CN211129996U - Special toolbox for remote sensing surveying and mapping - Google Patents

Abstract

The utility model discloses a remote sensing survey and drawing specialized tool case, including box and case lid, be provided with mechanical lock seat on the box, be provided with mechanical lock body on the case lid, mechanical lock seat has seted up the lock chamber, mechanical lock body include lock body shell and with lock chamber matched with spring bolt, all be fixed with the electro-magnet on lock body shell and the spring bolt, during the electro-magnet outage, the spring bolt cooperatees with the lock chamber, realizes the locking to the toolbox, during the electro-magnet circular telegram, makes spring bolt and lock chamber separation through the electromagnetic actuation of electro-magnet, realizes unblanking. The problem that instruments in the tool box fall and are damaged due to the fact that the tool box is automatically opened in the moving process is effectively avoided. Slidable is provided with the baffle in the box, and the below of baffle is provided with elevating system, and elevating system is used for the lift baffle, makes the toolbox can be according to the size of the big or small self-adaptation change toolbox volume of instrument, has solved current toolbox and can't press from both sides tight fixed to inside instrument, leads to the easy collision problem of damage of inside instrument when removing the toolbox.

Description

Special toolbox for remote sensing surveying and mapping

Technical Field

The utility model relates to a toolbox field specifically is a special toolbox of remote sensing survey and drawing.

Background

Remote sensing refers to non-contact, remote sensing techniques. Generally, the detection of the radiation and reflection characteristics of electromagnetic waves of an object by using a sensor or a remote sensor is used. Remote sensing is the detection of a target ground object by means of a remote sensor or other electromagnetic wave sensitive instrument under the conditions of being far away from the target and not contacting the target object. Remote sensing survey is adopted comparatively accurate high accuracy measurement machinery such as unmanned aerial vehicle to carry out the scene promptly long-range reconnaissance monitoring more, consequently, the security requirement of the transport of the measuring instrument of remote sensing survey usefulness is higher, activity buckle carries out the kayser to the toolbox commonly used at present, the toolbox is opened easily in the in-process of transportation, lead to precision measurement machinery to break away from in the toolbox, thereby cause precision measurement machinery to be damaged, influence reconnaissance measuring effect, also have to adopt the mechanical lock to fix, but when needs frequently use the instrument, need frequent use key to unblank the toolbox, the time cost is increased, influence survey measuring efficiency.

Meanwhile, because the instrument for remote sensing mapping is precise, the instrument is placed in a tool box, so that the instrument is guaranteed not to shake in the box, otherwise, the instrument shakes in the box in the moving process, and the instrument is damaged. The existing tool boxes cannot be suitable for the sizes of instruments, and each instrument needs to be specially made to meet the requirements, so that the cost is increased. Therefore, the brand-new remote sensing mapping toolbox has great market prospect.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art not enough, provide a remote sensing survey and drawing specialized tool case, possess the advantage of anticollision, solved current toolbox and can't press from both sides tightly fixedly to inside instrument, lead to the problem that inside instrument bumps easily and damages when moving the toolbox, it is good to have locking ability simultaneously, and the advantage that the unblanking speed is fast has reduced unpacking time, has improved measuring efficiency.

The purpose of the utility model is realized through the following technical scheme: a special toolbox for remote sensing surveying and mapping comprises a toolbox and a toolbox cover, wherein one side of the upper end of the toolbox body is rotatably connected with the toolbox cover, one side of the toolbox cover, which is close to the toolbox body, is provided with an elastic layer, the other side of the toolbox body is provided with a mounting groove a, a mechanical lock seat is arranged in the mounting groove a, a mounting groove b is arranged on the toolbox cover, a mechanical lock body is arranged in the mounting groove b, and the mechanical lock seat is matched with;

a lock cavity is formed in the mechanical lock seat, the mechanical lock body comprises a lock body shell, a guide frame, a spring and a lock tongue, the lock body shell is fixed in the mounting groove b, the guide frame is fixed in the lock body shell, the lock tongue is slidably arranged in the guide frame, two ends of the spring are fixedly connected with the lock body shell and the lock tongue respectively, when the spring is in a normal state, electromagnets are fixed at one ends, far away from the lock cavity, of the guide frame and the lock tongue, and the lock tongue is matched with the lock cavity;

the box is internally provided with a partition board in a sliding manner, the box is internally provided with a lifting mechanism, the lifting mechanism is located below the partition board, and the lifting mechanism is used for lifting the partition board.

Furthermore, a lock cylinder is arranged in the box cover and used for separating the lock tongue from the lock cavity, and a lock hole is formed in one end, provided with the mechanical lock body, of the box cover and located right in front of the lock cylinder.

Further, the lock core includes lock seat, lock post and gear, the rotatable setting of lock seat is in the case lid, the keyhole has been seted up to the one end of lock seat, and the other end is fixed with the lock post, the one end of lock post is fixed with the gear, be provided with the hobbing on the spring bolt, the hobbing with gear engagement.

Further, elevating system includes screw rod an, screw rod b, intermediate shaft coupling and two branches, intermediate shaft coupling's both ends are connected with respectively screw rod a and screw rod b, screw rod a and screw rod b set up to opposite soon, there is slider a through threaded connection on the screw rod a, there is slider b through threaded connection on the screw rod b, slider a with slider b all with the bottom sliding connection of box, two the one end of branch respectively with slider a and slider b are articulated, the other end all with the baffle is articulated, screw rod b keeps away from intermediate shaft coupling's one end is connected with drive arrangement, drive arrangement is used for the drive screw rod b rotates.

Further, the driving device comprises a sleeve, a rotary table and a pull rod, the sleeve is slidably sleeved on the screw rod b, the rotary table is fixed at one end, far away from the screw rod b, of the sleeve, the pull rod is fixed on the side face of the rotary table, and the height of the pull rod is larger than that of the sleeve.

Furthermore, an annular groove is symmetrically formed in the sleeve, a protruding block is symmetrically fixed to one end, far away from the intermediate coupling, of the screw rod b, and the protruding block is slidably arranged in the annular groove.

Furthermore, a fixing groove is formed in the side face of the box body, and the pull rod is matched with the fixing groove.

The utility model has the advantages that:

the utility model provides a remote sensing survey and drawing specialized tool case, includes box and case lid, is provided with mechanical lock seat on the box, is provided with mechanical lock body on the case lid, and the lock chamber has been seted up to mechanical lock seat, and mechanical lock body includes lock body shell and with lock chamber matched with spring bolt, all is fixed with the electro-magnet on lock body shell and the spring bolt, and during the electro-magnet outage, the spring bolt cooperatees with the lock chamber, realizes the locking to the toolbox, and during the electro-magnet circular telegram, the electromagnetism actuation through the electro-magnet makes spring bolt and lock chamber separation, realizes unblanking. The problem that instruments in the tool box fall down to be damaged due to the fact that the tool box is automatically opened in the moving process is effectively avoided, meanwhile, the unlocking time is shortened, and the measuring efficiency is improved.

Slidable is provided with the baffle in the box, and the below of baffle is provided with elevating system, and elevating system is used for the lift baffle, changes the volume of toolbox through the lift baffle, makes the toolbox can be according to the size of the big or small self-adaptation change toolbox volume of instrument, makes the toolbox possess the advantage of anticollision, has solved current toolbox and can't press from both sides tightly fixedly to inside instrument, leads to the easy collision problem of damage of inside instrument when moving the toolbox.

Drawings

FIG. 1 is a schematic view of the overall structure of a special tool box for remote sensing and mapping of the present invention;

FIG. 2 is a top view of the utility model of a tool box dedicated for remote sensing and mapping;

FIG. 3 is a cross-sectional view taken along line A-A of FIG. 2;

FIG. 4 is a schematic view of a mechanical lock body in a tool box for remote sensing and mapping of the present invention;

FIG. 5 is a schematic view of a mechanical lock seat structure in a tool box dedicated for remote sensing and mapping of the present invention;

FIG. 6 is a schematic diagram of the structure of the lock cylinder in the special tool box for remote sensing and mapping of the present invention;

FIG. 7 is a schematic view of the lifting mechanism in the special tool box for remote sensing and mapping of the present invention;

in the figure, 1-box body, 2-box cover, 3-installation groove a, 4-mechanical lock seat, 5-installation groove b, 6-mechanical lock body, 7-lock body shell, 8-guide frame, 9-spring, 10-lock tongue, 11-lock cavity, 12-electromagnet, 13-partition plate, 14-lifting mechanism, 15-lock core, 16-lock hole, 17-lock seat, 18-lock column, 19-gear, 20-hobbing, 21-screw a, 22-screw b, 23-intermediate coupling, 24-slide block a, 25-slide block b, 26-support rod, 27-elastic layer, 28-sleeve, 29-turntable, 30-pull rod, 31-annular groove, 32-lug and 33-fixed groove.

Detailed Description

The technical solution of the present invention is described in further detail below with reference to the accompanying drawings, but the scope of the present invention is not limited to the following description.

As shown in fig. 1 to 5, a tool box special for remote sensing surveying and mapping is characterized by comprising a box body 1 and a box cover 2, wherein the box cover 2 is rotatably connected to one side of the upper end of the box body 1, an elastic layer 27 is arranged on one side, close to the box body 1, of the box cover 2, a mounting groove a3 is formed in the other side of the box body 1, a mechanical lock seat 4 is arranged in a mounting groove a3, a mounting groove b5 is formed in the box cover 2, a mechanical lock body 6 is arranged in a mounting groove b5, and the mechanical lock seat 4 is matched with;

the mechanical lock seat 4 is internally provided with a lock cavity 11, the mechanical lock body 6 comprises a lock body shell 7, a guide frame 8, a spring 9 and a lock tongue 10, the lock body shell 7 is fixed in a mounting groove b5, the guide frame 8 is fixed in the lock body shell 7, the lock tongue 10 is slidably arranged in the guide frame 8, two ends of the spring 9 are fixedly connected with the lock body shell 7 and the lock tongue 10 respectively, the spring 9 is in a normal state, one ends of the lock cavity 11, far away from the lock cavity 11, of the guide frame 8 and the lock tongue 10 are both fixed with an electromagnet 12, and the lock tongue 10 is matched with the lock cavity 11.

The working engineering of the mechanical lock body 6 is as follows: when the power is on, the electromagnet 12 in the guide frame 8 and the electromagnet 12 on the lock tongue 10 are electromagnetically attracted, the spring 9 is compressed, the lock tongue 10 is separated from the lock cavity 11, and the unlocking state is achieved. After power failure, the electromagnet 12 in the guide frame 8 is separated from the electromagnet 12 on the bolt 10, and the bolt 10 is ejected into the lock cavity 11 under the action of the elastic force of the spring 9, and at the moment, the locking state is achieved.

When concrete implementation, be provided with the controller in the box 1, box 1 sets up the induction zone outward, need dispose the electromagnetic card, and the electromagnetic card leans on behind the induction zone, and the electromagnetic card receives the signal after, the actuation and the separation of two electro-magnets 12 of control to realize unblanking and locking, avoided traditional buckle locking, make case lid 2 easily open, lead to the instrument to fall the damage, avoided traditional mechanical lock to cause the unblanking speed slow simultaneously, thereby influence measurement of efficiency. It is worth noting that the electromagnet 12 is made of soft iron or silicon steel, and the soft iron and the silicon steel can enable the electromagnet to lose magnetism immediately when the power is cut off, so that the bolt 10 can be enabled to lock the box body 1 more quickly.

In order to avoid accidental power failure or damage to the electromagnet 12, the bolt 10 and the lock cavity 11 cannot be separated through electromagnetic induction, so that the tool box cannot be opened, and the following structure is designed for the tool box:

as shown in fig. 6, a lock cylinder 15 is arranged in the box cover 2, the lock cylinder 15 is used for separating the bolt 10 from the lock cavity 11, a lock hole 16 is arranged at one end of the box cover 2, which is provided with the mechanical lock body 6, and the lock hole 16 is positioned right in front of the lock cylinder 15;

the lock core 15 includes a lock base 17, a lock column 18 and a gear 19, the lock base 17 is rotatably arranged in the box cover 2, one end of the lock base 17 is provided with a lock hole, the other end is fixed with the lock column 17, one end of the lock column 17 is fixed with the gear 19, the bolt 10 is provided with a hobbing 20, and the hobbing 20 is meshed with the gear 19.

The working principle of the lock cylinder 15 is as follows: when a key is inserted into the lock hole, the lock seat 17 is rotated, so that the lock cylinder 18 is driven to rotate, and due to the cooperation of the gear 19 and the gear hobbing 20, when the gear 19 rotates, the gear hobbing 20 moves, so that the lock bolt 10 moves, and the lock bolt 10 is separated from the lock cavity 11, so that unlocking is realized.

The adaptation of mechanical lock seat 4 and mechanical lock body 6 has guaranteed that the instrument of incasement can not fall at the in-process of transportation, but the inside of current toolbox can not fix the instrument, and the in-process instrument of transporting rocks at the incasement, will cause the damage to the instrument. In the prior art, a special tool box is specially manufactured for each instrument to solve the problem of shaking, so that the cost is increased, meanwhile, if the tool box is damaged, a new tool box needs to be specially manufactured again, the manufacturing time is long, so that the instrument cannot be stored in the tool box as soon as possible, and the instrument is easily damaged. Therefore, the most fundamental way to solve the problem is to adjust the internal volume of the tool box according to the size of the instrument, so that the tool box has the function of self-adapting to the size of the instrument, thereby realizing the fixation of the instrument and ensuring that the instrument cannot collide in the tool box. The application has designed following device to solve the problem that the instrument rocks in the case.

As shown in fig. 3, a partition plate 13 is slidably disposed in the box 1, a lifting mechanism 14 is disposed in the box 1, the lifting mechanism 14 is located below the partition plate 13, and the lifting mechanism 14 is used for lifting the partition plate 14.

The lifting mechanism 14 is used for lifting the partition plate 13, the volume of the tool box is changed through the lifting partition plate 13, the tool box can be changed according to the size of the tool box in a self-adaptive mode, the tool box has the advantage of anti-collision, and the problem that the existing tool box cannot clamp and fix the internal instrument, so that the internal instrument is easily collided and damaged when the tool box is moved is solved. The specific design is as follows:

as shown in fig. 7, the lifting mechanism 14 includes a screw a21, a screw b22, an intermediate coupling 23 and two struts 26, both ends of the intermediate coupling 23 are respectively connected with a screw a21 and a screw b22, the screw a21 and the screw b22 are arranged in opposite directions, the screw a21 is connected with a slider a24 through threads, the screw b22 is connected with a slider b25 through threads, both the slider a24 and the slider b25 are slidably connected with the bottom of the box 1, one ends of the two struts 26 are respectively hinged with the slider a24 and the slider b25, the other ends are hinged with the partition plate 13, one end of the screw b22, which is far away from the intermediate coupling 23, is connected with a driving device, and the driving device is used for driving the screw b22 to;

the driving device comprises a sleeve 28, a rotary table 29 and a pull rod 30, the sleeve 28 is slidably sleeved on the screw b22, the rotary table 29 is fixed at one end of the sleeve 28, which is far away from the screw b22, the pull rod 30 is fixed on the side surface of the rotary table 29, and the height of the pull rod 30 is greater than that of the sleeve 28;

the sleeve 28 is symmetrically provided with an annular groove 31, one end of the screw b22, which is far away from the intermediate coupling 23, is symmetrically fixed with a projection 32, the projection 32 is slidably arranged in the annular groove 31, the side surface of the box body 1 is provided with a fixing groove 33, and the pull rod 30 is matched with the fixing groove 33.

The working process of the lifting mechanism 14 is as follows: the pull rod 30 is placed in the fixing groove 33 to limit the screw b22, so that the screw b22 is prevented from rotating. When the volume in the box body 1 needs to be adjusted, the pull rod 30 is pulled out from the fixing groove 33, the sleeve 28 is rotated, the screw b22 is rotated, the screw b22 drives the screw a21 to rotate through the intermediate coupler 23, and due to the fact that the screw a21 and the screw b22 are arranged in opposite rotating directions, the sliding block a24 and the sliding block b25 both move towards the intermediate coupler 23, so that the support rod 26 is driven to prop up the partition plate 13, the instrument is enabled to be propped against the elastic layer 27 on the box cover 2, the instrument is fixed, and the pull rod 30 is reversed, and the partition plate 13 is lowered.

In specific implementation, the elastic layer 27 may be a sponge, the annular groove 31 and the protrusion 32 realize sliding of the sleeve 28, and simultaneously prevent the sleeve 28 from rotating on the screw b22, the fixing groove 33 limits the screw b22, and prevent the screw b22 from rotating reversely under the gravity of the instrument when the pull rod 30 is not rotated. Meanwhile, in order to increase the stable ascent and descent of the partition plate 13, it may be designed that:

the lifting mechanism comprises four supporting rods 26, the two sides of the sliding block a24 and the sliding block b22 are hinged with the supporting rods 26, the middle points of the two sides of the partition plate 13 are fixed with connecting plates 34, and the supporting rods 26 on the same side are hinged with the connecting plates 34 on the same side.

The foregoing is illustrative of the preferred embodiments of the present invention, and it is to be understood that the invention is not limited to the precise forms disclosed herein, and that various other combinations, modifications, and environments may be resorted to, falling within the scope of the invention as defined by the appended claims. But that modifications and variations may be effected by those skilled in the art without departing from the spirit and scope of the invention, which is to be limited only by the claims appended hereto.

Claims (7)

1. The special tool box for remote sensing surveying and mapping is characterized by comprising a box body (1) and a box cover (2), wherein the box cover (2) is rotatably connected to one side of the upper end of the box body (1), an elastic layer (27) is arranged on one side, close to the box body (1), of the box cover (2), a mounting groove a (3) is formed in the other side of the box body (1), a mechanical lock seat (4) is arranged in the mounting groove a (3), a mounting groove b (5) is formed in the box cover (2), a mechanical lock body (6) is arranged in the mounting groove b (5), and the mechanical lock seat (4) is matched with the mechanical lock body (6);

a lock cavity (11) is formed in the mechanical lock seat (4), the mechanical lock body (6) comprises a lock body shell (7), a guide frame (8), a spring (9) and a lock tongue (10), the lock body shell (7) is fixed in the mounting groove b (5), the guide frame (8) is fixed in the lock body shell (7), the lock tongue (10) is slidably arranged in the guide frame (8), two ends of the spring (9) are fixedly connected with the lock body shell (7) and the lock tongue (10) respectively, an electromagnet (12) is fixed in the guide frame (8) and one end, far away from the lock cavity (11), of the lock tongue (10), and when the spring (9) is in a normal state, the lock tongue (10) is matched with the lock cavity (11);

the movable type garbage bin is characterized in that a partition plate (13) is slidably arranged in the bin body (1), a lifting mechanism (14) is arranged in the bin body (1), the lifting mechanism (14) is located below the partition plate (13), and the lifting mechanism (14) is used for lifting the partition plate (13).

2. The toolbox special for remote sensing and surveying according to claim 1, wherein a lock cylinder (15) is arranged in the box cover (2), the lock cylinder (15) is used for separating the lock tongue (10) from the lock cavity (11), a lock hole (16) is arranged at one end of the box cover (2) where the mechanical lock body (6) is arranged, and the lock hole (16) is located right in front of the lock cylinder (15).

3. The toolbox special for remote sensing and surveying according to claim 2, wherein the lock cylinder (15) comprises a lock base (17), a lock cylinder (18) and a gear (19), the lock base (17) is rotatably disposed in the case cover (2), one end of the lock base (17) is provided with a lock hole, the other end is fixed with the lock cylinder (18), one end of the lock cylinder (18) is fixed with the gear (19), the lock tongue (10) is provided with a hobbing (20), and the hobbing (20) is engaged with the gear (19).

4. The toolbox special for remote sensing mapping according to claim 1, wherein the lifting mechanism (14) comprises a screw a (21), a screw b (22), an intermediate coupling (23) and two struts (26), the two ends of the intermediate coupling (23) are respectively connected with the screw a (21) and the screw b (22), the screw a (21) and the screw b (22) are oppositely arranged in rotation direction, the screw a (21) is connected with a slider a (24) through a thread, the screw b (22) is connected with a slider b (25) through a thread, the slider a (24) and the slider b (25) are both slidably connected with the bottom of the toolbox (1), one ends of the two struts (26) are respectively hinged with the slider a (24) and the slider b (25), the other ends of the two struts are both hinged with the partition plate (13), and one end of the screw b (22) far away from the intermediate coupling (23) is connected with a driving device, the driving device is used for driving the screw b (22) to rotate.

5. The toolbox special for remote sensing and mapping according to claim 4, wherein the driving device comprises a sleeve (28), a rotary disc (29) and a pull rod (30), the sleeve (28) is slidably sleeved on the screw b (22), one end of the sleeve (28) far away from the screw b (22) is fixed with the rotary disc (29), the side surface of the rotary disc (29) is fixed with the pull rod (30), and the height of the pull rod (30) is greater than that of the sleeve (28).

6. The toolbox special for remote sensing mapping according to claim 5, wherein the sleeve (28) is symmetrically provided with an annular groove (31), one end of the screw b (22) far away from the intermediate coupling (23) is symmetrically fixed with a convex block (32), and the convex block (32) is slidably arranged in the annular groove (31).

7. The toolbox special for remote sensing mapping according to claim 6, wherein the side of the case body (1) is provided with a fixing groove (33), and the pull rod (30) is matched with the fixing groove (33).

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