CN112835427A - Auxiliary device for computer automation control - Google Patents

Abstract

The invention discloses an auxiliary device for computer automation control, which comprises a case, wherein the front side of the case is hinged with a case door, air inlets are symmetrically formed in two sides of the case close to the bottom of the case, a protection device for protecting the top of the case is arranged at the upper end of the case, and an air outlet is formed in the side wall of the center of the case; the inside of machine case includes draught fan, integrated box, collecting tube, main siphunculus, breather and two coupling, the draught fan is located integrated box directly over and is linked together the setting, two the coupling is fixed respectively and is inserted and establish in the air intake, the both ends of main siphunculus respectively with two coupling between be provided with the breather that is used for filtered air. The invention relates to the technical field of computer auxiliary devices, which can effectively protect the inner side and the outer side of a computer, can efficiently radiate the heat of the computer, and can still quickly complete the operation of replacing a filter plate under the non-stop state.

Description

Auxiliary device for computer automation control

Technical Field

The invention relates to the technical field of computer auxiliary devices, in particular to an auxiliary device for computer automatic control.

Background

At present, due to the convenience brought by an automatic control system, the automatic control system is used in most of industrial production, but a computer generally using the automatic control system is lack of effective protection when working outside, and can be damaged seriously in the working and production process, so that the work is influenced.

To this end, we propose an auxiliary device for computer automation control to solve the above problems.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides an auxiliary device for computer automation control.

In order to achieve the purpose, the invention adopts the following technical scheme:

an auxiliary device for computer automation control comprises a case, wherein a case door is hinged to the front side of the case, air inlets are symmetrically formed in two sides of the case close to the bottom of the case, a protection device used for protecting the top of the case is arranged at the upper end of the case, and an air outlet is formed in the side wall of the center of the case;

the inside of machine case includes draught fan, integrated box, collecting tube, main siphunculus, breather and two coupling, the draught fan is located integrated box directly over and is linked together the setting, two the coupling is fixed respectively and inserts and establish in the air intake, the both ends of main siphunculus respectively with two coupling between be provided with the breather that is used for filtered air, the upper end of main siphunculus is provided with the collecting tube that is used for guiding the wind direction.

Preferably, the protection device comprises two beams which are horizontally arranged, the lower ends of the beams are fixedly connected with L-shaped support rods which are vertically arranged, the side wall of the upper end of the box door is symmetrically welded with two guide rods, the L-shaped support rod penetrates through the guide rods and is connected with the guide rods in a sliding manner, a first compression spring is sleeved in the two guide rods, two ends of the first compression spring are respectively propped against the box door and the side wall of the L-shaped support rod, two buffer plates which are symmetrically arranged with each other are arranged on the opposite side walls of the two beams through rotating shafts, the upper side wall of the transverse end of the L-shaped supporting rod and the lower side wall of the buffer plate are symmetrically and fixedly provided with mounting lugs, two mounting lugs positioned on the upper side wall of the L-shaped supporting rod are rotatably connected with a sleeve, a moving rod is fixedly connected in the sleeve through a second compression spring, and one end of the movable rod, which is far away from the sleeve, is rotatably connected with a mounting lug on the lower side wall of the buffer plate.

Preferably, the ventilation device comprises a ventilation shell, a guide block, a filter plate, a push rod, a ventilation chamber, a fixing rod, a sliding plate, a chute, a convex rod, a sleeve plate, a third compression spring and a slot, wherein the ventilation shell is sequentially provided with the slot and the ventilation chamber along the direction from the pipe joint to the main through pipe, the pipe joint, the main through pipe and the slot are communicated, the filter plate is inserted in the slot in a sliding manner, the sleeve plate is fixedly arranged on the side wall of the ventilation chamber, two vertically-arranged fixing rods are fixedly arranged in the sleeve plate, the other ends of the two fixing rods are fixedly connected with the inner wall of the top of the ventilation chamber, the sliding plate is vertically connected in the sleeve plate in a sliding manner, the fixing rods penetrate through the sliding plate and are connected with the sliding plate in a sliding manner, the third compression spring is sleeved in the fixing rods, and the two ends of the third compression spring are respectively, transition notches are formed in one sides of slots in the ventilation shell, transition blocks matched with the sizes of the transition notches are formed in one side of the filter plate in an integrated mode, chutes are formed in the side walls of the transition blocks, the chutes are gradually increased from outside to inside, protruding rods are fixedly arranged on one sides of the sliding plate and are connected with the chutes in a sliding mode, two connecting rods are arranged in the guide blocks in a co-sliding mode, U-shaped clamping jaws are fixedly connected to the two ends of each connecting rod and comprise first clamping rods and second clamping rods, U-shaped bayonets are formed between the first clamping rods and the second clamping rods, and inclined planes are formed in the side walls, opposite to the first clamping rods, of the second clamping rods.

Preferably, the integrated pipe comprises a secondary through pipe, a three-way pipe and a plurality of calandria pipes, the secondary through pipe is communicated with the side wall in the middle of the main through pipe, the upper end of the secondary through pipe is fixedly connected with the three-way pipe, the middle pipeline of the three-way pipe is fixed at the bottom of the integrated box body and communicated with the integrated box body, the pipelines at two sides of the three-way pipe are respectively fixedly connected with the plurality of calandria pipes, and the other sides of the plurality of calandria pipes are fixed at two sides of the integrated box body and.

Preferably, the upper end side wall of the case is provided with a collection box, the collection box is positioned under the two buffer plates, and the lower side of the collection box is provided with a retention groove for air outlet of the air outlet.

Preferably, the sliding plate and the side walls of the two sides of the filter plate are provided with annular grooves, and sealing gaskets are vulcanized in the annular grooves.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the protection device is arranged at the top of the case, and through the arrangement of the buffer plate, the moving rod, the sleeve and the second compression spring, when external sundries fall onto the buffer plate, the impact of the sundries can be buffered at one time through the buffering effect of the second compression spring; in addition, the two buffer plates are arranged in a split manner, so that sundries can slide to the middle after being buffered, and meanwhile, the collecting box is arranged on the lower side, so that the sundries can be effectively collected;

2. according to the invention, the pipe joint, the air interchanger and the main through pipe are arranged on the side wall of the air inlet, so that fresh air can be filtered by the filter plate in the air interchanger and then sent into the integrated box under the action of the draught fan, the internal air can rapidly circulate, the inside of the computer is efficiently radiated, the middle pipeline of the three-way pipe blows from bottom to top due to the arrangement of the three-way pipe, and the pipelines on the two sides of the three-way pipe are communicated with the plurality of exhaust pipes, so that the comprehensive blowing can be carried out on the two sides of an integrated circuit board and a CPU in the computer, and the radiating effect of the computer is obviously improved;

3. according to the invention, through arranging the ventilation device, in the long-time working process of a computer, the filter holes of the filter plates can be partially blocked, and through arranging the connecting components such as the sliding plate, the sleeve plate, the third compression spring, the fixed rod, the push rod, the chute, the convex rod and the like, when the push rod at the upper end of one of the filter plates is pulled, the sliding plate slides upwards under the resilience action of the third compression spring, and the convex rod slides along the chute until the filter plate is completely pulled out, the sliding plate rises to the inner wall at the top end of the ventilation cavity, so that the ventilation shell is sealed, and the operation of automatically blocking fresh air is realized; meanwhile, the other end of the main through pipe can still filter fresh air and dissipate the heat of the fresh air introduced into the case, so that the filter plate is guaranteed to be replaced in time in a non-stop state.

Drawings

FIG. 1 is a schematic diagram of a general assembly structure of an auxiliary device for computer automation control according to the present invention;

FIG. 2 is a schematic structural diagram of the inside of a case of an auxiliary device for computer automation control according to the present invention;

FIG. 3 is a schematic diagram of the internal structure of the case and the integrated box of the auxiliary device for computer automation control according to the present invention;

FIG. 4 is a schematic view of a connection relationship between a main duct and a ventilation device of an auxiliary device for computer automation control according to the present invention;

FIG. 5 is a schematic structural diagram of an air exchange device of a computer-controlled auxiliary device according to the present invention;

FIG. 6 is a schematic structural diagram of a ventilation housing of an auxiliary device for computer-aided automation control according to the present invention;

FIG. 7 is a schematic diagram of the filter board of the computer-automated auxiliary device according to the present invention.

In the figure: 1. a chassis; 101. a box door; 102. an air inlet; 2. a guard; 201. a cross beam; 202. an L-shaped support bar; 203. a travel bar; 204. a sleeve; 205. a buffer plate; 206. a first compression spring; 207. a guide bar; 208. mounting lugs; 3. a collection box; 301. a retention tank; 4. an induced draft fan; 5. an integrated box body; 6. an integration pipe; 601. a secondary pipe; 602. a three-way pipe; 603. arranging pipes; 7. a main through pipe; 8. a ventilation device; 801. a ventilation housing; 802. a guide block; 803. a filter plate; 8031. a transition block; 804. a push rod; 805. a U-shaped jaw; 8051. a first clamping rod; 8052. a second clamping rod; 806. fixing the rod; 807. a slide plate; 808. a chute; 809. a nose bar; 810. sheathing; 811. a third compression spring; 812. a slot; 8121. a transition slot; 813. a ventilation chamber; 9. a pipe joint.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Referring to fig. 1-7, an auxiliary device for computer automation control comprises a case 1, a case door 101 is hinged to the front side of the case 1, air inlets 102 are symmetrically formed in two sides of the case 1 close to the bottom, a protection device 2 for protecting the top of the case 1 is arranged at the upper end of the case 1, and an air outlet is formed in the side wall of the center of the case 1;

case 1's inside includes draught fan 4, integrated box 5, the collecting tube 6, main siphunculus 7, breather 8 and two coupling 9, draught fan 4 is located integrated box 5 directly over and is linked together the setting, two coupling 9 are fixed respectively and are established in air intake 102, wherein coupling 9 passes through screw thread fixed connection with air intake 102, the both ends of main siphunculus 7 respectively with two coupling 9 between be provided with breather 8 that is used for filtered air, the upper end of main siphunculus 7 is provided with collecting tube 6 that is used for guiding the wind direction.

Specifically, the protection device 2 includes two horizontal beams 201, the lower end of the horizontal beam 201 is fixedly connected with an L-shaped support rod 202 which is vertically arranged, wherein the horizontal beam 201 and the L-shaped support rod 202 are integrally formed, the upper side wall of the box door 101 is symmetrically welded with two guide rods 207, the L-shaped support rod 202 penetrates through the guide rods 207 and is slidably connected with the guide rods 207, a first compression spring 206 is sleeved in the two guide rods 207, two ends of the first compression spring 206 are respectively abutted against the side walls of the box door 101 and the L-shaped support rod 202, two buffer plates 205 which are symmetrically arranged with each other are rotated on the opposite side walls of the two horizontal beams 201 through a rotating shaft, rubber pads are vulcanized on the upper side walls of the two buffer plates 205, the buffer plates 205 can be protected, mounting lugs 208 are symmetrically fixed on the upper side wall of the horizontal end of the L-shaped support rod 202 and the lower side wall of the buffer plates 205, the two mounting lugs 208 on the upper, through second compression spring fixedly connected with carriage release lever 203 in the sleeve pipe 204, and the one end that the sleeve pipe 204 was kept away from to carriage release lever 203 rotates with the installation ear 208 that is located on the lateral wall under buffer board 205 and is connected, wherein the one end of second compression spring and the bottom fixed connection of sleeve pipe 204, the other end offsets with carriage release lever 203 and sets up, in addition, the mouth of pipe integrated into one piece of sleeve pipe 204 has annular retaining ring, the bottom lateral wall of carriage release lever 203 is provided with annular fender shoulder, thereby avoid carriage release lever 203 to shift out and take place to drop.

Specifically, the ventilation device 8 includes a ventilation housing 801, a guide block 802, a filter plate 803, a push rod 804, a ventilation chamber 813, a fixing rod 806, a sliding plate 807, a chute 808, a protruding rod 809, a sleeve plate 810, a third compression spring 811 and a slot 812, the ventilation housing 801 is sequentially provided with the slot 812 and the ventilation chamber 813 along the direction from the pipe joint 9 to the main pipe 7, wherein the ventilation housing 801 is manufactured by adopting an integral forming process, the pipe joint 9, the main pipe 7 and the slot 812 are arranged in a communicating manner, the filter plate 803 is inserted in the slot 12 in a sliding manner, the sleeve plate 810 is fixedly arranged on the side wall of the ventilation chamber 813, two vertically arranged fixing rods 806 are fixedly arranged in the sleeve plate 810, the other ends of the two fixing rods 806 are fixedly connected with the inner wall of the top of the ventilation chamber 813, a vertically arranged sliding plate 807 is slidably connected in the sleeve plate 810, the fixing rods 806, a third compression spring 811 is sleeved in the fixing rod 806, two ends of the third compression spring 811 respectively abut against the bottom of the sliding plate 807 and the inner wall of the bottom of the sleeve plate 810, a transition notch 8121 is formed in one side of the slot 812 in the ventilation housing 801, a transition block 8031 matched with the transition notch 8121 in size is integrally formed in one side of the filter plate 803, a chute 808 is formed in the side wall of the transition block 8031, the chute 808 is gradually increased in height from outside to inside, a convex rod 809 is fixedly arranged on one side of the sliding plate 807, the convex rod 809 is slidably connected with the chute 808, when the filter plate 803 is pushed into the slot 812, the chute 808 is enabled to be horizontally moved all the time, the convex rod 809 needs to slide in the chute, the convex rod 809 is forced to drive the sliding plate 807 to move downwards so as to automatically penetrate through the whole channel, a connecting rod 10 is jointly slidably inserted in the two guide blocks 802, two ends of the connecting rod 10 are, the U-shaped latch 805 includes a first latch 8051 and a second latch 8052, and a U-shaped bayonet is formed between the first latch 8051 and the second latch 8052, wherein when the filter plate 803 is pushed to move out of the slot 812, the push rod 804 presses an inclined surface of one side of the second latch 8052 in the U-shaped latch 805, so that the U-shaped latch 805 latches the push rod 804 of the other side, thereby preventing an incorrect operation from occurring when the filter plate 803 is replaced, and pulling out the filter plate 803 therein, which causes fresh air to enter the chassis 1 without being filtered, and a side wall of the inner second latch 8052 opposite to the first latch 8051 is provided with an inclined surface.

Specifically, the integrated pipe 6 includes a secondary pipe 601, a three-way pipe 602 and a plurality of calandria 603, the secondary pipe 601 is communicated with the right middle side wall of the main pipe 7, the upper end of the secondary pipe 601 is fixedly connected with the three-way pipe 602, the middle pipeline of the three-way pipe 602 is fixed at the bottom of the integrated box 5 and is communicated with the integrated box, the pipelines at two sides of the three-way pipe 602 are respectively fixedly connected with the plurality of calandria 603, the other sides of the plurality of calandria 603 are fixed at two sides of the integrated box 5 and are communicated with the integrated box, through the arrangement of the three-way pipe 602, all-directional blowing can be performed on the side walls of the electric components and the integrated circuit.

Specifically, the upper end lateral wall of machine case 1 is provided with collecting box 3, and collecting box 3 is located two buffer boards 205 under, and the downside of collecting box 3 is offered and is used for the delay groove 301 of air outlet air-out, through setting up the setting of delay groove 301, can not hinder the operation of giving vent to anger of the air outlet in machine case 1.

Specifically, the annular grooves are formed in the side walls of the two sides of the sliding plate 807 and the filtering plate 803, and sealing gaskets are vulcanized in the annular grooves, so that the sealing performance inside the ventilation shell is guaranteed, and the air leakage phenomenon is avoided.

In the invention, in the actual use process of the computer automatic control auxiliary device, the protection device 2 is arranged at the top of the case 1, when external sundries fall to the top of the case 1, firstly, the sundries fall to the buffer plate 205, the movable rod 203 slides and stretches in the sleeve 204 under the buffer action of the second compression spring, so that the impact of the sundries is buffered for the first time, meanwhile, after the sundries fall to the buffer plate 205, the impact is continuously transmitted downwards, and the impact is further buffered through the first compression spring 206, so that the impact of the sundries can be effectively buffered and offset; in addition, the two buffer plates 205 are symmetrically arranged, so that sundries can slide to the middle after being buffered, and meanwhile, the collecting box 3 is arranged on the lower side, so that the sundries can be effectively collected;

furthermore, by arranging the pipe joint 9, the air interchanger 8 and the main through pipe 7, under the action of the draught fan 4, fresh air can be filtered by the filter plate 803 in the air interchanger 8, and then is sent into the integration box 5 through the main through pipe 7 and the three-way pipe 6 after flowing through the air interchanging chamber 813 in the air interchanging shell 801, so that the internal air can be quickly circulated, and the inside of the computer can be efficiently radiated;

furthermore, in the long-term working process of the computer, the filter holes of the filter plates 803 are partially blocked, at this time, the filter plates 803 need to be replaced without stopping, when the push rod 804 at the upper end of one of the filter plates 803 is pulled, the sliding plate 807 slides upwards under the resilience of the third compression spring, and the convex rod 809 slides along the inclined groove 808, until the filter plates 803 are completely pulled out, the sliding plate 807 rises to the inner wall at the top end of the ventilation chamber 813, so as to seal the ventilation housing 801, thereby realizing the operation of automatically blocking the fresh air, meanwhile, the other end of the main through pipe 7 can still filter the fresh air and guide the fresh air into the chassis for heat dissipation, ensuring that the filter plates 803 are replaced in time without stopping, when a new filter plate 803 is inserted into the slot 812, because the inclined groove 808 at the transition block 8031 in the filter plate 803 is opposite to the convex rod 809 in the sliding plate 807, with the filter plate 803 pushed in, the sliding plate 807 can be made to press down the third compression spring 811 and move down, so that the ventilation housing 801 is turned back on again.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (6)

1. The auxiliary device for computer automation control is characterized by comprising a case (1), wherein the front side of the case (1) is hinged with a case door (101), air inlets (102) are symmetrically formed in two sides, close to the bottom, of the case (1), a protection device (2) used for protecting the top of the case (1) is arranged at the upper end of the case (1), and an air outlet is formed in the side wall of the center of the case (1);

the inside of machine case (1) includes draught fan (4), integrated box (5), collecting tube (6), main siphunculus (7), breather (8) and two coupling (9), draught fan (4) are located integrated box (5) directly over and are linked together the setting, two coupling (9) are fixed respectively and are inserted and establish in air intake (102), the both ends of main siphunculus (7) respectively with two coupling (9) between be provided with breather (8) that are used for filtered air, the upper end of main siphunculus (7) is provided with collecting tube (6) that are used for guiding the wind direction.

2. The computer automation control auxiliary device according to claim 1, wherein the protection device (2) comprises two horizontal beams (201) which are horizontally arranged, the lower ends of the horizontal beams (201) are fixedly connected with vertically arranged L-shaped support rods (202), the upper side walls of the box door (101) are symmetrically welded with two guide rods (207), the L-shaped support rods (202) penetrate through the guide rods (207) and are slidably connected with the guide rods, first compression springs (206) are sleeved in the two guide rods (207), two ends of each first compression spring (206) are respectively abutted against the box door (101) and the side walls of the L-shaped support rods (202), two opposite side walls of the two horizontal beams (201) are respectively provided with two buffer plates (205) which are symmetrically arranged, the upper side walls of the horizontal ends of the L-shaped support rods (202) and the lower side walls of the buffer plates (205) are symmetrically and fixedly provided with lugs (208), two mounting lugs (208) positioned on the upper side wall of the L-shaped supporting rod (202) are rotatably connected with a sleeve (204), a moving rod (203) is fixedly connected in the sleeve (204) through a second compression spring, and one end, far away from the sleeve (204), of the moving rod (203) is rotatably connected with the mounting lugs (208) positioned on the lower side wall of the buffer plate (205).

3. The computer automation control auxiliary device according to claim 1, wherein the ventilation device (8) comprises a ventilation housing (801), a guide block (802), a filter plate (803), a push rod (804), a ventilation chamber (813), a fixing rod (806), a sliding plate (807), a chute (808), a convex rod (809), a sleeve plate (810), a third compression spring (811) and a slot (812), the ventilation housing (801) is provided with the slot (812) and the ventilation chamber (813) in sequence along the direction from the pipe joint (9) to the main through pipe (7), the pipe joint (9), the main through pipe (7) and the slot (812) are communicated, the filter plate (803) is inserted in the slot (12) in a sliding way, the sleeve plate (810) is fixedly arranged on the side wall of the ventilation chamber (813), and two fixing rods (806) which are vertically arranged are fixedly arranged in the sleeve plate (810), the other ends of the two fixing rods (806) are fixedly connected with the inner wall of the top of the ventilation chamber (813), a sliding plate (807) which is vertically arranged is slidably connected in the sleeve plate (810), the fixing rods (806) penetrate through the sliding plate (807) and are slidably connected with the sliding plate (807), a third compression spring (811) is sleeved in the fixing rods (806), two ends of the third compression spring (811) are respectively abutted against the bottom of the sliding plate (807) and the inner wall of the bottom of the sleeve plate (810), one side of a slot (812) in the ventilation shell (801) is provided with a transition notch (8121), one side of the filter plate (803) is integrally formed with a transition block (8031) which is matched with the size of the transition notch (8121), the side wall of the transition block (8031) is provided with a chute (808), the chute (808) is gradually increased in height from outside to inside, and one side of the sliding plate (807) is fixedly provided with a convex rod (, and the convex rod (809) is connected with the inclined groove (808) in a sliding manner, a connecting rod (10) is inserted into the two guide blocks (802) in a sliding manner, two ends of the connecting rod (10) are fixedly connected with U-shaped clamping jaws (805), each U-shaped clamping jaw (805) comprises a first clamping rod (8051) and a second clamping rod (8052), a U-shaped bayonet is formed between each first clamping rod (8051) and each second clamping rod (8052), and inclined planes are arranged on the side walls, opposite to the first clamping rods (8051), of the second clamping rods (8052).

4. The auxiliary device of computer automation control according to claim 1, wherein the integrated pipe (6) comprises a secondary pipe (601), a three-way pipe (602) and a plurality of calandria (603), the secondary pipe (601) is communicated with the side wall of the main pipe (7) in the middle, the upper end of the secondary pipe (601) is fixedly connected with the three-way pipe (602), the middle pipeline of the three-way pipe (602) is fixed at the bottom of the integrated tank (5) and communicated with the integrated tank, the pipelines at the two sides of the three-way pipe (602) are respectively fixedly connected with the plurality of calandria (603), and the other sides of the plurality of calandria (603) are fixed at the two sides of the integrated tank (5) and communicated with the integrated tank.

5. The computer automation control auxiliary device according to claim 2, wherein the side wall of the upper end of the case (1) is provided with a collection box (3), the collection box (3) is positioned under the two buffer plates (205), and the lower side of the collection box (3) is provided with a retention groove (301) for air outlet of the air outlet.

6. A computer-automated auxiliary apparatus according to claim 3, wherein the slide plate (807) and the filter plate (803) are provided with annular grooves on both side walls, and sealing gaskets are vulcanized in the annular grooves.

Images