CN209842490U - Desktop computer diskless docking station - Google Patents

Abstract

The utility model discloses a diskless docking station for a desktop computer, which comprises a casing, a casing cover, a socket, a central processing unit and a first heat conducting sheet, a slot is installed on the top of the casing, and two sockets on the top of the casing Both ends are provided with screw holes, and the inside of the screw holes are threaded with bolts, both ends of the inner bottom of the housing are provided with slots, and insert blocks are installed inside the slots, and the top of the insert blocks All are equipped with dust-proof nets, and a central processing unit is installed at the middle position of the inner bottom of the housing, and three groups of connecting plugs are uniformly installed on the top of the central processing unit. The utility model is equipped with a blocking structure composed of a block, a connecting rod and a first spring. When the device is not in use, the block can block the position of the socket through the elastic action of the spring to prevent dust and liquid from entering the connecting port through the socket. In the plug, it can effectively protect the device and help prolong the service life of the device.

Description

Diskless docking station for desktop computer

technical field

The utility model relates to the technical field of computer equipment, in particular to a diskless docking station for a desktop computer.

Background technique

The docking station is a base used to expand the functions of a notebook computer. Through interfaces and slots, it can connect a variety of external devices, such as drives, large-screen displays, keyboards, printers, scanners, etc. Currently, some desktop computers will also install The diskless docking station increases the data interface of the computer and improves the functionality of the computer. When the existing desktop computer diskless docking station is in use, the data interface of the docking station is exposed to the outside. After a long time of use, the inside of the data interface will accumulate. It is full of dust, and it is easy for water to cause a short circuit inside the docking station, resulting in damage to the data interface. Most of the existing desktop computer diskless docking stations only dissipate heat through the vents set on the shell, and the heat dissipation effect of the device is poor. It is easy to be overheated and burned. At the same time, the existing desktop computer diskless docking station installs a dust-proof net in the cooling hole to prevent dust. The dust-proof net cannot be disassembled separately, and it is inconvenient to clean and clean the dust-proof net. The desktop computer diskless docking station is used to solve the above problems.

Utility model content

The purpose of this utility model is to provide a desktop computer diskless docking station to solve the problems raised in the above-mentioned background technology.

In order to achieve the above object, the utility model provides the following technical solutions: a diskless docking station for a desktop computer, including a housing, a housing cover, a socket, a central processing unit and a first heat conducting sheet, and a slot is installed on the top of the housing , both ends of the top of the housing are provided with screw holes, and the inside of the screw holes are threaded with bolts, and both ends of the bottom of the housing are provided with slots, and the inside of the slots are installed with plug-in blocks, and dust-proof nets are installed on the top of the plug-in blocks, a central processing unit is installed at the middle position of the inner bottom of the housing, and three groups of connecting plugs are evenly installed on the top of the central processing unit, and the housing’s A third heat conduction sheet is installed inside, and a second heat conduction sheet is installed on the top of the third heat conduction sheet, and the second heat conduction sheets pass through the housing, and the tops of the second heat conduction sheets are all connected to the central processing unit, so Both ends of the housing are equipped with a first heat conducting sheet, both ends of the third heat conducting sheet are connected to the first heat conducting sheet, a data connector is installed at the bottom of one end of the housing, and both ends of the housing are connected to the first heat conducting sheet. All are uniformly provided with cooling holes, the top of the cover is evenly provided with a socket, and both ends of the socket are provided with storage slots, and the top of the storage slot is hinged with a stopper at the end far away from the socket. The bottoms are all provided with grooves, the tops inside the grooves are hinged with connecting rods, and the tops of the grooves are all provided with placement grooves, and the tops inside the placement grooves are all equipped with second springs, and the tops of the second springs Limiting blocks are installed on the top, first springs are installed at the end close to the stopper inside the storage tank, and the ends of the first springs close to the limiter are connected to the connecting rods, and the output ends of the connecting plugs are all passed through The wire is electrically connected to the input end of the central processing unit, and the output end of the central processing unit is electrically connected to the input end of the data connector through the wire.

Preferably, both sides of the housing are provided with finger slots.

Preferably, through holes are provided at positions opposite to the screw holes at the bottom of the case cover.

Preferably, a non-slip rubber pad is installed on the bottom of the housing.

Preferably, there are three sets of sockets, and the distances between adjacent sockets are the same.

Preferably, heat dissipation fins are evenly installed on the ends of the first heat conduction sheet away from the housing.

Compared with the prior art, the beneficial effect of the utility model is: the desktop computer diskless docking station is equipped with a blocking structure composed of a stopper, a connecting rod and a first spring. When the device is not in use, it can be Make the block block the position of the socket to prevent dust and liquid from entering the connecting plug through the socket, which can effectively protect the device and help prolong the service life of the device. The heat dissipation mechanism composed of the heat conduction sheet and the third heat conduction sheet can effectively improve the heat dissipation efficiency, keep the central processing unit at a lower temperature all the time, and prevent the central processing unit from being overheated and burned. The dust-proof net is taken out from the device, so that it is convenient for the user to clean or clean the dust-proof net separately.

Description of drawings

Fig. 1 is the front view sectional schematic diagram of the utility model;

Fig. 2 is the front schematic diagram of the utility model;

Fig. 3 is a partial structural schematic diagram of the utility model.

In the figure: 1. Shell; 2. Slot; 3. Insert block; 4. Data connector; 5. Cooling hole; 6. Screw hole; 7. Shell cover; 8. Block; 9. Storage slot; 10. Socket; 11, groove; 12, connecting rod; 13, through hole; 14, bolt; 15, connecting plug; 16, dustproof net; 17, central processing unit; ; 20, the second heat conduction sheet; 21, the third heat conduction sheet; 22, the first spring; 23, the second spring; 24, the placement slot; 25, the limit block.

Detailed ways

The technical solutions in the embodiments of the present invention will be clearly and completely described below in conjunction with the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only part of the embodiments of the present invention, not all of them. example. Based on the embodiments of the present utility model, all other embodiments obtained by persons of ordinary skill in the art without making creative efforts belong to the scope of protection of the present utility model.

Please refer to Figures 1-3, an embodiment provided by the present invention: a diskless docking station for a desktop computer, including a housing 1, a housing cover 7, a socket 10, a central processing unit 17 and a first heat conducting sheet 18, the housing The top of the body 1 is provided with slots 2, both ends of the top of the housing 1 are provided with screw holes 6, and the inside of the screw holes 6 are threaded with bolts 14, and both ends of the inner bottom of the housing 1 are provided with slots 2. Insert blocks 3 are installed inside the slots 2, and dust-proof nets 16 are installed on the top of the insert blocks 3, and a central processing unit 17 is installed at the middle position of the inner bottom of the housing 1, and the central processing unit 17 Three groups of connection plugs 15 are evenly installed on the top of the housing 1, and the third heat conduction sheet 21 is installed inside the housing 1, and the top of the third heat conduction sheet 21 is installed with the second heat conduction sheet 20, and the second heat conduction sheet 20 passes through the housing. 1, and the top of the second heat conduction sheet 20 is connected with the central processing unit 17, the bottom of both ends of the housing 1 is equipped with the first heat conduction sheet 18, and both ends of the third heat conduction sheet 21 are connected with the first heat conduction sheet 18, A data connector 4 is installed at the bottom of one end of the housing 1, heat dissipation holes 5 are evenly arranged at both ends of the housing 1, a socket 10 is evenly arranged on the top of the housing cover 7, and receiving grooves 9 are arranged at both ends of the socket 10, The top of the receiving groove 9, which is far away from the end of the socket 10, is hinged with a stopper 8, the bottom of the stopper 8 is provided with a groove 11, and the top of the groove 11 is hinged with a connecting rod 12, and the tops of the groove 11 are all provided with There is a placement slot 24, the top of the placement slot 24 is equipped with a second spring 23, and the top of the second spring 23 is equipped with a limit block 25, and the end of the storage slot 9 close to the stopper 8 is equipped with a first spring 22 One end of the first spring 22 close to the limit block 25 is connected to the connecting rod 12, the output end of the connecting plug 15 is electrically connected to the input end of the central processing unit 17 through a wire, and the output end of the central processing unit 17 is connected to the central processing unit 17 through a wire. The input end of the data connector 4 is electrically connected.

In this implementation: both sides of the housing 1 are provided with finger slots, which are convenient for moving the device, and the bottom of the housing cover 7 is provided with a through hole 13 at the position facing the screw hole 6, which is convenient for screwing out the bolt 14. Anti-slip rubber pads are installed on the bottom to prevent the device from sliding. There are three groups of sockets 10, and the distance between adjacent sockets 10 is the same. The end of the first heat conducting sheet 18 away from the housing 1 is evenly equipped with heat dissipation fins 19 to dissipate heat. The effect is better.

Working principle: when the device is in use, the data connector 4 is connected to the USB interface of the desktop computer. When the socket 10 is not inserted into an external data plug, the elastic action of the first spring 22 makes it push the connecting rod 12 out of the storage slot 9, so that the connecting rod 12 fits with the stopper 25 at the bottom of the second spring 23, thereby pushing the stopper 8, so that the stopper 8 covers the socket 10, preventing external dust and liquid from entering the device, and when the external data plug is inserted into the socket 10, the block The block 8 is forced to rotate inward, so that the connecting rod 12 squeezes the first spring 22, so that the block 8 can rotate to the inside of the receiving groove 9, at this time, the connecting rod 12 rotates to the inside of the groove 11, and the stop block 25 is connected Extrusion of the rod 12, and extrusion of the second spring 23, the second spring 23 is compressed by the pressure, so that the limit block 25 is accommodated in the placement groove 24, and the external data plug is inserted into the connection provided on the top of the central processing unit 17 through the socket 10. In the plug 15, the central processing unit 17 is electrically connected to the desktop computer. During the use of the device, the second heat conducting sheet 20 transfers the heat generated by the central processing unit 17 to the third heat conducting sheet 21, and the third heat conducting sheet 21 transfers the heat The heat is transferred to the first heat conduction sheet 21, and is exchanged with the outside air through the heat dissipation fins 19 on the outside of the second heat conduction sheet 21, which can quickly dissipate heat. When used with the heat dissipation holes 5, the heat dissipation efficiency of the device can be effectively improved, and the external dust passes through the heat dissipation holes 5 and then attached to the surface of the dust-proof net 16, when the dust-proof net needs to be cleaned and cleaned, the bolt 14 is unscrewed from the screw hole 6, the shell cover 7 is removed from the housing 1, and then the plug 3 is removed from the The slot 2 is taken out, so that the dust-proof net 16 can be taken out from the device, which is convenient for the user to clean or clean the dust-proof net 16 separately.

Although the utility model has been described in detail with reference to the aforementioned embodiments, those skilled in the art can modify the technical solutions described in the aforementioned embodiments, or perform equivalent replacements for some of the technical features. Within the spirit and principles of the utility model, any modification, equivalent replacement, improvement, etc., should be included in the protection scope of the utility model.

Claims (6)

1. A desktop computer diskless docking station, comprising a housing (1), a housing cover (7), a socket (10), a central processing unit (17) and a first heat-conducting fin (18), characterized in that: the heat-insulation and heat-insulation shell is characterized in that a slot (2) is installed at the top of the shell (1), screw holes (6) are formed in two ends of the top of the shell (1), bolts (14) are installed in the screw holes (6) in a threaded mode, slots (2) are formed in two ends of the bottom of the inside of the shell (1), plug blocks (3) are installed in the slots (2), dust screens (16) are installed on the tops of the plug blocks (3), a central processing unit (17) is installed in the middle position of the bottom of the inside of the shell (1), three groups of connecting plugs (15) are evenly installed on the top of the central processing unit (17), third heat-conducting fins (21) are installed in the shell (1), second heat-conducting fins (20) penetrate through the shell (1), and the tops of the second heat-conducting fins (20) are connected with the central processing unit (17), the bottom of the two ends of the shell (1) is provided with first heat-conducting fins (18), the two ends of the third heat-conducting fins (21) are connected with the first heat-conducting fins (18), the bottom of one end of the shell (1) is provided with a data connector (4), the two ends of the shell (1) are provided with heat dissipation holes (5), the top of the shell cover (7) is provided with sockets (10), the two ends of the sockets (10) are provided with accommodating grooves (9), the top of the end, far away from the sockets (10), of the accommodating grooves (9) is hinged with a stop block (8), the bottom of the stop block (8) is provided with a groove (11), the top of the inner part of the groove (11) is hinged with a connecting rod (12), the top of the groove (11) is provided with a placing groove (24), and the top of the inner part of the placing groove (24) is provided with a second spring (, and stopper (25) are all installed at the top of second spring (23), accomodate the inside one end that is close to dog (8) of groove (9) and all install first spring (22), the one end that first spring (22) are close to stopper (25) all is connected with connecting rod (12), the output of connecting plug (15) all passes through the input electric connection of wire and central processing unit (17), the input electric connection of wire and data connector (4) is passed through to the output of central processing unit (17).

2. The desktop computer diskless docking station of claim 1, wherein: both sides of the shell (1) are provided with finger grooves.

3. The desktop computer diskless docking station of claim 1, wherein: the bottom of the shell cover (7) is provided with through holes (13) at positions opposite to the screw holes (6).

4. The desktop computer diskless docking station of claim 1, wherein: the bottom of the shell (1) is provided with an anti-skid rubber pad.

5. The desktop computer diskless docking station of claim 1, wherein: the sockets (10) are provided with three groups, and the distances between the adjacent sockets (10) are the same.

6. The desktop computer diskless docking station of claim 1, wherein: radiating fins (19) are uniformly arranged at one end of the first heat-conducting fin (18) far away from the shell (1).