CN220136402U - Briefcase type tree health detector - Google Patents

Abstract

The utility model provides a briefcase type tree health detector which comprises a packing box and an adjusting device, wherein an inner lining frame is arranged on the inner wall of the packing box, a data collector is abutted to the inner wall of one side of the inner lining frame, a miniature mobile power supply is abutted to one side, close to the data collector, of the inner lining frame, and two probe type sensors are abutted to one side, far away from the data collector, of the inner lining frame. The utility model solves the problems that when the growth condition of garden plants and the liquid flow condition of plants are monitored in real time and accurately evaluated, a power supply and a sensor are required to be connected to an instrument data acquisition device through a transmission line, so that the liquid flow condition of a weakened tree body is monitored rapidly in a short time, the transmission line and the data acquisition device are required to be continuously in butt joint in the monitoring process, and in order to avoid the problem that the interface between the transmission line and the data acquisition device is loosened when the data acquisition device moves, so that the tree is inconvenient and effective to monitor.

Description

Briefcase type tree health detector

Technical Field

The utility model belongs to the technical field of tree health detection, and particularly relates to a briefcase type tree health detector.

Background

The tree health detector is composed of a mobile power supply, a data acquisition unit, a transmission line, a sensor and the like, and is used for rapidly monitoring the liquid flow condition of the weakened tree body, and is quite common in daily life.

Chinese patent application CN106885846B discloses a tree defect detecting device and method, comprising m stress wave sensors, stress wave detector, memory and computer; the stress wave detector is electrically connected with each stress wave sensor, the memory and the computer respectively, m=2n, n is a natural number, the defect that the detection method in the prior art is incomplete and the internal defect of wood cannot be accurately detected is overcome, and the tree defect detection device and the tree defect detection method are high in detection accuracy and simple and convenient to operate.

The tree defect detection device and the tree defect detection method have the technical problems that when the growth condition of landscape plants and the liquid flow condition of plants are monitored in real time and accurately evaluated, a power supply and a sensor are required to be connected to an instrument data acquisition device through a transmission line, so that the liquid flow condition of a weakened tree body is monitored rapidly in a short time, the transmission line and the data acquisition device are required to be continuously in butt joint in the monitoring process, and in order to avoid the problem that the transmission line and an interface on the data acquisition device are loosened when the data acquisition device moves, the tree is inconvenient and effective to monitor.

Disclosure of Invention

Based on the technical problems existing in the prior art, the utility model provides a briefcase type tree health detector, which solves the defects that in the prior art, when the growth condition of garden plants and the liquid flow condition of plants are monitored in real time and accurately evaluated, a power supply and a sensor are required to be connected to an instrument data acquisition device through a transmission line, so that the liquid flow condition of a weakened tree body is monitored rapidly in a short time, the transmission line and the data acquisition device are required to be continuously in butt joint in the monitoring process, and in order to avoid the problem that when the data acquisition device moves, the interface on the transmission line and the data acquisition device is loosened, so that the tree is inconvenient to monitor effectively.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: the utility model provides a briefcase formula tree health detector, including packing box and adjusting device, the inner lining frame is installed to the inner wall of packing box, and the one side inner wall butt of inner lining frame has data acquisition unit, and the one side butt that the inner lining frame inner wall is close to data acquisition unit has miniature portable power source, and the one side butt that the inner lining frame kept away from data acquisition unit has two probe type sensors, and the one side butt that the inner lining frame inner wall is close to probe type sensor has two parcel type sensors, and the inner wall butt of inner lining frame has two transmission lines, and adjusting device includes two fixed frames and spacing subassembly.

By adopting the technical scheme, when the real-time monitoring and accurate evaluation are carried out on the growth condition of garden plants and the liquid flow condition of plants, in order to conveniently use a detection instrument, the miniature mobile power supply in the packaging box is connected with two different types of sensors to an instrument data acquisition device through a transmission line, so that the liquid flow condition of a debilitating tree body can be monitored rapidly in a short time.

Preferably, the bottom of two fixed frames and the inner wall bottom fixed connection of inside lining frame, the inner wall sliding connection of two fixed frames has the fixed block, the inner wall of fixed frame and fixed block all with data acquisition device's surface butt, the fixed column of fixed frame's fixed surface fixedly connected with, the fixed block surface corresponds the fixed column the fixed connection's of fixed column position sliding block, the surface of sliding block runs through with the arc surface slip of fixed column, the arc surface cover of fixed column has first spring, the both ends of first spring respectively with fixed column and sliding block fixed connection.

Adopt above-mentioned technical scheme, reached and operated the in-process that uses at whole data acquisition ware, in order to avoid the transmission line to take place not hard up condition when carrying out the butt joint with data acquisition ware, thereby lead to unable normal receipt data on the sensor of data acquisition ware, utilize fixed frame and fixed block to carry out the fixed in position this moment, let slide between fixed frame and the fixed block, the produced pulling force of first spring on the reuse fixed column extrudees spacingly to the position of fixed block, thereby let whole fixed block carry out the butt spacing to the position of data acquisition ware, avoid the skew of data acquisition ware position to rock in the use.

Preferably, the friction grooves are formed in one sides, close to each other, of the fixing frames and the fixing blocks, and the surfaces of the friction grooves are abutted against the surfaces of the data collectors.

By adopting the preferred scheme, the friction can be effectively increased through the friction groove, so that the whole data acquisition unit is conveniently and effectively abutted and fixed by the whole fixing block and the whole fixing frame, and the data acquisition unit is prevented from shaking when being carried and used.

Preferably, the spacing subassembly includes four mounts, and four mounts are two each a set of, and the one end of every fixed frame of group all is connected with the lateral wall fixed connection of fixed frame, and the one end rotation of mount is connected with the spacing ring, and the one end rotation that the mount corresponds the spacing ring is connected with the swivel becket, and the swivel becket is close to one end sliding connection each other with the spacing ring has same carriage release lever, and the arc surface cover of carriage release lever has the second spring, and the both ends of second spring respectively with spacing ring and carriage release lever fixed connection, the equal fixedly connected with extrusion pad of the inner wall of swivel becket and spacing ring, the extrusion pad is the rubber pad.

Adopt this preferred scheme, reached when letting the transmission line dock with data acquisition ware, in order to fix the spacing transmission line better and avoid droing, let spacing ring and swivel becket carry out the butt spacing to the transmission line through the mount on the fixed frame this moment, the rethread carriage release lever is pegged graft fixedly spacing ring and swivel becket to effectively fix spacing to the whole transmission line, and the produced pulling force of second spring on the carriage release lever can protect the position of carriage release lever, avoids droing of carriage release lever.

Preferably, the arc surface of the probe type sensor is provided with an auxiliary device, the auxiliary device comprises a fixing strip and a positioning component, the bottom end of the fixing strip is fixedly connected with the arc surface of the probe type sensor, the upper end of the fixing strip is fixedly connected with a positioning block, the probe type sensor is fixedly connected with the auxiliary strip corresponding to the position of the fixing strip, the upper end of the auxiliary strip is fixedly connected with a positioning frame, the surface of the positioning frame is provided with a positioning groove, and the inner wall of the positioning groove is in sliding connection with the surface of the positioning block.

By adopting the technical scheme, when the probe type sensor is operated and used, the probe type sensor is required to be inserted into a trunk, so that the probe type sensor is prevented from falling off, the whole probe type sensor is fixed and limited through the butt joint between the fixing strip and the auxiliary strip, the probe type sensor is prevented from falling off, the positioning groove on the positioning frame is limited by inserting the positioning block on the fixing strip and the positioning frame on the auxiliary strip, the fixing strip is fixedly butted with the auxiliary strip, and the probe type sensor is effectively limited by extrusion between the probe type sensor and the trunk.

Preferably, the section of the positioning block is T-shaped, the section size of the positioning groove is matched with the section size of the positioning block, and the section of one side of the positioning block is conical.

By adopting the preferred scheme, the T-shaped structure of the positioning block can be effectively used for carrying out splicing and limiting with the positioning groove on the positioning block, so that falling off between the positioning block and the positioning frame is avoided, and the sharp cone angle on the positioning block can conveniently and rapidly splice and limit the positioning frame and the positioning block.

Preferably, the positioning assembly comprises a connecting frame, the bottom end of the connecting frame is penetrated through the surface of the positioning frame in a sliding manner, the surface of the positioning block is provided with a positioning hole corresponding to the position of the connecting frame, the inner wall of the positioning hole is in sliding connection with the connecting frame, the arc surface of the bottom end of the connecting frame is sleeved with a third spring, and two ends of the third spring are fixedly connected with the connecting frame and the positioning frame respectively.

By adopting the preferred scheme, the problem that the positioning block and the positioning frame fall off when the probe type sensor is used is solved, the positioning frame is fixedly inserted into the positioning hole formed in the positioning block by utilizing the connecting frame which is penetrated in a sliding manner on the positioning frame, and the connecting frame can be protected by the tension generated by the third spring on the connecting frame, so that the falling of the connecting frame is avoided.

Preferably, the position that the lining frame corresponds the transmission line is equipped with fixing device, fixing device includes two fixed plates, the bottom of two fixed plates all with the inner wall bottom fixed connection of lining frame, the sliding tray has been seted up on the surface of fixed plate, the equal sliding connection in both ends of sliding tray has the movable block, the cross-section of movable block is "L" shape, the surface of movable block and the arc surface looks butt of transmission line, the equal fixedly connected with extension spring of one side that the movable block is close to each other, the one end fixedly connected with same splice plate of movable block is kept away from to two extension springs, the bottom and the fixed plate fixed connection of splice plate.

By adopting the technical scheme, when the transmission line in the lining frame is used and operated, in order to avoid knotting and winding caused by disorder of the transmission line, the transmission line is effectively protected and limited by utilizing the moving block on the fixed plate, the transmission line is effectively stretched and limited by utilizing the sliding groove formed in the fixed plate and the moving block, and the whole transmission line is effectively wound and protected by utilizing the tension force generated by the tension spring between the connecting plate and the moving block.

Preferably, the inner wall of the tension spring is all connected with a telescopic rod in a sliding way, and two ends of the telescopic rod are respectively fixedly connected with the moving block and the connecting plate.

By adopting the preferred scheme, when the tension spring on the fixed plate is used and operated for a long time, the tension spring is prevented from being elastically deformed, and at the moment, the telescopic rod in the tension spring is effectively protected.

Preferably, the surface of the movable block is provided with a plurality of limit grooves, and the limit grooves are uniformly distributed on the surface of the movable block.

By adopting the preferred scheme, when the transmission line is fixed and limited, the transmission line can be effectively extruded and fixed by utilizing the limiting groove formed in the moving block, so that the transmission line is prevented from scattering and winding.

Compared with the prior art, the briefcase type tree health detector has the advantages that,

1. in the utility model, when the growth condition of garden plants and the liquid flow condition of plants are monitored in real time and accurately evaluated, in order to conveniently use a detection instrument, the miniature mobile power supply and two different types of sensors are connected to an instrument data collector through a transmission line by the miniature mobile power supply in a packaging box, so that the liquid flow condition of a weak tree body can be monitored rapidly in a short time.

2. According to the utility model, the adjusting device is arranged, so that the situation that the whole data collector is loose when the transmission line is in butt joint with the data collector is avoided, the data collector cannot normally receive collected data on the sensor, the fixing frame and the fixing block are utilized to fix the positions, the fixing frame and the fixing block slide, the position of the fixing block is limited by extrusion by the tension generated by the first spring on the fixing column, the whole fixing block is enabled to abut against and limit the position of the data collector, the offset shaking of the position of the data collector in the using process is avoided, friction can be effectively increased through the friction groove, the whole fixing block and the whole fixing frame are enabled to effectively abut against and fix, the shaking of the data collector is avoided when the transmission line is in butt joint with the data collector, the transmission line is better fixed and limited to drop off, the limit ring and the rotation ring are enabled to abut against and limit the position of the transmission line through the fixing frame on the fixing frame, the limit ring and the rotation ring are enabled to abut against and limit the position of the transmission line through the movement of the limit ring, the second spring is enabled to effectively plug-in the fixing frame, and the second spring is prevented from moving and drop of the whole transmission rod is effectively prevented from moving.

3. According to the utility model, the auxiliary device is arranged, when the probe type sensor is operated and used, the probe type sensor is required to be inserted into a trunk, in order to avoid falling of the probe type sensor, the whole probe type sensor is fixed and limited by abutting joint between the fixing strip and the auxiliary strip, falling of the probe type sensor is avoided, the locating groove on the locating frame is in abutting joint limit with the locating block by utilizing the locating frame on the fixing strip and the locating frame on the auxiliary strip, so that the fixing strip is in abutting joint fixing with the auxiliary strip, the probe type sensor is effectively in extrusion limit with the trunk, the T-shaped structure of the locating block can be effectively in abutting joint limit with the locating groove on the locating block, so that falling of the locating block and the locating frame is avoided, the taper angle on the locating block can be conveniently and rapidly in abutting joint limit with the locating block, and in order to avoid falling of the probe type sensor when the probe type sensor is used, the locating frame is in abutting joint limit with the locating hole on the locating block by utilizing the locating frame which is in sliding through connection frame and the locating hole formed on the locating block, and the pull frame which is in sliding through connection with the third spring on the locating frame can be prevented from falling.

4. According to the utility model, the fixing device is arranged, so that knotting and winding caused by disorder of the transmission line are avoided when the transmission line in the lining frame is used, at the moment, the transmission line is effectively protected and limited by utilizing the moving block on the fixing plate, at the moment, the sliding groove formed in the fixing plate and the moving block are utilized to slide, and then the whole transmission line is effectively stretched and limited by utilizing the tensile force generated by the tension spring between the connecting plate and the moving block, so that the transmission line is effectively wound and protected, and the tension spring is effectively protected through the telescopic rod in the tension spring when the tension spring on the fixing plate is used for a long time, so that elastic deformation of the tension spring is avoided, and the transmission line can be effectively extruded and fixed by utilizing the limiting groove formed in the moving block when the transmission line is fixed and limited, so that the transmission line is prevented from falling and winding.

Drawings

Fig. 1 is a schematic perspective view of a briefcase-type tree health detector according to the present utility model.

Fig. 2 is a schematic diagram of a three-dimensional partial structure of a briefcase-type tree health detector according to the present utility model.

Fig. 3 is a schematic diagram showing a partial structure of a sensor of a briefcase type tree health detector according to the present utility model.

Fig. 4 is a schematic structural diagram of an adjusting device of a briefcase-type tree health detector according to the present utility model.

Fig. 5 is an enlarged schematic diagram of a portion a of fig. 4 of a briefcase-type tree health detector according to the present utility model.

Fig. 6 is a schematic structural diagram of an auxiliary device of a briefcase-type tree health detector according to the present utility model.

Fig. 7 is a schematic diagram showing the disassembly structure of an auxiliary device of a briefcase-type tree health detector according to the present utility model.

Fig. 8 is a schematic structural diagram of a fixing device of a briefcase-type tree health detector according to the present utility model.

Fig. 9 is an enlarged schematic diagram of a structure of fig. 8B of a briefcase-type tree health detector according to the present utility model.

Legend description: 1001. a packaging box; 1002. a lining frame; 1003. a data collector; 1004. a miniature mobile power supply; 1005. a probe type sensor; 1006. a wrap sensor; 1007. a transmission line; 1008. an adjusting device; 10081. a fixed frame; 10082. a fixed block; 10083. fixing the column; 10084. a first spring; 10085. a sliding block; 10086. a limit component; 100861, stop collar; 100862, a rotating ring; 100863, squeeze pad; 100864, a moving rod; 100865, a second spring; 100866, a fixing frame; 10087. a friction groove; 1009. an auxiliary device; 10091. a fixing strip; 10092. an auxiliary strip; 10093. a positioning block; 10094. a positioning frame; 10095. a positioning groove; 10096. a positioning assembly; 100961, a connecting frame; 100962, locating holes; 100963, third spring; 1010. a fixing device; 10101. a fixing plate; 10102. a moving block; 10103. a sliding groove; 10104. a splice plate; 10105. a telescopic rod; 10106. a tension spring; 10107. and a limit groove.

Detailed Description

In order that the above objects, features and advantages of the utility model will be more clearly understood, a further description of the utility model will be rendered by reference to the appended drawings and examples. It should be noted that, without conflict, the embodiments of the present utility model and features in the embodiments may be combined with each other.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model, however, the present utility model may be practiced otherwise than as described herein, and therefore the present utility model is not limited to the specific embodiments of the disclosure that follow.

1-9, the utility model provides a briefcase type tree health detector, which comprises a packing case 1001 and an adjusting device 1008, wherein an inner lining frame 1002 is installed on the inner wall of the packing case 1001, a data acquisition device 1003 is abutted against the inner wall of one side of the inner lining frame 1002, a micro mobile power source 1004 is abutted against the inner wall of the inner lining frame 1002 near the data acquisition device 1003, two probe type sensors 1005 are abutted against the inner wall of the inner lining frame 1002 far away from the data acquisition device 1003, two parcel type sensors 1006 are abutted against the inner wall of the inner lining frame 1002 near the probe type sensors 1005, two transmission lines 1007 are abutted against the inner wall of the inner lining frame 1002, an auxiliary device 1009 is arranged on the arc surface of the probe type sensors 1005, and a fixing device 1010 is arranged at the position of the inner lining frame 1002 corresponding to the transmission lines.

The specific arrangement and function of the adjustment device 1008, the auxiliary device 1009 and the fixing device 1010 will be described in detail.

As shown in fig. 4 and 5, the adjusting device 1008 includes two fixing frames 10081 and a limiting component 86, bottom ends of the two fixing frames 10081 are fixedly connected with bottom ends of inner walls of the inner lining frame 1002, inner walls of the two fixing frames 10081 are slidably connected with fixing blocks 10082, the inner walls of the fixing frames 10081 and the fixing blocks 10082 are all abutted against surfaces of the data collector 1003, fixing columns 10083 are fixedly connected with surfaces of the fixing frames 10081, sliding blocks 10085 are fixedly connected to surfaces of the fixing blocks 10082 at positions corresponding to the positions of the fixing columns 10083, surfaces of the sliding blocks 10085 are slidably penetrated with arc surfaces of the fixing columns 10083, arc surfaces of the fixing columns 10083 are sleeved with first springs 10084, two ends of each first spring 10084 are fixedly connected with the fixing columns 10083 and the sliding blocks 10085, friction grooves 10087 are formed in one sides, close to each other, of the fixing frames 10081 and the fixing blocks 10082, the surface of friction groove 10087 and the surface butt of data acquisition ware 1003, spacing subassembly 10086 includes four mount 100866, every two of four mount 100866 are a set of, the one end of every fixed frame 10081 of group all is connected with the lateral wall fixed frame 10081 fixedly, the one end rotation of mount 100866 is connected with spacing ring 100861, the one end rotation of mount 100866 corresponding spacing ring 100861 is connected with rotation ring 100862, rotation ring 100862 and spacing ring 100861 are close to each other one end sliding connection have same movable rod 100864, the circular arc face cover of movable rod 100864 has second spring 100865, the both ends of second spring 100865 respectively with spacing ring 100861 and movable rod 100864 fixed connection, the equal fixedly connected with extrusion pad 100863 of inner wall of rotation ring 100862 and spacing ring 100861, extrusion pad 100863 is the rubber pad.

The whole adjusting device 1008 has the advantages that the fixing frame 10081 and the fixing block 10082 are utilized to fix the positions, the fixing frame 10081 and the fixing block 10082 slide, the position of the fixing block 10082 is extruded and limited by the tensile force generated by the first spring 10084 on the fixing column 10083, the whole fixing block 10082 is enabled to abut and limit the position of the data collector 1003, the data collector 1003 is prevented from being deviated and rocked in the using process, friction can be effectively increased through the friction groove 10087, the whole fixing block 10082 and the fixing frame 10081 are conveniently and effectively abutted and fixed to the whole data collector 1003, and the data collector 1003 is prevented from shaking when being carried and used.

As shown in fig. 6 and 7, the auxiliary device 1009 includes a fixing strip 10091 and a positioning assembly 10096, the bottom end of the fixing strip 10091 is fixedly connected with an arc surface of the probe sensor 1005, the upper end of the fixing strip 10091 is fixedly connected with a positioning block 10093, the probe sensor 1005 is fixedly connected with an auxiliary strip 10092 corresponding to the position of the fixing strip 10091, the upper end of the auxiliary strip 10092 is fixedly connected with a positioning frame 10094, a positioning groove 10095 is provided on the surface of the positioning frame 10094, the inner wall of the positioning groove 10095 is slidingly connected with the surface of the positioning block 10093, the section of the positioning block 10093 is in a T shape, the section size of the positioning groove 10095 is matched with the section size of the positioning block 10093, one side section of the positioning block 10093 is in a pointed cone shape, the positioning assembly 10096 includes a connecting frame 100961, the bottom end of the connecting frame 100961 is slidingly penetrated with the surface of the positioning frame 10094, a positioning hole 100962 is provided on the surface of the positioning block 93 corresponding to the position of the connecting frame 100961, the inner wall of the positioning hole 100962 is slidingly connected with the connecting frame 100961, the bottom end arc surface of the connecting frame 100961 is sleeved with a third spring 9795, and the two ends of the third spring 9795 are fixedly connected with the connecting frame 9743 and the positioning frame 100961 are respectively.

The effect that its whole auxiliary device 1009 reached is, in order to avoid the drop of probe sensor 1005, through the butt joint between fixed strip 10091 and the auxiliary strip 10092 this moment, thereby fix spacing to whole probe sensor 1005, avoid the drop of probe sensor 1005, utilize locating piece 10093 on the fixed strip 10091 and the locating frame 10094 on the auxiliary strip 10092 this moment, let the constant head tank 10095 on the locating frame 10094 peg graft spacing with locating piece 10093, thereby dock fixedly to fixed strip 10091 and auxiliary strip 10092, let effectively extrude spacing between probe sensor 1005 and the trunk.

As shown in fig. 8 and 9, the fixing device 1010 includes two fixing plates 10101, the bottom ends of the two fixing plates 10101 are fixedly connected with the bottom end of the inner wall of the inner lining frame 1002, the surface of the fixing plate 10101 is provided with sliding grooves 10103, two ends of the sliding grooves 10103 are slidably connected with moving blocks 10102, the section of the moving blocks 10102 is L-shaped, the surface of the moving blocks 10102 is abutted against the arc surface of the transmission line 1007, one side of the moving blocks 10102 close to each other is fixedly connected with tension springs 10106, one end of each tension spring 10106, far away from the moving blocks 10102, is fixedly connected with one connecting plate 10104, the bottom ends of the connecting plates 10104 are fixedly connected with the fixing plates 10101, the inner wall of each tension spring 10106 is slidably connected with a telescopic rod 10105, two ends of each telescopic rod 10105 are respectively fixedly connected with the moving blocks 10102 and the connecting plates 10104, a plurality of limiting grooves 10107 are formed in the surface of the moving blocks 10102, and the limiting grooves 10107 are uniformly distributed on the surface of the moving blocks 10102.

The effect that its whole fixing device 1010 reaches is, in order to avoid the mess of transmission line 1007 to lead to the winding of knoing, utilize movable block 10102 on the fixed plate 10101 to carry out spacingly this moment, protect spacingly to transmission line 1007 effectively, utilize to slide between the sliding tray 10103 and the movable block 10102 of seting up on the fixed plate 10101 this moment, the pulling force that the extension spring 10106 produced between the reuse linking plate 10104 and the movable block 10102 carries out tensile spacing to whole transmission line 1007, twine the protection to transmission line 1007 effectively.

Example 2, on the basis of example 1,

the whole working principle is that when the growth condition of landscape plants and the liquid flow condition of plants are monitored in real time and accurately evaluated, in order to conveniently use a detection instrument, the miniature mobile power supply 1004 in the packaging box 1001 is connected with two different types of sensors through a transmission line 1007 to an instrument data collector 1003, so that the liquid flow condition of a debilitating tree body can be monitored rapidly in a short time.

In the operation and use process of the whole data collector 1003, in order to avoid the situation that the transmission line 1007 is loose when being in butt joint with the data collector 1003, thereby the data collector 1003 can not normally receive collected data on the sensor, at this time, the fixing frame 10081 and the fixing block 10082 are utilized to fix the positions of the fixing block 10082, the fixing frame 10081 and the fixing block 10082 slide, the tension generated by the first spring 10084 on the fixing column 10083 is utilized to extrude and limit the positions of the fixing block 10082, the whole fixing block 10082 is enabled to abut and limit the positions of the data collector 1003, the deviation and shaking of the positions of the data collector 1003 in the use process are avoided, friction can be effectively increased through the friction groove 10087, the whole fixing block 10082 and the fixing frame 10081 can be effectively abutted and fixed, the whole data collector 1003 is prevented from shaking when the transmission line 1007 is enabled to be in butt joint with the data collector 10082, at this time, the position of the transmission line 1007 is enabled to be fixed and limited and prevented from falling off, the second stop ring 3581 is enabled to move through the fixing frame 3581, the second stop ring 35 is enabled to move with the stop rod through the stop ring plate 100861, and the stop rod is enabled to move through the stop rod 6795, and the stop rod is enabled to move, and the stop rod is prevented from moving through the stop rod through the stop collar 100866, and the movement of the stop rod is allowed to move, and the stop rod is allowed to move.

When the probe type sensor 1005 is operated and used, the probe type sensor 1005 needs to be inserted into a trunk, in order to avoid falling of the probe type sensor 1005, at this time, the whole probe type sensor 1005 is fixedly limited through butt joint between the fixing strip 10091 and the auxiliary strip 10092, falling of the probe type sensor 1005 is avoided, at this time, the locating block 10093 on the fixing strip 10091 and the locating frame 10094 on the auxiliary strip 10092 are utilized, the locating groove 10095 on the locating frame 10094 is enabled to be in plug-in limiting with the locating block 10093, the fixing strip 10091 and the auxiliary strip 10092 are in butt joint fixation, the probe type sensor 1005 and the trunk are effectively extruded and limited through the T-shaped structure of the locating block 10093, falling of the locating block 10093 and the locating frame 10094 is avoided, the tip cone angle on the locating block 10093 can be conveniently enabled to be in quick plug-in limiting with the locating block 10093, and in order to avoid falling of the probe type sensor 1005 and the locating frame 10093, and the locating frame is prevented from being connected with the locating frame 10093 through the connecting frame 100961 when the locating frame 10093 is used, and the locating frame is prevented from falling of the locating frame 10093 is connected with the locating frame 10035, and the locating frame is prevented from being connected with the locating frame 3735.

When the transmission line 1007 in the inner lining frame 1002 is used and operated, in order to avoid knotting and winding caused by disorder of the transmission line 1007, at this time, the moving block 10102 on the fixed plate 10101 is utilized to limit, the transmission line 1007 is effectively protected and limited, at this time, the sliding groove 10103 formed on the fixed plate 10101 is utilized to slide between the moving block 10102, the whole transmission line 1007 is effectively stretched and limited by the pulling force generated by the tension spring 10106 between the connecting plate 10104 and the moving block 10102, the transmission line 1007 is effectively protected from winding, when the tension spring 10106 on the fixed plate 10101 is used and operated for a long time, the tension spring 10106 is effectively protected from elastic deformation, at this time, the transmission line 1007 is effectively extruded and fixed by the limiting groove 10107 formed on the moving block 10102, and the transmission line 1007 is prevented from falling and winding.

The present utility model is not limited to the above-mentioned embodiments, and any equivalent embodiments which can be changed or modified by the technical content disclosed above can be applied to other fields, but any simple modification, equivalent changes and modification made to the above-mentioned embodiments according to the technical substance of the present utility model will still fall within the protection scope of the technical solution of the present utility model.

Claims (10)

1. The utility model provides a briefcase formula tree health detector, its characterized in that includes packing box (1001) and adjusting device (1008): the inner wall of packing box (1001) is installed inside lining frame (1002), the one side inner wall butt of inside lining frame (1002) has data acquisition ware (1003), the one side butt that is close to data acquisition ware (1003) of inside lining frame (1002) inner wall has miniature portable power source (1004), the one side butt that data acquisition ware (1003) was kept away from to inside lining frame (1002) has two probe sensors (1005), the one side butt that is close to probe sensors (1005) of inside lining frame (1002) inner wall has two parcel formula sensors (1006), the inner wall butt of inside lining frame (1002) has two transmission lines (1007), adjusting device (1008) are including two fixed frame (10081) and spacing subassembly (10086).

2. A briefcase-type tree health detector according to claim 1, wherein: the bottom of two fixed frames (10081) and the inner wall bottom fixed connection of lining frame (1002), the inner wall sliding connection of two fixed frames (10081) has fixed block (10082), the inner wall of fixed frame (10081) and fixed block (10082) all with the surface butt of data acquisition ware (1003), the fixed column (10083) of fixed frame (10081) fixedly connected with, fixed block (10082) surface corresponds fixed column (10083) position fixedly connected with sliding block (10085), the surface of sliding block (10085) runs through with the circular arc face of fixed column (10083) in a sliding manner, the circular arc face cover of fixed column (10083) has first spring (10084), the both ends of first spring (10084) respectively with fixed column (10083) and sliding block (10085) fixedly connected with.

3. A briefcase-type tree health detector according to claim 1, wherein: a friction groove (10087) is formed in one side, close to each other, of the fixing frame (10081) and the fixing block (10082), and the surface of the friction groove (10087) is abutted to the surface of the data collector (1003).

4. A briefcase-type tree health detector according to claim 1, wherein: spacing subassembly (10086) is including four mounts (100866), every two of four mounts (100866) are a set of, the one end of every fixed frame (10081) of group all is connected with the lateral wall fixed connection of fixed frame (10081), the one end rotation of mount (100866) is connected with spacing ring (100861), the one end rotation that fixed frame (100866) corresponds spacing ring (100861) is connected with rotation ring (100862), the one end sliding connection that rotation ring (100862) and spacing ring (100861) are close to each other has same movable rod (100864), the arc surface cover of movable rod (100864) has second spring (100865), the both ends of second spring (100865) respectively with spacing ring (100861) and movable rod (100864) fixed connection, the equal fixedly connected with extrusion pad (100863) of inner wall of rotation ring (100862) and spacing ring (100861), extrusion pad (100863) are the rubber pad.

5. A briefcase-type tree health detector according to claim 1, wherein: the arc surface of probe sensor (1005) is equipped with auxiliary device (1009), auxiliary device (1009) are including fixed strip (10091) and locating component (10096), the bottom of fixed strip (10091) and the arc surface fixed connection of probe sensor (1005), the upper end fixedly connected with locating piece (10093) of fixed strip (10091), the position fixedly connected with auxiliary strip (10092) of probe sensor (1005) corresponding fixed strip (10091), the upper end fixedly connected with locating frame (10094) of auxiliary strip (10092), constant head tank (10095) have been seted up on the surface of locating frame (10094), the inner wall of constant head tank (10095) and the surface sliding connection of locating piece (10093).

6. The briefcase-type tree health detector as defined in claim 5, wherein: the section of the positioning block (10093) is in a T shape, the section size of the positioning groove (10095) is matched with the section size of the positioning block (10093), and one side section of the positioning block (10093) is in a cone shape.

7. The briefcase-type tree health detector as defined in claim 5, wherein: positioning component (10096) is including link (100961), the bottom of link (100961) runs through with the surface slip of locating frame (10094), locating hole (100962) have been seted up to the position that locating piece (10093) surface corresponds link (100961), the inner wall and the link (100961) sliding connection of locating hole (100962), the bottom arc surface of link (100961) all overlaps third spring (100963), the both ends of third spring (100963) respectively with link (100961) and locating frame (10094) fixed connection.

8. A briefcase-type tree health detector according to claim 1, wherein: the lining frame (1002) is equipped with fixing device (1010) corresponding to the position of transmission line (1007), fixing device (1010) include two fixed plates (10101), the bottom of two fixed plates (10101) all with the inner wall bottom fixed connection of lining frame (1002), sliding tray (10103) have been seted up on the surface of fixed plate (10101), both ends of sliding tray (10103) all sliding connection have movable block (10102), the cross-section of movable block (10102) is "L" shape, the surface of movable block (10102) and the arc surface looks butt of transmission line (1007), one side that movable block (10102) are close to each other all fixedly connected with extension spring (10106), one end fixedly connected with same linking board (10104) of movable block (10102) are kept away from to two extension springs (10106), the bottom and the fixed plate (10101) of linking board (10104).

9. A briefcase-type tree health detector according to claim 8, wherein: the inner wall of extension spring (10106) all sliding connection has telescopic link (10105), and the both ends of telescopic link (10105) are respectively with movable block (10102) and linking board (10104) fixed connection.

10. A briefcase-type tree health detector according to claim 8, wherein: a plurality of limit grooves (10107) are formed in the surface of the moving block (10102), and the limit grooves (10107) are uniformly distributed on the surface of the moving block (10102).