved, the top plate has corrosion resistance, flame retardance and compression resistance, the compression resistance of the whole support assembly is improved by setting the annular support mechanism, the phenomenon that the surface of the support assembly is damaged or the surface is concavely deformed under the action of external force collision is avoided, and the normal use of the subsequent breast scanning equipment is ensured.

Drawings

FIG. 1 is one of the perspective views of the present utility model;

FIG. 2 is a second perspective view of the present utility model;

FIG. 3 is a front view of the present utility model;

fig. 4 is a side view of the present utility model.

In the figure, 1, a shell; 2, an annular supporting mechanism, 21, an annular supporting ring, 22, sealing strips, 23, a heat dissipation hole, 24, a triangular support frame, 25, a mounting piece, 26, a mounting hole, 3, a scanning bed framework, 31, a fixing plate, 32, a fixing hole, 33, a first vertical plate, 34, a second vertical plate, 35, an assembly plate, 36 and a threading hole.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model.

Referring to fig. 1-4, the present utility model provides a support assembly for breast scanning, comprising a housing 1, the housing 1 acting as an external protective structure for the entire support assembly, playing a vital role in a breast scanning apparatus. The novel multifunctional intelligent cabinet has the advantages that the novel multifunctional cabinet not only plays an attractive role, but also adds a special and tidy appearance to the whole equipment, and more importantly, the novel multifunctional cabinet can effectively prevent the influence of the external environment on the internal structure.

The housing 1 generally has a certain strength and durability in terms of material selection. This is to be able to withstand a certain external impact without being easily damaged. For example, in the environment where medical devices are placed, some minor collisions may be inadvertently experienced or some jolts may be encountered during handling. If the material of the casing 1 is not strong enough, the casing is easy to dent, break and the like, thereby affecting the normal use of the device.

The strength of the housing 1 is required to resist a certain degree of impact force in consideration of the actual use scenario. For example, when some small object is accidentally dropped and hit the casing 1, it can remain intact. At the same time, durability is also a very critical point. In the long-term use process, the housing 1 is subjected to time test, and the problems of aging, deformation and the like cannot occur due to frequent use or influence of environmental factors. This requires the material of the housing 1 to have good corrosion resistance, abrasion resistance, etc.

In order to meet such a requirement, the material of the housing 1 is usually a high-strength plastic or metal alloy. These materials not only have higher strength, but also maintain stable performance under different environmental conditions. For example, high strength plastics have the advantages of light weight, corrosion resistance, good insulation, etc., and are well suited for use in housings for medical devices. The metal alloy has higher strength and durability and can bear larger external force impact.

In addition, the design of the housing 1 also needs to take into account heat dissipation and ventilation issues. Although in the support assembly the heat dissipation holes 23 of the annular support mechanism 2 are mainly responsible for the heat dissipation of the breast scanning device, the housing 1 is not completely closed, and a certain ventilation design is required to ensure the ventilation inside the device, so as to avoid influencing the performance and the service life of the device due to overheating.

The annular supporting mechanisms 2 play a role in supporting and stabilizing, and each annular supporting mechanism 2 consists of an annular supporting ring 21 and two triangular supporting frames 24. The annular supporting ring 21 has a circular annular structure, and is made of a material with high strength and stability and can bear high weight. This is because in the breast scanning apparatus, the annular support ring 21 needs to support the housing 1 and various electronic components and mechanical structures inside, so it must have sufficient strength to withstand these weights.

The choice of material for the annular support ring 21 is very important. Generally, a high-strength metal material such as aluminum alloy, stainless steel, or the like is selected. These metallic materials have good mechanical properties and are capable of holding a stable shape while bearing a weight. For example, aluminum alloy has advantages of light weight, high strength, corrosion resistance, etc., and is well suited for use in the manufacture of the annular support ring 21. Stainless steel has higher strength and corrosion resistance, and can be used for a long time under severe environmental conditions.

The top and bottom ends of the annular support ring 21 are each provided with a sealing strip 22. The sealing strip 22 is made of a material having good sealing performance, and can effectively prevent dust and moisture from entering the inside of the support assembly, thereby protecting the electronic components and mechanical structures inside. Dust and moisture are very common problems in the environment of use of medical devices. If these impurities enter the inside of the equipment, the problems of short circuit of electronic components, rust of mechanical structures and the like may be caused, thereby affecting the normal operation of the equipment.

The material of the sealing strip 22 is usually rubber, silica gel or the like with good elasticity and sealing performance. These materials can closely adhere to the surface of the annular support ring 21, forming an effective protective barrier. At the same time, the sealing strip 22 needs to be installed very finely to ensure that the joint of the sealing strip and the annular supporting ring 21 does not have any gap, so that the optimal sealing effect is achieved.

In addition to the sealing effect, the surface of the annular support ring 21 is provided with a number of heat dissipation holes 23. The provision of these heat-dissipating holes 23 is very important, since during operation of the breast scanning device a certain amount of heat is generated. If this heat is not dissipated in a timely manner, it can cause an increase in the internal temperature of the device, thereby affecting the performance and lifetime of the device. The heat dissipation holes 23 facilitate heat transfer and interactive heat dissipation between the heat generated in the breast scanning device and the external environment low-temperature gas, so that the device can be ensured to run at a proper temperature, and the service life of the device can be prolonged.

The design of the heat dissipation holes 23 needs to take into consideration the balance of heat dissipation effect and shielding performance. On the one hand, the number and size of the heat dissipation holes 23 are sufficient to ensure a good heat dissipation effect. On the other hand, the position and shape of the heat dissipation holes 23 are reasonable, and impurities such as dust and moisture cannot easily enter the inside of the device. For example, a protection net or a filter may be provided outside the heat dissipation holes 23 to prevent foreign substances from entering the inside of the apparatus.

One end of each of the two triangular supports 24 is fixedly connected with the opposite side of the annular support ring 21. The triangular support frame 24 adopts a triangular structure, and the structure has extremely high stability. In physics, a triangle is one of the most stable structures, because it can uniformly disperse the external force in all directions, thereby greatly reducing the risk of damage caused by local overstresses.

In a breast scanning apparatus, the tripod 24 can provide a firm support to effectively disperse the pressure to which the apparatus is subjected. The tripod 24 can uniformly disperse the weight of the apparatus itself, or external forces that may be applied during use, in all directions, thereby ensuring the stability of the annular supporting ring 21. This is critical to the proper operation of the device because if the support is unstable, the device may shake, vibrate, etc. during operation, thereby affecting the accuracy and reliability of the scan.

The two triangular supports 24 are fixedly provided with mounting plates 25 on the sides far away from the annular support ring 21. The mounting piece 25 is made of metal and has high strength and hardness. The mounting plate 25 functions to fix the annular support mechanism 2 to the scanning bed frame 3. The surfaces of both mounting tabs 25 are provided with mounting holes 26. The user can screw the screw through the mounting hole 26, and the screw threads on the surface of the screw are matched with the screw threads on the inner wall of the mounting hole 26, so that the mounting piece 25 is fixed on the scanning bed frame 3.

The design of the mounting piece 25 needs to take into account the convenience and firmness of the mounting. In one aspect, the mounting holes 26 are positioned and sized so that a user can easily pass screws through the mounting holes 26. On the other hand, the strength and hardness of the mounting piece 25 are sufficient to ensure that deformation, breakage, etc. do not occur during the fixing process. Meanwhile, the selection of the screw is very important, and the screw with high strength and corrosion resistance is required to be selected so as to ensure the firmness of fixation.

The annular supporting mechanism 2 is used as a key part of a supporting component of the breast scanning equipment, and the design of the annular supporting ring 21 and the triangular supporting frame 24 and the arrangement of the sealing strip 22 and the radiating holes 23 provide important guarantee for the stable operation and the radiating of the equipment.

The scanner bed frame 3 is another important component of the support assembly, which assumes the important task of carrying the weight of the annular support mechanism 2 and the housing 1.

The several scanning bed frames 3 each include a fixed plate 31 and a first riser 33. The middle part of the top end of the fixed plate 31 is fixedly connected with the bottom end of the first vertical plate 33. The fixing plate 31 has a rectangular plate-like structure, and its material generally has high strength and stability. This is because the fixing plate 31 needs to bear the weight of the entire support assembly and must have sufficient strength to ensure that it does not deform or break during use.

The material selection of the fixing plate 31 is generally performed by considering a high-strength metal material, engineering plastic, or the like. These materials have good mechanical properties and are able to withstand weight while maintaining shape stability. For example, metallic materials have high strength and hardness and can withstand high pressures. The engineering plastic has the advantages of light weight, corrosion resistance, good insulativity and the like, and is very suitable for occasions with requirements on weight.

Both sides of the top end of the fixing plate 31 are provided with fixing holes 32. The screw may pass through the fixing hole 32, and since the threads of the inner wall of the fixing hole 32 are matched with the threads of the surface of the screw, the screw is rotated and extended with respect to the fixing hole 32, thereby fixing the fixing plate 31. The fixing mode is simple and reliable, and the fixing plate 31 can be ensured not to loosen in the using process.

The fixing hole 32 is designed in consideration of the firmness and convenience of fixing. On the one hand, the inner wall threads of the fixing hole 32 are tightly engaged with the threads of the screw to ensure the fixing firmness. On the other hand, the fixing holes 32 are positioned and sized reasonably so that a user can easily fix the screws through the fixing holes 32.

A second riser 34 is fixedly installed at one side of the first riser 33. The first vertical plate 33 and the second vertical plate 34 are perpendicular to each other, and together form the main structure of the scanner bed frame 3. The materials of the first vertical plate 33 and the second vertical plate 34 are generally the same as those of the fixing plate 31, and the strength and stability are high. Their function is to provide stable support for the annular support mechanism 2, while also providing mounting locations for other components of the apparatus.

A plurality of assembling plates 35 are fixedly installed at one side of the second vertical plate 34. One end of the plurality of assembling plates 35 far away from the second vertical plate 34 is fixedly connected with the annular supporting mechanism 2. The scanning bed frame 3 is mounted on the annular supporting mechanism 2 through the assembling plate 35, and the connection mode is firm and reliable, so that the scanning bed frame 3 can be ensured not to be separated from the annular supporting mechanism 2 in the use process.

The design of the assembly plate 35 needs to take into account the firmness and convenience of the connection. On the one hand, the strength and rigidity of the assembly plate 35 are sufficient to ensure that no deformation, breakage or the like occurs during the connection process. On the other hand, the assembly plate 35 is shaped and sized to facilitate connection with the annular support mechanism 2.

Meanwhile, a plurality of threading holes 36 are formed in the surface of the first vertical plate 33 and the surface of the second vertical plate 34. The wires connected with the breast scanning device can pass through the threading holes 36 in a limited way, so that the phenomenon of cross arrangement of wires can be avoided, the wires are more orderly, and the maintenance and the management of the device are facilitated.

The design of the threading aperture 36 requires consideration of the number and diameter of the wires. In one aspect, the number of threading holes 36 is sufficient to meet the threading requirements of the various wires in the device. On the other hand, the diameter of the threading hole 36 should be reasonable and not too large or too small to ensure that the wire can easily pass through the threading hole 36, while also avoiding rattling or wear of the wire in the threading hole 36.

The scan bed frame 3 is used as an important component of a support assembly of the breast scanning device, and the designs of the fixing plate 31, the first vertical plate 33, the second vertical plate 34, the assembling plate 35 and the threading holes 36 provide important guarantee for the stable operation and maintenance management of the device.

The shell 1 is fixed on the annular supporting mechanism 2, the annular supporting mechanism 2 is connected with the shell 1 and is fixed on the scanning bed framework 3 for bearing and supporting the shell 1. The scanning bed framework 3 is connected with the annular supporting mechanism 2 and is used for bearing all the annular supporting mechanisms 2 and the weight of the shell 1. In the actual use process, all the components are mutually matched to provide stable support and protection for the breast scanning equipment.

First, the housing 1 is connected with the scanner bed frame 3 through the annular supporting mechanism 2 to form a whole. The external protection of the housing 1 effectively prevents the external environment from affecting the internal structure, while the annular support mechanism 2 and the scanning bed frame 3 provide stable support for the housing 1.

The annular supporting ring 21 and the triangular supporting frame 24 in the annular supporting mechanism 2 are matched with each other, so that stable support is provided for the shell 1 and the electronic components and mechanical structures inside. The high strength and stability of the annular support ring 21 can bear a large weight, and the triangular structure of the triangular support frame 24 can effectively disperse the pressure born by the equipment, so that the stability of the support is improved.

Meanwhile, the sealing strips 22 and the heat dissipation holes 23 on the annular supporting ring 21 also provide important guarantee for the normal operation of the equipment. The sealing strip 22 can effectively prevent dust and moisture from entering the device to protect electronic elements and mechanical structures, and the heat dissipation holes 23 can timely dissipate heat generated in the running process of the device to ensure that the device runs at a proper temperature.

The fixed plate 31, the first vertical plate 33, the second vertical plate 34, the assembly plate 35 and the threading hole 36 in the scanning bed framework 3 are matched with each other, so that stable bearing is provided for the annular supporting mechanism 2 and the shell 1. The high strength and stability of the fixed plate 31 can bear the weight of the entire support assembly, while the first and second risers 33, 34 and the assembly plate 35 provide stable support for the annular support mechanism 2. The design of the threading holes 36 can lead wires in the equipment to be more orderly and orderly, thereby being convenient for the maintenance and the management of the equipment.

The shell 1, the annular supporting mechanism 2 and the scanning bed framework 3 are matched with each other to provide stable support and protection for the breast scanning equipment. The structure has reasonable design, can effectively improve the performance and service life of equipment, and provides more accurate and reliable results for medical diagnosis.

The support component for breast scanning has reasonable structural design, and provides stable support and protection for breast scanning equipment through the mutual cooperation of the shell 1, the annular support mechanism 2 and the scanning bed framework 3.

The housing 1 serves as an external protection structure, has an effect of being attractive in appearance and preventing an external environment from affecting an internal structure, and the strength and durability of the material thereof ensure the safety of the apparatus. The annular supporting ring 21 and the triangular supporting frame 24 in the annular supporting mechanism 2 provide stable support for equipment, and the sealing strip 22 and the radiating holes 23 respectively play roles of dust prevention, water prevention and heat radiation. The components in the scanning bed framework 3 are matched with each other, stable bearing is provided for the annular supporting mechanism 2 and the shell 1, and the line of the equipment is tidier and orderly due to the design of the threading holes 36.

However, there are also problems with this support assembly. The installation and removal process may be complex, requiring specialized personnel to operate. This is because the manner of connection between the various components is relatively fine and requires the use of specific tools and methods for installation and removal. For some special sized breast scanning devices, custom adjustments may be required. This is because the size and weight of different models of breast scanning apparatus may vary, requiring adjustment and optimization of the support assembly for the particular situation.

In order to solve the problems, the convenience of installation and disassembly can be more emphasized in the design and production processes, and a simpler and easier-to-understand connection mode is adopted, so that the user can install and disassemble the device by himself. Meanwhile, a plurality of general supporting components can be developed, and the support component can be suitable for breast scanning equipment with different sizes and models, and the requirements of customized adjustment are reduced.

Although the present utility model has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present utility model.

Claims (7)

1. A support assembly for breast scanning comprises a shell (1), and is characterized in that a plurality of annular supporting mechanisms (2) are fixedly arranged in the shell (1), a plurality of scanning bed frameworks (3) are fixedly arranged between the plurality of annular supporting mechanisms (2), the plurality of scanning bed frameworks (3) comprise fixing plates (31) and first vertical plates (33), the middle part of the top ends of the fixing plates (31) is fixedly connected with the bottom ends of the first vertical plates (33), a second vertical plate (34) is fixedly arranged on one side of the first vertical plates (33), a plurality of assembling plates (35) are fixedly arranged on one side of the second vertical plate (34), the plurality of annular supporting mechanisms (2) comprise annular supporting rings (21) and two triangular supporting frames (24), and one ends of the two triangular supporting frames (24) are fixedly connected with one opposite sides of the annular supporting rings (21).

2. The support assembly for breast scanning according to claim 1, wherein the two triangular supports (24) are fixedly provided with mounting plates (25) on one sides far away from the annular support ring (21), and mounting holes (26) are formed in the surfaces of the two mounting plates (25).

3. Support assembly for breast scanning according to claim 2, characterized in that one side of both mounting tabs (25) is fixedly connected to the scanning bed frame (3).

4. The support assembly for breast scanning of claim 1, wherein sealing strips (22) are paved on the top end of the annular support ring (21) and the bottom end of the annular support ring (21), and a plurality of radiating holes (23) are formed in the surface of the annular support ring (21).

5. The support assembly for breast scanning of claim 1, wherein the fixing plate (31) has fixing holes (32) formed on both sides of the top end thereof.

6. The support assembly for breast scanning as claimed in claim 1, wherein the surface of the first vertical plate (33) and the surface of the second vertical plate (34) are provided with a plurality of threading holes (36).

7. Support assembly for breast scanning according to claim 1, characterized in that the ends of the plurality of assembly plates (35) remote from the second riser (34) are fixedly connected with the annular support mechanism (2).