CN212934933U - Auxiliary equipment combined machine - Google Patents

Abstract

The utility model discloses an auxiliary assembly combination machine is applied to seismic exploration equipment, auxiliary assembly combination machine includes: a support frame; the at least two auxiliary single devices are arranged on the supporting frame, every two adjacent auxiliary single devices can be detachably fixed, and each auxiliary single device comprises a plurality of plug sockets which are used for being in plug fit with the seismic exploration device; and the signal connector is arranged on one auxiliary single-unit device and is in signal connection with the other adjacent auxiliary single-unit device. The utility model discloses technical scheme's auxiliary assembly combination machine can improve the efficiency of site exploration work.

Description

Auxiliary equipment combined machine

Technical Field

The utility model relates to a geographic exploration technical field, in particular to auxiliary assembly combination machine.

Background

Seismic exploration equipment typically includes acquisition devices and power supply devices for powering the acquisition devices. During the use process, the auxiliary equipment is generally required to be used for charging the seismic exploration equipment, testing the performance of the seismic exploration equipment, downloading data and the like. During field exploration, a large amount of seismic exploration equipment is required to work at the same time, so that after exploration, corresponding charging, performance testing and downloading operations of the large amount of seismic exploration equipment are required to be carried out at the same time. At present, when a large amount of seismic exploration equipment is charged, tested in performance and downloaded, the number of auxiliary equipment is generally increased, but with the increase of the auxiliary equipment, the problems of complicated wiring operation, easy connection error and the like are also brought, and the efficiency of field exploration work is influenced.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims at providing an auxiliary assembly combination machine aims at improving the efficiency of site exploration work.

In order to achieve the above object, the utility model provides an auxiliary assembly unit is applied to seismic exploration equipment, the auxiliary assembly unit includes:

a support frame;

the at least two auxiliary single devices are arranged on the supporting frame, every two adjacent auxiliary single devices are detachably and fixedly connected, and each auxiliary single device comprises a plurality of plug sockets which are used for being in plug fit with the seismic exploration device; and

and the signal connector is arranged on one auxiliary single-unit device and is in signal connection with the other adjacent auxiliary single-unit device.

Optionally, the supporting frame has a height direction, and at least two auxiliary single devices are sequentially stacked in the height direction.

Optionally, the auxiliary equipment combined machine further includes a connecting structure, one end of the connecting structure is connected to an outer wall of one auxiliary single equipment, and the other end of the connecting structure is connected to an outer wall of another adjacent auxiliary single equipment, so that two adjacent auxiliary single equipments can be detachably and fixedly connected.

Optionally, the auxiliary single device includes an outer box body, the outer box body has an opening, the plurality of sockets are installed in the outer box body and can be exposed through the opening, a mounting groove is concavely formed in a side wall of the outer box body, and the signal connector is arranged in the mounting groove.

Optionally, a charging board assembly, a hub board and a main control board are arranged in the outer box body, the charging board assembly, the hub board and the main control board are arranged at intervals, and the charging board assembly is electrically connected with the plug socket, or the hub board is electrically connected with the plug socket, or the main control board is electrically connected with the plug socket.

Optionally, the auxiliary equipment combined machine further comprises a shock absorption frame, and the shock absorption frame is connected to one side, back to the opening, of the outer box body.

Optionally, the auxiliary equipment assembly machine further comprises a mounting bracket located at the top of the auxiliary equipment assembly machine and operable to mount a display.

Optionally, the mounting rack includes a fixing bracket and a connecting bracket, the fixing bracket is located at the top of the auxiliary equipment combined machine, and the connecting bracket is detachably connected to the fixing bracket and used for mounting the display.

Optionally, the mounting bracket further comprises an elastic snap ring, the elastic snap ring is fixedly connected to one side of the connecting bracket, which is away from the display, and the elastic snap ring is detachably clamped and fixed with the fixing bracket, so that a gap is formed between the connecting bracket and the fixing bracket.

Optionally, the socket includes a socket body and a plug, the socket body is provided with a socket, the plug is disposed in the socket, and the seismic exploration equipment is plugged in the socket and electrically connected to the plug.

According to the technical scheme of the utility model, at least two auxiliary single devices are arranged on the support frame, and the two adjacent auxiliary single devices are detachably and fixedly connected, and each auxiliary single device is provided with the socket, so that the seismic exploration device can be in socket fit with the socket to realize electrical conduction; and by arranging a signal connector at each auxiliary single body, two adjacent auxiliary single body devices can be connected in series through signals. Therefore, when a large amount of seismic exploration equipment needs to be charged, tested in performance or downloaded, signals of other auxiliary single equipment can be conducted only by connecting one auxiliary single equipment without connecting all auxiliary single equipment, so that the steps of wiring operation are greatly reduced, the error rate is reduced, and the efficiency of field exploration work is improved. And two supplementary monomer equipment can dismantle the connection for when the field exploration, can make up supplementary monomer equipment according to actual need, in order to satisfy actual demand, dismouting easy operation, convenience, efficient moreover.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of an auxiliary equipment assembly machine according to the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1 at B;

FIG. 3 is a schematic structural view of another view angle of the auxiliary equipment assembly machine of the present invention;

FIG. 4 is an enlarged view of a portion of FIG. 3 at A;

FIG. 5 is a schematic view of the auxiliary equipment assembly machine of the present invention with part of the structure removed;

FIG. 6 is an enlarged view of a portion of FIG. 5 at C;

fig. 7 is another view of the auxiliary equipment assembly machine of the present invention with part of the structure removed.

The reference numbers illustrate:

the objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that all the directional indicators (such as upper, lower, left, right, front and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicator is changed accordingly.

In the present application, unless expressly stated or limited otherwise, the terms "connected" and "fixed" are to be construed broadly, e.g., "fixed" may be fixedly connected or detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In addition, descriptions in the present application as to "first", "second", and the like are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicit to the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the meaning of "and/or" appearing throughout is to include three juxtapositions, exemplified by "A and/or B," including either the A or B arrangement, or both A and B satisfied arrangement. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

The utility model provides an auxiliary assembly unit 100 is applied to seismic exploration equipment (not shown), and wherein seismic exploration equipment generally including collection system and power supply unit, in practical application, after exploring, all need utilize seismic exploration auxiliary assembly to charge power supply unit usually to and carry out capability test or download the data collection to collection system. In the process of on-site geographic exploration, when a large number of seismic exploration equipment needs to be charged, tested or downloaded simultaneously, a large number of seismic exploration auxiliary equipment needs to be connected, and exploration work is low.

Referring to fig. 1 to 7, in an embodiment of the present invention, the auxiliary equipment assembly machine 100 includes:

a support frame 10;

at least two auxiliary single devices 20, which are mounted on the support frame 10, wherein two adjacent auxiliary single devices 20 are detachably fixed, and each auxiliary single device 20 comprises a plurality of sockets 21 for being in socket fit with the seismic exploration device; and

at least one signal connector 30, wherein the signal connector 30 is disposed on one auxiliary single-unit device 20 to be in signal connection with another adjacent auxiliary single-unit device 20.

Specifically, the support frame 10 is mainly used to support the auxiliary single-piece devices 20 and components thereof, and the support frame 10 may be a seat 211 structure welded by an angle steel or a channel steel structure, and the shape of the seat may be designed to be rectangular, so as to ensure that the support frame 10 has good structural strength and is convenient to machine, manufacture and mold. Of course, the bottom of the support frame 10 may also be provided with a connector for connecting other external components.

The auxiliary single-unit device 20 is mainly used for connecting with seismic exploration equipment to perform operations such as charging, performance testing and data downloading. The auxiliary single-unit device 20 may be horizontally mounted on the supporting frame 10, or may be vertically stacked on the supporting frame 10. In this embodiment, the number of the sockets 21 provided for each auxiliary single-unit device 20 may be 16, so that each auxiliary single-unit device 20 can be connected to 16 seismic exploration devices for operation, and according to the actual needs of field exploration, when more seismic exploration devices are required to be operated, more auxiliary single-unit devices 20 may be connected, for example, when 2 devices are connected, a combination machine with 32 sockets 21 may be formed, and when 3 devices are connected, a combination machine with 48 sockets 21 may be formed.

The signal connector 30 may be daisy-chain connected, and the signal connector 30 connects two adjacent auxiliary single devices 20 in series to realize the communication of circuit signals, so that all the auxiliary single devices 20 mounted on the supporting frame 10 are connected in series to form an assembly.

Therefore, the technical scheme of the utility model is that at least two auxiliary single devices 20 are installed on the support frame 10, and the adjacent two auxiliary single devices 20 are fixed in a detachable manner, and each auxiliary single device 20 is provided with the socket 21, so that the seismic exploration device can be in socket fit with the socket 21 to realize electrical conduction; and by arranging a signal connector 30 at each auxiliary unit, two adjacent auxiliary unit devices 20 can be connected in series by signals. Therefore, when a large amount of seismic exploration equipment needs to be charged, tested in performance or downloaded, only one auxiliary single equipment 20 needs to be connected, and signals of other auxiliary single equipment 20 can be conducted without connecting all auxiliary single equipment 20, so that the steps of connection operation are greatly reduced, the error rate is reduced, and the efficiency of field exploration work is improved. And two supplementary monomer equipment 20 can dismantle the connection for when the on-the-spot exploration, can make up supplementary monomer equipment 20 according to actual need, in order to satisfy actual demand, dismouting easy operation, convenience, efficient moreover.

In an embodiment of the present application, the supporting frame 10 has a height direction, and at least two auxiliary single devices 20 are sequentially stacked in the height direction. In this embodiment, the number of the auxiliary single devices 20 may be 3, and the number of the sockets 21 of each auxiliary single device 20 is 16, so that 3 auxiliary single devices 20 are stacked to form a combined machine with 48 sockets 21, and the combined machine is stacked in the height direction of the support frame 10, so that the occupied area of the auxiliary combined machine 100 is small, and the installation and transportation are convenient.

In an embodiment of the present application, the auxiliary equipment combined machine 100 further includes a connecting structure 40, one end of the connecting structure 40 is connected to an outer wall of one of the auxiliary single-piece devices 20, and the other end of the connecting structure 40 is connected to an outer wall of another adjacent auxiliary single-piece device 20, so that two adjacent auxiliary single-piece devices 20 can be detachably fixed.

In the above embodiment, the connection structure 40 includes the connection plate, one side of the connection plate is detachably connected to the outer wall of one auxiliary single-body device 20, and the other side of the connection plate is detachably connected to the outer wall of another auxiliary single-body device 20, for example, screw holes may be respectively formed in the connection plate and the outer wall of the auxiliary single-body device 20, so that the detachable connection between the connection plate and the auxiliary single-body device 20 is realized through the screw. Understandably, the structure that two adjacent auxiliary single devices 20 are connected through the connecting plate is simple, the disassembly and the assembly are convenient, the connecting plate has a limiting effect, and the auxiliary single devices 20 after being overlapped can be prevented from deviating.

In another embodiment, the connection structure 40 includes a connection column, the outer walls of two adjacent auxiliary single devices 20 are provided with through holes, and the connection column is inserted into the two through holes, so as to detachably fix the two auxiliary single devices 20, and thus, the connection stability of the two auxiliary single devices 20 is better.

Further, in this application, the auxiliary single device 20 includes an outer box 22, the outer box 22 has an opening, the plurality of sockets 21 are installed in the outer box 22 and can be exposed through the opening, a mounting groove 221 is concavely provided on a side wall of the outer box 22, and the signal connector 30 is disposed in the mounting groove 221.

The outer box 22 is a straight quadrangular prism with a rectangular bottom surface, so that the structure of the outer box 22 is more stable, and the connection between the surfaces of the outer box 22 can be in smooth transition, thereby avoiding scratching a user. The material of the outer case 22 can be metal (the material of the metal can be selected from stainless steel material, aluminum alloy material, copper alloy material, iron alloy material, etc.), plastic (the plastic can be selected from hard plastic, such as ABS, POM, PS, PMMA, PC, PET, PBT, PPO, etc.), other alloy materials, etc. Or a mixture of metal material and plastic. Thus, it is more favorable to improve the stability of the outer case 22, and the practicability, reliability, and durability of the outer case 22 are effectively improved.

In this application, the lateral wall of outer box 22 still is equipped with air-inlet grille 223, so make the air can get into outer box 22 through air-inlet grille 223 in to ventilate to outer box 22 is inside, guarantee that the electric heat that bayonet socket 21 and seismic exploration equipment electric connection produced can discharge fast.

In this embodiment, the mounting groove 221 is disposed on the adjacent side wall of the outer box 22 with the opening, and by disposing the mounting groove 221, the signal connector 30 can be accommodated in the mounting groove 221 without protruding the side wall surface of the outer box 22, so that the signal connector 30 is not easily damaged in transportation, and the service life of the signal connector 30 is ensured.

Furthermore, the side wall of the box body is further concavely provided with a handle fastening position 222, and the handle fastening position 222 and the mounting groove 221 are positioned on the same side wall of the box body. By providing the hand-clasping position 222, the user can carry out the carrying operation through the hand-clasping position 222, thereby increasing the convenience of the assembly operation of the auxiliary single-body equipment 20.

In order to enable the seismic exploration equipment to be capable of charging, testing and downloading, in the application, be equipped with charging panel subassembly 50, concentrator board 60 and main control board (not marked) in the outer box 22, charging panel subassembly 50 concentrator board 60 with the mutual interval setting of main control board, charging panel subassembly 50 with bayonet socket 21 electric connection, perhaps concentrator board 60 with bayonet socket 21 electric connection, perhaps the main control board with bayonet socket 21 electric connection.

The charging board assembly 50 includes a charging circuit board, which is mainly used to charge the power supply device of the seismic exploration equipment through the socket 21 after being connected with an external power source. The concentrator board 60 is used for signal connection with an external server, and after the seismic exploration equipment is electrically plugged with the plug socket 21, data can be downloaded to the acquisition device of the seismic exploration equipment through the concentrator board 60. The main control board is provided with a communication connector for signal connection with an external processor, and after the seismic exploration equipment is connected with the plug socket 21, the main control board can be electrically connected with the plug socket 21 through the communication connector, so that after a circuit of the main control board is switched on, the working state of an acquisition device in the seismic exploration equipment can be tested, and the working state is fed back to the external processor through the communication connector. Therefore, in practical application, the control socket 21 can be connected with the charging board or the concentrator board 60 or the main control board, so that corresponding charging, downloading or testing operations can be selected, the charging function, the downloading function and the testing function are integrated, an additional charging device, a testing device or a downloading device does not need to be separately equipped, and the convenience of use of a user is greatly improved.

Since the auxiliary equipment combiner 100 is generally transported to a field site for use, the auxiliary equipment combiner 100 is not damaged during transportation. In an embodiment of the present application, the auxiliary equipment assembly machine 100 further includes a shock absorbing frame 70, and the shock absorbing frame 70 is connected to a side of the outer box 22 facing away from the opening. The shock absorbing frame 70 may be an elastic shock absorbing structure, so that during transportation, the shock absorbing frame 70 may be connected to the transportation equipment, and the shock absorbing frame 70 may buffer the vibration, so as to prevent the auxiliary equipment combined machine 100 from being damaged by the vibration during transportation.

Further, the auxiliary equipment assembly machine 100 of the present application further includes a mounting bracket 80, and the mounting bracket 80 is located at the top of the auxiliary equipment assembly machine 100 and can be used for mounting the display 200. For example, when the number of the auxiliary unit devices 20 is 3, 3 auxiliary unit devices 20 are stacked on the support frame 10, and the mounting bracket 80 may be mounted on the top of the auxiliary unit devices 20 far from the support frame 10. Through the mounting bracket 80, the display 200 can be stably and firmly mounted on the auxiliary device combined machine 100, so that the data downloading state and the performance testing state can be displayed and watched through the display 200, a user can follow the display in real time, and the use is more convenient.

Based on the above embodiments, in an embodiment of the present application, the mounting rack 80 includes a fixing bracket 81 and a connecting bracket 82, the fixing bracket 81 is located at the top of the auxiliary equipment combined machine 100, and the connecting bracket 82 is detachably connected to the fixing bracket 81 and is used for mounting the display 200.

Wherein, fixed bolster 81 accessible welding or the mode of screw connection are fixed in the top of supplementary monomer equipment 20, and fixed bolster 81 includes first fixed plate 811 and two second fixed plates 812, and two second fixed plates 812 are connected respectively in the relative both sides limit of first fixed plate 811 to first fixed plate 811 and two second fixed plates 812 all are connected with the outer box 22 of supplementary monomer equipment 20, so make fixed bolster 81's structural stability good, be difficult to take place to warp. The connecting bracket 82 is detachably connected with the fixing bracket 81, so that when the display 200 is disassembled and assembled, the connecting bracket 82 and the fixing bracket 81 can be detached firstly, and then the display 200 and the connecting bracket 82 are detached, so that the convenience for disassembling and assembling the display 200 is effectively improved, and the disassembling and assembling efficiency is high.

Further, this application mounting bracket 80 still includes snap ring 83, snap ring 83 fixed connection in linking bridge 82 deviates from one side of display 200, and with the joint is fixed can be dismantled to fixed bolster 81, so that linking bridge 82 with be formed with the clearance between the fixed bolster 81.

In this embodiment, one side of fixed bolster 81 towards linking bridge 82 is equipped with first joint strip (not marking), and first joint strip is equipped with the joint hole, and linking bridge 82 is equipped with second joint strip (not marking) towards one side of fixed bolster 81, and snap ring 83 has the joint mouth, snap ring 83 and second joint strip fixed connection to the accessible joint mouth joint is downthehole in the joint, so that linking bridge 82 can dismantle fixedly with fixed bolster 81, and the dismouting easy operation is convenient laborsaving. And because the setting of joint ring for certain distance is kept apart to the interval between linking bridge 82 and the fixed bolster 81, thereby when display 200 installs in linking bridge 82 after, conveniently ventilate, heat dispersion is better.

In an embodiment of the present application, the socket 21 includes a socket 211 and a plug 212, the socket 211 is provided with a socket 2111, the plug 212 is disposed in the socket 2111, and the seismic exploration equipment is plugged in the socket 2111 and electrically connected to the plug 212. The base 211 is rectangular, the base 211 is fixed to the inner wall of the outer case 22, and the connector 212 is disposed in the slot 2111, so that the seismic exploration equipment can be limited by the slot 2111 when being connected to the connector 21, thereby ensuring the stability of electrical connection with the connector 212 and ensuring the smoothness of the circuit.

Further, in an embodiment of the application, an indicator lamp 23 is further disposed on the surface of the base 211 where the inserting groove 2111 is formed, wherein the indicator lamp 23 may be an LED lamp, and the indicator lamp 23 is electrically connected to the inserting connector 212, so that a user can determine whether the connection of the seismic exploration equipment or the reading and writing of data is normal or not by setting the indicator lamp 23 through the color change and the flashing frequency of the LED lamp. Therefore, the user can observe the charging, downloading and testing conditions conveniently, and the use convenience of the user is further improved.

Further, a fool-proof structure (not shown) is provided in the insertion groove 2111. This prevent slow-witted structure can be for preventing slow-witted groove or prevent slow-witted protruding muscle, through setting up a plurality of slow-witted grooves of preventing of interval difference or prevent slow-witted protruding muscle, can guarantee that seismic exploration equipment inserts that the mode of inserting groove 2111 is unique to guarantee only with the installation contact of bayonet joint 212, improved the installation effectiveness, and prevent the damage of bayonet joint 212 and seismic exploration equipment. It will be appreciated that the fool-proof structure may also be a fool-proof alignment mark (key slot-like structure) that makes the insertion of seismic exploration equipment into the docking slot 2111 unique, or by other fool-proof structures, as long as fool-proof is facilitated.

The above only is the preferred embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structure changes made by the contents of the specification and the drawings under the inventive concept of the present invention, or the direct/indirect application in other related technical fields are included in the patent protection scope of the present invention.

Claims (10)

1. An auxiliary equipment combiner for use in seismic exploration equipment, the auxiliary equipment combiner comprising:

a support frame;

the at least two auxiliary single devices are arranged on the supporting frame, every two adjacent auxiliary single devices are detachably and fixedly connected, and each auxiliary single device comprises a plurality of plug sockets which are used for being in plug fit with the seismic exploration device; and

and the signal connector is arranged on one auxiliary single-unit device and is in signal connection with the other adjacent auxiliary single-unit device.

2. The auxiliary equipment assembly machine of claim 1, wherein said supporting frame has a height direction, and at least two of said auxiliary single-unit equipments are sequentially stacked in said height direction.

3. The auxiliary equipment combining machine as claimed in claim 2, further comprising a connecting structure, wherein one end of the connecting structure is connected to an outer wall of one auxiliary single-unit equipment, and the other end of the connecting structure is connected to an outer wall of another adjacent auxiliary single-unit equipment, so that two adjacent auxiliary single-unit equipments can be detachably and fixedly connected.

4. The auxiliary equipment combination machine of claim 1, wherein the auxiliary single equipment comprises an outer box, the outer box has an opening, a plurality of the sockets are mounted in the outer box and can be exposed through the opening, a mounting groove is concavely formed on a side wall of the outer box, and the signal connector is arranged in the mounting groove.

5. The auxiliary device combination machine as claimed in claim 4, wherein a charging board assembly, a hub board and a main control board are arranged in the outer box body, the charging board assembly, the hub board and the main control board are arranged at intervals, the charging board assembly is electrically connected with the socket, or the hub board is electrically connected with the socket, or the main control board is electrically connected with the socket.

6. The auxiliary equipment combiner of claim 4, further comprising a shock-absorbing mount connected to a side of the outer case facing away from the opening.

7. An auxiliary equipment assembly machine according to any one of claims 1 to 6 further including a mounting bracket located at the top of the auxiliary equipment assembly machine and adapted to mount a display.

8. The auxiliary equipment assembly machine of claim 7 wherein the mounting bracket includes a fixed bracket and a connecting bracket, the fixed bracket being located at a top of the auxiliary equipment assembly machine, the connecting bracket being removably connected to the fixed bracket and being adapted to mount the display.

9. The auxiliary equipment assembly machine of claim 8, wherein the mounting bracket further comprises a snap ring fixedly connected to a side of the connecting bracket facing away from the display and detachably snap-fastened to the fixing bracket, such that a gap is formed between the connecting bracket and the fixing bracket.

10. The auxiliary equipment assembly machine of any one of claims 1 to 6, wherein the socket comprises a base body and a plug, the base body is provided with a socket groove, the plug is arranged in the socket groove, and the seismic exploration equipment is plugged in the socket groove and electrically connected with the plug.

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