CN118004514A - Continuous packer of temperature sensor - Google Patents

Abstract

The invention relates to the technical field of sensor packaging, and discloses a continuous packaging device of a temperature sensor, which comprises a bottom plate, an iron box and a fan, wherein the iron box is fixedly connected to the surface of the bottom plate, the fan is fixedly connected to the iron box, and a conveying assembly for moving the temperature sensor and a pre-opening continuous rolling bag is arranged on the iron box; the bag opening of the pre-opening continuous rolling bag is expanded under the action that the expanding plate on the expanding plate and the pre-opening continuous rolling bag are arranged on the expanding plate and the pre-opening continuous rolling bag, wherein the expanding plate is close to one end of the fixing plate upper base plate, which is close to the iron box, is in contact with one side of the pre-opening continuous rolling bag, which is far away from the iron box, and the bag opening of the pre-opening continuous rolling bag is expanded under the action that the expanding plate is moved towards one end of the pre-opening continuous rolling bag, so that the bag opening of the pre-opening continuous rolling bag cannot be blown by a fan to shake, the problem that an operator needs to manually open the bag opening in the existing packer is avoided, and the problem that the temperature sensor falls down in the throwing process is solved.

Description

Continuous packer of temperature sensor

Technical Field

The invention relates to the technical field of sensor packaging, in particular to a continuous packaging device of a temperature sensor.

Background

The continuous packer of the temperature sensor is a device for packing the temperature sensor, and has the function of packing the temperature sensor so as to protect and store the temperature sensor.

The existing packer is used for packing temperature sensors in the process of packing the temperature sensors by using a pre-opening continuous rolling bag and a heat sealing machine, the mouth of the pre-opening continuous rolling bag is blown open by a fan, then the temperature sensors are manually thrown into the temperature sensors by an operator, meanwhile, the mouth of the pre-opening continuous rolling bag is heat-sealed by using the heat sealing machine by the operator, and the heat-sealed pre-opening continuous rolling bag and the pre-opening continuous rolling bag which are not packed fall off under the action of gravity through the weight of the temperature sensors in the bag, and the packed temperature sensors are collected through shaking of the operator.

However, through the manual bag that links of putting into of operating personnel with temperature sensor in the pre-opening, make operation process no longer simple, operating personnel can appear taking a plurality of temperature sensors in the in-process of taking and putting into temperature sensor, make the time that spends overlength when putting down unnecessary temperature sensor that takes, simultaneously, still need operating personnel manual collection after current packager packs temperature sensor for the required time of packing temperature sensor increases, has reduced the efficiency of packing.

Meanwhile, in the process that the fan blows the bag opening of the pre-opened continuous rolling bag, the bag opening of the pre-opened continuous rolling bag can shake under the blowing of the fan, and the bottom of the pre-opened continuous rolling bag can shake in the process that the fan blows the bag opening, so that an operator puts the temperature sensor into the pre-opened continuous rolling bag and needs to open the bag opening, and the temperature sensor is put into the pre-opened continuous rolling bag.

In addition, there is the parting line between the bag is rolled up in advance to the opening even, makes the heat-seal good opening even roll up the bag and do not pack the opening even roll up the parting line between the bag in advance and be broken by the weight of temperature sensor under the effect of gravity, and then makes the temperature sensor who packs good drops, and the weight of temperature sensor is insufficient to make the opening even roll up the parting line on the bag and be broken by being pulled apart in advance, needs operating personnel to carry out manual segmentation this moment, has increased operating personnel's task volume.

For this purpose, a continuous packer for temperature sensors is proposed.

Disclosure of Invention

The invention aims to provide a continuous packer of a temperature sensor, which solves the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the continuous packer of the temperature sensor comprises a bottom plate, an iron box and a fan, wherein the iron box is fixedly connected to the surface of the bottom plate, the fan is fixedly connected to the iron box, and a conveying assembly for moving the temperature sensor and a pre-opened continuous rolling bag is arranged on the iron box;

The conveying assembly comprises a rotating shaft, the rotating shafts are symmetrically and rotatably connected to the inside of an iron box, a conveying belt is connected between the rotating shafts in a transmission manner, a first transmission shaft is rotatably connected to the inside of the iron box, a first belt is connected between the rotating shafts and the first transmission shaft in a transmission manner, a first transmission gear is symmetrically and fixedly connected to the first transmission shaft, a second transmission shaft is rotatably connected to the inside of the iron box, a second transmission gear is symmetrically and fixedly connected to the second transmission shaft, a rotating rod is rotatably connected to the inside of the iron box, reciprocating gears are fixedly connected to the rotating rods in a linear array arrangement manner, a motion belt is connected between the rotating rods in a transmission manner, and a bag connecting rod is rotatably connected to the inside of the bottom plate;

the packaging assembly comprises a sliding rack, sliding grooves are symmetrically formed in the iron box, the sliding racks are all connected in the sliding grooves in the iron box in a sliding mode, a fixed rod is symmetrically and fixedly connected to the bottom plate, a toothed bar is symmetrically and fixedly connected to the bottom plate, one end, close to the toothed bar, of the sliding rack is rotationally connected with a cross rod, one end, close to the fixed rod, of the sliding rack, far away from the toothed bar is fixedly connected with a cross rod, two ends of the cross rod are fixedly connected with fixed plates, sliding connection is arranged between the cross rods, one side, close to the sliding rack, of the iron box is fixedly connected with a positioning rod, one end, far from the iron box, of the positioning rod is fixedly connected with a fixed block, sliding connection is arranged between the fixed block and one side, close to the sliding rack, of the iron box, of the positioning rod, a moving plate is fixedly connected with a telescopic sleeve, the bottom of the sliding spring is fixedly connected with a telescopic rod, the telescopic rod is fixedly connected with the sliding rod, one side, close to the sliding plate, close to one side, close to the sliding plate is fixedly connected with a trigger block, the sliding rod is fixedly connected with a limit block, the sliding rod is fixedly connected with the sliding spring, one side, close to the sliding rod is fixedly connected with a limit block, the sliding rod is rotatably connected with the sliding rod, the limit block is fixedly connected with the sliding rod, the sliding rod is fixedly connected with the sliding spring, the limit block, the sliding rod is fixedly connected with the sliding rod, and the sliding rod is fixedly connected with the sliding spring, and the sliding rod is fixedly connected with the sliding rod, an extruder is arranged at one end of the movable toothed belt, which is close to the sliding rack, and a movable spring is sleeved on the extruder;

and a collecting groove frame for collecting the packed temperature sensor is fixedly connected to the bottom plate.

As a further scheme of the invention, the fan is arranged on the external driving device in a driving way, an electrical connection relationship exists between the external driving device on the rotating shaft and the external control panel, an air pipe is externally connected to the fan, and the air pipe on the fan continuously outputs air.

As a further scheme of the invention, the first transmission gear is meshed with the second transmission gear, and the first transmission gear and the second transmission gear are positioned between the two reciprocating gears.

As a further scheme of the invention, the sliding rack is meshed with the second transmission gear close to the inner wall of the iron box, and the sliding rack is connected to the fixed rod in a sliding manner.

As a further scheme of the invention, a transmission gear is arranged on the cross rod near one end of the toothed belt rod, the transmission gear on the cross rod near one end of the toothed belt rod is meshed with the toothed belt rod, a thread groove is formed on the cross rod near one end of the toothed belt rod, a thread block is arranged in a sliding plate sliding on the cross rod near one end of the toothed belt rod, and the thread block is matched with the thread groove on the cross rod.

As a further scheme of the invention, the telescopic rod slides in the telescopic sleeve, one end of the telescopic spring is fixed at the bottom of the inner cavity of the telescopic sleeve, the other end of the telescopic spring is fixed at one end of the telescopic rod, which is close to the telescopic sleeve, and the telescopic sleeve and the telescopic rod between the sliding plate and the moving plate are arranged in an inclined way.

As a further scheme of the invention, a trigger rod is arranged on one side of the fixed block, which is close to the moving plate, a trigger hole is formed in the moving plate in a penetrating way, and the trigger rod on the fixed block is matched with the trigger hole on the moving plate.

As a further scheme of the invention, a slot is formed in one side of the iron box, which is close to the trigger plate, a first heat sealing block is arranged between the slots on the iron box, a second heat sealing block and an inserting block are arranged on one side of the trigger plate, which is close to the iron box, the inserting block on the trigger plate is matched with the slot on the iron box, and an electric connection relationship exists between the inserting block on the trigger plate and the slot on the iron box.

As a further scheme of the invention, the inclined plate is arranged on the iron box and is positioned above the collecting tank frame, and the lowest part of the inclined plate on the iron box is positioned above the collecting tank frame.

Compared with the prior art, the invention has the beneficial effects that:

1. The temperature sensors needing to be packed are placed on the surface of the conveyor belt at equal intervals through the external placement device, so that the problem that the time spent for placing down the redundant temperature sensors after the operators take the temperature sensors in the existing packer is prolonged is avoided, and the equal-quantity transmission of the packer is ensured.

2. The guide rod arranged on the first transmission gear close to one side of the middle of the iron box is lower than the guide rod arranged on the second transmission gear close to one side of the middle of the iron box, so that the pre-opening continuous rolling bags on the moving plate move more towards the direction close to the collecting groove frame, the retreating distance is short, the problem that the pre-opening continuous rolling bags for packaging the temperature sensor in the existing packaging device are required to be separated from the adjacent pre-opening continuous rolling bags which are not packaged under the gravity action of the temperature sensor packaged in the packaging device is avoided, the shedding efficiency of the pre-opening continuous rolling bags for packaging the temperature sensor is ensured, the fact that operators do not need to manually separate the pre-opening continuous rolling bags for packaging the temperature sensor from the pre-opening continuous rolling bags which are not packaged is avoided, and the workload of the operators is reduced.

3. The bottom of the pre-opening continuous rolling bag sliding out through the moving plate is clamped between the iron box and the iron box through the iron box on the extruder, so that the stability of the bottom of the pre-opening continuous rolling bag when the packaging temperature sensor is carried out is ensured, the phenomenon that the bottom of the pre-opening continuous rolling bag shakes under the blowing of a fan in the process of packaging the temperature sensor by the traditional packaging device is avoided, and the efficiency of the packaging temperature sensor is ensured.

4. The temperature sensor finished through encapsulation is separated from the unpacked pre-opened continuous rolling bag, and meanwhile, the packaged temperature sensor slides down in the collecting tank frame through the inclined plate which is positioned above the collecting tank frame and fixed on the iron box under the action of gravity, so that the situation that an operator needs to manually collect the packaged temperature sensor in the existing packaging device is avoided, the task amount of the operator is reduced, and the packaged temperature sensor is simpler to collect.

5. The bag opening of the pre-opening continuous rolling bag is expanded under the action that the expanding plate on the expanding plate and the pre-opening continuous rolling bag are arranged on the expanding plate and the pre-opening continuous rolling bag, wherein the expanding plate is close to one end of the fixing plate upper base plate, which is close to the iron box, is in contact with one side of the pre-opening continuous rolling bag, which is far away from the iron box, and the bag opening of the pre-opening continuous rolling bag is expanded under the action that the expanding plate is moved towards one end of the pre-opening continuous rolling bag, so that the bag opening of the pre-opening continuous rolling bag cannot be blown by a fan to shake, the problem that an operator needs to manually open the bag opening in the existing packer is avoided, and the problem that the temperature sensor falls down in the throwing process is solved.

Drawings

FIG. 1 is a schematic elevational view of the overall apparatus of the present invention;

FIG. 2 is a schematic diagram of the positional relationship of the bottom plate and the iron box of the present invention;

FIG. 3 is a schematic diagram of the position relationship of the iron box and the bag connecting rod of the invention;

FIG. 4 is a schematic diagram of the relationship between the first and second gears according to the present invention;

FIG. 5 is a schematic view of the belt two and the motion bar position relationship of the present invention;

FIG. 6 is a schematic view of the positional relationship of the rotating shafts and conveyor belts according to the present invention;

FIG. 7 is an enlarged schematic view of the invention at A in FIG. 6;

FIG. 8 is a schematic view of the positioning rod and fixed block position relationship of the present invention;

FIG. 9 is an enlarged schematic view of the invention at B in FIG. 8;

FIG. 10 is a schematic diagram of the positional relationship of a moving block and a moving toothed belt according to the present invention;

FIG. 11 is a schematic view of the positional relationship of the squeezer and the movable spring of the present invention;

FIG. 12 is an enlarged schematic view of FIG. 11C in accordance with the present invention;

FIG. 13 is a schematic diagram of the positional relationship of the iron box and the blower of the present invention;

FIG. 14 is a schematic view of a floor and a collection trough frame of the present invention;

Fig. 15 is an enlarged schematic view of fig. 14 at D in accordance with the present invention.

Reference numerals: 1. a bottom plate; 11. an iron box; 12. a blower;

The transfer assembly includes: 21. a rotating shaft; 22. a conveyor belt; 23. a first belt; 24. a transmission shaft I; 25. a first transmission gear; 26. a transmission shaft II; 27. a transmission gear II; 28. a rotating lever; 29. a reciprocating gear; 210. a motion belt; 211. a bag connecting rod;

The package assembly includes: 31. sliding racks; 32. a fixed rod; 33. toothed belt bar; 34. a cross bar; 35. a fixing plate; 36. a slide plate; 37. a positioning rod; 38. a fixed block; 39. a motion plate; 310. a telescopic sleeve; 311. a telescopic spring; 312. a telescopic rod; 313. a trigger plate; 314. a trigger spring; 315. a compression spring; 316. a limiting rod; 317. a collision block; 318. a motion spring; 319. a second belt; 320. a motion bar; 321. a limiting block; 322. a moving block; 323. moving the toothed belt; 324. an extruder; 325. a moving spring;

4. And (5) collecting a groove frame.

Detailed Description

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

Referring to fig. 1 to 15, an embodiment of the present invention is provided: the continuous packer of the temperature sensor comprises a bottom plate 1, an iron box 11 and a fan 12, wherein the iron box 11 is fixedly connected to the surface of the bottom plate 1, the fan 12 is fixedly connected to the iron box 11, an air pipe is externally connected to the fan 12, the air pipe on the fan 12 continuously outputs air, and a conveying assembly for moving the temperature sensor and a pre-opening continuous rolling bag is arranged on the iron box 11;

The conveying assembly comprises a rotating shaft 21, the rotating shaft 21 is arranged on an external driving device in a driving way, an electrical connection relation exists between the external driving device on the rotating shaft 21 and an external control panel, the rotating shaft 21 is symmetrically and rotatably connected to the inside of the iron box 11, a conveying belt 22 is in transmission connection between the rotating shafts 21, a transmission shaft I24 is rotatably connected to the inside of the iron box 11, a belt I23 is in transmission connection between the rotating shaft 21 and the transmission shaft I24, a transmission gear I25 is symmetrically and fixedly connected to the transmission shaft I24, a transmission shaft II 26 is rotatably connected to the inside of the iron box 11, a transmission gear II 27 is symmetrically and fixedly connected to the transmission shaft II 26, the transmission gear I25 is meshed with the transmission gear II 27, a rotating rod 28 is rotatably connected to the inside of the iron box 11 in a linear array arrangement, a reciprocating gear 29 is fixedly connected to the transmission gear I25 and the transmission gear II 27 is positioned between the two reciprocating gears 29, a motion belt 210 is in transmission connection between the rotating rod 28, and the inside of the bottom plate 1 is rotatably connected with a bag connecting rod 211;

Wherein: the guide rods are arranged on one side, close to the middle of the iron box 11, of the transmission gear I25 and the transmission gear II 27, three guide rods are arranged on the transmission gear I25, seven guide rods are arranged on the transmission gear II 27, the guide rods on one side, close to the middle of the iron box 11, of the transmission gear I25 and the transmission gear II 27 are meshed with the reciprocating gear 29, close to the middle of the iron box 11, and the different numbers of the guide rods arranged on the transmission gear I25 and the transmission gear II 27 play a role in rotating the rotating rod 28 more or less;

The transmission gear one 25 and the transmission gear two 27 are provided with the guide bar far away from the side of iron box 11 middle part in the same amount, and the guide bar meshes with the reciprocating gear 29 far away from iron box 11 middle part, is provided with the bearing on the dwang 28 between reciprocating gear 29 and the dwang 28 far away from iron box 11 middle part, and the bearing between reciprocating gear 29 and the dwang 28 has played the effect that the rotation of reciprocating gear 29 far away from iron box 11 middle part is not influenced by dwang 28.

More preferably: an operator starts an external driving device on a rotating shaft 21, and electrically controls the external driving device on the rotating shaft 21 to be electrified through an external driving panel, an output shaft of the external driving device rotates to drive the rotating shaft 21 to rotate towards the direction close to the collecting tank frame 4, the rotation of the rotating shaft 21 drives a conveying belt 22 to rotate towards the direction close to the collecting tank frame 4, the rotating shaft 21 drives a first transmission shaft 24 to rotate inside an iron box 11 through the transmission of a first belt 23, a first transmission gear 25 fixed on the first transmission shaft 24 further rotates towards the direction close to the collecting tank frame 4, a second transmission shaft 26 rotates towards the direction far from the collecting tank frame 4 through the meshing of the first transmission gear 25 and a second transmission gear 27, a guide rod on the second transmission gear 27 close to one side of the middle of the iron box 11 is meshed with a reciprocating gear 29 close to the middle of the iron box 11, the reciprocating gear 29 drives a rotating rod 28 to rotate towards the direction close to the collecting tank frame 4, and further, the moving belt 210 driven between the rotating rods 28 is driven towards the direction approaching the collecting groove frame 4, when the guide rods on the second transmission gear 27 near the middle part of the iron box 11 are meshed with the reciprocating gears 29, and the number ratio of the second transmission gear 27 near the middle part of the iron box 11 to the guide rods on the first transmission gear 25 is seven to three, so that the reciprocating gears 29 can stop after being meshed by the second transmission gear 27, and the rotating rods 28 are further stopped, at the moment, the moving belt 210 stops driving until the guide rods on the first transmission gear 25 near the middle part of the iron box 11 are contacted with the reciprocating gears 29 to reversely rotate the reciprocating gears 29, at the moment, the moving belt 210 rotates towards the direction approaching the middle part of the iron box 11 until the guide rods on the first transmission gear 25 near the middle part of the iron box 11 are no longer meshed with the reciprocating gears 29, at this time, the guide rod on the second transmission gear 27, which is close to the middle part of the iron box 11, continues to be meshed with the reciprocating gear 29, and the above steps are repeated;

At the same time of rotating the transmission shaft I24 and the transmission shaft II 26, due to the fact that the bearing is arranged between the reciprocating gear 29 far away from the middle part of the iron box 11 and the rotating rod 28, under the combined action of the rotation of the reciprocating gear 29 and the guide rod on the first transmission gear 25 and the second transmission gear 27 which are close to the middle part of the iron box 11, the rotating rod 28 synchronously rotates along with the reciprocating gear 29 without the bearing, meanwhile, the rotating rod 28 enables the reciprocating gear 29 far away from the middle part of the iron box 11 not to synchronously rotate along with the rotation of the rotating rod 28, and due to the fact that the guide rod arranged on the side, far away from the middle part of the iron box 11, of the first transmission gear 25 and the second transmission gear 27 is arranged in an equal quantity, the reciprocating gear 29 meshed with the guide rod and far away from the middle part of the iron box 11 is enabled to carry out equidistant reciprocating motion.

The iron box 11 is provided with a packaging component for packaging the temperature sensor, the packaging component comprises a sliding rack 31, the iron box 11 is symmetrically provided with sliding grooves, the sliding racks 31 are all connected in the sliding grooves on the iron box 11 in a sliding way, the sliding rack 31 is symmetrically and fixedly connected with a fixed rod 32 on a second 27 meshing bottom plate 1 of a transmission gear close to the inner wall of the iron box 11, the sliding rack 31 is connected on the fixed rod 32 in a sliding way, the bottom plate 1 is symmetrically and fixedly connected with a toothed belt rod 33, one end of the sliding rack 31 close to the toothed belt rod 33 is rotationally connected with a cross rod 34, one end of the sliding rack 31 close to the fixed rod 32 and far from the toothed belt rod 33 is fixedly connected with a cross rod 34, the cross rod 34 close to one end of the toothed belt rod 33 is provided with a transmission gear, the transmission gear on the cross rod 34 close to one end of the toothed belt rod 33 is meshed with the toothed belt rod 33, the cross rod 34 close to one end of the toothed belt rod 33 is provided with a thread groove, the two ends of the two cross bars 34 are fixedly connected with a fixed plate 35, a sliding plate 36 is connected between the cross bars 34 in a sliding way, a thread block is arranged in the sliding plate 36 which slides on the cross bar 34 near one end of the toothed bar 33 and is matched with a thread groove on the cross bar 34, one side of the iron box 11 near the sliding rack 31 is fixedly connected with a positioning rod 37, one end of the positioning rod 37 far away from the iron box 11 is fixedly connected with a fixed block 38, a moving plate 39 is connected between the fixed block 38 and one side of the iron box 11 near the sliding rack 31 in a sliding way, one side of the fixed block 38 near the moving plate 39 is provided with a trigger rod, a trigger hole is penetrated and formed in the moving plate 39, the trigger rod on the fixed block 38 is matched with the trigger hole on the moving plate 39, the bottom of the sliding plate 36 is fixedly connected with a telescopic sleeve 310, the top of the moving plate 39 is fixedly connected with a telescopic rod 312 in the telescopic sleeve 310, one end of the telescopic spring 311 is fixed at the bottom of the inner cavity of the telescopic sleeve 310, the other end of the telescopic spring 311 is fixed at one end of the telescopic rod 312, which is close to the telescopic sleeve 310, the telescopic sleeve 310 and the telescopic rod 312 between the sliding plate 36 and the moving plate 39 are obliquely arranged, the telescopic spring 311 is fixedly connected between the telescopic sleeve 310 and the telescopic rod 312, one side of the moving plate 39, which is close to the sliding rack 31, is slidingly connected with the trigger plate 313, one side of the iron box 11, which is close to the trigger plate 313, is provided with a first heat sealing block, one side of the trigger plate 313, which is close to the iron box 11, is provided with a second heat sealing block and an inserting block, the inserting block on the trigger plate 313 is matched with the inserting groove on the iron box 11, an electric connection relationship exists between the inserting block on the trigger plate 313 and the inserting groove on the iron box 11, trigger plate 313 and movable plate 39 are fixedly connected with trigger spring 314, one side of iron box 11 close to sliding rack 31 is symmetrically and fixedly connected with compression spring 315, one side of movable plate 39 close to trigger plate 313 is symmetrically and fixedly connected with limiting rod 316, movable spring 318 is symmetrically and fixedly connected inside trigger plate 313, one end of movable spring 318 close to limiting rod 316 is fixedly connected with abutting block 317, movable rod 320 is rotatably connected inside iron box 11, belt two 319 are connected between movable rod 320 and rotary rod 28 in a transmission manner, limit block 321 is symmetrically and fixedly connected on iron box 11, movable block 322 is connected on iron box 11 in a sliding manner, movable toothed belt 323 is connected on movable block 322 in a sliding manner, one end of movable toothed belt 323 close to sliding rack 31 is provided with extruder 324, and movable spring 325 is sleeved on extruder 324;

Wherein: the thread groove arranged on the cross bar 34 near one end of the toothed bar 33 and the thread block arranged on the sliding plate 36 near one end of the toothed bar 33 play a role in sliding the sliding plate 36 on the cross bar 34;

The bottom of the fixed plate 35 is provided with a pressing plate, the bottom of the sliding plate 36 is provided with an expanding plate, the triggering plate 313 is provided with an inner cavity groove, one end of the limiting rod 316 close to the triggering plate 313 is provided with clamping blocks, two clamping blocks on the limiting rod 316 are arranged, the clamping blocks on the limiting rod 316 close to the bottom of the inner cavity groove of the triggering plate 313 are fixed on the limiting rod 316, the other clamping block on the limiting rod 316 slides on the limiting rod 316, the abutting block 317 is positioned between the two clamping blocks on the limiting rod 316, and the shape of the clamping blocks on the limiting rod 316 is matched with that of the abutting block 317;

The iron box 11 is provided with a limiting rod, the limiting rod on the iron box 11 is positioned between the iron box 11 and the moving belt 210, and the trigger rod arranged on the moving plate 39 plays a role in that the trigger plate 313 is pushed by the elastic release of the trigger spring 314 to move towards the direction approaching the iron box 11.

The movable rod 320 is provided with a rotary gear, the squeezer 324 is provided with a suction plate, the rotary gear on the movable rod 320 is meshed with the movable toothed belt 323, the movable block 322 is provided with a movable groove, the movable toothed belt 323 slides in the movable groove on the movable block 322, the width of the movable groove on the movable block 322 is longer than that of the movable toothed belt 323, the limiting blocks 321 are provided with two limiting blocks 321, the movable block 322 is positioned between the two limiting blocks 321, the shape of the limiting blocks 321 is matched with that of the movable toothed belt 323, and the limiting blocks 321 arranged on the iron box 11 play a role in enabling the movable toothed belt 323 to move in the movable groove on the movable block 322.

More preferably: the second transmission gear 27 far away from the middle part of the iron box 11 is meshed with the sliding rack 31, the sliding rack 31 is driven to slide in a sliding groove arranged on the bottom plate 1 in the process of reciprocating motion of the second transmission gear 27 far away from the middle part of the iron box 11, when the second transmission gear 27 far away from the middle part of the iron box 11 rotates towards the direction close to the collecting groove frame 4, the sliding rack 31 can slide downwards, one end of the sliding rack 31 close to the middle part of the iron box 11 slides on the fixed rod 32, a transmission gear arranged on the cross rod 34 close to one end of the toothed belt rod 33 is meshed with the toothed belt rod 33, the sliding rack 31 drives the cross rod 34 to move together in the downward motion process, and the cross rod 34 close to one end of the toothed belt rod 33 rotates, and a threaded block arranged on the sliding plate 36 close to one end of the toothed belt rod 33 is matched with a threaded groove on the cross rod 34 close to one end of the toothed belt rod 33, so that the cross rod 34 close to one end of the toothed belt rod 33 slides towards one end of the sliding plate 36 far away from the iron box 11 in the rotation process;

By means of downward movement of the sliding rack 31 and sliding of the sliding plate 36 on the cross bar 34 towards one end far away from the iron box 11, under the action of the telescopic sleeve 310 fixed at the bottom of the sliding plate 36 and the telescopic rod 312 fixed at the top of the moving plate 39, the moving plate 39 is driven to move along with the sliding plate 36 by abutting of the limiting rod 316 and the abutting block 317 in the triggering plate 313, the telescopic rod 312 elastically compresses the telescopic sleeve 310 to slide towards the direction close to the telescopic sleeve 310 in the process of downward movement of the sliding rack 31 until the moving plate 39 abuts against the fixed block 38, at the moment, the triggering rod on the fixed block 38 abuts against the clamping block sliding on the limiting rod 316 through the triggering hole on the moving plate 39 and enables the two clamping blocks on the limiting rod 316 to abut against each other, in the process, the clamping block sliding on the limiting rod 316 abuts against the abutting block 317 under the pushing of the limiting rod on the fixed block 38, and the abutting block 317 elastically compresses the moving spring 318 and enables the abutting block 317 to slide in an inner cavity groove arranged on the triggering plate 313 until the clamping block 317 sliding on the limiting rod 316 abuts against the clamping block fixed on the limiting rod 316 until the limiting rod 316 and the clamping block 317 elastically returns to the original place under the action of movement of the limiting spring 317;

At this time, the transmission gear II 27 far away from the middle part of the iron box 11 rotates towards the direction close to the middle part of the iron box 11, so that the sliding rack 31 moves upwards, and then the cross bar 34 close to one end of the toothed bar 33 rotates reversely, so that the sliding plate 36 rotates towards one end close to the iron box 11, in the process, as the sliding rack 31 moves upwards and the sliding plate 36 slides towards one end close to the middle part of the iron box 11, the telescopic rod 312 slides towards one end far away from the telescopic sleeve 310 in the telescopic sleeve 310 under the action of elastic release of the telescopic spring 311 in the telescopic sleeve 310, at this time, the moving plate 39 moves along with the sliding plate 36, in the process, when the triggering rod on the fixed block 38 does not collide with the clamping block sliding on the limiting rod 316 any more, the triggering plate 313 slides on the positioning rod 37 towards the direction close to the iron box 11 through the elastic release of the triggering spring 314 between the triggering plate 313 and the moving plate 39, in the process, the triggering plate 317 collides with the clamping block on the limiting rod 316 in the direction close to the iron box 11, the elastic release of the triggering plate 317 is made to the elastic block 317, and the triggering plate 317 is made to elastically press the clamping block 317 against the clamping block on the limiting rod 316 against the sliding block 317 against the inner cavity of the sliding plate 316 when the triggering plate 317 against the sliding on the inner cavity of the sliding plate 316 against the limiting rod 316 against the sliding plate 317 against the inner cavity of the sliding plate 317;

In the process of rotating the rotating rod 28, the rotating rod 28 drives the rotating rod 320 to rotate inside the iron box 11 through the transmission of the belt two 319, and then the rotating gears on the rotating rod 320 are driven to rotate together, so that the moving toothed belt 323 meshed with the rotating rod 320 moves together along with the rotating gears on the moving rod 320, when the moving rod 320 rotates towards the direction close to the collecting tank frame 4, the moving toothed belt 323 drives the moving block 322 to move together until the moving toothed belt 323 on the moving rod 322 collides with the limiting block 321, one end of the moving toothed belt 323 far away from the collecting tank frame 4 slides to the other side of the moving groove on the moving block 322, at the moment, the moving toothed belt 323 only meshes with the side edge of the moving block 322 for a certain distance, the squeezer 324 fixed with the moving block 322 penetrates through the iron box 11 and slides together along with the movement of the moving block 322, so that a magnet piece on the squeezer 324 and the iron box 11 are magnetically sucked, in the process, when the moving rod 320 moves reversely, the rotating gears on the moving rod 320 and the moving toothed belt 323 are elastically compressed between the squeezer 324 and the iron box 11 until the rotating toothed belt 323 is meshed with the moving toothed belt 323, and the rotating toothed belt 323 on the moving block 320 is meshed with the moving toothed belt 325 in the direction of the opposite direction of the collecting tank 322, and the direction of the moving toothed belt 323 is enabled to move towards the collecting tank 322, and the opposite direction of the rotating toothed belt 325 is meshed with the moving toothed belt 323 on the moving belt 323, and the moving toothed belt 325 is meshed with the moving on the moving belt, and the moving toothed belt 325, and the moving belt is elastically pressed with the moving on the moving belt, and is pressed.

The collecting tank frame 4 for collecting the packed temperature sensor is fixedly connected to the bottom plate 1, the inclined plate is arranged on the iron box 11 and is located above the collecting tank frame 4, and the lowest part of the inclined plate on the iron box 11 is located above the collecting tank frame 4.

The working principle of the implementation is as follows:

The initialization steps are as follows: the operating personnel firstly installs the pre-opened continuous rolling bag roll on the continuous rolling bag rod 211, and puts the pre-opened continuous rolling bag on the motion belt 210 and props against the limit rod on the iron box 11, at this time, the operating personnel starts the external driving device on the rotating shaft 21, and the external driving device on the rotating shaft 21 is electrically controlled to be electrified through the external driving panel, the external driving device on the rotating shaft 21 is electrified, the output shaft of the external driving device rotates and drives the rotating shaft 21 to rotate towards the direction close to the collecting groove frame 4, and meanwhile, the fan 12 is communicated with the external air pipe, so that the fan 12 always blows air towards the direction close to the bottom plate 1, and at this time, the operating personnel puts the temperature sensor to be packed into the surface of the conveying belt 22 at equal intervals through the external throwing device.

The working operation steps are as follows:

As shown in fig. 1 to 4 and 7, the rotation of the external driving device on the rotating shaft 21 drives the rotating shaft 21 to rotate towards the direction close to the collecting tank frame 4, so that the rotating shaft 21 drives the conveyor belt 22 to drive along with the rotating shaft 21 towards the direction close to the collecting tank frame 4, and further the temperature sensor on the conveyor belt 22 moves along with the conveyor belt 22 towards the direction close to the collecting tank frame 4 until the temperature sensor on the conveyor belt 22 slides down on the conveyor belt 22, and the temperature sensors to be packed are placed on the surface of the conveyor belt 22 equidistantly through the external throwing device, so that the problem that the time spent when an operator takes a plurality of temperature sensors and puts down the redundant temperature sensors in the existing packer is avoided, and the equal transmission of the packer is ensured.

In the process, the rotating shaft 21 rotates the first transmission shaft 24 inside the iron box 11 through the transmission of the first belt 23, the first transmission gear 25 fixed on the first transmission shaft 24 rotates towards the direction approaching the collecting tank frame 4, the second transmission shaft 26 rotates towards the direction far away from the collecting tank frame 4 through the meshing of the first transmission gear 25 and the second transmission gear 27, the second transmission shaft 26 rotates towards the direction far away from the collecting tank frame 4, the guide rod on the second transmission gear 27 near the middle part of the iron box 11 rotates in meshing with the reciprocating gear 29 near the middle part of the iron box 11, the reciprocating gear 29 drives the rotating rods 28 to rotate towards the direction approaching the collecting tank frame 4, the moving belt 210 driven between the rotating rods 28 drives towards the direction approaching the collecting tank frame 4, the pre-opened rolling bags on the moving belt 210 move along with the moving belt 210, when the engagement of the guide rod on the second transmission gear 27 near the middle part of the iron box 11 and the reciprocating gear 29 is finished, the reciprocating gear 29 stops rotating after the engagement of the second transmission gear 27 due to the fact that the rod number ratio of the second transmission gear 27 near the middle part of the iron box 11 to the guide rod on the first transmission gear 25 is seven, the movement belt 210 stops driving, the pre-opening rolling bag on the movement belt 210 stops moving until the guide rod on the first transmission gear 25 near the middle part of the iron box 11 contacts with the reciprocating gear 29 to enable the reciprocating gear 29 to rotate reversely, the movement belt 210 rotates towards the direction near the middle part of the iron box 11, the pre-opening rolling bag on the movement belt 210 is retracted for a distance until the guide rod on the first transmission gear 25 near the middle part of the iron box 11 is no longer engaged with the reciprocating gear 29, at this time, the guide rod on the second transmission gear 27, which is close to the middle part of the iron box 11, continues to be meshed with the reciprocating gear 29, and the above steps are repeated;

Because the guide rod arranged on the first transmission gear 25 near one side of the middle of the iron box 11 is lower than the guide rod arranged on the second transmission gear 27 near one side of the middle of the iron box 11, the pre-opening continuous rolling bag on the moving belt 210 moves more far towards the direction near the collecting groove frame 4, the retreating distance is short, the problem that the pre-opening continuous rolling bag for packaging the over-temperature sensor in the existing packaging device needs to be separated from the adjacent pre-opening continuous rolling bag which is not packaged under the gravity action of the temperature sensor packaged in the existing packaging device is avoided, the shedding efficiency of the pre-opening continuous rolling bag for packaging the over-temperature sensor is ensured, the fact that an operator does not need to manually separate the pre-opening continuous rolling bag for packaging the over-temperature sensor from the pre-opening continuous rolling bag which is not packaged is avoided, and the workload of the operator is reduced.

As shown in fig. 1 to 6 and 10 to 11, in the process of rotating the rotating rod 28, the rotating rod 28 drives the moving rod 320 to rotate in the iron box 11 through the transmission of the second belt 319, and then the rotating gear on the moving rod 320 is driven to rotate together through the rotation of the moving rod 320, the rotation of the rotating gear on the moving rod 320 drives the moving toothed belt 323 meshed with the rotating gear to move together, when the rotating rod 28 rotates in the direction approaching to the collecting tank frame 4, the moving rod 320 rotates along with the rotating rod 28 in the direction approaching to the collecting tank frame 4 through the second belt 319, and at the moment, the moving toothed belt 323 drives the moving block 322 to move together, until the movable toothed belt 323 on the movable block 322 is abutted against the limiting block 321, one end of the movable toothed belt 323 far away from the collecting groove frame 4 slides to the other side of the movable groove on the movable block 322, at the moment, the movable toothed belt 323 is only meshed with the side edge of the movable block 322 for a certain distance, the squeezer 324 fixed with the movable block 322 penetrates through the iron box 11 and slides along with the movement of the movable block 322 until the iron absorbing sheet on the squeezer 324 is magnetically absorbed with the iron box 11, in the process, the movable spring 325 is elastically compressed between the squeezer 324 and the iron box 11, at the moment, the bag mouth of the pre-opened continuous rolling bag is opened under the blowing of the fan 12 and is internally expanded, and at the same time, the bag bottom of the pre-opened continuous rolling bag is dithered under the blowing of the fan 12;

The bottom of the pre-opening continuous rolling bag sliding out through the moving belt 210 is clamped between the iron box 11 and the iron plate on the extruder 324, so that the stability of the bottom of the pre-opening continuous rolling bag when the packaging temperature sensor is carried out is ensured, the bottom of the pre-opening continuous rolling bag is prevented from shaking under the blowing of the fan 12 in the process of packaging the temperature sensor by the existing packaging machine, and the efficiency of the packaging temperature sensor is ensured;

At this time, the guide rod on the transmission gear two 27 close to one side of the middle of the iron box 11 is no longer meshed with the reciprocating gear 29, the first transmission gear 25 is meshed with the second transmission gear 27, at this time, the guide rod on the transmission gear one 25 close to one side of the middle of the iron box 11 is meshed with the reciprocating gear 29, and then drives the reciprocating gear 29 to reversely rotate, so that the fixed rotating rod 28 moves reversely, when the rotating rod 28 moves reversely, the moving rod 320 moves reversely along with the reciprocating gear 29 through the transmission of the second belt 319, at this time, the rotating gear on the moving rod 320 is meshed with the moving toothed belt 323 for a certain distance, at this time, the iron absorbing sheet on the squeezer 324 is separated from the iron box 11 due to the meshing of the rotating gear on the moving rod 320 and the moving toothed belt 323, the squeezer 324 moves towards the direction far away from the iron box 11 under the action of the elastic extension of the moving spring 325, in this process, the moving toothed belt 323 on the moving block 322 is made to collide with the limiting block 321 close to the direction of the collecting box 4, so that the moving toothed belt 323 returns to the initial position, and the packaged temperature sensor is separated from the unpacked pre-packaged rolling bag together through the transmission of the belt two 319, at this time, at the moment, the temperature sensor is well packaged temperature sensor is packaged with the unpacked, the temperature sensor is required to be packaged in the collecting box is more easily, and the temperature sensor is required to be packaged by the people, and the people need to have the temperature sensor is more convenient to operate the packaging and the temperature sensor.

As shown in fig. 1 to 2, fig. 4, fig. 6, and fig. 8 to 15, because the second transmission gear 27 far from the middle of the iron box 11 is engaged with the sliding rack 31, the second transmission gear 27 far from the middle of the iron box 11 is driven to slide in the chute provided on the bottom plate 1 in the process of reciprocating movement, when the second transmission gear 27 far from the middle of the iron box 11 rotates in the direction close to the collecting chute frame 4, the sliding rack 31 will slide downwards at this time, so that the pre-opened continuous rolling bag of the sliding belt 210 is blown open at the blowing end of the blower 12 and the bag opening at the top of the extruder 324 is not moved at the bottom, at this time, the pressing plate at the bottom of the fixing plate 35 abuts against one side of the pre-opened continuous rolling bag near the iron box 11, because the transmission gear 34 provided on the end of the sliding rack 31 near the middle of the iron box 11 slides on the fixing rod 32, and the cross bar 34 provided on the cross bar 34 near one end of the toothed belt 33 is engaged with the toothed bar 34, the cross bar 34 in the process of moving the sliding plate 34 moves and rotates the cross bar 34 together with the cross bar 34 near one end of the toothed bar 33 in the process of the downward movement, so that the pre-opened continuous rolling bag is blown at one side of the fixing plate 35 near the inner side of the rolling plate, and the rolling plate is far from the inner side of the rolling plate 35 near the inner side of the rolling plate, and the rolling plate is far from the rolling plate 34 near the inner side of the rolling plate, and the rolling plate 36 is contacted with the rolling plate 34 near the inner side of the rolling plate 11, and the rolling plate is far from the rolling plate 34, and the rolling plate 34 near the rolling plate is moved along with the rolling plate 34 in the rolling plate, and the rolling plate on the rolling plate, and the rolling plate is moved in the rolling plate. The pre-opening continuous rolling bag continues to move towards one end far away from the iron box 11 under the action of the pressing plate on the fixing plate 35, so that the bag opening of the pre-opening continuous rolling bag is enlarged, the temperature sensor sliding out of the conveying belt 22 falls into the bag opening of the pre-opening continuous rolling bag under the action of gravity, the expanding plate on the sliding plate 36 and the expanding plate on the sliding plate 36, which are abutted against one end, close to the iron box 11, of the inner portion of the pre-opening continuous rolling bag, are abutted against one side, far away from the iron box 11, of the inner portion of the pre-opening continuous rolling bag, and the bag opening of the pre-opening continuous rolling bag is enlarged under the action of moving towards one end far away from the iron box 11, so that the bag opening of the pre-opening continuous rolling bag is prevented from being vibrated by the blowing of the fan 12, the problem that an operator needs to manually open the bag opening in the existing packer, and the problem that the temperature sensor falls in the pre-opening continuous rolling bag is avoided in the process is solved.

By moving down the sliding rack 31 and sliding the sliding plate 36 on the cross bar 34 towards one end far away from the iron box 11, the telescopic sleeve 310 fixed at the bottom of the sliding plate 36 and the telescopic rod 312 fixed at the top of the moving plate 39 drive the moving plate 39 to slide along with the sliding plate 36 on the cross bar 34 towards one end far away from the iron box 11, the moving plate 39 is driven by the abutting of the clamping block on the limiting rod 316 and the abutting block 317 in the triggering plate 313 to move along with the triggering plate 313, the telescopic rod 312 elastically compresses the telescopic sleeve 310 to slide towards the direction close to the telescopic sleeve 310 in the process of moving down the sliding rack 31 until the moving plate 39 abuts against the fixed block 38, at the moment, the triggering rod on the fixed block 38 abuts against the clamping block on the limiting rod 316 through the triggering hole on the moving plate 39 and makes the two clamping blocks on the limiting rod 316 abut against the clamping block 317, in the process, the clamping block on the limiting rod 316 pushes the abutting block 317 down and makes the moving spring 318 elastically compress the moving spring 318 and makes the sliding block 317 in an inner cavity groove arranged on the triggering plate 313 until the limiting block 316 abuts against the clamping block 316 and the clamping block 316 is released to the elastic clamping block 316 which abuts against the lower limiting block 316;

At this time, the second transmission gear 27 far from the middle of the iron box 11 rotates towards the direction close to the middle of the iron box 11, so that the sliding rack 31 moves upwards, the cross bar 34 near one end of the toothed bar 33 rotates reversely, the sliding plate 36 rotates towards one end close to the iron box 11 through the reverse rotation of the cross bar 34 near one end of the toothed bar 33, in the process, along with the upward movement of the sliding rack 31 and the sliding plate 36 sliding towards one end near the middle of the iron box 11, the telescopic rod 312 slides towards one end far from the telescopic sleeve 310 in the telescopic sleeve 310 under the action of the elastic release of the telescopic spring 311 in the telescopic sleeve 310, at this time, the moving plate 39 moves together with the sliding plate 36, in the process, when the triggering rod on the fixed block 38 does not collide with the clamping block sliding on the limiting rod 316 any more, the triggering plate 313 slides on the positioning rod 37 through the elastic release of the triggering spring 314 between the triggering plate 313 and the moving plate 39, in this process, the trigger plate 313 slides towards the direction approaching the iron box 11 to enable the abutting block 317 to abut against the clamping block on the limiting rod 316, the abutting block 317 elastically compresses the moving spring 318 and enables the abutting block 317 to slide in the inner cavity groove on the trigger plate 313, the clamping block fixed on the limiting rod 316 abuts against the sliding clamping block at this time, when the abutting block 317 passes through the sliding clamping block on the limiting rod 316, the trigger plate 313 slides towards one end approaching the iron box 11 under the action of elastic release of the trigger spring 314, the abutting block 317 no longer abuts against the clamping block on the limiting rod 316 under the action of elastic release of the moving spring 318, the abutting block 317 returns to the original position, at this time, the trigger plate 313 abuts against the compression spring 315 under the action of elastic release of the moving spring 318 and elastically compresses the compression spring 315 until the inserting block on the trigger plate 313 abuts against the inserting groove on the iron box 11, the second heat sealing block on the trigger plate 313 is abutted against the first heat sealing block on the iron box 11 and clamps the pre-opened continuous rolling bag, and when the inserting block on the trigger plate 313 is abutted against the inserting groove on the iron box 11, the second heat sealing block on the trigger plate 313 is electrified to heat when being abutted against the heat sealing block on the iron box 11, so that the pre-opened continuous rolling bag is heat sealed by the clamping part of the second heat sealing block on the trigger plate 313 and the heat sealing block on the iron box 11, and then the temperature sensor is packaged in the pre-opened continuous rolling bag.

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

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

Claims (9)

1. The continuous packer of the temperature sensor is characterized by comprising a bottom plate (1), an iron box (11) and a fan (12), wherein the iron box (11) is fixedly connected to the surface of the bottom plate (1), the fan (12) is fixedly connected to the iron box (11), and a conveying assembly for moving the temperature sensor and a pre-opened continuous rolling bag is arranged on the iron box (11);

the conveying assembly comprises a rotating shaft (21), the rotating shaft (21) is symmetrically and rotationally connected to the inside of an iron box (11), a conveying belt (22) is connected between the rotating shafts (21), a first transmission shaft (24) is rotationally connected to the inside of the iron box (11), a first belt (23) is connected between the rotating shaft (21) and the first transmission shaft (24), a first transmission gear (25) is symmetrically and fixedly connected to the first transmission shaft (24), a second transmission shaft (26) is rotationally connected to the inside of the iron box (11), a second transmission gear (27) is symmetrically and fixedly connected to the second transmission shaft (26), a rotating rod (28) is rotationally connected to the inside of the iron box (11), a reciprocating gear (29) is linearly arranged on the rotating rod (28), a moving belt (210) is connected between the rotating rods (28), and a bag connecting rod (211) is rotationally connected to the inside of the bottom plate (1).

The packaging assembly comprises sliding racks (31) which are symmetrically arranged on the iron box (11), sliding grooves are formed in the iron box (11), the sliding racks (31) are all connected into the sliding grooves on the iron box (11) in a sliding mode, fixing rods (32) are symmetrically and fixedly connected onto the bottom plate (1), toothed bars (33) are symmetrically and fixedly connected onto the bottom plate (1), one end, close to the toothed bars (33), of the sliding racks (31) is rotationally connected with a cross rod (34), one end, close to the fixing rods (32), of the sliding racks (31) and far away from the toothed bars (33), of the sliding racks (31) is fixedly connected with a cross rod (34), two ends of each cross rod (34) are fixedly connected with fixing plates (35), sliding plates (36) are connected between the cross rods (34) in a sliding mode, one side, close to the sliding racks (31), of the iron box (11) is fixedly connected with positioning rods (37), one end, close to the iron box (11), of the positioning rods (37) is fixedly connected with a fixing block (38), one side, close to the sliding plates (38) of the sliding racks (31) is connected with one side, close to the sliding plates (39), the top of the motion plate (39) is fixedly connected with a telescopic rod (312), a telescopic spring (311) is fixedly connected between a telescopic sleeve (310) and the telescopic rod (312), one side of the motion plate (39) close to a sliding rack (31) is slidingly connected with a trigger plate (313), trigger springs (314) are fixedly connected between the trigger plate (313) and the motion plate (39), one side of the iron box (11) close to the sliding rack (31) is symmetrically and fixedly connected with a compression spring (315), one side of the motion plate (39) close to the trigger plate (313) is symmetrically and fixedly connected with a limiting rod (316), one end of the trigger plate (313) close to the limiting rod (316) is fixedly connected with a collision block (317), the inner part of the iron box (11) is rotationally connected with a motion rod (320), a belt two (319) is connected between the motion rod (320) and a rotating rod (28), a limiting block (321) is symmetrically and fixedly connected with the iron box (11), one end of the iron box (11) close to the sliding block (322) is connected with a sliding block (323), one end of the sliding block (323) is connected with the sliding block (323), the extruder (324) is sleeved with a movable spring (325);

And the bottom plate (1) is fixedly connected with a collecting groove frame (4) for collecting the packed temperature sensor.

2. The continuous packer of a temperature sensor according to claim 1, wherein the rotating shaft (21) is drivingly installed on an external driving device, and there is an electrical connection relationship between the external driving device on the rotating shaft (21) and an external control panel, an air pipe is externally connected on the fan (12), and the air pipe on the fan (12) continuously outputs air.

3. A temperature sensor continuity packer according to claim 1, characterized in that the first transmission gear (25) meshes with the second transmission gear (27), the first transmission gear (25) and the second transmission gear (27) being located between two reciprocating gears (29).

4. A continuous packer of temperature sensors according to claim 1, characterized in that the sliding rack (31) is engaged with a second transmission gear (27) close to the inner wall of the iron box (11), the sliding rack (31) being slidingly connected to a fixed rod (32).

5. The continuous packer of a temperature sensor according to claim 1, characterized in that a transmission gear is arranged on a cross bar (34) near one end of the toothed bar (33), the transmission gear on the cross bar (34) near one end of the toothed bar (33) is meshed with the toothed bar (33), a thread groove is formed on the cross bar (34) near one end of the toothed bar (33), a thread block is arranged inside a sliding plate (36) sliding on the cross bar (34) near one end of the toothed bar (33), and the thread block is matched with the thread groove on the cross bar (34).

6. The continuous packer of a temperature sensor according to claim 1, wherein the telescopic rod (312) slides inside the telescopic sleeve (310), one end of the telescopic spring (311) is fixed at the bottom of the inner cavity of the telescopic sleeve (310), the other end of the telescopic spring is fixed at one end of the telescopic rod (312) close to the telescopic sleeve (310), and the telescopic sleeve (310) and the telescopic rod (312) between the sliding plate (36) and the moving plate (39) are arranged in an inclined manner.

7. The continuous packer of a temperature sensor according to claim 1, characterized in that a trigger rod is arranged on one side of the fixed block (38) close to the moving plate (39), a trigger hole is formed in the moving plate (39) in a penetrating way, and the trigger rod on the fixed block (38) is matched with the trigger hole on the moving plate (39).

8. The continuous packer of a temperature sensor according to claim 1, wherein the iron box (11) is provided with slots on one side close to the trigger plate (313), a first heat sealing block is arranged between the slots on the iron box (11), a second heat sealing block and an inserting block are arranged on one side of the trigger plate (313) close to the iron box (11), the inserting block on the trigger plate (313) is matched with the slots on the iron box (11), and an electrical connection relationship exists between the inserting block on the trigger plate (313) and the slots on the iron box (11).

9. The continuous packer of temperature sensors according to claim 1, characterized in that the iron box (11) is provided with a sloping plate above the collecting vat frame (4), and the lowest part of the sloping plate on the iron box (11) is above the collecting vat frame (4).