CN218020252U - X-ray detector laminating equipment - Google Patents

Abstract

The utility model provides an X-ray detector laminating equipment, including last mould absorption module, lower mould carrier, rotation module and displacement adjustment subassembly, last mould absorption module includes last mould carrier, last mould adsorption element and first slope bulge, and first slope bulge sets up in the side of last mould carrier, adsorbs or releases first base plate through last mould adsorption element; the lower die carrier is used for bearing a second substrate; the rotary module is connected with one end of the upper die carrier and one end of the lower die carrier, and the upper die carrier is movably connected with the lower die carrier; the displacement adjusting assembly is arranged on the side edge of the lower die carrier and comprises a displacement adjusting part and a second inclined convex part, the second inclined convex part is arranged corresponding to the first inclined convex part, and the position of the second inclined convex part is adjusted through the displacement adjusting part so as to change the included angle between the upper die carrier and the lower die carrier. The utility model discloses an X-ray detector laminating equipment can prepare bubble-free, high-quality X-ray detector.

Description

X-ray detector laminating equipment

Technical Field

The utility model relates to a X ray detection technology field relates to an X ray detector laminating equipment.

Background

Digital Radiography (DR) is a new radiography technology developed in the last 90 th century, and becomes the leading direction of the Digital radiography technology with the obvious advantages of faster imaging speed, more convenient operation, higher imaging resolution and the like, and is approved by clinical institutions and imaging experts in various countries in the world. The method is more and more widely applied to the fields of medical image diagnosis imaging, industrial flaw detection, security inspection and the like.

An X-ray detector generally refers to a detector that converts X-ray energy into electrical signals using semiconductor technology to produce X-ray images.

The existing ways of converting energy of an X-ray detector can be divided into two types: an indirect-conversion-type X-ray detector and a direct-conversion-type X-ray detector. Among them, the indirect conversion X-ray detector is widely used, and mainly includes a scintillator and a photoreceptor array. In the manufacturing process, a scintillator is usually first manufactured on a first substrate to form a hard scintillator structure, or called a Fiber Optic Panel (FOP), a thin film transistor TFT and a photodiode PD are manufactured on a second substrate to form a hard photosensitive structure, or called a CMOS transistor structure, and then the manufactured scintillator structure and the photosensitive structure are bonded to prepare an X-ray detector.

However, in the existing X-ray detector attaching equipment, a plane pressing mode is generally adopted to attach the scintillator structure and the photosensitive structure which are made of hard materials, but in the attaching process of the equipment, the problem of glue layer bubbles is often generated in liquid glue, so that the scintillator structure and the photosensitive structure cannot be tightly attached to influence the product quality, and the prepared X-ray detector has the problem of image distortion.

Therefore, it is necessary to provide an X-ray detector attaching apparatus.

SUMMERY OF THE UTILITY MODEL

In view of the above prior art's shortcoming, the utility model aims to provide an X ray detector laminating equipment for solve among the prior art X ray detector produce the problem of glue film bubble when laminating.

In order to achieve the above objects and other related objects, the utility model provides an X-ray detector laminating equipment, X-ray detector laminating equipment includes:

the upper die adsorption module comprises an upper die carrier, an upper die adsorption part and a first inclined bulge part, wherein the first inclined bulge part is arranged on the side edge of the upper die carrier and adsorbs or releases a first substrate to be attached through the upper die adsorption part;

the lower die carrier is used for bearing a second substrate to be attached;

the rotating module is connected with one end of the upper die carrier and one end of the lower die carrier, and the upper die carrier is movably connected with the lower die carrier through the rotating module;

the displacement adjustment assembly, the displacement adjustment assembly set up in the side of lower mould carrier, the displacement adjustment assembly includes displacement adjustment part and second slope bellying, just the second slope bellying with first slope bellying corresponds the setting, through the displacement adjustment part is adjusted the position of second slope bellying is in order to change go up the mould carrier with contained angle between the lower mould carrier.

Optionally, the first substrate includes a scintillator substrate or a photosensitive substrate, and the second substrate includes a scintillator substrate or a photosensitive substrate disposed corresponding to the first substrate.

Optionally, the rotation module comprises a manual adjustment rotation module or an automatic adjustment rotation module.

Optionally, when the rotation module adopts the manual regulation rotation module, go up the mould carrier still be provided with go up the handle that the mould carrier is connected.

Optionally, the displacement adjusting part comprises a hand wheel, a guide post, a screw rod and a dust cover, the hand wheel is connected with the guide post, the guide post is connected with the screw rod, the screw rod is connected with the second inclined convex part, and the second inclined convex part is adjusted by the hand wheel to displace.

Optionally, the upper mold adsorption part includes a vacuum-type upper mold adsorption part or an electrostatic-type upper mold adsorption part.

Optionally, when going up mould adsorption element and mould adsorption element when going up the mould adsorption element for the vacuum mode, the internal surface of going up the mould carrier is provided with a plurality of vacuum chuck, through vacuum chuck adsorbs the first base plate of waiting to laminate.

Optionally, the lower die carrier is further provided with a lower film adsorption part, and the lower film adsorption part comprises a vacuum lower film adsorption part or an electrostatic lower film adsorption part.

Optionally, when the upper mold adsorption part is a vacuum-type upper mold adsorption part, the inner surface of the upper mold carrier is provided with a plurality of vacuum chucks, and the second substrate to be attached is adsorbed by the vacuum chucks.

Optionally, the surface of the lower die carrier is provided with a limiting groove, and the second substrate to be attached is limited through the limiting groove.

As described above, the X-ray detector attaching apparatus of the present invention includes an upper die adsorption module, a lower die carrier, a rotation module, and a displacement adjustment assembly, wherein the upper die adsorption module includes an upper die carrier, an upper die adsorption component, and a first inclined protrusion component, the first inclined protrusion component is disposed on a side of the upper die carrier, and adsorbs or releases a first substrate to be attached through the upper die adsorption component; the lower die carrier bears a second substrate to be attached; the rotating module is connected with one end of the upper die carrier and one end of the lower die carrier, and the upper die carrier is movably connected with the lower die carrier through the rotating module; the displacement adjustment assembly set up in the side of lower mould carrier, the displacement adjustment assembly includes displacement adjustment part and the protruding part of second slope, just the protruding part of second slope with the protruding part of first slope corresponds the setting, through the displacement adjustment part is adjusted the position of the protruding part of second slope is in order to change go up the mould carrier with contained angle between the lower mould carrier.

X ray detector laminating equipment, through being located lower mould carrier side displacement adjusting part can make first slope bulge with second slope bulge contacts go up the mould carrier reaches form certain contained angle between the lower mould carrier, thereby it is follow-up right first base plate reaches when the second base plate is laminated the operation, can make laminating glue film bubble-free, first base plate reaches the second base plate can closely laminate to improve product quality, prepare high-quality X ray detector.

Drawings

Fig. 1 shows a schematic structural diagram of the X-ray detector attaching device in an open state.

Fig. 2 is a schematic structural diagram of the X-ray detector laminating apparatus of the present invention in a folded state.

Fig. 3 shows a schematic structural view of the upper die adsorption module of the present invention.

Fig. 4 is a schematic structural diagram of the displacement adjusting assembly according to the present invention.

Description of the element reference

100. Upper die adsorption module

101. Upper die carrier

1021. Vacuum chuck

1022. Vacuum value display window

1023. Vacuum trigger button

103. First inclined convex part

104. Handle (CN)

200. Lower die carrier

300. Rotary module

400. Displacement adjusting assembly

401. Second inclined convex part

402. Hand wheel

403. Guide post

404. Screw mandrel

405. Dust cover

Detailed Description

The following description of the embodiments of the present invention is provided for illustrative purposes, and other advantages and effects of the present invention will be readily apparent to those skilled in the art from the disclosure herein. The present invention can also be implemented or applied through other different specific embodiments, and various details in the present specification can be modified or changed based on different viewpoints and applications without departing from the spirit of the present invention.

Please refer to fig. 1-4. It should be noted that the drawings provided in the present embodiment are only for illustrating the basic idea of the invention in a schematic manner, and only the components related to the invention are shown in the drawings rather than being drawn according to the number, shape and size of the components in actual implementation, and the form, quantity and proportion of the components in actual implementation may be changed at will, and the layout of the components may be more complicated.

Referring to fig. 1, the present embodiment provides an X-ray detector attaching apparatus, including:

an upper die adsorption module 100, wherein the upper die adsorption module 100 includes an upper die carrier 101, an upper die adsorption part and a first inclined protrusion part 103, the first inclined protrusion part 103 is disposed at a side of the upper die carrier 101, and a first substrate (not shown) to be bonded is adsorbed or released by the upper die adsorption part;

a lower mold carrier 200 for supporting a second substrate (not shown) to be bonded by the lower mold carrier 200;

the rotating module 300 is connected with one ends of the upper die carrier 101 and the lower die carrier 200, and the upper die carrier 101 is movably connected with the lower die carrier 200 through the rotating module 300;

the subassembly 400 is adjusted in the displacement, the subassembly 400 is adjusted in the displacement set up in the side of lower mould carrier 200, the subassembly 400 is adjusted including displacement adjustment part and second slope protruding part 401, just the protruding part 401 of second slope with first slope protruding part 103 corresponds the setting, through the displacement adjustment part is adjusted the position of second slope protruding part 401 is in order to change go up mould carrier 101 with the contained angle between the lower mould carrier 200.

In the embodiment, the X-ray detector attaching device can make the first inclined protruding part 103 contact with the second inclined protruding part 401 through the displacement adjusting assembly 400 located at the side of the lower die carrier 200, so that a certain included angle is formed between the upper die carrier 101 and the lower die carrier 200, and therefore when the first substrate and the second substrate are attached in the subsequent attaching operation, the attaching glue layer can be free of bubbles, the first substrate and the second substrate can be attached tightly, the product quality is improved, and the high-quality X-ray detector is prepared.

As an example, the first substrate may include a scintillator substrate or a photosensitive substrate, and the second substrate may include a scintillator substrate or a photosensitive substrate disposed corresponding to the first substrate.

Specifically, the first substrate may include a first base and a scintillator layer on the first base, where the first base may include an Al plate, a Cu plate, or the like; the scintillator layer may comprise a CsI scintillator layer or the like. The second substrate may include a second substrate, such as a glass substrate, and the like, and the second substrate has a photoreceptor array thereon, wherein the photoreceptor array may include a thin film transistor, and the thin film transistor may include a bottom gate thin film transistor or a top gate thin film transistor, and the like. The kind and structure of the first substrate and the second substrate are not limited herein.

The first substrate and the second substrate can be attached through the X-ray detector attaching device by coating glue between the first substrate and the second substrate so as to prepare the X-ray detector.

As an example, the rotation module 300 includes a manual adjustment rotation module or an automatic adjustment rotation module.

Specifically, as shown in fig. 1 to 3, in the embodiment, the rotating module 300 is a manual adjusting rotating module with a simple structure, that is, the upper mold carrier 101 is further provided with a handle 104 connected to the upper mold carrier 101, and the handle 104 is held by hand, so that the upper mold carrier 101 rotates through the rotating module 300 to change an included angle between the upper mold carrier 101 and the lower mold carrier 200. In this embodiment, the rotating module 300 adopts a rotating shaft with a simple structure. However, the rotation module 300 may also adopt an automatic adjustment rotation module to rotate the upper mold carrier 101, which is not described herein, for example, a controller connected to the upper mold carrier 101 may be adopted to brake the rotation of the rotation module 300.

As an example, as shown in fig. 4, the displacement adjusting member includes a hand wheel 402, a guide post 403, a screw rod 404 and a dust cover 405, the hand wheel 402 is connected to the guide post 403, the guide post 403 is connected to the screw rod 404, the screw rod 404 is connected to the second inclined protrusion member 401, and the displacement of the second inclined protrusion member 401 is adjusted by the hand wheel 402.

Specifically, in this embodiment, the displacement adjusting assembly 400 is disposed at a side of the lower mold carrier 200, and the second inclined protrusion part 401 is disposed corresponding to the first inclined protrusion part 103, when the upper mold carrier 101 and the lower mold carrier 200 are adjusted to the closed state shown in fig. 2, the displacement adjusting assembly 400 is adjusted to enable the first inclined protrusion part 103 and the second inclined protrusion part 401 to contact each other, and the first substrate adsorbed by the upper mold carrier 101 contacts an inclined slope of glue located on the second substrate, so that the upper mold carrier 101 can be positioned by the second inclined protrusion part 401, after a certain time, the glue can be adsorbed onto the first substrate due to surface tension, and then, after the upper and lower surfaces of the glue are equivalent to the bonding area of the first substrate and the second substrate, the first substrate can be released by the upper mold adsorbing part, so that the glue can slowly and naturally flow between the first substrate and the second substrate, and no bubbles can be attached, and the first substrate and the second substrate can be closely attached to improve the quality of the product, thereby preparing the X-ray detector.

The upper mold suction member may include a vacuum type upper mold suction member or an electrostatic type upper mold suction member, as an example.

Specifically, as shown in fig. 2 and 3, in the present embodiment, the upper mold absorption part is a vacuum type upper mold absorption part, that is, the upper mold absorption part includes a plurality of vacuum pads 1021 arranged on an inner surface of the upper mold carrier 101, a vacuum value display window 1022, and a vacuum trigger button 1023, so as to absorb and release the first substrate to be bonded through the vacuum pads 1021, and the number and distribution of the vacuum pads 1021 are not limited excessively. However, the type of the upper mold attraction member is not limited thereto, and the upper mold attraction member may be an electrostatic upper mold attraction member as needed, and is not limited thereto.

As an example, the lower mold carrier 200 is further provided with a lower film adsorption part including a vacuum type lower film adsorption part or an electrostatic type lower film adsorption part to position the second substrate by the lower film adsorption part. When the upper mold adsorption part is a vacuum-type upper mold adsorption part, the inner surface of the upper mold carrier may be provided with a plurality of vacuum chucks to adsorb the second substrate to be attached through the vacuum chucks, and the lower mold adsorption part may also be an electrostatic lower mold adsorption part as needed.

As an example, a limiting groove is formed on the surface of the lower mold carrier 200, and the second substrate to be attached is limited by the limiting groove.

Specifically, as shown in fig. 1, in this embodiment, the lower mold carrier 200 is provided with a limiting groove with a simpler structure, so as to directly limit the second substrate to be attached through the limiting groove, and the size of the limiting groove can be set according to the size of the second substrate, which is not described herein.

To sum up, the utility model discloses an X-ray detector laminating equipment, including upper mould absorption module, lower mould carrier, rotation module and displacement adjustment assembly, wherein, upper mould absorption module includes upper mould carrier, upper mould adsorption element and first slope bellying, the first slope bellying sets up in the side of upper mould carrier, through the first base plate of upper mould adsorption element absorption or release treating the laminating; the lower die carrier bears a second substrate to be attached; the rotating module is connected with one end of the upper die carrier and one end of the lower die carrier, and the upper die carrier is movably connected with the lower die carrier through the rotating module; the displacement adjustment assembly set up in the side of lower mould carrier, the displacement adjustment assembly includes displacement adjustment part and the protruding part of second slope, just the protruding part of second slope with the protruding part of first slope corresponds the setting, through the displacement adjustment part is adjusted the position of the protruding part of second slope is in order to change go up the mould carrier with contained angle between the lower mould carrier.

X ray detector laminating equipment, through being located lower mould carrier side the displacement adjusting part can make first slope protruding part with the protruding part of second slope contacts go up the mould carrier and form certain contained angle between the lower mould carrier, thereby it is later right first base plate reaches when the second base plate is laminated the operation, can make the laminating glue film bubble-free, first base plate reaches the second base plate can closely laminate to improve product quality, prepare high-quality X ray detector. Therefore, the utility model effectively overcomes various defects in the prior art and has high industrial utilization value.

The above embodiments are merely illustrative of the principles and effects of the present invention, and are not to be construed as limiting the invention. Modifications and variations can be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which may be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims (9)

1. The utility model provides an X ray detector laminating equipment which characterized in that, X ray detector laminating equipment includes:

the upper die adsorption module comprises an upper die carrier, an upper die adsorption part and a first inclined bulge part, wherein the first inclined bulge part is arranged on the side edge of the upper die carrier and adsorbs or releases a first substrate to be attached through the upper die adsorption part;

the lower die carrier is used for bearing a second substrate to be attached;

the rotating module is connected with one end of the upper die carrier and one end of the lower die carrier, and the upper die carrier is movably connected with the lower die carrier through the rotating module;

the displacement adjusting assembly, the displacement adjusting assembly set up in the side of lower mould carrier, the displacement adjusting assembly includes displacement adjustment part and second slope bellying, just the second slope bellying with first slope bellying corresponds the setting, through the displacement adjusting part is adjusted the position of second slope bellying is in order to change go up the mould carrier with contained angle between the lower mould carrier.

2. The X-ray detector fitting apparatus according to claim 1, characterized in that: the first substrate comprises a scintillator substrate or a photosensitive substrate, and the second substrate comprises a scintillator substrate or a photosensitive substrate which is arranged corresponding to the first substrate.

3. The X-ray detector attaching apparatus according to claim 1, characterized in that: the rotating module comprises a manual adjusting rotating module or an automatic adjusting rotating module.

4. The X-ray detector attaching apparatus according to claim 3, characterized in that: when the rotary module adopts the manual regulation rotary module, go up the mould carrier still be provided with go up the handle that the mould carrier is connected.

5. The X-ray detector attaching apparatus according to claim 1, characterized in that: the upper die adsorption component comprises a vacuum upper die adsorption component or an electrostatic upper die adsorption component.

6. The X-ray detector fitting apparatus according to claim 5, characterized in that: when going up mould adsorption element and when mould adsorption element was gone up to the vacuum mode, the internal surface of going up the mould carrier is provided with a plurality of vacuum chuck, through vacuum chuck adsorbs treating the laminating first base plate.

7. The X-ray detector attaching apparatus according to claim 1, characterized in that: the lower die carrier is also provided with a lower film adsorption part, and the lower film adsorption part comprises a vacuum lower film adsorption part or an electrostatic lower film adsorption part.

8. The X-ray detector attaching apparatus according to claim 7, characterized in that: when going up the mould adsorption element and when mould adsorption element, the internal surface of going up the mould carrier is provided with a plurality of vacuum chuck on for the vacuum mode, through vacuum chuck adsorbs and treats the laminating the second base plate.

9. The X-ray detector attaching apparatus according to claim 1, characterized in that: the surface of the lower die carrier is provided with a limiting groove, and the second substrate to be attached is limited through the limiting groove.

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