CN114631520A

CN114631520A - Trapping wood block dislocation separation treatment equipment for preventing and treating termites

Info

Publication number: CN114631520A
Application number: CN202210149281.1A
Authority: CN
Inventors: 黄利玉
Original assignee: Individual
Current assignee: Xiao Gongbao
Priority date: 2022-02-18
Filing date: 2022-02-18
Publication date: 2022-06-17
Anticipated expiration: 2042-02-18
Also published as: CN114631520B

Abstract

The invention relates to the field of termite control, in particular to a trap wood block dislocation separation treatment device for termite control. The technical problem is as follows: when the agent is sprayed, termites easily flee around, and the termites are difficult to thoroughly clear in the gaps formed by the joint of the wood blocks, so that the trapping and killing are not thorough. The technical scheme is as follows: a trapping wood block dislocation separation treatment device for termite control comprises a protective cover, a grading unit and the like; the rear side of the vehicle underframe is connected with a pushing rod; the rear part of the protective cover is connected with a grading unit. The termite trapping device realizes the treatment of the termites, the termites between the wood blocks can be treated by dislocating the wood blocks for trapping the termites, the termite corpses can not remain on the wood blocks, meanwhile, the termites on the wood blocks can be placed back to the original place for reuse after being removed, the termites are treated in the closed space in the whole process, and the termites are prevented from escaping.

Description

Trapping wood block dislocation separation treatment equipment for preventing and treating termites

Technical Field

The invention relates to the field of termite control, in particular to a trap wood block dislocation separation treatment device for termite control.

Background

The existing termite control technology adopts a trapping method for treatment, a plurality of wood blocks which are specially treated and can attract termites are placed in a box and then buried underground, the wood blocks are taken out after a period of time and sprayed with a pesticide, the termites easily flee around during spraying, the trapping rate is reduced, meanwhile, the termites are difficult to thoroughly clear in the gaps where the wood blocks are attached, the trapping is not thorough, the termites cannot be radically treated, and the termites can still rapidly reproduce and recover the previous amount;

in view of the above, there is a need for a termite control attractant wood block malposition separation treatment device that solves the above problems.

Disclosure of Invention

In order to overcome the defects that termites easily flee around when spraying a medicament and the termites are difficult to thoroughly clear in the gaps formed by the joint of a plurality of wood blocks to cause incomplete trapping and killing, the invention provides the trapping wood block dislocation separation treatment equipment for preventing and controlling the termites.

The technical scheme is as follows: a trapping wood block dislocation separation treatment device for termite control comprises a trolley pushing rod, a protective cover, an air spraying rod, a collecting pull plate, a trolley underframe, a grading unit, a protective unit, a grabbing unit, a moving unit and a lifting unit; the rear side of the vehicle underframe is connected with a pushing rod; the upper surface of the vehicle underframe is connected with a protective cover; the left side of the rear part of the protective cover is connected with an air injection rod; the rear part of the vehicle underframe is connected with a collecting pull plate; the rear part of the protective cover is connected with a grading unit which is used for staggering a plurality of wood blocks full of termites; the front part of the vehicle underframe is connected with a protection unit which is used for matching with a protection cover to form a closed space; the front part of the protective cover is connected with a grabbing unit which is used for grabbing six luring wood blocks; the upper surface of the vehicle chassis is connected with a mobile unit, and the mobile unit is used for conveying six luring wood blocks; the top of the protective cover is connected with a lifting unit, and the lifting unit is used for lifting the six luring wood blocks.

As the preferred technical scheme of the invention, the grading unit comprises a connecting rod, a chute plate, a first mounting frame, a deflector rod, a fixing assembly and a clamping assembly; the lower surface of the rear part of the protective cover is fixedly connected with four connecting rods, and the four connecting rods are symmetrically distributed in pairs; a sliding groove plate is fixedly connected between the two groups of connecting rods; the two sliding groove plates are fixedly connected with the protective cover respectively; the opposite sides of the two chute plates are respectively connected with a clamping component in a sliding way; the opposite sides of the two chute plates are respectively connected with a fixing component.

As the preferred technical scheme of the invention, the fixing component comprises a transverse plate, a pressure lever, a first elastic piece, a fixing block, a torsion spring rod and a support plate; five support plates are fixedly connected to the rear side of the chute plate positioned on the left side, and the heights of the five support plates gradually increase from right to left in a step shape; the five support plates are respectively connected with a pressure lever in a sliding way, the lengths of the five pressure levers are sequentially shortened from right to left, and the top ends of the five pressure levers are flush; the sliding groove plate positioned on the left side is provided with six grooves, the positions of a second groove which is counted from the right to the left correspond to the positions of a first pressure lever which is counted from the right to the left, the position of a third groove corresponds to the position of a second pressure lever, the position of a fourth groove corresponds to the position of a third pressure lever, the position of a fifth groove corresponds to the position of a fourth pressure lever, and the position of a sixth groove corresponds to the position of a fifth pressure lever; two torsion spring rods are symmetrically fixedly connected to the upper parts of the second groove, the third groove, the fourth groove, the fifth groove and the sixth groove from right to left; each of the ten torsion spring rods is rotatably connected with one fixed block, the ten fixed blocks are distributed in pairs in a group, and the two fixed blocks in each group are symmetrically distributed; five support plates are fixedly connected to the rear side of the chute plate positioned on the right side, and the heights of the five support plates gradually increase from right to left in a step shape; the five support plates are respectively connected with a pressure lever in a sliding manner, the lengths of the five pressure levers are sequentially shortened from right to left, and the top ends of the five pressure levers are flush; the sliding groove plate positioned on the left side is provided with six grooves, the positions of a second groove which is counted from the right to the left correspond to the positions of a first pressure lever which is counted from the right to the left, the position of a third groove corresponds to the position of a second pressure lever, the position of a fourth groove corresponds to the position of a third pressure lever, the position of a fifth groove corresponds to the position of a fourth pressure lever, and the position of a sixth groove corresponds to the position of a fifth pressure lever; two torsion spring rods are symmetrically fixedly connected to the upper parts of the second groove, the third groove, the fourth groove, the fifth groove and the sixth groove from right to left; the ten torsion spring rods are respectively rotatably connected with one fixed block, the ten fixed blocks are distributed in a group of two, and the two fixed blocks of each group are symmetrically distributed.

As the preferred technical scheme of the invention, the clamping assembly comprises a moving plate, an L-shaped plate, a connecting plate, a clamping rod, a bracket, a second elastic element, a swing rod, a first electromagnet, a second electromagnet and a rotating shaft; a moving plate is connected in a sliding manner in each of six grooves of the sliding groove plate positioned on the left; the upper surfaces of the middle parts of the six moving plates are fixedly connected with a bracket respectively; the upper surfaces of the rear parts of the six moving plates are fixedly connected with an L-shaped plate respectively; the front parts of the six moving plates are respectively connected with a connecting plate in a sliding way; two clamping rods are symmetrically fixedly connected to the front sides of the six connecting plates; the upper parts of the six brackets are respectively connected with a rotating shaft in a rotating way; a swing rod is fixedly connected to each of the six rotating shafts; the lower parts of the six swing rods are respectively provided with a first electromagnet; the middle parts of the six brackets are respectively provided with a second electromagnet; the front sides of the lower parts of the six brackets are fixedly connected with a second elastic piece respectively; the six second elastic pieces are fixedly connected with the six connecting plates corresponding to the positions of the six second elastic pieces respectively; six grooves of the sliding groove plate positioned at the right side are respectively connected with a moving plate in a sliding way; the upper surfaces of the middle parts of the six moving plates are fixedly connected with a bracket respectively; the upper surfaces of the front parts of the six moving plates are fixedly connected with an L-shaped plate respectively; the rear parts of the six moving plates are respectively connected with a connecting plate in a sliding way; two clamping rods are symmetrically and fixedly connected to the rear sides of the six connecting plates; the upper parts of the six brackets are respectively connected with a rotating shaft in a rotating way; a swing rod is fixedly connected to each of the six rotating shafts; the lower parts of the six swing rods are respectively provided with a first electromagnet; the middle parts of the six brackets are respectively provided with a second electromagnet; the rear sides of the lower parts of the six brackets are fixedly connected with a second elastic piece respectively; the six second elastic pieces are respectively fixedly connected with six connecting plates corresponding to the six second elastic pieces.

As the preferred technical scheme of the invention, the protection unit comprises a pedal, a movable rod, a third elastic piece, a guide rail and an annular cover; the front part of the vehicle underframe is fixedly connected with a guide rail; a moving rod is connected in the guide rail in a sliding way; the upper part of the movable rod is sleeved with a third elastic part; the lower end of the third elastic part is fixedly connected with the vehicle underframe; the lower part of the movable rod is fixedly connected with a pedal; the rear part of the pedal is fixedly connected with an annular cover; the annular cover is connected with the vehicle underframe in a sliding way.

As the preferred technical scheme of the invention, the grabbing unit comprises a support frame, a first electric slide rail, a first electric slide block, an annular frame, a first electric push rod, a connecting frame and a sliding clamp; the left side of the front part and the right side of the front part of the protective cover are respectively fixedly connected with a support frame, and the two support frames are symmetrically distributed; and the opposite sides of the two supporting frames are respectively fixedly connected with a first electric slide rail; the opposite sides of the two first electric sliding rails are respectively connected with a first electric sliding block in a sliding manner; an annular frame is fixedly connected between the two first electric sliding blocks; the lower part of the annular frame is fixedly connected with a connecting frame; the upper part of the connecting frame is fixedly connected with a first electric push rod; the telescopic part of the first electric push rod is provided with a sliding clamp; the sliding clamp is connected with the connecting frame in a sliding mode.

As the preferred technical scheme of the invention, the moving unit comprises a second electric sliding rail, a second electric sliding block, a fixed frame, a second electric push rod, a clamping plate and a cleaning brush; two second electric slide rails are symmetrically and fixedly connected to the upper surface of the vehicle underframe; the two second electric sliding rails are respectively connected with a second electric sliding block in a sliding manner; the upper surfaces of the two second electric sliding blocks are fixedly connected with a fixed frame respectively; a second electric push rod is fixedly connected to each of the two fixing frames; the telescopic parts of the two second electric push rods are respectively provided with a clamping plate; the rear sides of the two second electric sliding blocks are respectively provided with a cleaning brush.

As a preferred technical scheme, the cleaning brush is used for cleaning the termite corpse falling onto the second electric sliding rail.

As the preferred technical scheme of the invention, the lifting unit comprises a motor, a second mounting frame, a first take-up pulley, a second take-up pulley, a rope, a slide bar, a limiting ball, a lifting frame, an expansion plate, a third electric push rod and a movable clamp; the upper surface of the rear part of the protective cover is fixedly connected with a second mounting frame; the front part of the second mounting rack is fixedly connected with a motor; a first take-up pulley is fixedly connected with an output shaft of the motor; the first take-up pulley is rotatably connected with the second mounting frame; the rear part of the second mounting frame is rotatably connected with a second take-up pulley; ropes are wound on the first take-up pulley and the second take-up pulley; the lower end of the rope is fixedly connected with a limiting ball; the lower part of the rope is connected with a lifting frame; the lifting frame is contacted with the limiting ball; the left part and the right part of the lifting frame are respectively fixedly connected with a third electric push rod; the telescopic parts of the two third electric push rods are respectively provided with a movable clamp; the two movable clamps are respectively connected with the lifting frame in a sliding way; the front part and the rear part of the lifting frame are fixedly connected with six expansion plates at equal intervals, and the twelve expansion plates are distributed in a group of six.

As the preferred technical scheme of the invention, the weight of the limiting ball and the lifting frame and the influence of gravity can enable the expansion plate to move downwards, and the expansion plate can be contracted when the expansion plate is blocked.

The invention has the beneficial effects that: the termite trapping device realizes the treatment of the termites, the termites between the wood blocks can be treated by dislocating the wood blocks for trapping the termites, the termite corpses can not remain on the wood blocks, meanwhile, the termites on the wood blocks can be placed back to the original place for reuse after being removed, the termites are treated in the closed space in the whole process, and the termites are prevented from escaping.

Drawings

FIG. 1 is a schematic perspective view of an attractant wood block dislocation separation treatment apparatus for termite control according to the present invention;

fig. 2 is a sectional view of the inducing wood block dislocation separation treating apparatus for controlling termites in accordance with the present invention;

FIG. 3 is a schematic perspective view of an air-jet rod of the attractant wood block dislocation separation processing apparatus for controlling termites in accordance with the present invention;

fig. 4 is a partial first sectional view of the attractant wood block misplaced separation treatment device for termite control in accordance with the present invention;

FIG. 5 is a schematic view of a first partial perspective structure of a grading unit of the trapping wood block dislocation separation processing device for controlling termites in accordance with the present invention;

FIG. 6 is a schematic view of a second partial perspective structure of the grading unit of the inducing wood block dislocation separation processing device for controlling termites of the invention;

FIG. 7 is an enlarged view of a region A of the attractant wood block misplaced separation treatment apparatus for controlling termites in accordance with the present invention;

FIG. 8 is a schematic partial third perspective view of a staging unit of the attractant wood block for termite control staggered separation treatment apparatus of the present invention;

fig. 9 is a partial second sectional view of the attractant wood block misplaced separation treatment device for termite control in accordance with the present invention;

fig. 10 is a schematic perspective view of a protective unit of the attractant wood block dislocation separation processing device for controlling termites of the invention;

fig. 11 is a partial third sectional view of the attractant wood block misplaced separation treatment device for termite control in accordance with the present invention;

FIG. 12 is a schematic perspective view of a grabbing unit of the attractant wood block dislocation separation processing device for termite control according to the present invention;

fig. 13 is a partial fourth sectional view of the attractant wood block misplaced separation treatment device for termite control in accordance with the present invention;

fig. 14 is a schematic perspective view of a moving unit of the attractant wood block dislocation separation processing apparatus for controlling termites in accordance with the present invention;

fig. 15 is a partial fifth sectional view of the attractant wood block misplaced separation treatment device for termite control in accordance with the present invention;

fig. 16 is a schematic perspective view of the elevating unit of the inducing wood block dislocation separation processing device for controlling termites of the invention;

fig. 17 is a partial perspective view of the elevating unit of the inducing wood block dislocation separation processing device for controlling termites in accordance with the present invention.

Reference numbers in the drawings: 1-a cart rod, 2-a protective cover, 3-an air injection rod, 4-a collecting pull plate, 5-a chassis, 101-a connecting rod, 102-a sliding groove plate, 103-a first mounting frame, 104-a deflector rod, 105-a fixing component, 10501-a transverse plate, 10502-a pressure rod, 10503-a first elastic component, 10504-a fixing block, 10505-a torsion spring rod, 10506-a support plate, 106-a clamping component, 10601-a moving plate, 10602-an L-shaped plate, 10603-a connecting plate, 10604-a clamping rod, 10605-a bracket, 10606-a second elastic component, 10607-a swinging rod, 10608-a first electromagnet, 10609-a second electromagnet, 10610-a rotating shaft, 201-a pedal, 202-a moving rod, 203-a third elastic component, 204-a guide rail, 205-an annular cover, 301-a support frame, 302-a first electric slide rail, 303-a first electric slide block, 304-a ring frame, 305-a first electric push rod, 306-a connecting frame, 307-a slide clamp, 401-a second electric slide rail, 402-a second electric slide block, 403-a fixing frame, 404-a second electric push rod, 405-a clamping plate, 406-a cleaning brush, 501-a motor, 502-a second mounting frame, 503-a first take-up pulley, 504-a second take-up pulley, 505-a rope, 506-a slide rod, 507-a limiting ball, 508-a lifting frame, 509-a telescopic plate, 5010-a third electric push rod and 5011-a movable clamp.

Detailed Description

The following description is only a preferred embodiment of the present invention, and does not limit the scope of the present invention. In an embodiment of the present invention, 10503-the first resilient member, 10606-the second resilient member, and 203-the third resilient member are springs.

Example 1

A trapping wood block dislocation separation treatment device for termite control is shown in figures 1-17 and comprises a cart pushing rod 1, a protective cover 2, an air injection rod 3, a collecting pull plate 4, a cart underframe 5, a grading unit, a protective unit, a grabbing unit, a moving unit and a lifting unit; the rear side of the vehicle underframe 5 is connected with a pushing rod 1; the upper surface of the vehicle underframe 5 is connected with a protective cover 2; the left side of the rear part of the protective cover 2 is connected with an air injection rod 3; the rear part of the vehicle underframe 5 is connected with a collecting pulling plate 4; the rear part of the protective cover 2 is connected with a grading unit; the front part of the vehicle underframe 5 is connected with a protection unit; the front part of the protective cover 2 is connected with a grabbing unit; the upper surface of the vehicle underframe 5 is connected with a moving unit; the top of the protection cover 2 is connected with a lifting unit.

When the termite attracting device is used, an operator pushes the protective cover 2 and the vehicle chassis 5 to reach a place where six attracting wood blocks are placed through the vehicle pushing rod 1, then the protective unit is controlled to work, the trapper and a vehicle body form a closed space to prevent termites from escaping, then the grabbing unit is controlled to clamp the six attracting wood blocks full of the termites into the vehicle body, then the moving unit is controlled to drive the six attracting wood blocks to be right above the collecting pull plate 4, then the lifting unit is controlled to lift the six attracting wood blocks to the position of the grading unit, the six attracting wood blocks full of the termites are sprayed through the air spraying rod 3 to kill the termites on the six attracting wood blocks, the dead termites fall onto the collecting pull plate 4, then the lifting unit is controlled to drive the grading unit to dislocate the six attracting wood blocks, and the termite corpses between the wood blocks can also fall onto the collecting pull plate 4 to be collected, then controlling the lifting unit to descend, placing the six trapping wood blocks for removing the termite corpses on the moving unit, enabling the six trapping wood blocks to move to the position right below the grabbing unit through resetting of the moving unit, finally controlling the grabbing unit to place the six trapping wood blocks back, resetting the protection unit, and finishing processing of the termites; the termite trapping device realizes the treatment of the termites, the termites between the wood blocks can be treated by dislocating the wood blocks for trapping the termites, the termite corpses can not remain on the wood blocks, meanwhile, the termites on the wood blocks can be placed back to the original place for reuse after being removed, the termites are treated in the closed space in the whole process, and the termites are prevented from escaping.

Example 2

On the basis of embodiment 1, as shown in fig. 1 and fig. 4 to 17, the classification unit includes a connection rod 101, a chute plate 102, a first mounting frame 103, a shift lever 104, a fixing assembly 105 and a clamping assembly 106; the lower surface of the rear part of the protective cover 2 is fixedly connected with four connecting rods 101, and the four connecting rods 101 are symmetrically distributed in pairs; a sliding groove plate 102 is connected between the two groups of connecting rods 101 through bolts; the two chute plates 102 are fixedly connected with the protective cover 2 respectively; the opposite sides of the two chute plates 102 are respectively connected with a clamping component 106 in a sliding way; a securing assembly 105 is attached to each of the opposing sides of the two runner plates 102.

The fixing component 105 comprises a transverse plate 10501, a pressure lever 10502, a first elastic piece 10503, a fixing block 10504, a torsion spring lever 10505 and a support plate 10506; five support plates 10506 are fixedly connected to the rear side of the chute plate 102 positioned on the left side, and the heights of the five support plates 10506 gradually increase from right to left in a step shape; each of the five support plates 10506 is slidably connected with a compression bar 10502, the lengths of the five compression bars 10502 are sequentially shortened from right to left, and the top ends of the five compression bars 10502 are flush; the chute plate 102 positioned on the left side is provided with six grooves, the position of the second groove counted from right to left corresponds to the position of the first pressure lever 10502 counted from right to left, the position of the third groove corresponds to the position of the second pressure lever 10502, the position of the fourth groove corresponds to the position of the third pressure lever 10502, the position of the fifth groove corresponds to the position of the fourth pressure lever 10502, and the position of the sixth groove corresponds to the position of the fifth pressure lever 10502; two torsion spring rods 10505 are symmetrically and fixedly connected with the upper parts of the second groove, the third groove, the fourth groove, the fifth groove and the sixth groove from right to left; each of the ten torsion spring rods 10505 is rotatably connected with a fixing block 10504, the ten fixing blocks 10504 are distributed in pairs, and the two fixing blocks 10504 of each group are symmetrically distributed; five support plates 10506 are fixedly connected to the rear side of the chute plate 102 positioned on the right side, and the heights of the five support plates 10506 gradually increase from right to left in a step shape; each of the five support plates 10506 is connected with a compression bar 10502 in a sliding manner, the lengths of the five compression bars 10502 from right to left are shortened in sequence, and the top ends of the five compression bars 10502 are flush; the chute plate 102 positioned at the left side is provided with six grooves, the position of the second groove counted from the right to the left corresponds to the position of the first pressure lever 10502 counted from the right to the left, the position of the third groove corresponds to the position of the second pressure lever 10502, the position of the fourth groove corresponds to the position of the third pressure lever 10502, the position of the fifth groove corresponds to the position of the fourth pressure lever 10502, and the position of the sixth groove corresponds to the position of the fifth pressure lever 10502; the upper parts of the second groove, the third groove, the fourth groove, the fifth groove and the sixth groove from right to left are symmetrically fixedly connected with two torsion spring rods 10505; the ten torsion spring rods 10505 are respectively rotatably connected with a fixing block 10504, the ten fixing blocks 10504 are distributed in pairs, and the two fixing blocks 10504 of each group are symmetrically distributed.

The clamping assembly 106 comprises a moving plate 10601, an L-shaped plate 10602, a connecting plate 10603, a clamping rod 10604, a bracket 10605, a second elastic element 10606, a swinging rod 10607, a first electromagnet 10608, a second electromagnet 10609 and a rotating shaft 10610; a moving plate 10601 is slidably connected to each of the six grooves of the left chute plate 102; the upper surfaces of the middle parts of the six moving plates 10601 are respectively welded with a bracket 10605; the upper surfaces of the rear parts of the six moving plates 10601 are fixedly connected with an L-shaped plate 10602 respectively; the front parts of the six moving plates 10601 are respectively connected with a connecting plate 10603 in a sliding manner; two clamping rods 10604 are symmetrically fixedly connected to the front sides of the six connecting plates 10603; the upper parts of the six brackets 10605 are respectively connected with a rotating shaft 10610 in a rotating way; a swing rod 10607 is fixedly connected to each of the six rotating shafts 10610; the lower parts of the six oscillating bars 10607 are respectively provided with a first electromagnet 10608; the middle parts of the six brackets 10605 are respectively provided with a second electromagnet 10609; the front sides of the lower parts of the six brackets 10605 are fixedly connected with second elastic parts 10606 respectively; the six second elastic pieces 10606 are fixedly connected with the six connecting plates 10603 corresponding to the positions of the six second elastic pieces; a moving plate 10601 is slidably connected to each of six grooves of the right chute plate 102; the upper surfaces of the middle parts of the six moving plates 10601 are respectively welded with a bracket 10605; the upper surfaces of the front parts of the six moving plates 10601 are fixedly connected with an L-shaped plate 10602 respectively; the rear parts of the six moving plates 10601 are respectively connected with a connecting plate 10603 in a sliding manner; two clamping rods 10604 are symmetrically fixedly connected to the rear sides of the six connecting plates 10603; the upper parts of the six brackets 10605 are respectively connected with a rotating shaft 10610 in a rotating way; a swing rod 10607 is fixedly connected to each of the six rotating shafts 10610; the lower parts of the six oscillating bars 10607 are respectively provided with a first electromagnet 10608; the middle parts of the six brackets 10605 are respectively provided with a second electromagnet 10609; the rear sides of the lower parts of the six brackets 10605 are fixedly connected with second elastic parts 10606 respectively; the six second elastic members 10606 are fixedly connected to the six connecting plates 10603 corresponding to the positions thereof, respectively.

The protection unit comprises a pedal 201, a moving rod 202, a third elastic piece 203, a guide rail 204 and an annular cover 205; the front part of the vehicle chassis 5 is welded with a guide rail 204; a moving rod 202 is connected in the guide rail 204 in a sliding manner; the upper part of the movable rod 202 is sleeved with a third elastic piece 203; the lower end of the third elastic piece 203 is fixedly connected with the vehicle underframe 5; the lower part of the movable rod 202 is fixedly connected with a pedal 201; the rear part of the pedal 201 is fixedly connected with an annular cover 205; the annular cover 205 is slidably connected to the chassis 5.

The grabbing unit comprises a support frame 301, a first electric slide rail 302, a first electric slide block 303, an annular frame 304, a first electric push rod 305, a connecting frame 306 and a slide clamp 307; the left side of the front part and the right side of the front part of the protective cover 2 are respectively fixedly connected with a support frame 301, and the two support frames 301 are symmetrically distributed; and the opposite sides of the two supporting frames 301 are respectively connected with a first electric slide rail 302 through bolts; the opposite sides of the two first electric slide rails 302 are respectively connected with a first electric slide block 303 in a sliding manner; an annular frame 304 is fixedly connected between the two first electric sliding blocks 303; the lower part of the annular frame 304 is fixedly connected with a connecting frame 306; a first electric push rod 305 is connected to the upper part of the connecting frame 306 through a bolt; a sliding clamp 307 is installed on the telescopic part of the first electric push rod 305; the slide clamp 307 is slidably connected to the connecting frame 306.

The moving unit comprises a second electric slide rail 401, a second electric slide block 402, a fixing frame 403, a second electric push rod 404, a clamping plate 405 and a cleaning brush 406; the upper surface of the vehicle underframe 5 is symmetrically connected with two second electric slide rails 401 through bolts; a second electric sliding block 402 is connected to each of the two second electric sliding rails 401 in a sliding manner; the upper surfaces of the two second electric sliding blocks 402 are respectively connected with a fixing frame 403 through bolts; a second electric push rod 404 is fixedly connected to each of the two fixing frames 403; the telescopic parts of the two second electric push rods 404 are respectively provided with a clamping plate 405; one cleaning brush 406 is disposed at each rear side of the two second electric sliders 402.

The cleaning brush 406 is used to clean the termite carcasses falling onto the second motorized slide rail 401.

The lifting unit comprises a motor 501, a second mounting frame 502, a first take-up pulley 503, a second take-up pulley 504, a rope 505, a slide bar 506, a limit ball 507, a lifting frame 508, a telescopic plate 509, a third electric push rod 5010 and a movable clamp 5011; the upper surface of the rear part of the protective cover 2 is connected with a second mounting rack 502 through bolts; the front part of the second mounting frame 502 is connected with a motor 501 through bolts; a first take-up pulley 503 is fixedly connected to an output shaft of the motor 501; the first take-up pulley 503 is rotatably connected with the second mounting bracket 502; the rear part of the second mounting frame 502 is rotatably connected with a second take-up pulley 504; a rope 505 is wound on the first take-up pulley 503 and the second take-up pulley 504; the lower end of the rope 505 is fixedly connected with a limiting ball 507; the lower part of the rope 505 is connected with a lifting frame 508; the lifting frame 508 is contacted with the limit ball 507; the left part and the right part of the lifting frame 508 are respectively connected with a third electric push rod 5010 through bolts; the telescopic parts of the two third electric push rods 5010 are respectively provided with a movable clamp 5011; the two movable clamps 5011 are respectively in sliding connection with the lifting frame 508; the front part and the rear part of the lifting frame 508 are respectively fixedly connected with six telescopic plates 509 at equal intervals, and the twelve telescopic plates 509 are distributed in a group of six.

The weight of the limit ball 507 and the crane 508 and the influence of gravity can make the expansion plate 509 move downwards, and can make the expansion plate 509 contract when the expansion plate 509 encounters a barrier.

When the vehicle is in use, an operator pushes the vehicle body to a position where six trapping wood blocks are placed through the vehicle pushing rod 1, so that the annular cover 205 is located right above the six trapping wood blocks, then the operator steps on the pedal 201 with feet, the pedal 201 drives the annular cover 205 to move downwards to cover the position where the six trapping wood blocks are placed, so that a closed environment is formed between the position where the six trapping wood blocks are placed and the vehicle body, termite fleeing is prevented, meanwhile, the pedal 201 drives the moving rod 202 to slide downwards on the guide rail 204, the moving rod 202 applies an elastic force to the third elastic piece 203 for resetting the pedal 201, then the first electric sliding rail 302 is controlled to drive the first electric sliding block 303 to move downwards, the first electric sliding block 303 drives the annular frame 304 to move downwards, the annular frame 304 drives the connecting frame 306 and the first electric pushing rod 305 to move downwards, and then the first electric pushing rod 305 is controlled to contract to drive the sliding clamp 307 to move upwards, due to the limitation of the connecting frame 306, the sliding clamp 307 slides and tightens on the connecting frame 306 to grab six luring wood blocks, then the first electric sliding rail 302 is controlled to drive the first electric sliding block 303 to move upwards, the first electric sliding block 303 drives the annular frame 304 to move upwards, the annular frame 304 drives the connecting frame 306 and the first electric pushing rod 305 to move upwards, the first electric pushing rod 305 drives the sliding clamp 307 to move the six luring wood blocks to the same height with the second electric pushing rod 404, then the second electric pushing rod 404 is controlled to be opened to extend, the second electric pushing rod 404 drives the clamping plate 405 to clamp the six luring wood blocks, then the second electric sliding rail 401 is controlled to drive the second electric sliding block 402 to move backwards, the second electric sliding rail 401, the second electric sliding block 402 drives the fixing frame 403, the second electric pushing rod 404 and the clamping plate 405 to move right above the collecting pulling plate 4, then the motor 501 is controlled to be opened to drive the first take-up reel 503 to pay out, the rope 505 is extended to move downwards, then the lifting frame 508, the telescopic plate 509, the third electric push rod 5010 and the moving clamp 5011 slowly move downwards to the position of six attracting wood blocks under the influence of the limiting ball 507 and gravity, then two third electric push rods 5010 are controlled to contract to drive the moving clamp 5011 to clamp the six attracting wood blocks, then the motor 501 is controlled to drive the first wire winding wheel 503 to reversely rotate for wire winding, so that the rope 505 contracts and moves upwards, then the rope 505 drives the limiting ball 507 to move upwards, the limiting ball 507 drives the lifting frame 508 to slide upwards on the sliding rod 506, the lifting frame 508 drives the telescopic plate, the third electric push rod 5010 and the moving clamp 5011 to move upwards, the six telescopic plates 509 on the left side touch the six swing rods 10607 on the left side in the moving process, the six telescopic plates on the right side touch the six swing rods 10607 on the right side, for example, as one group of the telescopic plates 509 has a large elastic coefficient, the telescopic plate 509 can drive the swing rod 10607 to swing upwards by taking the rotating shaft 10610 as an axial direction, then the lower part of the swing rod 10607 pushes the connecting plate 10603 to move towards the six luring wood blocks, after the connecting plate 10603 pushes the clamping rods 10604 to contact with the six luring wood blocks, the first electromagnet 10608 and the second electromagnet 10609 attract each other to fix the swing rod 10607, and similarly, the other swing rods 10607 on the left and right sides are fixed, so that the left and right clamping rods 10604 are matched with each other in pairs to clamp the six luring wood blocks, then the air injection rod 3 is controlled to spray pesticide mist for killing termites inside the vehicle body, the termites living on the six luring wood blocks are killed, then the rope 505 is controlled to be continuously contracted to move upwards, the rope 505 drives the lifting frame 508 to move upwards through the limiting ball 507, the lifting frame 508 drives the telescopic plate 509 to move upwards, then the six lifting frames 508 on the left side continuously contact with the six L10602 on the left side, the six right lifting frames 508 touch the six right L-shaped plates 10602, taking the moving process of the six left lifting frames 508 as an example, when the first lifting frame 508 counting from right to left drives the first L-shaped plate 10602 counting from right to left to ascend, then the L-shaped plate 10602 drives the connecting plate 10603, the clamping rod 10604, the bracket 10605, the second elastic element 10606, the swinging rod 10607, the first electromagnet 10608, the second electromagnet 10609 and the rotating shaft 10610 to move upwards, the telescopic plate 509 contracts due to the blocking of the first slot counting from right to left on the sliding-slot plate 102, the L-shaped plate 10602 is not driven to ascend, however, the rest five lifting frames 508 will continue to ascend, and when the second lifting frame 508 counting from right to left ascends, the second L-shaped plate 10602 counting from right to left is driven by the L-shaped plate 10602, then the connecting plate 10603, the clamping rod 10604, the bracket 10605, the second elastic element 10606, the swinging rod 10607, the first electromagnet 10608, the second electromagnet 10609 and the rotating shaft 10610 to move upwards, when the moving plate 10601 is driven to move upwards to touch the wedge-shaped parts of the two fixed blocks 10504, the lower parts of the two fixed blocks 10504 are forced to be attached together to form a cylindrical part, after the cylindrical part passes through a circular hole penetrating through the rear part of the moving plate 10601, the fixed blocks 10504 are reset to be opened through the torsion spring rods 10505, finally, the moving plate 10601 is fixed, and the other four fixed blocks are fixed in the same way, so that the six moving plates 10601 are in a step shape with sequentially increased height from right to left, and the six moving plates 10601 on the right are also in a step shape with sequentially increased height from right to left, and finally, the six attracting wood blocks are staggered in a step shape with sequentially increased height from right to left, so that the corpses remained among the six attracting wood blocks fall onto the collecting pull plate 4 to be collected, so that the termites on the six attracting wood blocks are treated cleanly, and then the rope 505 is controlled to be continuously contracted and move upwards, the rope 505 drives the lifting frame 508 to move upwards continuously through the limiting ball 507, then the six left expansion plates 509 and the six right expansion plates 509 cannot move upwards continuously after the moving plate 10601 is fixed, so that the six left expansion plates 509 and the six right expansion plates 509 are forced to contract by a strong force, then the six left expansion plates 509 and the six right expansion plates 509 move upwards continuously, then the fourth expansion plates 509 from left to left and the fourth expansion plates 509 from left to right touch and drive the shift levers 104 above the four expansion plates to swing upwards by taking the rotating shaft of the first mounting frame 103 as an example, the shift lever 104 on the left swings and drives the transverse plate 10501 to move downwards, the transverse plate 10501 drives the five pressing rods 10502 to move downwards, for example, the pressing rods 10502 move downwards to press the fixed block 10504, and the two fixed blocks 10504 rotate through the torsion spring rods 10505 to enable the lower parts to be attached together again, then the moving plate 10601 is moved downwards under the influence of gravity to reset, the moving plate 10601 drives the L-shaped plate 10602, the connecting plate 10603, the clamping rod 10604, the bracket 10605, the second elastic element 10606, the swinging rod 10607, the first electromagnet 10608, the second electromagnet 10609 and the rotating shaft 10610 to reset, and the whole clamping assembly 106 is reset in the same way, as described above, the right clamping assembly 106 is also reset, and finally the six attracting wood blocks are restored to the initial state, then the motor 501 is controlled to rotate to drive the first take-up pulley 503 to pay off again, so that the rope 505 extends and moves downwards, then under the action of gravity and the limiting ball 507, the rope 505 drives the lifting frame 508, the telescopic plate 509, the third electric push rod 5010 and the moving clamp 5011 to move downwards until the moving clamp 5011 contacts with the six attracting wood blocks, and then the two third electric push rods 5010 are controlled to contract to drive the moving clamp 5011 to clamp the six attracting wood blocks, then the first electromagnet 10608 and the second electromagnet 10609 are controlled to demagnetize, so that the connecting plate 10603 is reset through the second elastic member 10606, then the connecting plate 10603 pushes the swinging rod 10607 to reset, then the motor 501 is controlled to rotate to continue to drive the first wire winding wheel 503 to pay off, so that the rope 505 extends to continue to move downwards, the rope 505 drives the lifting frame 508 to move downwards through the limiting ball 507 until the six attracted wood blocks are driven to the same height as the clamping plate 405, then the two second electric push rods 404 are controlled to drive the clamping plate 405 to clamp the six attracted wood blocks, then the lifting unit is controlled to return to the initial state, then the second electric slide rail 401 is controlled to drive the second electric slide block 402 to move forwards, the second electric slide block 402 drives the fixing frame 403, the second electric push rod 404 and the clamping plate 405 to move forwards until the six attracted wood blocks are moved to the position right above the annular cover 205, then controlling the first electric slide rail 302 to drive the first electric slide block 303 to move downwards, controlling the first electric slide block 303 to drive the annular frame 304, the first electric push rod 305, the connecting frame 306 and the sliding clamp 307 to move downwards, then controlling the first electric push rod 305 to contract to drive the sliding clamp 307 to slide on the connecting frame 306, clamping six luring wood blocks, then controlling the first electric slide rail 302 to drive the first electric slide block 303 to continue to move downwards, and finally putting the six luring wood blocks back to the original position again to finish the treatment of the termites; the mechanism realizes the treatment of the termites and the repeated utilization of the luring wood blocks.

The above-mentioned embodiments are merely preferred embodiments of the present invention, which are not intended to limit the scope of the present invention, and therefore, all equivalent changes made by the contents of the claims of the present invention should be included in the claims of the present invention.

Claims

1. A trapping wood block dislocation separation treatment device for termite control comprises a cart pushing rod, a protective cover, an air injection rod, a collecting pull plate and a cart underframe; the device is characterized by also comprising a grading unit, a protection unit, a grabbing unit, a moving unit and a lifting unit; the rear side of the vehicle underframe is connected with a pushing rod; the upper surface of the vehicle underframe is connected with a protective cover; the left side of the rear part of the protective cover is connected with an air injection rod; the rear part of the vehicle underframe is connected with a collecting pull plate; the rear part of the protective cover is connected with a grading unit which is used for staggering a plurality of wood blocks full of termites; the front part of the vehicle underframe is connected with a protection unit which is used for matching with a protection cover to form a closed space; the front part of the protective cover is connected with a grabbing unit which is used for grabbing six luring wood blocks; the upper surface of the vehicle chassis is connected with a mobile unit, and the mobile unit is used for conveying six luring wood blocks; the top of the protective cover is connected with a lifting unit, and the lifting unit is used for lifting the six luring wood blocks.

2. The misplaced separation treatment device for the luring wood block for controlling the termites as claimed in claim 1, wherein the grading unit comprises a connecting rod, a chute plate, a first mounting rack, a deflector rod, a fixing component and a clamping component; the lower surface of the rear part of the protective cover is fixedly connected with four connecting rods, and the four connecting rods are symmetrically distributed in pairs; a sliding groove plate is fixedly connected between the two groups of connecting rods; the two sliding groove plates are fixedly connected with the protective cover respectively; the opposite sides of the two chute plates are respectively connected with a clamping component in a sliding way; the opposite sides of the two chute plates are respectively connected with a fixing component.

3. The misplacement separation treatment equipment for the luring wood block for controlling the termites as claimed in claim 2, wherein the fixing component comprises a transverse plate, a pressure rod, a first elastic piece, a fixing block, a torsion spring rod and a support plate; five support plates are fixedly connected to the rear side of the chute plate positioned on the left side, and the heights of the five support plates gradually increase from right to left in a step shape; the five support plates are respectively connected with a pressure lever in a sliding way, the lengths of the five pressure levers are sequentially shortened from right to left, and the top ends of the five pressure levers are flush; the sliding groove plate positioned on the left side is provided with six grooves, the positions of a second groove which is counted from the right to the left correspond to the positions of a first pressure lever which is counted from the right to the left, the position of a third groove corresponds to the position of a second pressure lever, the position of a fourth groove corresponds to the position of a third pressure lever, the position of a fifth groove corresponds to the position of a fourth pressure lever, and the position of a sixth groove corresponds to the position of a fifth pressure lever; two torsion spring rods are symmetrically and fixedly connected to the upper parts of the second groove, the third groove, the fourth groove, the fifth groove and the sixth groove from right to left; each of the ten torsion spring rods is rotatably connected with one fixed block, the ten fixed blocks are distributed in pairs in a group, and the two fixed blocks in each group are symmetrically distributed; five support plates are fixedly connected to the rear side of the chute plate positioned on the right side, and the heights of the five support plates gradually increase from right to left in a step shape; the five support plates are respectively connected with a pressure lever in a sliding way, the lengths of the five pressure levers are sequentially shortened from right to left, and the top ends of the five pressure levers are flush; the sliding groove plate positioned on the left side is provided with six grooves, the position of a second groove which is counted from the right to the left corresponds to the position of a first pressure lever which is counted from the right to the left, the position of a third groove corresponds to the position of a second pressure lever, the position of a fourth groove corresponds to the position of a third pressure lever, the position of a fifth groove corresponds to the position of a fourth pressure lever, and the position of a sixth groove corresponds to the position of a fifth pressure lever; two torsion spring rods are symmetrically fixedly connected to the upper parts of the second groove, the third groove, the fourth groove, the fifth groove and the sixth groove from right to left; the ten torsion spring rods are respectively rotatably connected with one fixed block, the ten fixed blocks are distributed in a group of two, and the two fixed blocks of each group are symmetrically distributed.

4. The misplacing and separating treatment equipment for the luring wood block for controlling the termites as claimed in claim 3, wherein the clamping assembly comprises a moving plate, an L-shaped plate, a connecting plate, a clamping rod, a bracket, a second elastic element, a swing rod, a first electromagnet, a second electromagnet and a rotating shaft; a moving plate is connected in a sliding manner in each of six grooves of the sliding groove plate positioned on the left; the upper surfaces of the middle parts of the six moving plates are fixedly connected with a bracket respectively; the upper surfaces of the rear parts of the six moving plates are fixedly connected with an L-shaped plate respectively; the front parts of the six moving plates are respectively connected with a connecting plate in a sliding way; two clamping rods are symmetrically fixedly connected to the front sides of the six connecting plates; the upper parts of the six brackets are respectively connected with a rotating shaft in a rotating way; a swing rod is fixedly connected to each of the six rotating shafts; the lower parts of the six swing rods are respectively provided with a first electromagnet; the middle parts of the six brackets are respectively provided with a second electromagnet; the front sides of the lower parts of the six brackets are fixedly connected with a second elastic piece respectively; the six second elastic pieces are fixedly connected with the six connecting plates corresponding to the positions of the six second elastic pieces respectively; six grooves of the sliding groove plate positioned at the right side are respectively connected with a moving plate in a sliding way; the upper surfaces of the middle parts of the six moving plates are fixedly connected with a bracket respectively; the upper surfaces of the front parts of the six moving plates are fixedly connected with an L-shaped plate respectively; the rear parts of the six moving plates are respectively connected with a connecting plate in a sliding way; two clamping rods are symmetrically and fixedly connected to the rear sides of the six connecting plates; the upper parts of the six brackets are respectively connected with a rotating shaft in a rotating way; a swing rod is fixedly connected to each of the six rotating shafts; the lower parts of the six swing rods are respectively provided with a first electromagnet; the middle parts of the six brackets are respectively provided with a second electromagnet; the rear sides of the lower parts of the six brackets are fixedly connected with a second elastic piece respectively; the six second elastic pieces are fixedly connected with the six connecting plates corresponding to the positions of the six second elastic pieces respectively.

5. The dislocation-separating treatment equipment for the luring wood blocks for the control of the termites as claimed in claim 4, wherein the protection unit comprises a pedal, a moving rod, a third elastic member, a guide rail and an annular cover; the front part of the vehicle underframe is fixedly connected with a guide rail; a moving rod is connected in the guide rail in a sliding way; the upper part of the movable rod is sleeved with a third elastic part; the lower end of the third elastic part is fixedly connected with the vehicle underframe; the lower part of the movable rod is fixedly connected with a pedal; the rear part of the pedal is fixedly connected with an annular cover; the annular cover is connected with the vehicle underframe in a sliding way.

6. The misplacing and separating treatment equipment for the luring wood blocks for controlling the termites as claimed in claim 5, wherein the grabbing unit comprises a support frame, a first electric slide rail, a first electric slide block, an annular frame, a first electric push rod, a connecting frame and a sliding clamp; the left side of the front part and the right side of the front part of the protective cover are respectively fixedly connected with a support frame, and the two support frames are symmetrically distributed; and the opposite sides of the two support frames are respectively fixedly connected with a first electric slide rail; the opposite sides of the two first electric sliding rails are respectively connected with a first electric sliding block in a sliding manner; an annular frame is fixedly connected between the two first electric sliding blocks; the lower part of the annular frame is fixedly connected with a connecting frame; the upper part of the connecting frame is fixedly connected with a first electric push rod; the telescopic part of the first electric push rod is provided with a sliding clamp; the sliding clamp is connected with the connecting frame in a sliding mode.

7. The misplaced separation treatment equipment for the luring wood blocks for controlling the termites as claimed in claim 6, wherein the moving unit comprises a second electric slide rail, a second electric slide block, a fixed frame, a second electric push rod, a clamping plate and a cleaning brush; two second electric slide rails are symmetrically and fixedly connected to the upper surface of the vehicle underframe; the two second electric sliding rails are respectively connected with a second electric sliding block in a sliding manner; the upper surfaces of the two second electric sliding blocks are fixedly connected with a fixed frame respectively; a second electric push rod is fixedly connected to each of the two fixing frames; the telescopic parts of the two second electric push rods are respectively provided with a clamping plate; the rear sides of the two second electric sliding blocks are respectively provided with a cleaning brush.

8. The staggered attractant wood block separating and processing device for termite control as claimed in claim 7 wherein the cleaning brush is used for cleaning the termite corpse falling onto the second electric slide rail.

9. The misplacing separation treatment equipment for the luring wood block for controlling the termites as claimed in claim 8, wherein the lifting unit comprises a motor, a second mounting rack, a first take-up pulley, a second take-up pulley, a rope, a slide bar, a limiting ball, a lifting rack, a telescopic plate, a third electric push rod and a moving clamp; the upper surface of the rear part of the protective cover is fixedly connected with a second mounting frame; the front part of the second mounting frame is fixedly connected with a motor; a first take-up pulley is fixedly connected with an output shaft of the motor; the first take-up pulley is rotatably connected with the second mounting frame; the rear part of the second mounting frame is rotatably connected with a second take-up pulley; ropes are wound on the first take-up pulley and the second take-up pulley; the lower end of the rope is fixedly connected with a limiting ball; the lower part of the rope is connected with a lifting frame; the lifting frame is contacted with the limiting ball; the left part and the right part of the lifting frame are respectively fixedly connected with a third electric push rod; the telescopic parts of the two third electric push rods are respectively provided with a movable clamp; the two movable clamps are respectively connected with the lifting frame in a sliding way; six expansion plates are fixedly connected with the front part and the rear part of the lifting frame at equal intervals, and twelve expansion plates are distributed in a group of six.

10. The misplaced separation treatment device for the luring wood blocks for termite control as claimed in claim 9, wherein the weight of the limiting ball and the lifting frame and the influence of gravity can make the expansion plate move downwards and make the expansion plate contract when the expansion plate meets the obstruction.