CN219047141U - Trigger type mole catcher - Google Patents

Abstract

The utility model relates to the technical field of agricultural tools, in particular to a trigger type mole catcher which comprises a mounting frame, a trigger component and a pressing component, wherein the trigger component is mounted on the mounting frame, the pressing component is linked with the trigger component, and the mounting frame is mounted in a communicated hole dug in a soil layer at the upper part of a mole advancing channel; the trigger assembly comprises a force storage component and a trigger component; the force storage component is positioned in the mounting frame and connected with the pressing component; the trigger component is rotatably installed relative to the mounting frame, the lower end of the trigger component stretches into the mole advancing channel, and the upper end of the trigger component is in abutting connection with the pressing component; according to the utility model, the plurality of mousetraps are buried in the frequent position of the mole, when the mole passes by and triggers the offset of the firing pin, the mousetraps are realized to catch the mole, the mousetraps are simple in structure, low in mass production cost and capable of being repeatedly utilized, time and labor are saved when the mousetraps are manually placed, the mousetrap efficiency is effectively improved, and the problem that the mice hurt crops is solved.

Description

Trigger type mole catcher

Technical Field

The utility model relates to the technical field of agricultural tools, in particular to a trigger type mole catcher.

Background

Mole is a mammal. The body is short and fat, the length is more than 10 cm, the hair is black and brown, and the tip of the mouth is pointed. Developed front limbs, everted sole, favorable claws and suitability for digging soil; the hind limbs are tiny. The eyes are small and hidden in the hair. The insects are caught by the soil holes at night and the roots of the crops are also caught by the soil holes at daytime. It is harmful to agriculture, so it is a pest because it prefers to dig holes, injure crops.

However, because moles are mostly moved underground, and because holes are formed, an underground cave system is very developed, the capturing in the holes is not realistic, and large-area soil turning capturing is too labor and civil injury, the common rat killing mode is mostly to pour water into the holes and smoke to force out moles, and the moles are used for trapping by external rat trapping clamps; or when the mole is out, the mole is remotely shot and killed when the outdoor squatting is at night and the night is still, so that the difficulty of deratization is visible;

the ecological environment damage caused by the mole flood is quite original and not rare, and related reports at home and abroad are frequently fresh, so that how to effectively kill the mole with low cost is extremely necessary to reduce the damage of the mole to crops, and the scheme is also a problem to be solved.

Disclosure of Invention

The utility model aims to provide a trigger type mole catcher which can effectively catch and kill mole rats at low cost so as to reduce the damage of the mole rats to crops

In order to achieve the above purpose, the present utility model provides the following technical solutions: a trigger type mole catcher comprises a mounting frame, a power storage component, a trigger component and a pressing component in linkage with the power storage component and the trigger component;

the force storage component is positioned in the mounting frame and connected with the pressing component; the trigger part rotates the installation relative to the mounting bracket, trigger part lower extreme stretches into the mole and advances in the passageway, trigger part upper end and pushes down the subassembly conflict and be connected, trigger part lower extreme is used for the separation mole to advance and forces the mole to strike trigger part after, releases trigger part upper end and pushes down the subassembly conflict relation.

Preferably, the mounting frame is a cylindrical shell, one end of the mounting frame extends into the mole advancing channel, and a penetrating rat inlet hole is formed in a section of the mole advancing channel, so that a mole enters the mounting frame.

Preferably, the force accumulating part is a spring part, and two ends of the spring part are respectively connected to the pressing component and the inside of the mounting frame and used for providing reset elastic potential energy for the pressing component when the spring part is contracted.

Preferably, the pressing component comprises a limiting component and a clamping component; one end of the limiting component penetrates through the mounting frame in a sliding manner, and the other end of the limiting component is connected with the clamping component; the spring member is connected near the spacing member between the mounting bracket and the clamping member.

Preferably, the triggering component comprises a firing pin, a spring piece, a collision block and an intermediate piece; the upper part of the firing pin and the abutting block respectively penetrate through the reinforcing ribs in the sliding connection mounting frame; wherein, the middle part of the reinforcing rib where the firing pin is positioned is provided with a through hole with the width larger than the width of the firing pin; one end of the upper part of the firing pin penetrates through the through hole and is movably connected with the abutting block through the middle piece; the spring piece is installed between the conflict piece and adjacent strengthening rib.

Preferably, the pressing component further comprises a yielding component, and the yielding component comprises a connecting rod piece arranged between the limiting component and the clamping component; a boss is arranged on the connecting rod piece in the extending direction of the corresponding abutting block; the boss is used for propping against the abutting block to limit the clamping and pressing component.

Preferably, the yielding part further comprises a yielding groove arranged on the clamping part, and the yielding groove is used for yielding the lower part of the firing pin when the clamping part slides relative to the firing pin.

Preferably, the firing pin is integrally in a "]" structure, and the lower area of the firing pin is larger than the upper area, so as to increase the touch range of moles; a blocking hole is formed in the middle of the lower portion of the firing pin, and is used for enabling the nose of a mole to pass through and blocking a body part.

Compared with the prior art, the utility model has the following beneficial effects:

(1) According to the utility model, the plurality of mousetraps are buried in the frequent position of the mole, and the mole touches the firing pin when passing through the mousetraps so as to trigger the mousetraps to catch the mole, so that the mousetraps are simple in structure, low in mass production cost, capable of being repeatedly used, time-saving and labor-saving in manual placement, the mouse catching efficiency is effectively improved, and the problem that the mice hurt crops is solved.

(2) According to the utility model, the installation channel for embedding the catcher is downwards drilled at the position where the mole is on, so that the travel channel of the mole is communicated with the channel for embedding the catcher; meanwhile, the force accumulating component is compressed by moving the pressing component to accumulate force, the rotation triggering component returns to clamp the pressing component to avoid falling, and then the debugged catcher is buried in the mounting channel; when the mole rat moves through and continuously pushes the trigger part below the catcher in the advancing channel, the trigger part deflects relative to the mounting frame, the linear distance between the upper end of the trigger part and the pressing component is increased, the interference relation between the upper end of the trigger part and the pressing component is relieved, and therefore the pressing component rapidly falls down to press the mole rat under the action of the force storage component, and the catching is realized. In addition, in order to guarantee the portable and the compression of the subassembly of being convenient for of trapper holds the power part, can be in the subassembly of pushing down and stretch out the handle on the one end of mounting bracket, the application of force of being convenient for.

Drawings

FIG. 1 is a schematic view of the main section structure (to be excited) of the present utility model;

FIG. 2 is a schematic view of the main section structure of the present utility model (released state);

FIG. 3 is an enlarged schematic view of a portion of FIG. 2A;

FIG. 4 is an enlarged schematic view of a portion of FIG. 1 at B;

fig. 5 is a partial cross-sectional view at C-C of fig. 4.

In the figure: the mouse comprises a mounting frame 1, a mouse inlet hole 11, a reinforcing rib 12, a through hole 13, a power storage part 2, a pressing component 3, a limiting part 31, a clamping part 32, a yielding part 33, a connecting rod 331, a boss 332, a yielding groove 333, a triggering part 4, a firing pin 41, a collision block 42, a middle part 43 and a blocking hole 44.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model; the utility model provides the following technical scheme:

first embodiment, referring to the drawings 1-2 in the specification,:

a trigger type mole catcher comprises a mounting frame 1, a power storage part 2, a trigger part 4 and a pressing component 3 linked with the power storage part 2 and the trigger part 4, wherein the mounting frame 1 is arranged in a communicated hole dug in a soil layer at the upper part of a mole advancing channel; a force accumulating part 2 and a triggering part 4; the force accumulating part 2 is positioned in the mounting frame 1 and is connected with the pressing component 3; the trigger part 4 is installed in a rotating mode relative to the mounting frame 1, the lower end of the trigger part 4 stretches into a travel channel of a mole, the upper end of the trigger part 4 is in abutting connection with the pushing component 3, the lower end of the trigger part 4 is used for blocking the mole from traveling and forcing the mole to strike the trigger part 4, and then the abutting relation between the upper end of the trigger part 4 and the pushing component 3 is relieved.

The installation channel for embedding the catcher is downwards drilled at the position where the mole is on, so that the travel channel of the mole is communicated with the channel for embedding the catcher; meanwhile, the pressing component 3 is moved to compress the force accumulation of the force accumulation component 2, the rotation triggering component 4 returns to clamp the pressing component 3, the falling is avoided, and then the debugged catcher is buried in the mounting channel;

when the mole rat moves through and continuously pushes the trigger part 4 below the catcher in the advancing channel, the trigger part 4 deflects relative to the mounting frame 1, the linear distance between the upper end of the trigger part 4 and the pressing component 3 is increased, the interference relation between the upper end of the trigger part 4 and the pressing component 3 is relieved, and therefore the pressing component 3 rapidly falls under the action of the force storage component to press the mole rat, and the capture is realized.

In addition, in order to ensure that the catcher is convenient to carry and the pressing component 3 is convenient to compress the force storage component 2, a handle can be connected to one end of the pressing component 3 extending out of the mounting frame 1, so that force application is convenient.

In a second embodiment, reference is made to the accompanying drawings 1-4 in the specification: the first embodiment is different from the first embodiment in that the present embodiment gives a more detailed structural design and operation description, so as to be convenient for those skilled in the art to implement;

the mounting frame 1 is in a cylindrical structure and is directly inserted into a cylindrical mounting channel which is punched in advance, after that, one end of the limiting component 31 slides to penetrate through the mounting frame 1, the limiting component 31 in the pressing component 3 is lifted out of the mounting channel through an external handle, and the spring component is compressed in the lifting process to prepare for storing force, meanwhile, the clamping component 32 moves along with the movement of the limiting component 31, so that a mouse inlet 11 arranged on the inner part of the progress channel of a mole is exposed on the mounting frame 1, and the boss 332 on the clamping component 32 passes over the abutting block 42, so that the abutting block 42 extends to the lower part of the boss 332 under the action of the reset elastic force of the spring component, and the abutting block 332 abuts against the boss 332 to realize that the part of the firing pin 41 positioned in the progress channel of the mole is deflected by the touch of the mole, the abutting block 42 is pulled, the linear distance between the abutting block 42 and the clamping component 32 is increased, and the abutting relation between the abutting block 42 and the clamping component 32 is contacted, so that the clamping component 32 is rapidly pressed towards the mole under the reset action of the spring component, and the capture is realized.

During the period, since the upper part of the striker 41 is movably connected with the collision block 42, a simpler implementation method can be to connect a hook (i.e. the middle piece 43) between the striker 41 and the collision block 42, when the striker 41 is under the limit action of the reinforcing rib 12 and the touch deflection action of the mole, the collision block 42 can be pulled back to the compression spring piece through the hook freely, so that the collision relation between the quick release and the clamping component 32 is realized; in addition, a rope or the like may be used as the intermediate member 43 for the movable connection.

Embodiment three, referring to the description of figures 1-5: different from the second embodiment, the specific arrangement of the reinforcing ribs 12 is that the reinforcing ribs 12 play a role in supporting the mounting frame 1 to be stable, and are also used for installing the components such as the abutting blocks 42, the spring elements, the firing pins 41 and the like, wherein the abutting blocks 42 can adopt a block structure and slide in the middle parts of two adjacent reinforcing ribs 12 in the embodiment, one end of each abutting block is used for being matched and abutted against the boss 332 on the pressing component 3, the spring elements are sleeved in the middle parts, the spring elements are positioned between the two adjacent reinforcing ribs 12, so that the abutting blocks 42 can be reset after being pulled by the compression spring elements, the other ends of the abutting blocks 42 are also installed on the third reinforcing rib 12 through the upper ends of the firing pins 41 which are movably connected through the middle parts 43, and the width of the through holes 13 formed in the reinforcing ribs 12 where the upper ends of the firing pins 41 are positioned is larger than the width of the firing pins 41, so that the firing pins 41 deflect at the reinforcing ribs 12 due to the fact that the lower parts of the firing pins 41 are pushed by the mole bumps;

example four, referring to the description of figures 1-2: unlike the third embodiment, the striker 41 is designed as a whole into a "]" structure for better function, but the lower area of the striker 41 is larger than the upper area for increasing the touch range of the mole, and a hole is provided in the middle of the lower part of the striker 41 for the nose of the mole to pass through and block the body part, and at the same time, the lower part of the striker 41 is ensured to be installed in a space capable of covering the mole, namely, to be placed near the bottom of the travel channel of the mole, so that the mole can trigger the mousetrap, thereby increasing the probability of being caught.

It is apparent that the above-described embodiments are only some embodiments of the present utility model, not all of which are based on the embodiments in the present utility model, and all other embodiments obtained by persons of ordinary skill in the art without making creative efforts are within the scope of protection of the present utility model.

Claims (8)

1. The utility model provides a trigger formula mole trap, includes mounting bracket (1), holds power part (2) and trigger part (4), and with hold power part (2) and trigger part (4) linkage push down subassembly (3), its characterized in that:

the mounting frame (1) is arranged in a communicated hole dug in a soil layer at the upper part of the mole advancing channel;

the force storage component (2) is positioned in the mounting frame (1) and is connected with the pressing component (3); the trigger part (4) rotates relative mounting bracket (1) and installs, in trigger part (4) lower extreme stretches into mole and advances the passageway, trigger part (4) upper end and push down subassembly (3) conflict and be connected, trigger part (4) lower extreme is used for the separation mole rat to advance and forces behind mole rat striking trigger part (4), releases the conflict relation of trigger part (4) upper end and push down subassembly (3).

2. A trigger mole trap according to claim 1, wherein: the mounting frame (1) is a cylindrical shell, one end of the mounting frame extends into the mole advancing channel, and a penetrating rat inlet hole (11) is formed in one section of the mounting frame, which is positioned in the mole advancing channel, for the entrance of moles.

3. A trigger mole trap according to claim 2, wherein: the force accumulating part (2) is a spring part, and two ends of the spring part are respectively connected to the pressing component (3) and the inside of the mounting frame (1) and used for providing reset elastic potential energy for the pressing component (3) during shrinkage.

4. A trigger mole trap according to claim 3, wherein: the pressing component (3) comprises a limiting component (31) and a clamping component (32); one end of the limiting component (31) penetrates through the mounting frame (1) in a sliding manner, and the other end of the limiting component is connected with the clamping component (32); the spring element is connected near a limiting part (31) between the mounting frame (1) and the clamping part (32).

5. A trigger mole trap according to claim 2, wherein: the triggering part (4) comprises a firing pin (41), a spring piece, a collision block (42) and an intermediate piece (43); the upper part of the firing pin (41) and the abutting block (42) respectively penetrate through and are connected to a reinforcing rib (12) arranged in the mounting frame (1) in a sliding manner; wherein, the middle part of the reinforcing rib (12) where the firing pin (41) is positioned is provided with a through hole (13) with the width larger than that of the firing pin (41); one end of the upper part of the firing pin (41) passes through the through hole (13) and is movably connected with the abutting block (42) through the intermediate piece (43); the spring member is mounted between the interference block (42) and the adjacent stiffener (12).

6. A trigger mole trap according to claim 4, wherein: the pressing component (3) further comprises a yielding part (33), and the yielding part (33) comprises a connecting rod piece (331) arranged between the limiting part (31) and the clamping part (32); a boss (332) is arranged on the connecting rod piece (331) in the extending direction of the corresponding abutting block (42); the boss (332) is used for abutting against the abutting block (42) to limit the clamping component (32).

7. A trigger mole trap according to claim 6, wherein: the yielding part (33) further comprises a yielding groove (333) arranged on the clamping part (32) and used for yielding the lower part of the firing pin (41) when the clamping part (32) slides relative to the firing pin (41).

8. A trigger mole trap according to claim 7, wherein: the firing pin (41) is integrally formed into a "]" type structure; a blocking hole (44) is formed in the middle of the lower part of the firing pin (41) and is used for enabling the nose of a mole to pass through and blocking a body part.

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