CN215004780U - Socket shell strength detection device for guided missile communication equipment - Google Patents

Abstract

The utility model discloses a socket shell intensity detection device for guided missile communications facilities belongs to intensity detection device technical field, comprises a workbench, the top fixed mounting of workstation has puts the thing device, the top fixedly connected with mounting bracket of workstation, the top fixed mounting of mounting bracket has hydraulic push rod, hydraulic push rod's bottom runs through and extends to the inside of mounting bracket, hydraulic push rod's bottom fixed mounting has pressure sensor. The utility model discloses a, protector can prevent that the residue splashes everywhere when socket shell atress is broken to this comes to guarantee that the measuring environment also avoids causing the injury to measurement personnel, when needs take off the casing, the thing device is put in user of service control and the casing separation, alright this moment with take off the casing, with this be convenient for to socket shell's fixed and take, improve detection efficiency, solved in the past for the guided missile communication socket shell intensity detection device be not convenient for fix take and do not have the problem of preventing splashing the function.

Description

Socket shell strength detection device for guided missile communication equipment

Technical Field

The utility model relates to an intensity detection device technical field, more specifically say, relate to a socket shell body intensity detection device for guided missile communications facilities.

Background

A socket is a receptacle into which one or more circuit connections can be inserted, through which various connections can be inserted to facilitate connection to other circuits. The power socket is an electrical device for providing a power interface for household appliances, is also an electrical accessory used in the electrical design of a house, and has a very close relationship with the life of people.

Be applied to socket intensity requirement of guided missile communications facilities then very strict, often need carry out intensity detection to the socket casing, current intensity detection device is not convenient for take and fix socket casing, thereby the efficiency that detects is influenced, bear at the socket casing simultaneously and surpass self extreme pressure and take place when bursting apart, intensity detection device in the past can't protect, it can cause the injury to the measurement personnel to make the residue splash influence detection environment everywhere, consequently, professional in this field provides a socket casing intensity detection device for guided missile communications facilities, the problem of the aforesaid mention has been solved.

SUMMERY OF THE UTILITY MODEL

To the problem that exists among the prior art, the utility model aims to provide a socket shell body intensity detection device for guided missile communications facilities to solve intensity detection device in the past and be not convenient for to socket shell's the problem of taking and not having safeguard function.

In order to solve the above problems, the utility model adopts the following technical proposal.

The utility model provides a socket shell intensity detection device for guided missile communications facilities, includes the workstation, the top fixed mounting of workstation has puts the thing device, the top fixedly connected with mounting bracket of workstation, the top fixed mounting of mounting bracket has hydraulic rod, hydraulic rod's bottom is run through and is extended to the inside of mounting bracket, hydraulic rod's bottom fixed mounting has pressure sensor, pressure sensor's bottom fixedly connected with pick-up plate, the pick-up plate is located the top of putting the thing device, fixed mounting has protector on the workstation.

As a further description of the above technical solution: the right side fixed mounting of workstation has control panel, hydraulic pressure push rod, put the thing device and all with control panel between the electric connection.

As a further description of the above technical solution: put the thing device and include and put the thing seat, put thing seat fixed connection at the top of workstation, put the inside of thing seat and seted up the inner chamber, put the top of thing seat and seted up evenly distributed's mounting hole, the mounting hole all is linked together with the inside of inner chamber, equal fixed mounting has the sucking disc on the inner wall of mounting hole, fixed mounting has the air pump on the interior diapire of workstation, the top of air pump runs through the workstation and extends to the inside of inner chamber.

As a further description of the above technical solution: protector includes servo motor, servo motor fixed mounting is on the interior diapire of workstation, fixedly connected with drive shaft on servo motor's the output shaft, threaded connection has the float board in the drive shaft, fixedly connected with protection casing on the float board, the top of protection casing is run through and is extended to the top of workstation, equal fixed mounting has the button, two on the top of pick-up plate and the interior roof of mounting bracket mutual contact and electric connection between the button, fixed mounting has central processing unit, two on the interior diapire of workstation the button all with central processing unit between signal connection.

As a further description of the above technical solution: the top fixedly connected with bearing of drive shaft, the outer lane fixed connection of bearing is on the interior roof of workstation.

As a further description of the above technical solution: two guide rods are fixedly connected to the inner bottom wall of the workbench, and the top ends of the guide rods penetrate through the floating plate and are fixedly connected to the inner top wall of the workbench.

Compared with the prior art, the utility model has the advantages of:

(1) in the scheme, when the strength of the socket shell for missile communication needs to be detected, a user places the shell on the top of the object placing device, then controls the object placing device to be electrified to work, the object placing device generates suction force to adsorb the shell after being electrified, then the user controls the hydraulic push rod to be electrified to work, the hydraulic push rod drives the pressure sensor and the detection plate to move downwards, the protection device is electrified to work when the detection plate moves downwards, the protection device moves upwards until the protection device surrounds the socket shell, the detection plate impacts the shell, the user can check the pressure through the pressure sensor, the hydraulic push rod drives the detection plate to move upwards to reset after the detection is finished, the protection device moves downwards, the protection device can be arranged to prevent residues from splashing around when the socket shell is stressed and broken, and accordingly, the detection environment is guaranteed, and the damage to the detection personnel is avoided, when needs take off the casing, the user of service controls puts thing device and casing separation, alright in order to take off the casing this moment to this is convenient for to the socket casing fixed with take, improves detection efficiency, has solved in the past socket casing intensity detection device for the guided missile communication be not convenient for fix take and do not have the problem of preventing splashing function.

(2) This scheme, control panel's setting can make this device of controlling that the user of service is simple swift more to this step that reduces personnel input and need operate, thereby improve detection efficiency.

(3) This scheme, when needs carry out intensity detection with socket casing for the guided missile communication, the user places the casing at putting thing seat top, user control air pump circular telegram work after then, produce powerful suction after the air pump circular telegram, the air pump makes the inside negative pressure that forms gradually of inner chamber with the inside gas of inner chamber take out, make the inside sucking disc of mounting hole produce suction, the sucking disc then adsorbs the casing at putting thing seat top, when needs take off the casing, user control air pump aerifys to the inside of inner chamber and makes the sucking disc lose suction and casing separation, alright take off the casing this moment, be convenient for with this to socket casing's fixed and take, and the detection efficiency is improved.

(4) This scheme, when the pick-up plate moves down, take place the separation between two buttons, central processing unit receives behind the signal control servo motor circular telegram work, servo motor drives after the circular telegram and rotates rather than fixed drive shaft synchronous, floating plate with drive shaft threaded connection begins the rebound, the protection casing shifts up thereupon until the protection casing surrounds socket shell, hydraulic push rod drives the pick-up plate and moves upward and resets after the detection, two buttons are contacted again this moment, central processing unit receives back control servo motor antiport, floating plate moves the protection casing and moves down and make socket shell expose gradually, protector's setting can prevent that the residue splashes everywhere when socket shell atress is broken, also avoid causing the injury to the detection personnel to guarantee the detection environment with this.

(5) This scheme, the setting of bearing can play certain firm effect to the drive shaft, can also reduce the friction between drive shaft and the workstation simultaneously.

(6) This scheme, the setting up of guide bar can play the restriction effect to the floating plate for the floating plate only can carry out vertical direction's removal, avoids the floating plate to take place to incline at the removal in-process.

Drawings

Fig. 1 is a schematic perspective view of the present invention;

fig. 2 is a schematic front view of the cross-sectional structure of the present invention;

fig. 3 is an enlarged schematic structural view of a point a in fig. 2 according to the present invention;

fig. 4 is a schematic view of the three-dimensional structure of the protection device of the present invention.

The reference numbers in the figures illustrate:

1. a work table; 2. a placement device; 201. a placement seat; 202. an inner cavity; 203. mounting holes; 204. a suction cup; 205. an air pump; 3. a mounting frame; 4. a hydraulic push rod; 5. a pressure sensor; 6. detecting a plate; 7. a guard; 701. a servo motor; 702. a drive shaft; 703. a floating plate; 704. a protective cover; 705. a button; 706. a central processing unit; 8. a control panel; 9. a bearing; 10. a guide rod.

Detailed Description

The technical solution in the embodiment of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiment of the present invention;

please refer to fig. 1-4, the utility model discloses in, a socket shell intensity detection device for guided missile communication equipment, including workstation 1, the top fixed mounting of workstation 1 has puts thing device 2, the top fixedly connected with mounting bracket 3 of workstation 1, the top fixed mounting of mounting bracket 3 has hydraulic rod 4, hydraulic rod 4's bottom is run through and is extended to the inside of mounting bracket 3, hydraulic rod 4's bottom fixed mounting has pressure sensor 5, pressure sensor 5's bottom fixedly connected with pick-up plate 6, pick-up plate 6 is located the top of putting thing device 2, fixed mounting has protector 7 on the workstation 1.

In the utility model, when the intensity of the socket shell for missile communication needs to be detected, a user places the shell on the top of the object placing device 2, then the user controls the object placing device 2 to be electrified to work, the object placing device 2 is electrified to generate suction shell adsorption, then the user controls the hydraulic push rod 4 to be electrified to work, the hydraulic push rod 4 drives the pressure sensor 5 and the pressure sensor 6 to move downwards, the protection device 7 is electrified to work when the detection plate 6 moves downwards, the protection device 7 moves upwards along with the protection device until the socket shell is surrounded, the detection plate 6 impacts the shell, the user can check the pressure through the pressure sensor 5, the hydraulic push rod 4 drives the detection plate 6 to move upwards to reset after the detection is finished, at the moment, the protection device 7 moves downwards, the protection device 7 can prevent residues from splashing around when the socket shell is stressed and broken, thereby avoiding the damage to the detection personnel to guarantee the detection environment, when needs take off the casing, the user of service controls puts thing device 2 and casing separation, alright in order to take off the casing this moment to this is convenient for to the socket casing fixed with take, improves detection efficiency, has solved in the past for the guided missile communication socket casing intensity detection device be not convenient for fix take and do not have the problem of preventing splashing function.

Please refer to fig. 1 and 2, wherein: the right side fixed mounting of workstation 1 has control panel 8, hydraulic rod 4, put thing device 2 and protector 7 all with control panel 8 between electric connection.

The utility model discloses in, control panel 8's setting can make this device of controlling that the user of service is simple swift more to this reduction personnel drop into and need the step of operation, thereby improve detection efficiency.

Please refer to fig. 1 and 2, wherein: put thing device 2 and include and put thing seat 201, put thing seat 201 fixed connection at the top of workstation 1, put the inside of thing seat 201 and seted up inner chamber 202, put the top of thing seat 201 and seted up evenly distributed's mounting hole 203, mounting hole 203 all is linked together with the inside of inner chamber 202, equal fixed mounting has sucking disc 204 on the inner wall of mounting hole 203, fixed mounting has air pump 205 on the interior diapire of workstation 1, the top of air pump 205 runs through workstation 1 and extends to the inside of inner chamber 202.

The utility model discloses in, when needs carry out intensity detection with socket casing for the guided missile communication time measuring, the user places the casing at putting thing seat 201 top, user's control air pump 205 circular telegram work is followed, produce powerful suction after air pump 205 circular telegram, air pump 205 takes the inside gas of inner chamber 202 out and makes the inside negative pressure that forms gradually of inner chamber 202, make the inside sucking disc 204 of mounting hole 203 produce suction, sucking disc 204 then adsorbs the casing and puts thing seat 201 top, when needs take off the casing, user's control air pump 205 is aerifyd to the inside of inner chamber 202 and is made sucking disc 204 lose suction and casing separation, alright take off the casing this moment, with this is convenient for to socket casing's fixed and taking, improve detection efficiency.

Please refer to fig. 1-4, wherein: protector 7 includes servo motor 701, servo motor 701 fixed mounting is on the interior diapire of workstation 1, fixedly connected with drive shaft 702 on servo motor 701's the output shaft, threaded connection has floating plate 703 on the drive shaft 702, fixedly connected with protection casing 704 on the floating plate 703, the top of protection casing 704 is run through and is extended to the top of workstation 1, equal fixed mounting has button 705 on the top of pick-up plate 6 and the interior roof of mounting bracket 3, mutual contact and electric connection between two button 705, fixed mounting has central processing unit 706 on the interior diapire of workstation 1, two button 705 and servo motor 701 all with central processing unit 706 between signal connection.

The utility model discloses in, when pick-up plate 6 moves down, take place the separation between two buttons 705, central processing unit 706 receives control servo motor 701 circular telegram work after the signal, servo motor 701 drives after the circular telegram and rotates rather than fixed drive shaft 702 synchronous, floating plate 703 with drive shaft 702 threaded connection begins the rebound, protection casing 704 moves up thereupon until protection casing 704 surrounds socket shell, hydraulic rod 4 drives pick-up plate 6 and moves upward and resets after the detection end, two buttons 705 recontact this moment, central processing unit 706 receives back control servo motor 701 antiport, floating plate 703 drives protection casing 704 and moves down and make socket shell expose gradually, protector 7's setting can prevent that the residue splashes everywhere when socket shell atress is broken, also avoid causing the injury to the detection personnel to this to guarantee to detect the environment.

Please refer to fig. 2 and 4, wherein: the top end of the driving shaft 702 is fixedly connected with a bearing 9, and the outer ring of the bearing 9 is fixedly connected to the inner top wall of the workbench 1.

The utility model discloses in, bearing 9's setting can play certain firm effect to drive shaft 702, can also reduce the friction between drive shaft 702 and the workstation 1 simultaneously.

Please refer to fig. 2 and 4, wherein: two guide rods 10 are fixedly connected to the inner bottom wall of the workbench 1, and the top ends of the two guide rods 10 penetrate through the floating plate 703 and are fixedly connected to the inner top wall of the workbench 1.

The utility model discloses in, the setting of guide bar 10 can play the limiting displacement to floating plate 703 for floating plate 703 can only carry out the removal of vertical direction, avoids floating plate 703 to take place to incline at the removal in-process.

In the scheme, the type of the hydraulic push rod 4 can be DYTP-3000; the air pump 205 can be of the type JYCQB-08; the servo motor 701 may be 110 ST-M04030; the central processor 706 may be of a type E5-2690.

The working principle is as follows: when the strength of the socket shell for missile communication needs to be detected, a user places the shell on the top of the object placing seat 201, then controls the air pump 205 to be electrified to work, the air pump 205 generates strong suction force after being electrified, the air pump 205 pumps air in the inner cavity 202 to gradually form negative pressure in the inner cavity 202, so that the suction disc 204 in the mounting hole 203 generates suction force, the suction disc 204 adsorbs the shell on the top of the object placing seat 201, then the user controls the hydraulic push rod 4 to be electrified to work, the hydraulic push rod 4 drives the pressure sensor 5 and the detection plate 6 to move downwards, when the detection plate 6 moves downwards, the two electric buttons 705 are separated, the central processing unit 706 controls the servo motor 701 to be electrified to work after receiving signals, the servo motor 701 drives the driving shaft 702 fixed with the servo motor 701 to synchronously rotate after being electrified, and the floating plate 703 in threaded connection with the driving shaft 702 starts to move upwards, the protective cover 704 moves upwards until the protective cover 704 surrounds the socket shell, when the detection is finished, the hydraulic push rod 4 drives the detection plate 6 to move upwards and reset, at the moment, the two electric buttons 705 are contacted again, the central processor 706 controls the servo motor 701 to rotate reversely after receiving the signals, the floating plate 703 drives the protective cover 704 to move downwards so that the socket shell is gradually exposed, the protective device 7 can prevent residues from splashing around when the socket shell is broken due to stress, so as to ensure that the detection environment also avoids causing damage to detection personnel, when the shell needs to be taken down, a user controls the air pump 205 to inflate the inner cavity 202 so that the suction cup 204 loses suction force and is separated from the shell, and then the shell can be taken down, with this be convenient for to socket shell's fixed with take, improve detection efficiency, solved in the past socket shell intensity detection device for the guided missile communication be not convenient for fix take and do not have the problem of preventing splashing the function.

The above description is only the preferred embodiment of the present invention; the scope of the present invention is not limited thereto. Any person skilled in the art should also be able to cover the technical scope of the present invention by replacing or changing the technical solution and the improvement concept of the present invention with equivalents and modifications within the technical scope of the present invention.

Claims (6)

1. The utility model provides a socket shell intensity detection device for guided missile communications facilities, includes workstation (1), its characterized in that: the utility model discloses a hydraulic pressure sensor, including workstation (1), top fixedly mounted of workstation (1) has puts thing device (2), the top fixedly connected with mounting bracket (3) of workstation (1), the top fixed mounting of mounting bracket (3) has hydraulic pressure push rod (4), the bottom of hydraulic pressure push rod (4) runs through and extends to the inside of mounting bracket (3), the bottom fixed mounting of hydraulic pressure push rod (4) has pressure sensor (5), the bottom fixedly connected with pick-up plate (6) of pressure sensor (5), pick-up plate (6) are located the top of putting thing device (2), fixed mounting has protector (7) on workstation (1).

2. The device for detecting the strength of the socket shell for the missile communication equipment as claimed in claim 1, wherein: the right side fixed mounting of workstation (1) has control panel (8), hydraulic push rod (4), put thing device (2) and protector (7) all with control panel (8) between electric connection.

3. The device for detecting the strength of the socket shell for the missile communication equipment as claimed in claim 1, wherein: put thing device (2) and include and put thing seat (201), put thing seat (201) fixed connection at the top of workstation (1), inner chamber (202) have been seted up to the inside of putting thing seat (201), evenly distributed's mounting hole (203) have been seted up at the top of putting thing seat (201), mounting hole (203) all are linked together with the inside of inner chamber (202), equal fixed mounting has sucking disc (204) on the inner wall of mounting hole (203), fixed mounting has air pump (205) on the interior diapire of workstation (1), the top of air pump (205) runs through workstation (1) and extends to the inside of inner chamber (202).

4. The device for detecting the strength of the socket shell for the missile communication equipment as claimed in claim 1, wherein: the protection device (7) comprises a servo motor (701), the servo motor (701) is fixedly arranged on the inner bottom wall of the workbench (1), a driving shaft (702) is fixedly connected to an output shaft of the servo motor (701), a floating plate (703) is connected to the driving shaft (702) in a threaded manner, the floating plate (703) is fixedly connected with a protective cover (704), the top of the protective cover (704) penetrates through and extends to the top of the workbench (1), the top of the detection plate (6) and the inner top wall of the mounting rack (3) are both fixedly provided with electric buttons (705), the two electric buttons (705) are mutually contacted and electrically connected, and a central processing unit (706) is fixedly mounted on the inner bottom wall of the workbench (1), and the two electric buttons (705) and the servo motor (701) are in signal connection with the central processing unit (706).

5. The device for detecting the strength of the socket shell for the missile communication equipment as claimed in claim 4, wherein: the top end of the driving shaft (702) is fixedly connected with a bearing (9), and the outer ring of the bearing (9) is fixedly connected to the inner top wall of the workbench (1).

6. The device for detecting the strength of the socket shell for the missile communication equipment as claimed in claim 4, wherein: two guide rods (10) are fixedly connected to the inner bottom wall of the workbench (1), and the top ends of the two guide rods (10) penetrate through the floating plate (703) and are fixedly connected to the inner top wall of the workbench (1).

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