CN212488122U - Electric enclosure device for bed bugs - Google Patents

Abstract

The utility model provides a barrier device is enclosed to bugs electricity, relates to electric shock insecticidal device technical field, solves current bugs electricity median device and can not kill the technique of bugs completely not enough, and the technical means of adoption is including: the electric enclosure device is a plate-type structure and surrounds a plane with a bottom, and a protection area is formed inside the surrounding structure; the plate-type structure is provided with a groove with an upward opening, two sides inside the groove are embedded with two conductive materials which are close to each other, the conductive materials are connected with a voltage between 200V and 500V, and the maximum discharge current of the voltage is less than the human body safety current; the width of the groove is 8-10mm, and the distance between the conductive material and the bottom of the groove is not less than 8 mm. The utility model discloses the inside both sides of recess all are equipped with the conducting material that can release high-voltage electricity that is close to each other, and the distance of conducting material and recess bottom is greater than the body length of bugs, and the bugs will be restricted and can't escape by the conducting material that is in its top in case fall into the recess bottom, finally is killed by the electric shock completely. Simple structure, convenient use and thorough disinsection.

Description

Electric enclosure device for bed bugs

Technical Field

The utility model relates to an electric shock insecticidal device technical field, more specifically relate to a prevent that the bugs from getting into the protection zone territory and killing the daily necessities of bugs completely, can be comprehensive, long-term, safe, the sanitary bugs that prevent the invasion of bugs and kill the bugs completely enclose fender device.

Background

Bed bugs, namely bed bugs and ticks, are pests that are widely present in the daily living environment of people. The bed bugs live on the human blood, and can cause red swelling, itching and allergy of human skin after being bitten by the bed bugs, and can also cause most of skin infection in serious cases, thereby causing serious threat to the health of people. However, the body of the bedbugs is about 1.5mm-7mm, the bedbugs are tiny and quick in reaction, appear in the daytime and at night, are not easy to be found, no effective medicine is available at present for killing the bedbugs in a targeted manner, and the prevention and treatment difficulty is high. At present, a known product for preventing and killing bugs is a bug electrical isolation strip, wherein the national patent numbers are as follows: CN 201420596278.5. The electric isolation belt is surrounded by a soft plastic belt to form a protection area, an inverted groove with an opening towards the bottom is arranged on the plastic belt, and two conductive materials which are close to each other and are connected with 700V-1500V voltage are embedded on the upper surface inside the inverted groove. The electric isolation belt can release high-voltage low current to bugs which climb into the conductive materials above the inner portion of the inverted groove, and the bugs lose mobility and fall off, so that the bugs cannot climb the inverted groove of the electric isolation belt to enter a protection area of the electric isolation belt. The electrical isolation belt device releases high voltage and low current of 700-1500V to the bed bugs contacted on the conductive material through the conductive materials close to each other so as to electrocute or electrically injure the bed bugs. Usually, the current instantaneously released by the electric isolation belt device is about 2-15 milliamperes, and is harmless to people and livestock. But the bugs are sensitive to current, and the nervous system of the bugs is controlled by micro-current transmission, so that once the bugs are hit by high voltage and low current of the electric isolation belt, the current saturation state of the nervous system can be caused, and the bugs lose mobility and even die. However, such a bed bug electrical isolation strip has significant drawbacks in that it does not capture and limit bed bugs that are subjected to electrical shock. Some of the bed bugs which are shocked by electricity escape after being wounded by electricity, so that the products have the defect that all the bed bugs cannot be killed by hundreds of percent of electric shocks.

In conclusion, the existing electrical isolation belt device needs to be improved so that the bed bugs entering the groove can be completely killed or trapped by electric shock, the electrically-injured bed bugs are prevented from escaping, and the power utilization safety is ensured.

SUMMERY OF THE UTILITY MODEL

To sum up, the utility model discloses an aim at solves current bugle electricity median device and can not all kill by the bugle of electric shock, and the part is not enough by the technique that the injured bugle of electric shock can flee for, and provides a bugle electricity and encloses fender device.

For solving the utility model provides a technique is not enough, and the technical scheme of adoption is:

a bed bug electric enclosure device is a plate-type structure which is surrounded on a plane with a bottom, and a protection area is formed inside the surrounding structure; the plate-type structure is provided with a groove with an upward opening, two sides inside the groove are embedded with two conductive materials close to each other, the two conductive materials close to each other on the two sides of the groove are connected with a voltage between 200V and 500V, and the maximum discharge current of the voltage is less than the human body safety current; the width of the groove is 8-10mm, and the distance between the conductive material and the bottom of the groove is not less than 8 mm.

The distance between the conductive material and the opening at the upper end part of the groove is preferably 150 mm.

The bottom of the plate type structure of the electric enclosure device is provided with a bottom plate which is of a wedge-shaped structure, extends outwards and plays a role in supporting and preventing toppling.

The bottom plate is provided with a magic tape which can be stuck on fabrics such as carpets, gauze and the like.

And the electric enclosure device is electrically connected with a power supply box for supplying electric energy through a lead, and the positive electrode and the negative electrode of the voltage output end of the power supply box are respectively and electrically connected with two conductive materials which are close to each other on the two sides in the groove.

The power supply box is internally provided with two replaceable 1.5V batteries, a switch control key which is connected with the batteries in series and is used for controlling a power switch of the electric enclosure device, a boosting unit which is connected with the switch control key in series and is used for boosting the total 3V low voltage of the batteries to 200V to 500V high voltage, and a current-limiting protection unit which is connected with the boosting unit in series and is used for outputting the boosted high voltage current to two mutually close conductive materials at two sides in the groove in a current-limiting manner.

The fender device is enclosed to electricity encloses the fender picture peg including the electricity through piecing together the mode equipment of inserting in order to form the surrounding type structure, every electricity encloses to be equipped with on the plate body that keeps off the picture peg and makes progress the open-ended, run through the recess of plate body both sides terminal surface, the inside both sides of recess all have two conductive material of inlaying close to each other, and the electricity still corresponds on the left and right sides terminal surface that keeps off the picture peg and is equipped with the conductive elastic piece and the conductive contact of being connected with the conductive material on recess both sides about respectively with the conductive material.

The utility model has the advantages that: the utility model discloses the electricity encloses fender device and encircles formation protection zone territory through plate structure, and the electricity encloses the plate body that keeps off the device and is equipped with the open-ended groove structure that makes progress on, enclose the in-process that the protection zone territory of fender device plate body inboard invades to the electricity from the electricity in the outside that keeps off the device plate body when the bugs, blocked by the recess of locating plate body upper portion, because the bugs body length is less than the width of recess, it can't directly cross the recess, consequently can only follow inside the recess inside wall climb downwards to the recess bottom again from another inside wall upwards climb the opening of recess upper end portion and enter into the protection zone territory. Once the bed bugs crawl between two conducting materials which are arranged on the same inner side wall in the groove and are respectively connected with positive and negative electrodes and high voltage, the two conducting materials which are close to each other are conducted, and the bed bugs are hit by high voltage and low current released by 200V-500V high voltage electricity, so that the bed bugs lose mobility and fall to the bottom of the groove. Most bugs all can die after being shocked by the electricity, and the bug that a small number of injuries survived is detained in the bottom of recess and is caught. And simultaneously, the utility model discloses all be equipped with the conducting material that is close to each other, switches on and has 200V-500V high voltage electricity on two inside walls on recess both sides, and conducting material is not less than 8mm apart from the distance of recess bottom, is greater than the body length of bugs. Therefore, the survived bugs only crawl to the upper opening along the inner side walls at two sides in the groove for escaping. Its in-process of climbing must touch two conducting material that are close to each other on the recess inside wall once more, must can be shocked by the electric shock once more and drop, until it is dead completely. If the bed bugs are elected to stay at the bottom of the groove after being shocked and not escape upwards, the bed bugs can be caught and killed when the groove is cleaned. Therefore, the utility model discloses an it is better to exterminate the effect of bugs, can exterminate or the drowsiness completely the bugs that receive the electric shock in getting into the recess, and the bugs that receive the electric shock can not flee.

And simultaneously, the utility model discloses the electric recess width that encloses on the baffle device plate body is less than the width at positions such as human finger, can prevent effectively that human finger from stretching into inside the recess and the conducting material is touched to the mistake.

Moreover, in order to further improve the security, the protection finger is less, can insert the minor in the recess with the finger, the utility model discloses conducting material in the recess is 150mm apart from the distance design of recess upper end opening part. The length of the fingers of the adult does not exceed 150mm, and the adult is not grown. Therefore, even if the fingers of the juveniles extend into the grooves, the fingers cannot touch the conductive materials, and the safety is higher.

Additionally, the utility model discloses enclose the fender device with the electricity and design and enclose the fender and piece together the picture peg for can piecing together the equipment in order to form the regional electricity of protection, made things convenient for the utility model discloses a production, transportation, installation, use and clearance. And also can increase or reduce the number that the electricity encloses to keep off the piece together picture peg at any time through piecing together the equipment mode of inserting to adjustment protection area's length and width make not unidimensional, the bed of size can both be protected in protection area, improve the utility model discloses a suitability.

Drawings

Fig. 1 is a schematic view of the overall structure of the electric enclosure device after the electric enclosure splicing and inserting plate is spliced and assembled;

FIG. 2 is a left side view of the electrical enclosure pin-board substrate structure of the present invention;

FIG. 3 is a right side view of the electrical enclosure pin-board substrate structure of the present invention;

fig. 4 is a schematic diagram of the plate body section structure of the electric fence patchboard of the utility model;

fig. 5 is a schematic view of the whole structure of the corner of the electric fence splicing and inserting plate of the utility model;

FIG. 6 is a schematic diagram of the cross-sectional structure of the plate body at the corner of the electric fence splicing and inserting plate of the present invention;

fig. 7 is a schematic block diagram of the circuit of the electric enclosure device of the present invention.

Detailed Description

The structure of the present invention will be further described with reference to the accompanying drawings and preferred embodiments of the present invention.

Referring to fig. 1 to 7, the present invention: the utility model provides a bed bug electricity encloses fender device, the electricity encloses fender device for a plate construction, becomes the rectangle and encircles on having the plane of bottom, and the inside of encircleing forms the protection zone. A recess 1 which is open at the top and preferably has a width of 8mm is arranged around the rectangular surrounding electrical enclosure plate of the plate construction. Two conductive materials which are close to each other and horizontally surround along the rectangle of the groove 1 are correspondingly embedded in the lower parts of the corresponding inner side walls on the two sides in the groove 1 respectively. It should be noted that the utility model discloses the interval between two electrically conductive material that are close to each other that arrange from top to bottom on the same inside wall of recess 1 sets up is between 0.5mm-1mm, and is parallel connection between two sets of electrically conductive material on two inside walls of recess 1, and the two work independently each other. Because the body length of the bed bugs is between 1.5mm and 7mm, the distance between two mutually close conductive materials on the same inner side wall must be smaller than the body length of the smallest bed bugs, so that the smallest bed bugs can simultaneously contact two mutually close conductive materials on the same inner side wall even when climbing into the groove, and a working circuit is conducted to release current to kill the bed bugs or electrically injure the bed bugs. The conductive material is preferably a metal conductive strip 6 in a long strip shape, the width of the metal conductive strip 6 is preferably 4.5-4.75 mm, and the distance between two metal conductive strips 6 on the upper and lower inner side walls in the groove 1 is preferably 0.5 mm. The distance between the upper metal conductive strip 61 on the upper side of the two inner side walls in the groove 1 and the opening of the upper end of the groove 1 is 150mm, and the distance between the lower metal conductive strip 62 on the lower side of the groove 1 and the bottom surface of the groove 1 is preferably 10 mm. Meanwhile, the two metal conductive strips 6 close to each other on the same inner side wall of the groove 1 are connected with a voltage between 200V and 500V, and the maximum discharge current of the voltage is less than the human body safety current.

Specifically, refer to fig. 1 and show, for the convenience the utility model discloses the electricity encloses production, transportation, installation, use and the clearance of keeping off the device, improves the utility model discloses an adaptability, the utility model discloses enclose the electricity to keep off the device and set a plurality of accessible and piece together the mode equipment and enclose to keep off picture peg 5 in order to form the electricity of surrounding type structure. Specifically, the electric enclosure patch board 5 includes an even number of electric enclosure patch board substrates 51 assembled in a horizontally-extending board structure by a patch mode, and four electric enclosure patch board corners 52 of a corner structure matched with the electric enclosure patch board substrates 51. The electric enclosure splicing and inserting plate substrate 51 and the electric enclosure splicing and inserting plate corner 52 are matched, spliced and assembled into an electric enclosure device with a rectangular structure in a surrounding mode, and a protection area is formed in the middle of the rectangular surrounding mode. During actual use, the electric enclosure splicing insertion plates 5 can be spliced, inserted, assembled and fixed on a floor along the bedside, the bed is enclosed in a protection area, and bugs are prevented from climbing to the bed to suck human blood when crossing the electric enclosure splicing insertion plates 5.

Preferably, each electrical enclosure patch board substrate 51 has a horizontal length of 300mm and a vertical height of 200 mm. The horizontal length of the board bodies on the two sides of each electric enclosure splicing board corner 52 is 100mm, and the vertical height of the board bodies is equal to the height of the electric enclosure splicing board substrate 51. The length and the height of the electric enclosure splicing and inserting plate 5 in the embodiment can be suitable for splicing and assembling into the size suitable for beds with different size standards, and the length of 300mm enables the number of the electric enclosure splicing and inserting plate substrates 51 to be small, so that the electric enclosure splicing and inserting plate is convenient to assemble, use and clean.

Of course, in other embodiments, the length, height and the like of the electric enclosure splicing and inserting plate 5 can be adjusted according to actual requirements, and only the use safety and convenience need to be ensured.

Specifically, referring to fig. 2 to 6, the electrical enclosure patch board substrate 51 and the electrical enclosure patch board corner 52 are made of insulating materials, the groove 1 is recessed on the vertical board body along the vertical direction, and two ends of the groove 1 longitudinally penetrate through the left and right side end faces of the board body. The groove 1 divides the plate body of the electric fence spile 5 into an inner side plate surface 53 corresponding to one side of a protection area and an outer side plate surface 54 corresponding to one side of the protection area. Preferably, the vertical height of the groove 1 is 170mm, two groups of metal conductive strips 6 inside the groove are horizontally and correspondingly embedded in the lower positions of the two inner side walls of the inner side plate surface 53 and the outer side plate surface 54 inside the groove 1, and the length of each metal conductive strip 6 is not less than that of the groove 1. It should be noted that the upper metal conducting strip 61 at the upper part is at a distance of 150mm from the opening at the upper end of the groove 1, and the lower metal conducting strip 62 at the lower part is preferably at a distance of 10mm from the bottom of the groove 1.

Specifically, as shown in fig. 2, 3 and 5, a conductive contact 71 electrically connected to the left end of the metal conductive strip 6 is provided at a position corresponding to the lower portion of the left end surface of the electric enclosure patch board substrate 51 and the electric enclosure patch board corner 52. Preferably, the conductive contact 71 is a strip-shaped metal conductive bar 6, the left end of which horizontally extends out of the left end of the groove 1 and is bent towards the left end faces of the inner plate surface 53 and the outer plate surface 54, and is pressed and tightly attached to the left end face. It should be noted that the end of the conductive contact 71 formed by bending and pressing the metal conductive strip 6 cannot exceed the left end face of the board body of the electric enclosure patch board 5, so as to prevent the conductive contact 71 from leaking out of the board body of the electric enclosure device after the patch assembly and causing the human body to contact with the conductive material. Meanwhile, the conductive elastic sheet 7 electrically connected with the right end part of the metal conductive strip 6 is correspondingly arranged at the lower part of the right end face of the electric enclosure splicing board substrate 51 and the electric enclosure splicing board corner 52. Preferably, the conductive elastic sheet 7 is a bent elastic sheet structure formed by horizontally extending the right end of the body of the strip-shaped metal conductive bar 6 out of the right end of the groove 1 and bending the right end of the body towards the left end faces of the inner board surface 53 and the outer board surface 54, and the end of the bent elastic sheet structure movably abuts against the right end face of the board body of the electric enclosure block-and-patch board 5. It should be noted that the end of the conductive elastic sheet 7 is located in the middle of the right end of the inner board 53 and the outer board 54 to ensure that the end of the conductive elastic sheet 7 does not extend out of the electric enclosure device board due to the extrusion straightening after the splicing assembly, thereby preventing the extended part from causing the human body to touch by mistake. Be equipped with on one of four electricity enclose fender piece board corners 52 and enclose the fender device power supply with the dead power box 4 of metal conducting strip 6 electric shock that mutually is close to that sets up on the same inside wall with the bug through recess 1 inside for the electricity encloses. The positive and negative poles of the voltage output end of the power supply box 4 are respectively and oppositely arranged on the two inner side walls in the groove 1 and are electrically connected with the metal conductive strips 6 at the same height, and the two groups of metal conductive strips 6 on the two inner side walls in the groove 1 are connected in parallel.

Specifically, referring to fig. 1, 5 to 7, the power supply box 4 is electrically connected to two sets of metal conductive strips 6 oppositely disposed on two inner side walls inside the groove 1 of the electrical enclosure bulkhead board corner 52 through a wire 3. Two independent positive electrode conductive wires 31 and negative electrode conductive wires 32 are arranged in the lead 3. The head end part of the positive electrode conductive wire 31 is respectively and electrically connected with the upper metal conductive strip 61 which is positioned on the two inner side walls of the groove 1 and is positioned above the inner side wall of the electric enclosure splicing and inserting plate corner 52; the head end of the negative conductive wire 32 is electrically connected to the lower metal conductive strip 62 on the two inner sidewalls of the groove 1 inside the electrical enclosure patch board corner 52. The tail ends of two positive and negative conductor wires in the lead 3 are respectively electrically connected with the positive and negative electrodes of the voltage output end of the power supply box 4.

Specifically, referring to fig. 7, two replaceable 1.5V rechargeable batteries 41 for powering the electrical enclosure are provided in the power supply box 4. The power supply box 4 is also provided with a switch control key 42 which is connected with the two 1.5V rechargeable batteries 41 in series and is used for controlling the power switch of the utility model. And a boosting unit 43 which is connected with the switch control key 42 in series and is used for boosting the 3V low voltage of the two 1.5V rechargeable batteries 41, and a current-limiting protection unit 44 which is connected with the boosting unit 43 in series and is used for respectively current-limiting and outputting the 200V-500V high voltage output by the boosting unit 43 to two groups of two metal conductive strips 6 which are arranged up and down and are close to each other and arranged on the two inner side walls in the groove 1. Specifically, the boosting unit 43 is provided with a high-frequency oscillation circuit 431 and a triple voltage rectifying circuit 432, and the current limiting protection unit 44 is provided with a current limiting resistor having a resistance of 100 kilo-ohms.

In practical use, the switch control key 42 of the power supply box 4 is switched to an open state, so that two 1.5V rechargeable batteries 41 are connected into a circuit to work, and a short-circuit switch structure is formed between two adjacent metal conductive strips 6 on the same inner side wall in the groove 1. Once a bug climbs into the groove 1, no matter the bug touches two mutually close metal conductive strips 6 on the inner side plate surface 53 or the outer side plate surface 54 of the electric fence spile 5, the metal conductive strips 6 are short-circuited to conduct the whole working circuit, the rechargeable battery 41 can supply power to the working circuit, the high-frequency oscillation circuit 431 and the triple voltage rectifying circuit 432 in the boosting unit 43 boost the 3V voltage of the battery to 200V to 500V, and the current limiting resistor in the current limiting protection unit 44 limits the current of the high-voltage power boosted by the boosting unit 43 through the positive electrode conductive wire 31 and the negative electrode conductive wire 32 of the lead 3 and outputs the current to the two mutually close metal conductive strips 6 on the same inner side wall of the groove 1 touched by the bug so as to perform instantaneous high-voltage discharge electric shock on the bug. Because the resistance value of the current-limiting resistor is 100 kilo-ohms, the current value output by the current-limiting protection unit 44 is in the range of 1 milliampere to 5 milliamperes, so that the current-limiting protection unit is harmless to people and livestock, but can kill bugs. When the switch control key 42 of the power supply box 4 is in an open state, the metal conductive strips 6 close to each other on the same inner side wall inside the groove 1 are not in direct contact, so that the working circuit cannot be conducted, and the metal conductive strips 6 cannot automatically discharge outwards.

In order to enter the protection area of the electric enclosure device to suck human blood, the bed bugs need to climb up to the upper end face of the electric enclosure patch 5 from the bottom of the outer side plate surface 54 of the electric enclosure patch 5 and climb down to the protection area through the inner side plate surface 53. However, the upper end face of the electric fence spile 5 is blocked by the upper end opening of the groove 1, so that the electric fence can only climb downwards to the bottom of the groove 1 along the inner side wall of the outer side board 54 inside the groove 1, climb upwards through the upper end opening of the groove 1 along the inner side wall of the inner side board 53 inside the groove 1, and then climb downwards into the protection area along the outer side wall of the inner side board 53. But when the inside wall of 1 inside outside face 54 of recess inside of bugs edge crawls the in-process downwards, because of its body length is greater than the 0.5mm interval between the two metal bus bar 6 that are close to each other, must touch two metal bus bar 6 that are close to each other that are connected with high-voltage electricity simultaneously, make the utility model discloses an operating circuit switches on, and power supply box 4 starts work makes metal bus bar 6 to its release high-voltage low current. The released high voltage and low current can cause the nerve system of the bed bug to be re-created, so that the bed bug loses mobility and falls into the bottom of the groove 1. Most bugs receive the electricity to enclose to keep off the electric shock that splices metal conducting strip 6 on 5 outside faces 54 of picture peg all can die, only a small number of bugs are fluke and can survive, nevertheless because metal conducting strip 6 still is in its top, must upwards crawl toward the upper end opening part of recess 1 in order to flee for one's life the bugs. At this point, bed bugs either climb up the outboard panel 54 to escape back outside the protected area or climb up the inboard panel 53 to intrude into the protected area. However, in the process of climbing upwards, no matter which inner side wall inside the groove 1 is selected to climb upwards, the metal conducting strips 6 close to each other are touched at the same time to be shocked and dropped until the metal conducting strips are shocked and killed. Therefore, the utility model discloses the efficiency that the electric shock killed the bugs is higher, and the effect of killing is better, and the bugs in case fall into recess 1 in will be stranded unable escape, and finally must die certainly.

The utility model discloses select rechargeable battery 41 as power supply, the use that can repetitious usage after charging reduces the dry battery, avoids the wasting of resources, has also reduced the pollution to the environment simultaneously. Moreover, the utility model discloses a voltage of 1.5V battery is lower, and is safer in comparison in domestic 220V power, has improved the utility model discloses a security. Meanwhile, the battery is easy to obtain, convenient to use and replace, capable of being separated from the limitation of a household power supply, capable of being used in outdoor abnormal electricity environment and high in applicability.

Preferably, the width of the groove 1 in the electrical enclosure patch board substrate 51 and the electrical enclosure patch board corner 52 is set to 8mm in this embodiment because the adult length of the bed bug is between 1.5mm and 7mm, and the width of the groove 1 of 8mm can ensure that the bed bug will not climb into the protection area of the electrical enclosure device over the opening of the groove 1 when climbing to the opening of the upper end of the groove 1. Moreover, the width of 8mm also can effectively avoid the people to point to stretch into, has solved the people and pointed the motor injury problem that causes in 1 opening of recess stretches into to recess 1. Simultaneously, the vertical distance between upper portion metal busbar 61 and recess 1 upper end opening is 150mm in this embodiment, has guaranteed that the staff stretches into from recess 1 upper end opening part and also can not touch metal busbar 6, has further solved the people and has pointed the problem that causes to contact conducting material in stretching into recess 1 through recess 1 opening, has improved the utility model discloses a security. In addition, set up the distance between lower part metal conducting strip 62 and recess 1 bottom into 10mm in this embodiment, be greater than the body length of bugs, can make the bugs drop to two metal conducting strips 6 that are close to each other on the recess 1 bottom back can not contact to same inside wall always, just can not cause the electricity to enclose the sustained discharge who keeps off the device, avoided the waste of electric power, practiced thrift the electric energy of battery.

Specifically, referring to fig. 2, fig. 3 and fig. 5, the utility model discloses electricity is enclosed to keep off and is pieced together board base 51 and electricity and encloses that keep off about the left side terminal surface of piecing together board corner 52 tip position upper level offer be used for piecing together insert 8 of equipment, enclose at the electricity keep off piece board base 51 and electricity enclose keep off piece together board corner 52 the upper and lower tip position upper level of right side terminal surface be equipped with slot 8 match grafting portion 81. The way of setting the electric enclosure panel substrate 51 and the electric enclosure panel corner 52 to be inserted in the horizontal front-rear direction in this embodiment is to match the structure of the conductive elastic sheet 7 of the metal conductive strip 6 extending in the horizontal direction after being bent. If the insertion slot 8 and the insertion portion 81 are configured to be inserted in a vertical direction, friction between the conductive elastic sheet 7 and the left end faces of the electric enclosure patch board substrate 51 and the electric enclosure patch board corner 52 may be too large during insertion, which may cause damage to the conductive elastic sheet 7, resulting in loose contact between the conductive elastic sheet 7 and the conductive contact 71 at the same position after insertion, and thus causing a disconnection fault of the electric enclosure device.

Of course, in other embodiments it is fully possible to arrange the conductive dome 7 in a POGO PIN or POGO bead configuration, for example, and the conductive contacts 71 in a POGO PIN or POGO bead configuration. Then, the assembling manner of the electrical enclosure patch board substrate 51 and the electrical enclosure patch board corner 52 is properly adjusted according to the electrical connection manner between the conductive elastic sheet 7 and the conductive contact 71, which may be vertical patch or oblique patch.

Specifically, refer to fig. 2, fig. 3 and fig. 5 and show, in order to improve the utility model discloses insert the firm degree that the fender device was enclosed to the electricity of assembled structure, prevent to insert the back electricity and enclose that the fender device receives easy distortion or even loose behind the external force, the utility model discloses electricity encloses fender picture peg 5 and encloses to keep off picture peg substrate 51 and electricity and enclose to correspond on the lower part position that is equipped with spring top pearl 9 and the top pearl trench 91 that can match the elasticity joint on the both sides terminal surface recess 1 that keeps off picture peg corner 52. After the actual splicing and inserting assembly, the spring top bead 9 is correspondingly clamped in the top bead slot 91, so that the splicing and inserting assembly is more compact in clamping between the electric enclosure splicing and inserting plates 5. Enclose spring top pearl 9 and the top pearl trench 91 that keeps the electricity of keeping off when keeping off the device and receiving little external force at the electricity and enclose the stability that keeps off piecing together picture peg base plate 51 and electricity and enclose to keep off piecing together connection between picture peg corner 52, improved the utility model discloses a reliability. When the electric enclosure device needs to be disassembled, the elastic force between the spring ejecting bead 9 and the ejecting bead groove 91 can be conveniently and quickly disassembled by only forcibly overcoming the elastic force, and the electric enclosure device is simple and convenient to use.

In addition, as shown in fig. 1, in order to improve the overall stability of the present invention, the bottom plate 2, which is of a wedge structure, extends from the inner side surface 53 to the electric enclosure protection area, and has a supporting and anti-toppling function, is arranged at the bottom of the electric enclosure splicing board substrate 51 and the electric enclosure splicing board corner 52 of the electric enclosure splicing board 5. Can insert bottom plate 2 in the in-service use bottom edge department of bed, the electric that makes the piece together the equipment encloses fender device and is difficult for empting more stably.

Further, as shown in fig. 1, in order to further improve the overall stability of the present invention, a magic tape 21 capable of being stuck on a fabric 20 such as a carpet or a gauze is further added under the bottom plate 2. Because there is not the gap bottom of some beds, can not enclose the fender device with the electricity of piecing together the equipment and insert the bed bottom fixedly through wedge-shaped bottom plate 2, consequently, the magic subsides 21 that set up in 2 bottoms of bottom plate just can play and enclose the effect that keeps off the device and fix on fabrics 20 such as carpet, gauze with the electricity, improved the utility model discloses an applicability and stability. Simultaneously, enclose fender device with the electricity and paste the gap between bottom plate 2 and ground through magic subsides 21 on fabric 20, prevent that pests such as bugs from passing the electricity in the gap on bottom plate 2 and floor and enclose fender device and enter into the protection zone at middle part, further improved the utility model discloses a reliability.

The above examples are merely for clarity of description of specific embodiments of the present invention and are not intended to limit the embodiments of the present invention. For those skilled in the art, according to the present invention, other adjustments or changes to the electric enclosure patch board substrate 51, the electric enclosure patch board corner 52, the groove 1, the metal conductive strip 6, and the power supply box 4 can be deduced and summarized, which is not listed here. Any modification, replacement or improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims (7)

1. The utility model provides a barrier device is enclosed to bed bug electricity which characterized in that: the electric enclosure device is a plate-type structure and surrounds a plane with a bottom, and a protection area is formed inside the surrounding structure; the plate-type structure is provided with a groove (1) with an upward opening, two sides inside the groove (1) are embedded with two conductive materials close to each other, the two conductive materials close to each other on the two sides of the groove (1) are connected with a voltage between 200V and 500V, and the maximum discharge current of the voltage is less than the human body safety current; the width of the groove (1) is 8-10mm, and the distance between the conductive material and the bottom of the groove (1) is not less than 8 mm.

2. The electrical bed bug shelter of claim 1, wherein: the distance between the conductive material and the opening at the upper end of the groove (1) is 150 mm.

3. The electrical bed bug shelter of claim 1, wherein: the bottom of the plate type structure of the electric enclosure device is provided with a bottom plate (2) which is of a wedge-shaped structure, extends outwards and plays a role in supporting and preventing toppling.

4. A bed bug electrical enclosure as defined in claim 3 wherein: the bottom plate (2) is provided with a magic tape (21) which can be stuck on fabrics (20) such as carpets, gauze and the like.

5. The electrical bed bug shelter of claim 1, wherein: the electric enclosure device is electrically connected with a power supply box (4) used for providing electric energy through a lead (3), and the positive electrode and the negative electrode of the voltage output end of the power supply box (4) are respectively and electrically connected with two conducting materials which are close to each other on two sides in the groove (1).

6. The electrical bed bug shelter of claim 5, wherein: the power supply box (4) is internally provided with two replaceable 1.5V batteries, a switch control key (42) which is connected with the batteries in series and is used for controlling the power switch of the electric enclosure device, a boosting unit (43) which is connected with the switch control key (42) in series and is used for boosting the total 3V low voltage of the batteries to 200V to 500V high voltage, and a current-limiting protection unit (44) which is connected with the boosting unit (43) in series and is used for outputting the boosted high voltage current to two mutually close conductive materials at two sides in the groove (1) in a current-limiting manner.

7. The electrical bed bug shelter of claim 1, wherein: keep off the device including enclosing the fender picture peg (5) through piecing together the electricity that inserts the mode equipment in order to form the surrounding type structure, every electricity encloses to be equipped with on the plate body that keeps off picture peg (5) make progress open-ended, run through recess (1) of plate body both sides terminal surface, the inside both sides of recess (1) all have inlay two conducting material that are close to each other, and the electricity still corresponds on the left and right sides terminal surface that keeps off picture peg (5) and is equipped with electrically conductive shell fragment (7) and electrically conductive contact (71) of being connected with the conducting material on recess (1) both sides about both ends electricity respectively.

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