CN215374024U - Be used for digital detection device of comprehensive energy - Google Patents

Abstract

The utility model provides a digital detection device for comprehensive energy, which relates to the technical field of energy detection and comprises a box body, a sealing cover and a clamping device, wherein one side of the sealing cover, which is close to the box body, is rotatably connected with the sealing cover, the inner wall of the box body is fixedly connected with a control panel, one side of the box body, which is close to the control panel, is fixedly connected with a connecting socket, the clamping device is arranged at one side of the box body, which is close to the connecting socket, and the clamping device comprises a supporting frame, and one side of the supporting frame, which is close to the box body, is fixedly connected with the supporting frame. The utility model is suitable for the aspects of electric power, gas and heat, and the L1 can be clamped by arranging the first limiting frame, the second limiting frame and the positioning block, so that the situation that the lead of the existing equipment is randomly placed when being connected with a sensor and the lead of the existing equipment connected with the sensor is easy to be stressed and loosened when the equipment is used is avoided, the fault rate of the equipment is further reduced, the normal use of the equipment is facilitated, and the safety of the equipment is improved.

Description

Be used for digital detection device of comprehensive energy

Technical Field

The utility model relates to the technical field of energy detection, in particular to a digital detection device for comprehensive energy.

Background

Energy, also known as energy resource or energy resource, refers to a general term for substances capable of generating various energies or doing work, and various resources capable of directly obtaining or obtaining useful energy through processing and conversion, including primary energy such as natural gas, gas and heat energy, and secondary energy such as electric power, heat power, product oil and the like.

Along with the development of society, energy digitization detection device uses in putting into production in a large number, and current most energy digitization detection device need external sensor to electric power when using, detect in the aspect of gas and heating power, because detect power voltage now, the gas concentration, the sensor type in the aspect of heating power temperature is many, energy digitization detection device just can detect in the aspect of electric power voltage after external these sensors, gas concentration, heating power temperature etc. and most equipment places at will when connecting the sensor on the market at present, connect the condition that becomes flexible appears in the easy atress of sensor wire when equipment uses, and then increase the fault rate of equipment, be unfavorable for the normal use of equipment, reduce the security of equipment, need to improve this.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems that in the prior art, most devices are randomly placed on a lead when connected with a sensor, and the lead of the sensor is easy to be stressed and loosened when the devices are used, so that the fault rate of the devices is increased, the normal use of the devices is not facilitated, and the safety of the devices is reduced.

In order to achieve the purpose, the utility model adopts the following technical scheme: the utility model provides a be used for digital detection device of comprehensive energy, includes box, closing cap and clamping device, one side that the closing cap is close to the box is connected rather than rotating, the inner wall fixedly connected with control panel of box, one side fixedly connected with connection socket that the box is close to control panel, clamping device is located the box and sets up near one side of connecting socket, clamping device includes the support frame, one side and its fixed connection that the support frame is close to the box, the inner wall of support frame rotates and is connected with first spacing, one side that the support frame is close to first spacing rotates and is connected with the spacing of second. One side that the support frame is close to connecting socket is rotated and is connected with the locating piece, the inner wall sliding connection of locating piece has the fixture block, the spacing spring of inner wall fixedly connected with of locating piece, the reset spring that two symmetries set up of the inner wall fixedly connected with of first spacing, the inner wall sliding connection of first spacing has the plug.

Preferably, one side that the support frame is close to connecting socket rather than fixed connection, the quantity of locating piece is two, two the locating piece uses connecting socket to be axisymmetric setting as the symmetry axis, the inner wall and the first spacing sliding connection of locating piece, the inner wall and the spacing sliding connection of second of locating piece.

Preferably, the number of the clamping blocks is two, the two clamping blocks are arranged in an axial symmetry mode by taking the connecting sockets as symmetry axes, one side, far away from the positioning blocks, of each clamping block is connected with the support frame in a sliding mode, one end of the limiting spring is fixedly connected with the clamping blocks, one side, far away from the first limiting frame, of the reset spring is fixedly connected with the plug, and one side, far away from the reset spring, of the plug is connected with the second limiting frame in a sliding mode.

Preferably, one side that the closing cap was kept away from to the box is provided with buffer, buffer includes the connecting block, one side that the connecting block is close to the box rather than fixed connection, one side fixedly connected with buffer spring that the box was kept away from to the connecting block, the inner wall of connecting block rotates and is connected with the buffer frame that two symmetries set up.

Preferably, one side fixedly connected with damping piece that buffer spring kept away from the box, one side fixedly connected with gag lever post that the damping piece is close to the box, one side fixedly connected with guide rail that the buffer bracket is close to the damping piece, the inner wall fixedly connected with damping spring of guide rail.

Preferably, one side of the buffer frame, which is far away from the connecting block, is rotationally connected with the damping block, one side of the limiting rod, which is close to the box body, is fixedly connected with the connecting block, and one side of the damping spring, which is far away from the guide rail, is fixedly connected with the connecting block.

Compared with the prior art, the utility model has the advantages and positive effects that,

1. in the utility model, through arranging the clamping device, after a lead is inserted into the connecting plug, the plug is pulled, the plug is stressed by the reset spring to apply pressure, the reset spring is stressed to deform, the plug loses constraint in the deformation process of the reset spring, the plug is stressed to slide in the first limit frame, the first limit frame and the second limit frame are rotated, the plug and the second limit frame clamp the lead in the rotation process, the plug is released immediately, the plug loses the pressure applied to the reset spring in the pressure losing process, the reset spring loses pressure rebound, the reset spring drives the plug to be inserted into the second limit frame in the rebound process, the plug connects the first limit frame and the second limit frame together, then the positioning block is rotated, the positioning block constrains the positions of the first limit frame and the second limit frame in the rotation process, and drives the clamping block to move in the rotation process of the positioning block, the fixture block is in contact with the support frame in the displacement process, the fixture block exerts pressure on the limiting spring by force when contacting the support frame, the limiting spring is stressed to deform immediately, the limiting spring loses the limitation on the fixture block in the deformation process, the fixture block is stressed to displace immediately, the fixture block is clamped into the support frame in the displacement process, and the fixture block restrains the position of the positioning block immediately.

2. In the utility model, by arranging the buffer device, when the equipment is placed, the damping block is firstly contacted with the ground, the damping block is restrained by the ground to push the limiting rod in the process of contacting the ground, the limiting rod is contracted in the process of being pushed, meanwhile, the damping block applies pressure to the buffer spring in the process of contacting the ground, the buffer spring deforms while receiving the pressure, and then the buffer spring absorbs the acting force applied to the damping block, the buffer frame rotates by being extruded in the deformation process of the buffer spring, the buffer frame extrudes the shock absorption spring in the rotating process, the shock absorption spring deforms in the extruding process, the shock absorption spring buffers the acting force applied to the equipment in the deformation process, and the buffer spring, the damping block and the shock absorption spring are arranged to absorb shock and buffer the equipment, so that the problem that the internal parts are loosened due to the fact that the equipment is easily impacted in the process of placing the equipment is solved, meanwhile, the situation that vibration generated by the desktop easily causes errors to occur in the detection result of the equipment is avoided, and the stability of the equipment is improved.

Drawings

Fig. 1 is a schematic perspective view of a digital detection device for integrated energy according to the present invention;

FIG. 2 is a schematic side view of a digital detection device for integrated energy according to the present invention;

FIG. 3 is a schematic diagram of the structure at the position A in FIG. 2 for the digital detection device of integrated energy according to the present invention;

FIG. 4 is a schematic structural diagram of a clamping device for use in the digital integrated energy detection device according to the present invention;

fig. 5 is a schematic structural diagram of a buffering device used in the integrated energy digitization detecting device according to the present invention.

Illustration of the drawings: 1. a box body; 2. sealing the cover; 3. a control panel; 4. a connecting socket; 5. a clamping device; 51. a support frame; 52. a first limit bracket; 53. positioning blocks; 54. a clamping block; 55. a limiting spring; 56. a return spring; 57. plugging; 58. a second limiting frame; 6. a buffer device; 61. connecting blocks; 62. a buffer spring; 63. a buffer frame; 64. a damping block; 65. a limiting rod; 66. a guide rail; 67. a shock absorbing spring.

Detailed Description

In order that the above objects, features and advantages of the present invention can be more clearly understood, the present invention will be further described with reference to the accompanying drawings and examples. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and thus the present invention is not limited to the specific embodiments of the present disclosure.

Embodiment 1, as shown in fig. 1 to 5, a digital detection device for comprehensive energy sources includes a box 1, a cover 2 and a clamping device 5, wherein one side of the cover 2 close to the box 1 is rotatably connected with the box, a control panel 3 is fixedly connected to the inner wall of the box 1, one side of the box 1 close to the control panel 3 is fixedly connected with a connection socket 4, and the clamping device 5 is arranged at one side of the box 1 close to the connection socket 4.

The specific arrangement and function of the holding means 5 and the damping means 6 will be described in detail below.

As shown in fig. 1 and 4, the clamping device 5 includes a supporting frame 51, one side of the supporting frame 51 close to the box 1 is fixedly connected with the supporting frame, the inner wall of the supporting frame 51 is rotatably connected with a first limiting frame 52, and one side of the supporting frame 51 close to the first limiting frame 52 is rotatably connected with a second limiting frame 58. The support frame 51 is provided, and the positions of the first limiting frame 52 and the second limiting frame 58 can be restricted by the support frame 51.

One side of the support frame 51 close to the connection socket 4 is rotatably connected with a positioning block 53, the inner wall of the positioning block 53 is slidably connected with a clamping block 54, the inner wall of the positioning block 53 is fixedly connected with a limiting spring 55, the inner wall of the first limiting frame 52 is fixedly connected with two symmetrically arranged return springs 56, and the inner wall of the first limiting frame 52 is slidably connected with a plug 57. A positioning block 53 is provided, and the first stopper frame 52 and the second stopper frame 58 can be fixed by the positioning block 53.

One side of the support frame 51 close to the connecting socket 4 is fixedly connected with the support frame, the number of the positioning blocks 53 is two, the two positioning blocks 53 are arranged in axial symmetry by taking the connecting socket 4 as a symmetry axis, the inner wall of each positioning block 53 is slidably connected with the first limiting frame 52, and the inner wall of each positioning block 53 is slidably connected with the second limiting frame 58. The first limiting frame 52 is arranged, and the conducting wire can be clamped through the matching of the first limiting frame 52 and the second limiting frame 58.

The number of the fixture blocks 54 is two, the two fixture blocks 54 are arranged in axial symmetry with the connecting socket 4 as a symmetry axis, one side of the fixture block 54 far away from the positioning block 53 is connected with the support frame 51 in a sliding manner, one end of the limiting spring 55 is fixedly connected with the fixture block 54, one side of the return spring 56 far away from the first limiting frame 52 is fixedly connected with the plug 57, and one side of the plug 57 far away from the return spring 56 is connected with the second limiting frame 58 in a sliding manner. A latch 54 is provided, and the position of the positioning block 53 can be fixed by the latch 54.

The whole clamping device 5 achieves the effects that by arranging the clamping device 5, after a lead is inserted into the connecting socket 4, the plug 57 is pulled, the plug 57 is stressed by the reset spring 56 to exert pressure, the reset spring 56 is stressed to deform immediately, the plug 57 loses constraint in the deformation process of the reset spring 56, the plug 57 is stressed to slide in the first limit frame 52, the first limit frame 52 and the second limit frame 58 are rotated immediately, the lead is clamped by the plug and the second limit frame in the rotation process, the plug 57 is loosened immediately, the plug 57 loses the pressure exerted on the reset spring 56 in the pressure losing process, the reset spring 56 loses pressure and rebounds immediately, the reset spring 56 drives the plug 57 to be inserted into the second limit frame 58 in the rebounding process, the plug 57 connects the first limit frame 52 with the second limit frame 58 together immediately, then the positioning block 53 is rotated, and the positioning block 53 restrains the positions of the first limit frame 52 and the second limit frame 58 in the rotation process, the positioning block 53 drives the fixture block 54 to displace in the rotating process, the fixture block 54 contacts the support frame 51 in the displacement process, the fixture block 54 exerts pressure on the limiting spring 55 by force when contacting the support frame 51, the limiting spring 55 is stressed to deform immediately, the limiting spring 55 loses the limitation on the fixture block 54 in the deformation process, the fixture block 54 is stressed to displace immediately, the fixture block 54 is clamped into the support frame 51 in the displacement process, and the fixture block 54 restricts the position of the positioning block 53 immediately, the scheme is suitable for the aspects of electric power, gas and heat, through arranging the first limiting frame 52, the second limiting frame 58 and the positioning block 53, a wire can be clamped, the situation that the wire is randomly placed when the existing equipment is connected with a sensor, the wire of the connecting sensor is easily loosened by force when the equipment is used is avoided, the fault rate of the equipment is further reduced, and the normal use of the equipment is facilitated, the safety of the equipment is increased.

As shown in fig. 1 and 5, a buffer device 6 is arranged on one side of the box body 1 away from the cover 2, the buffer device 6 comprises a connecting block 61, one side of the connecting block 61 close to the box body 1 is fixedly connected with the connecting block, one side of the connecting block 61 away from the box body 1 is fixedly connected with a buffer spring 62, and the inner wall of the connecting block 61 is rotatably connected with two buffer frames 63 which are symmetrically arranged. A connecting block 61 is provided, by means of which connecting block 61 the device can be fixed to the apparatus.

One side fixedly connected with damping piece 64 that box 1 was kept away from to buffer spring 62, one side fixedly connected with gag lever post 65 that damping piece 64 is close to box 1, one side fixedly connected with guide rail 66 that buffering frame 63 is close to damping piece 64, the inner wall fixedly connected with damping spring 67 of guide rail 66. A buffer spring 62 is provided, and the device can be buffered by the buffer spring 62.

One side that connecting block 61 was kept away from to buffer frame 63 rotates with damping piece 64 to be connected, and one side and connecting block 61 fixed connection that gag lever post 65 is close to box 1, and damping spring 67 keeps away from one side and connecting block 61 fixed connection of guide rail 66. The position of the damping block 64 can be restricted by the limiting rod 65 provided with the limiting rod 65.

The whole buffer device 6 has the effects that by arranging the buffer device 6, when equipment is placed, the damping block 64 is firstly contacted with the ground, the damping block 64 is restrained by the ground in the process of contacting with the ground to push the limiting rod 65, the limiting rod 65 is contracted in the process of being pushed, meanwhile, the damping block 64 applies pressure to the buffer spring 62 in the process of contacting with the ground, the buffer spring 62 is deformed while being stressed, the buffer spring 62 absorbs the acting force of the damping block 64, in the process of deformation of the buffer spring 62, the buffer frame 63 is extruded to rotate, the buffer frame 63 is extruded to the shock absorption spring 67 in the rotating process, the shock absorption spring 67 is deformed in the extruding process, the shock absorption spring 67 buffers the acting force of the equipment in the deforming process, and by arranging the buffer spring 62, damping piece 64 and damping spring 67 can carry out the shock attenuation buffering to equipment, and the in-process equipment of having avoided placing equipment is easily received and is strikeed and then cause the not hard up problem of internals, and the condition of error appears in the testing result of the easy messenger equipment of vibrations of having avoided the desktop to produce simultaneously has increased the stability of equipment.

The above description is only a preferred embodiment of the present invention, and not intended to limit the present invention in other forms, and any person skilled in the art may apply the above modifications or changes to the equivalent embodiments with equivalent changes, without departing from the technical spirit of the present invention, and any simple modification, equivalent change and change made to the above embodiments according to the technical spirit of the present invention still belong to the protection scope of the technical spirit of the present invention.

Claims (7)

1. The utility model provides a be used for digital detection device of comprehensive energy, includes box (1), closing cap (2) and clamping device (5), its characterized in that: one side that closing cap (2) are close to box (1) is connected rather than rotating, the inner wall fixedly connected with control panel (3) of box (1), one side fixedly connected with connection socket (4) that box (1) are close to control panel (3), clamping device (5) are located box (1) and are close to one side setting of connecting socket (4), clamping device (5) include support frame (51), one side that support frame (51) are close to box (1) rather than fixed connection, the inner wall of support frame (51) rotates and is connected with first spacing (52), one side that support frame (51) are close to first spacing (52) rotates and is connected with second spacing (58).

2. The device for the digital detection of the integrated energy sources according to claim 1, characterized in that: one side that support frame (51) is close to connecting socket (4) is rotated and is connected with locating piece (53), the inner wall sliding connection of locating piece (53) has fixture block (54), the spacing spring (55) of inner wall fixedly connected with of locating piece (53), reset spring (56) that the inner wall fixedly connected with of first spacing (52) two symmetries set up, the inner wall sliding connection of first spacing (52) has plug (57).

3. The device for the digital detection of the integrated energy sources according to claim 2, characterized in that: one side that support frame (51) is close to connection socket (4) rather than fixed connection, the quantity of locating piece (53) is two, two locating piece (53) are the axisymmetric setting with connection socket (4) as the symmetry axis, the inner wall and the first spacing (52) sliding connection of locating piece (53), the inner wall and the spacing (58) sliding connection of second of locating piece (53).

4. The device for the digital detection of the integrated energy sources according to the claim 3, characterized in that: the number of the clamping blocks (54) is two, the two clamping blocks (54) are arranged in an axial symmetry mode by taking the connecting socket (4) as a symmetry axis, one side, far away from the positioning block (53), of each clamping block (54) is connected with the support frame (51) in a sliding mode, one end of the limiting spring (55) is fixedly connected with the clamping blocks (54), one side, far away from the first limiting frame (52), of the return spring (56) is fixedly connected with the plug bolt (57), and one side, far away from the return spring (56), of the plug bolt (57) is connected with the second limiting frame (58) in a sliding mode.

5. The device for the digital detection of the integrated energy sources according to claim 1, characterized in that: one side that closing cap (2) were kept away from in box (1) is provided with buffer (6), buffer (6) are including connecting block (61), one side that connecting block (61) are close to box (1) rather than fixed connection, one side fixedly connected with buffer spring (62) of box (1) are kept away from in connecting block (61), the inner wall of connecting block (61) rotates and is connected with buffer frame (63) that two symmetries set up.

6. The device for the digital detection of the integrated energy sources according to claim 5, characterized in that: buffer spring (62) keep away from one side fixedly connected with damping piece (64) of box (1), one side fixedly connected with gag lever post (65) that damping piece (64) are close to box (1), one side fixedly connected with guide rail (66) that buffer bracket (63) are close to damping piece (64), the inner wall fixedly connected with damping spring (67) of guide rail (66).

7. The device for the digital detection of the integrated energy sources according to claim 6, characterized in that: one side that connecting block (61) were kept away from in buffer bracket (63) rotates with damping piece (64) to be connected, one side and connecting block (61) fixed connection that gag lever post (65) are close to box (1), one side and connecting block (61) fixed connection that guide rail (66) were kept away from in damping spring (67).

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