CN114334507B - Industrial wireless remote controller with misoperation locking device - Google Patents

Abstract

The invention relates to the technical field of industrial equipment and discloses an industrial wireless remote controller with a misoperation locking device, wherein the locking device comprises a locking plate, mounting bolts are inserted into four corners of the locking plate, operation moving grooves are cut into the top of the locking plate, the number of the operation moving grooves is equal to that of body buttons, limit sliding grooves are cut into the inner walls of two sides of the operation moving grooves, limit sliding blocks are connected to the top ends of the inner parts of the limit sliding grooves in a sliding manner, when the body buttons need to be pressed down to send out correct instructions, an adjusting button on one side corresponding to the body buttons is pressed down, the adjusting button is limited in a limit sliding cylinder to slide and drive a locking and resisting plate to move towards one end far away from the limit sliding cylinder, the operation button corresponding to the body buttons is pressed down, and a push rod is pressed down to click on the corresponding body buttons after the operation button is stressed, so that the remote controller body sends out correct operation instructions.

Description

Industrial wireless remote controller with misoperation locking device

Technical Field

The invention relates to the technical field of industrial equipment, in particular to an industrial wireless remote controller with a misoperation locking device.

Background

Industrial wireless remote controls are remote wireless remote control devices that are specifically used to control engineering machinery or industrial equipment. The remote control system is mainly used for industries of metallurgy, shipbuilding, container wharf, storage, machine manufacturing, chemical industry, papermaking, construction, fire control, engineering machinery and the like which use hoisting machinery and realize remote control operation, the effective control range is any direction with the radius of 100 meters and is not influenced by obstacles, operators only need to carry a light wireless remote controller to walk freely and select the optimal visual position to operate, accident hidden dangers caused by factors such as unclear vision, wire control constraint, severe environment or improper command fit in the past are eliminated, the safe operation is ensured, and the production efficiency is greatly improved.

In the industrial wireless remote control, the operation buttons on the remote controller are easy to be touched by mistake in the process of carrying or operating the buttons, so that the remote controller emits non-subjective equipment starting signals, the non-subjective operation of the equipment is easy to cause potential safety hazards, and in order to prevent the mistaken touch of a user, a device with a misoperation locking function is arranged on the remote controller, and the mistaken touch preventing effect on the wireless remote controller is achieved through the device.

The device that traditional wireless remote controller used prevents maloperation locking is formed by box body and buckle mechanism combination, the box body divide into and bears frame and apron, the one end of apron and frame is passed through the hinge and is rotated and be connected, the other end of apron and frame is passed through buckle mechanism and can be dismantled and be connected, place the remote controller in the frame inside during the use, the apron rotates the back and is connected with the frame through buckle device, thereby restrict the remote controller in the frame inside, during the use, open buckle mechanism, and the rotation through the apron makes the button of remote controller demonstrate, and then send correct operation instruction through subjective operation, but this kind of mode of opening operation is comparatively loaded down with trivial details, if meet some emergency, the buckle mechanism can't be opened fast to cause the instruction to send the delay, for this reason propose an industrial wireless remote controller with maloperation locking device.

Disclosure of Invention

In order to solve the problems in the prior art, the invention provides an industrial wireless remote controller with a misoperation locking device.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides an industry wireless remote controller with maloperation locking device, includes the remote controller body, the four corners of remote controller body all is connected with connector device, the remote controller body is located and is provided with the body button between the connector device, the top between the connector device is connected with kayser device, kayser device includes seals the lock board, the four corners that seals the lock board all inserts and is equipped with mounting bolt, it has the operation to block board top cutting and removes the groove, the quantity that the operation removes the groove equals with the quantity of body button, the both sides inner wall that the operation removed the groove all cuts has spacing spout, the inside top of spacing spout all sliding connection has spacing slider, the inside bottom of spacing spout all inserts and is equipped with first reset spring, all be equipped with operating button between the spacing slider, operating button's bottom all is fixed with the push rod, both ends all are fixed with spacing slide tube around the lock board bottom, the one end that is close to each other after the adjustment slide rod passes spacing slide tube all is fixed with the kayser board, the adjustment slide bar that all is equipped with two reset spring that all keep away from each other between spacing slide bar and the outer wall that is located between the spacing slide tube.

Preferably, one end that spacing slider is close to each other respectively with operating button's lateral wall bottom fixed connection, spacing slider's bottom all with return spring's top fixed connection, return spring's bottom all with spacing spout's inside bottom fixed connection.

Preferably, the locking plate is located the operation of both sides and removes the one end that the groove kept away from each other and all digs there is stable spout, the inside both ends of stable spout all sliding connection has stable slider, the top both ends of kayser butt plate respectively with the parallel stable slider bottom fixed connection of position.

Preferably, the connector device comprises a limiting angle block, a thread groove is cut at the top of the limiting angle block, a mounting groove is cut on the side wall of the limiting angle block, and adhesive films are arranged at the top end and the bottom end of the inner wall of the mounting groove.

Preferably, one end of the adhesive film in the limiting angle block, which is close to each other, is respectively adhered to the top and the bottom of one corner of the remote controller body, and the limiting angle block is in threaded connection with one of the mounting bolts on the locking plate through a thread groove.

Preferably, the distance between the two sides of the locking plate is smaller than the distance between the two sides of the locking plate, and the two ends of the second return spring are respectively fixedly connected with the locking resisting plate and the adjusting slide rod at one end close to each other.

Preferably, the bottom of the locking and resisting plate is not contacted with the top of the button of the body, and the bottom of the pressing ejector rod is contacted with the top of the locking and resisting plate matched with the pressing ejector rod in position.

Compared with the prior art, the invention provides the industrial wireless remote controller with the misoperation locking device, which has the following beneficial effects:

1. When the body button needs to be pressed down to send a correct instruction, the adjusting button on one side corresponding to the body button is pressed down, the adjusting button slides in the limiting sliding cylinder in a limiting way to drive the clamping lock retaining plate to move towards one end far away from the limiting sliding cylinder, the operating button corresponding to the body button is pressed down, the pressing ejector rod is driven to descend after the operating button is stressed, the corresponding body button is clicked by the descending of the pressing ejector rod, so that the remote controller body sends the correct operating instruction, when the operating button is not needed to be touched by mistake, the operating button drives the pressing ejector rod to descend, and the adjusting button is positioned at the bottom of the locking plate, and is retracted in the space between the remote controller body and the locking plate, the descending of the pressing ejector rod props against the clamping lock retaining plate, the pressing ejector rod is locked through the clamping lock retaining plate, so that the pressing ejector rod cannot touch the body button, the effect of anti-misoperation locking is achieved, and the operation is simple;

2. the lock sealing plate is installed on the four connector devices through the mounting bolts, and the limiting angle blocks are sleeved with the adhesive films in the mounting grooves to be adhered to the four corners of the remote controller body, so that the locking device can be installed on the four corners of the remote controller body through the connector devices, and when the remote controller body falls on the ground, the four corners of the remote controller body can be protected through the limiting angle blocks.

Drawings

FIG. 1 is a schematic diagram of a connection structure of a remote control body and a connector device according to the present invention;

FIG. 2 is a schematic top view of the present invention;

FIG. 3 is a schematic diagram of a split structure of a limit slider and an operation button after the operation movement groove is sectioned;

FIG. 4 is a schematic view of the bottom view of the latch mechanism of the present invention;

fig. 5 is a schematic perspective view of a connector device according to the present invention.

In the figure: 1. a remote controller body; 2. a body button; 3. a connector device; 31. limiting angle blocks; 32. a thread groove; 33. a mounting groove; 34. sticking a film; 4. a latch device; 41. a lock plate; 42. installing a bolt; 43. operating the moving groove; 44. limiting sliding grooves; 45. a limit sliding block; 46. a first return spring; 47. operating a button; 48. pressing the ejector rod; 49. a limit sliding cylinder; 410. adjusting the slide bar; 411. a second return spring; 412. an adjustment button; 413. a latch-type retaining plate; 414. stabilizing the chute; 415. stabilizing the slider.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The invention provides a technical scheme, as shown in fig. 1-4, the industrial wireless remote controller with the misoperation locking device comprises a remote controller body 1, connector devices 3 are connected to four corners of the remote controller body 1, body buttons 2 are arranged between the connector devices 3 in the remote controller body 1, a clamping device 4 is connected to the top between the connector devices 3, the clamping device 4 comprises a locking plate 41, mounting bolts 42 are inserted into four corners of the locking plate 41, operation moving grooves 43 are cut into the top of the locking plate 41, the number of the operation moving grooves 43 is equal to that of the body buttons 2, limiting sliding grooves 44 are cut into inner walls of two sides of the operation moving grooves 43, limiting sliding blocks 45 are connected to inner top ends of the limiting sliding grooves 44 in a sliding mode, first reset springs 46 are inserted into inner bottom ends of the limiting sliding grooves 44, operation buttons 47 are arranged between the limiting sliding blocks 45, pressing ejector rods 48 are fixed to bottoms of the operating buttons 47, limiting sliding blocks 49 are inserted into the inner sides of the limiting sliding blocks 49, one ends of the limiting sliding blocks 410 penetrate through the limiting sliding blocks 49 and are mutually close to one end of the limiting sliding blocks, two ends of the limiting sliding blocks are mutually close to one end of the limiting sliding blocks 410, and one end, and two end positions, opposite end positions of the limiting sliding blocks are mutually close to one end of each limiting sliding block 410 are mutually opposite to the limiting sliding blocks are fixed, and are opposite end of a limiting sliding block 410, and are opposite end, and are opposite.

One end that spacing slider 45 is close to each other is connected with the lateral wall bottom fixed of operating button 47 respectively, and the bottom of spacing slider 45 all is connected with the top fixed of No. one reset spring 46, and the bottom of No. one reset spring 46 all is connected with the inside bottom fixed of spacing spout 44.

The locking plate 41 is located the operation of both sides and removes the one end that the groove 43 kept away from each other and all digs has stable spout 414, and the inside both ends of stable spout 414 all sliding connection has stable slider 415, and the top both ends of locking butt plate 413 are respectively with the parallel stable slider 415 bottom fixed connection of position.

As shown in fig. 5, the connector device 3 includes a limit corner block 31, a thread groove 32 is cut at the top of the limit corner block 31, a mounting groove 33 is cut at the side wall of the limit corner block 31, and adhesive films 34 are provided at the top and bottom of the inner wall of the mounting groove 33.

One end of the adhesive film 34 in the limiting angle block 31, which is close to each other, is respectively adhered to the top and the bottom of one corner of the remote controller body 1, and the limiting angle block 31 is in threaded connection with one of the mounting bolts 42 on the locking plate 41 through the thread groove 32.

The distance between the two ends of the second return spring 411 and the close end of the locking resisting plate 413 and the adjusting sliding rod 410 is smaller than the distance between the two side walls of the front side and the rear side of the locking plate 41.

The bottom of the locking and resisting plate 413 is not contacted with the top of the body button 2, and the bottom of the pressing ejector rod 48 is contacted with the top of the locking and resisting plate 413 matched with the position.

The working principle of the device is as follows: the lock sealing plate 41 of the locking device 4 of the device is arranged on four connector devices 3 through mounting bolts 42, the limiting angle blocks 31 are sleeved and adhered to four corners of the remote controller body 1 through adhesive films 34 in mounting grooves 33, so that the locking device 4 can be arranged at the four corners of the remote controller body 1 through the connector devices 3, when the remote controller body 1 falls on the ground, the four corners of the remote controller body 1 can be protected through the limiting angle blocks 31, when a correct instruction needs to be sent by pressing the body button 2, the adjusting button 412 on the side corresponding to the body button 2 is pressed, the adjusting button 412 is limited and slides in the limiting slide cylinder 49 to drive the locking and resisting plate 413 to move towards one end far away from the limiting slide cylinder 49, the locking and resisting plate 413 slides in the stabilizing slide groove 414 to increase the stability during movement, the operation button 47 corresponding to the body button 2 is pressed, the operation button 47 drives the pressing ejector rod 48 to descend after being stressed, the pressing ejector rod 48 descends to click the corresponding body button 2, so that the remote controller body 1 sends a correct operation instruction, when the operation button 47 is touched by mistake without the operation of the body button 2, the operation button 47 drives the pressing ejector rod 48 to descend, the adjusting button 412 is positioned at the bottom of the locking plate 41, the adjusting button 412 is received in the space between the remote controller body 1 and the locking plate 41, the descending of the pressing ejector rod 48 can prop against the locking and resisting plate 413, the pressing ejector rod 48 is locked through the locking and resisting plate 413, the pressing ejector rod 48 cannot touch the body button 2, the locking and resisting plate 413 does not touch the body button 2 and is fixed with the stabilizing sliding block 415, the bottom of the locking and resisting plate 413 also cannot touch the body button 2, after the error touch force is over, the push rod 48 can be driven to rise by the jack-up of the limit sliding block 45 in the limit sliding groove 44 through the first reset spring 46, so that the effect of locking preventing error touch is achieved, and the operation is simple.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. An industrial wireless remote controller with a misoperation locking device is characterized in that: comprises a remote controller body (1), connector devices (3) are all connected at four corners of the remote controller body (1), a body button (2) is arranged between the connector devices (3) in the remote controller body (1), a locking device (4) is connected at the top between the connector devices (3), the locking device (4) comprises a locking plate (41), mounting bolts (42) are inserted at four corners of the locking plate (41), an operation moving groove (43) is cut at the top of the locking plate (41), the number of the operation moving grooves (43) is equal to that of the body button (2), limit sliding grooves (44) are cut on inner walls of two sides of the operation moving groove (43), limit sliding blocks (45) are connected at the inner top ends of the limit sliding grooves (44) in a sliding mode, a push rod reset spring (46) is inserted at the inner bottom of the limit sliding grooves (44), an operation button (47) is arranged between the limit sliding blocks (45), pressing (48) are fixed at the bottom of the operation button (41), limit sliding blocks (49) are fixed at the two ends of a front sliding block (49) and a limit sliding cylinder (49) is fixed at the two ends of the front sliding block (49), the two ends, which are mutually close after the adjusting slide rod (410) passes through the limiting slide cylinder (49), of the adjusting slide rod (410) are respectively fixed with a locking and resisting plate (413), the outer walls of the adjusting slide rod (410) between the limiting slide cylinder (49) and the locking and resisting plates (413) are respectively sleeved with a second reset spring (411), and the ends, which are mutually far away, of the adjusting slide rod (410) are respectively fixed with an adjusting button (412);

The connector device (3) comprises a limiting angle block (31), a thread groove (32) is formed in the top of the limiting angle block (31), a mounting groove (33) is formed in the side wall of the limiting angle block (31), and adhesive films (34) are arranged on the top end and the bottom end of the inner wall of the mounting groove (33).

2. An industrial wireless remote control with a misoperation locking device as claimed in claim 1 wherein: one end that spacing slider (45) are close to each other is with the lateral wall bottom fixed connection of operating button (47) respectively, the bottom of spacing slider (45) all with the top fixed connection of return spring (46) No. one, the bottom of return spring (46) all with the inside bottom fixed connection of spacing spout (44).

3. An industrial wireless remote control with a misoperation locking device as claimed in claim 1 wherein: the locking plate (41) is located the operation of both sides and removes one end that groove (43) kept away from each other and all dig has stable spout (414), the inside both ends of stable spout (414) all sliding connection has stable slider (415), the top both ends of locking butt plate (413) are respectively with the stable slider (415) bottom fixed connection that the position paralleled.

4. An industrial wireless remote control with a misoperation locking device as claimed in claim 1 wherein: one end of each limiting angle block (31) where the adhesive films (34) are close to each other is adhered to the top and the bottom of one corner of the remote controller body (1), and the limiting angle blocks (31) are in threaded connection with one of the mounting bolts (42) on the locking plate (41) through the threaded grooves (32).

5. An industrial wireless remote control with a misoperation locking device as claimed in claim 1 wherein: the distance between the end, away from each other, of the adjusting button (412) is smaller than the distance between the side walls of the front side and the rear side of the locking plate (41), and the two ends of the second reset spring (411) are respectively fixedly connected with the end, close to each other, of the locking resisting plate (413) and the adjusting sliding rod (410).

6. An industrial wireless remote control with a misoperation locking device as claimed in claim 1 wherein: the bottoms of the locking and resisting plates (413) are not contacted with the top of the body button (2), and the bottoms of the pressing ejector rods (48) are contacted with the top of the locking and resisting plates (413) with matched positions respectively.