CN220711775U - Radioactive source monitoring and positioning module shell - Google Patents

Abstract

The utility model provides a radiation source monitoring positioning module shell, includes the box body, be equipped with first cushion layer, second cushion layer, third cushion layer, fourth cushion layer in the box body, first cushion layer, second cushion layer, third cushion layer, fourth cushion layer are one shot forming's overall structure with the box body, the top surface on second cushion layer, third cushion layer, fourth cushion layer is the face of carrying on, the lateral wall on first cushion layer with the lateral wall on fourth cushion layer forms the die cavity. The beneficial effects are as follows: can realize that the fixed firm of geiger tube and circuit thereof, reasonable application space simultaneously, the volume of control whole shell.

Description

Radioactive source monitoring and positioning module shell

Technical Field

The utility model relates to the field of electric devices, in particular to a radioactive source monitoring and positioning module shell.

Background

The positioning module needs to work normally, needs to integrate the positioning module into a complete circuit capable of realizing functions and control of the positioning module, and meanwhile, when the positioning module is installed on equipment, the positioning module cannot directly expose the circuit to the outside, and a shell which can be stably fixed and has the protection and dust prevention functions needs to be designed. The ribs are required to ensure the external stability, the fixation of each electric device in the ribs and the fixation of the position relation between the electric devices. Due to the circuit design of the positioning module, the circuit part comprises a circuit board of the positioning module circuit and a geiger tube circuit board, which are both required to be fixed and electrically connected with each other.

Disclosure of Invention

The utility model aims to solve the problems, and designs a radiation source monitoring and positioning module shell. The specific design scheme is as follows:

the utility model provides a radiation source monitoring positioning module shell, includes the box body, be equipped with first circuit board, second circuit board in the box body (first circuit board and second circuit board are location circuit board and geiger tube circuit board respectively), battery, top cap, the top cap is located the top of first circuit board, second circuit board, battery, the battery is located one side of first circuit board, second circuit board, be equipped with first cushion layer, second cushion layer, third cushion layer, fourth cushion layer in the box body, first cushion layer, second cushion layer, third cushion layer, fourth cushion layer are one shot forming's overall structure with the box body, the top surface on second cushion layer, third cushion layer, fourth cushion layer is the carrying surface, the lateral wall on first cushion layer with the lateral wall on fourth cushion layer forms the die cavity, the battery is in the bottom of box body and is located in, first circuit board is loaded on the second cushion layer, the second circuit board is loaded on the top cap is loaded on the fourth cushion layer.

The first circuit board is a circuit board integrated with a geiger tube and a control circuit thereof, the second circuit board is a circuit board integrated with a positioning module, and the height of the first circuit board is lower than that of the second circuit board, and the second circuit board is carried on the third cushion block layer, so that the height of the second cushion block layer is lower than that of the third cushion block layer.

The utility model discloses a circuit board, including box body, connecting piece, first circuit board and second circuit board, there is the overlap portion on horizontal position first circuit board and second circuit board, be equipped with the connecting piece in the box body, be connected through the connecting piece between first circuit board and the second circuit board, the connecting piece is located the overlap portion, the connecting piece is the shaft-like structure of vertical placement, top, bottom of connecting piece respectively with first circuit board, second circuit board are connected, the connecting piece is used for realizing to the fixing of relative position between first circuit board and the second circuit board, makes things convenient for realizing the electric connection between the two, ensures simultaneously that the electric connection's is firm, the quantity of connecting piece is a plurality of the connecting piece is in along the horizontal plane rectangle array distribution of personally submitting in the overlap portion region.

Bolt holes are formed in the second cushion block layer, the third cushion block layer and the fourth cushion block layer, and the first circuit board is connected with the second cushion block layer, the second circuit board is connected with the third cushion block layer, and the top cover is connected with the fourth cushion block layer through bolts.

The first cushion block layer is used for fixing the battery, and meanwhile a gap is reserved between the first cushion block layer and the two circuit boards, and the cavity is matched with the horizontal section of the battery.

The second cushion block layer and the third cushion block layer respectively comprise a plurality of cushion blocks, wherein the cushion block top surfaces in the second cushion block layer are the same in height, the cushion block top surfaces in the third cushion block layer are the same in height, and the cushion blocks are positioned at four corners of the circuit board and used for fixing the circuit board through bolts.

The radioactive source monitoring and positioning module shell obtained through the technical scheme has the beneficial effects that:

can realize that the fixed firm of geiger tube circuit board and positioning circuit board, reasonable application space simultaneously, the volume of control whole shell.

Drawings

FIG. 1 is a schematic view of the structure of a housing of a radiation source monitoring and positioning module according to the present utility model;

FIG. 2 is a schematic view of the structure of the case according to the present utility model;

FIG. 3 is a schematic diagram of a first circuit board and a second circuit board installed in a box body according to the present utility model;

FIG. 4 is a schematic top view of the case of the present utility model;

FIG. 5 is a schematic top view of the case of the present utility model after mounting a first circuit board, a second circuit board, and a battery;

FIG. 6 is a schematic view of a cross-sectional structure of the case in the direction A-A according to the present utility model;

FIG. 7 is a schematic view of a cross-sectional structure of the case of the present utility model in the direction A-A after the first circuit board, the second circuit board and the battery are mounted;

FIG. 8 is a schematic view showing a cross-sectional structure of the case B-B according to the present utility model;

FIG. 9 is a schematic view of a cross-sectional structure of the case of the present utility model in the B-B direction after mounting a first circuit board, a second circuit board, and a battery;

in the figure, 1, a box body; 2. a first circuit board; 3. a second circuit board; 4. a battery; 5. a top cover; 6. a first pad layer; 7. a second pad layer; 8. a third pad layer; 9. a fourth pad layer; 10. a connecting piece; 11. a cushion block; 12. a cavity.

Detailed Description

The present utility model will be described in detail with reference to the accompanying drawings.

The utility model provides a radiation source monitoring positioning module shell, includes box body 1, be equipped with first circuit board 2 in the box body 1 (first circuit board and second circuit board are locating circuit board and geiger tube circuit board respectively), second circuit board 3, battery 4, top cap 5 is located the top of first circuit board 2, second circuit board 3, battery 4 is located one side of first circuit board 2, second circuit board 3, battery 4 is located be equipped with first cushion layer 6, second cushion layer 7, third cushion layer 8, fourth cushion layer 9 in the box body 1, first cushion layer 6, second cushion layer 7, third cushion layer 8, fourth cushion layer 9 are one shot forming's overall structure with box body 1, the top surface on second cushion layer 7, third cushion layer 8, fourth cushion layer 9 is the face of carrying on, the lateral wall on first cushion layer 6 with the lateral wall on fourth cushion layer 9 forms 12, the bottom of battery 4 is located the box body 1 carries on the third cushion layer 8 in carrying on the second cushion layer 3, the top cap layer 9 carries on the top cap layer 3.

The first circuit 2 board is a circuit board integrated with a geiger tube and a control circuit thereof, the second circuit board 3 is a circuit board integrated with a positioning module, the height of the first circuit board 2 is lower than that of the second circuit board 3, and the second circuit board 3 is carried on the third cushion block layer 8 due to the fact that the first circuit board 2 is carried on the second cushion block layer 7, and the height of the second cushion block layer 7 is lower than that of the third cushion block layer 8.

The first circuit board 2 and the second circuit board 3 have overlapping parts on horizontal positions, a connecting piece 10 is arranged in the box body 1, the first circuit board 2 and the second circuit board 3 are connected through the connecting piece 10, the connecting piece 10 is positioned at the overlapping parts, the connecting piece 10 is of a vertically placed rod-shaped structure, the top and the bottom of the connecting piece 10 are respectively connected with the first circuit board 2 and the second circuit board 3, the connecting piece 10 is used for realizing the fixation of the relative positions between the first circuit board 2 and the second circuit board 3, the electric connection is conveniently realized between the first circuit board 2 and the second circuit board 3, the stability of the electric connection is guaranteed, the quantity of the connecting piece 10 is multiple, and the connecting pieces 10 are distributed along the horizontal surface in the area of the overlapping parts in a rectangular array.

Bolt holes are formed in the second cushion block layer 7, the third cushion block layer 8 and the fourth cushion block layer 9, and the first circuit board 2 is connected with the second cushion block layer 7, the second circuit board 3 is connected with the third cushion block layer 8, and the top cover 5 is connected with the fourth cushion block layer 9 through bolts.

The first cushion layer 6 is used for fixing the battery, and simultaneously, a gap is reserved between the first cushion layer and the two circuit boards, and the cavity 12 is matched with the horizontal section of the battery 4.

The second cushion block layer 7 and the third cushion block layer 8 respectively comprise a plurality of cushion blocks 11, wherein the cushion block top surfaces in the second cushion block layer 7 are the same in height, the cushion block top surfaces in the third cushion block layer 8 are the same in height, and the cushion blocks 11 are positioned at four corners of the circuit board and used for fixing the circuit board through bolts.

During production, the integral radioactive source monitoring and positioning module shell can be formed at one time, and the production efficiency is high. Through the bolt fastening, second cushion layer 7, third cushion layer 8 can be firmly fixed two circuit boards, and simultaneously through connecting piece 10, the relative position between its two is further fixed. The first circuit board 2 and the second circuit board 3 are mutually overlapped, so that the internal space of the box body 1 is saved, the volume of the box body 1 is reduced as a whole, the area of the overlapped part can refer to the width of the battery, the horizontal width of the two overlapped battery boards is consistent with the width of the battery, and the design of the box body 1 with a rectangular structure is facilitated.

Although the first circuit board 2 and the second circuit board 3 are overlapped, the positions of the bolts for realizing the fixation are not overlapped, during the installation, the first circuit board 2 and the second circuit board 3 can be directly fixed through the connecting piece 10, the electric connection between the two circuit boards and the battery 4 are realized, then the two circuit boards are placed on the corresponding second cushion block layer 7 and the third cushion block layer 8, then the battery 4 is uniformly fixed through the bolts, then the battery 4 is placed in the cavity, and finally the top cover is placed on the fourth cushion block layer 9, and the fixing is realized through the bolts.

The above technical solution only represents the preferred technical solution of the present utility model, and some changes that may be made by those skilled in the art to some parts of the technical solution represent the principles of the present utility model, and the technical solution falls within the scope of the present utility model.

Claims (6)

1. The utility model provides a radiation source monitoring positioning module shell, includes box body (1), its characterized in that, be equipped with first cushion layer (6), second cushion layer (7), third cushion layer (8), fourth cushion layer (9) in box body (1), first cushion layer (6), second cushion layer (7), third cushion layer (8), fourth cushion layer (9) are one shot forming's overall structure with box body (1), the top surface on second cushion layer (7), third cushion layer (8), fourth cushion layer (9) is the carrying surface, the lateral wall on first cushion layer (6) with lateral wall on fourth cushion layer (9) forms die cavity (12).

2. The radiation source monitoring positioning module housing according to claim 1, wherein the height of the second spacer layer (7) is lower than the height of the third spacer layer (8).

3. The radiation source monitoring and positioning module housing according to claim 1, wherein a connecting piece (10) is arranged in the box body (1), and the first circuit board (2) is connected with the second circuit board (3) through the connecting piece (10).

4. The radiation source monitoring and positioning module housing according to claim 1, wherein bolt holes are formed in the second cushion layer (7), the third cushion layer (8) and the fourth cushion layer (9).

5. The radiation source monitoring positioning module housing according to claim 1, wherein the cavity (12) is in engagement with a horizontal section of the battery (4).

6. The radiation source monitoring positioning module housing of claim 1, wherein the second spacer layer (7) and the third spacer layer (8) each comprise a plurality of spacers (11).