CN106694399A - Full-automatic detection device for bimetallic strip - Google Patents

Abstract

This invention proposes a full-automatic detection device for a bimetallic strip. Whether the jumping change temperature and the resetting temperature of the bimetallic strip meet the requirements or not can be automatically detected. The full-automatic detection device for the bimetallic strip comprises a conveying belt, a jumping change detection cabin, a resetting detection cabin and a controller; positioning supporting holes are formed in the conveying belt at intervals; the jumping change detection cabin is sequentially provided with a non-jumping-change area and a jumping-change area in the conveying direction of the conveying belt; the resetting detection cabin is sequentially provided with a non-resetting area and a resetting area in the conveying direction of the conveying belt; an inclined first supporting arm and an inclined second supporting arm are arranged on the two sides of the conveying belt correspondingly; the first supporting arm extends to the tail end of the jumping change detection cabin from the front of the jumping change detection cabin; the second supporting arm extends to the rear of the resetting detection cabin from the jumping-change area; the full-automatic detection device for the bimetallic strip is provided with unqualified product recycling areas at the positions corresponding to the non-jumping-change area and the non-resetting area, and at the tail end of the jumping change detection cabin, and the tail end of the conveying belt; and the full-automatic detection device for the bimetallic strip is provided with a qualified product recycling area at the position corresponding to the resetting area.

Description

A kind of bimetal leaf fully-automated synthesis equipment

Technical field

The invention belongs to Automatic Measurement Technique field, and in particular to a kind of bimetal leaf fully-automated synthesis equipment.

Background technology

Bimetal leaf is also referred to as thrermostatic bimetal-plate, because the thermal coefficient of expansion of each constituent element layer is different, when the temperature is changed, actively The deformation of layer is greater than the deformation of passive layer, so that the entirety of bimetal leaf will be then this compound to passive layer curving The curvature of material changes so as to produce deformation, wherein, the coefficient of expansion referred to as active layers higher；The relatively low title of the coefficient of expansion It is passive layer.Using above-mentioned principle, bimetal leaf has been widely used in temperature controller at present.

In order to ensure kick switches accuracy of action, that is, ensure that kick switches deform in predetermined operating temperature range And resetted in the range of predetermined reset temperature, it is necessary to the saltus step temperature and reset temperature of bimetal leaf, and mesh are detected respectively Preceding not suitable bimetal leaf fully-automated synthesis equipment.

Number of patent application is that 201410843398.5 patent of invention discloses a kind of magnet steel temperature controller automatic inspection line, The magnet steel temperature controller automatic inspection line includes controller, conveyer belt and two independent detection cabins, and detection cabin is provided with outlet and enters Mouthful, the conveyer belt sequentially passes through described two detection cabins；The detection cabin is provided with heater block and temperature sensor, described defeated Drive device, heater block and the temperature sensor of band is sent to be connected with controller.Though above-mentioned magnet steel temperature controller automatic inspection line So continuously magnet steel temperature controller can be detected, but it also needs to employee and carrys out the triggering of Real Time Observation magnet steel temperature controller and answer Position situation, cost of labor is higher；More it is essential that it is monitored again after bimetal leaf is assembled in temperature controller, If it find that there is underproof temperature controller, it is necessary to disassemble the bimetal leaf of temperature controller and repaired, maintenance cost is very high.

The content of the invention

The purpose of the present invention is to propose to a kind of bimetal leaf fully-automated synthesis equipment, can be with the jump of automatic detection bimetal leaf Whether temperature and reset temperature meet the requirements.

Bimetal leaf fully-automated synthesis equipment of the invention includes conveyer belt, transition detection cabin, reset detection cabin and control Device, two detection cabins are equipped with outlet and entrance, and independent temperature conditioning unit, and the temperature in transition detection cabin is higher than reset detection The temperature in cabin；The conveyer belt sequentially passes through transition detection cabin and reset detection cabin along conveying direction；It is critical only that the conveying Take and be interval with positioning supported hole or positioning support recess, transition detection cabin is sequentially provided with non-jump along the conveying direction of conveyer belt Become area and saltus step area, the temperature of the temperature less than saltus step area in non-toggle area；Reset detection cabin along conveyer belt conveying direction successively It is provided with non-reset area and reset area, the temperature of the temperature higher than reset area in non-reset area；Conveyer belt is respectively provided on two sides with inclination The first supporting walls and the second supporting walls, wherein the first supporting walls are by extending to the tail in transition detection cabin in front of transition detection cabin End, the second supporting walls are extended to the rear in reset detection cabin by saltus step area, and the first supporting walls and the second supporting walls inclination side Gradually inclined to the direction away from conveyer belt from the bottom to top to conversely, being；The bimetal leaf fully-automated synthesis equipment is right Answer non-toggle area, the tail end of the position in non-reset area and transition detection cabin, be equipped with less than conveyer belt at the tail end of conveyer belt Defective work recovery area；The certified products recovery area less than conveyer belt is provided with the position in correspondence reset area.

The Cleaning Principle of above-mentioned bimetal leaf fully-automated synthesis equipment is as follows：

Controller controls the conveying of conveyer belt, and transition detection cabin, reset detection cabin are controlled by corresponding temperature conditioning unit Interior temperature so that the temperature in transition detection cabin is higher than the temperature in reset detection cabin, and makes transition detection cabin, reset detection cabin The temperature in Nei Ge areas meets pre-provisioning request.

In detection, bimetal leaf is placed at the positioning supported hole of conveyer belt or positioning support recess（Preferably by double gold Category piece is identical according to same direction, and the central raised direction of bimetal leaf）, and bimetal leaf inclination is rested on the first support On wall, during conveying Tape movement, you can drive bimetal leaf to move with it；

Bimetal leaf is first into the non-toggle area in transition detection cabin, and temperature herein is generally positioned at 167 DEG C or so, i.e., low In the saltus step temperature of bimetal leaf；Bimetal leaf should not occur saltus step in this area, but should be continued on conveyer belt To saltus step area；Once there is bimetal leaf in the saltus step because temperature is raised of this area（As defective work）, bimetal leaf can to away from The direction bounce of the first supporting walls, because opposite is without the second supporting walls, therefore drops to not conforming to below from conveyer belt Lattice product recovery area, will not continue to move ahead.The defective work of the defective work recovery area is to be jumped less than predetermined saltus step temperature The bimetal leaf of change.

After bimetal leaf is brought into saltus step area with conveying, its temperature is progressively heated at saltus step temperature range, generally 171 DEG C or so, in the area, bimetal leaf should occur saltus step, be leaned on so as to be beated to the direction of the second supporting walls, and then inclined On the second supporting walls, now bimetal leaf will not also drop from conveyer belt, but as conveyer belt continues to proceed to reset Detection cabin.Certainly, also there is part bimetal leaf that saltus step does not occur（It is defective work）, still rely on the first supporting walls and with Conveyer belt continues to move ahead, and the tail end until advancing to the first supporting walls loses and relies on and the defective work below conveyer belt that falls Recovery area.The defective work of the defective work recovery area is the still bimetal leaf of not saltus step in predetermined saltus step temperature range.

After bimetal leaf is brought into the non-reset area in reset detection cabin with conveying, due to the temperature in this area（Generally greater than 150℃）Should not be resetted in this area higher than the reset temperature of bimetal leaf, therefore bimetal leaf, but should be with conveyer belt Continue to reset area；Once there is bimetal leaf to be resetted because of temperature reduction in this area, as defective work, due to what is resetted Reason, bimetal leaf can beat to the direction away from the second supporting walls, because opposite is without the first supporting walls, therefore bimetal leaf Can will not continue to move ahead so as to drop to defective work recovery area below from conveyer belt.The defective work recovery area Defective work is the bimetal leaf resetted in not up to reset temperature.

After bimetal leaf is brought into the reset area in reset detection cabin with conveying, its temperature is gradually lowered to reset temperature model Enclose, generally 150 DEG C or so, in the area, bimetal leaf should reset, due to resetting, bimetal leaf can be to Away from the direction bounce of the second supporting walls, because opposite can drop without the first supporting walls, therefore bimetal leaf from conveyer belt Certified products recovery area below is arrived, will not continue to move ahead.Certainly, part bimetal leaf also resets（For unqualified Product）, still continue to move ahead with conveyer belt, until moving to the tail end of conveyer belt, fall because the support of the second supporting walls is lacked The defective work recovery area below conveyer belt is fallen, the defective work of the defective work recovery area is in predetermined reset temperature range The bimetal leaf not resetted still inside.

Further, transfer chamber, conveyer belt and the second supporting walls are provided between the transition detection cabin and reset detection cabin Through transfer chamber；The temperature of transfer chamber is between transition detection cabin and reset detection cabin；The bimetal leaf fully-automated synthesis The position of equipment correspondence transfer chamber is provided with the defective work recovery area less than conveyer belt.Due to transition detection cabin and reset detection cabin Between the temperature difference it is larger, setting transfer chamber can rapidly reduce the temperature of bimetal leaf, so as to reduce the length of conveyer belt, if Bimetal leaf resets in transfer chamber, then can drop in defective work recovery area.The defective work recovery area does not conform to Lattice product are the bimetal leaf resetted in not up to reset temperature.

Further, for ease of observing and repairing, the transition detection cabin, reset detection cabin and transfer chamber are equipped with and can open The hatch door for opening, opened door can carry out manually picking to the bimetal leaf on conveyer belt.

Further, for ease of observation, and the influence to temperature in cabin is reduced, the hatch door is provided with transparent or hollow out Observation portion.

Further, for ease of collecting certified products and defective work, the defective work recovery area, certified products recovery area are equal To can be taken off the drawer of correspondence cabin nacelle.

Further, the bimetal leaf fully-automated synthesis equipment is additionally provided with for showing transition detection cabin, reset detection Cabin and the display of transfer chamber temperature, in order to intuitively observe the temperature in each cabin.

Bimetal leaf fully-automated synthesis equipment of the invention employs the conveyer belt and corresponding supporting structure of special construction, makes Obtaining bimetal leaf can voluntarily drop in saltus step and when resetting from conveyer belt, thus can automatically distinguish and collect conjunction Lattice product and defective work, realize the function of automatic detection, and carry out again accordingly without bimetal leaf are assembled on temperature controller Detection, has saved time and maintenance cost.

Brief description of the drawings

Fig. 1 is the integral layout schematic diagram of the bimetal leaf fully-automated synthesis equipment of embodiment 1.

Fig. 2 is the layout schematic top plan view of embodiment 1.

Fig. 3 is the integral layout schematic diagram of the bimetal leaf fully-automated synthesis equipment of embodiment 2.

Fig. 4 is the layout schematic top plan view of embodiment 2.

Fig. 5 is the cooperation schematic diagram of conveyer belt, bimetal leaf, the first supporting walls and the second supporting walls in the present invention.

Accompanying drawing is indicated：1st, conveyer belt；11st, supported hole is positioned；2nd, transition detection cabin；21st, non-toggle area；22nd, saltus step area；3、 Reset detection cabin；31st, non-reset area；32nd, reset area；4th, bimetal leaf；5th, supporting walls；6th, defective work recovery area；7th, it is qualified Product recovery area；8th, the second supporting walls；9th, display；10th, transfer chamber.

Specific embodiment

It is each as involved by specific embodiment of the invention by the description to embodiment below against accompanying drawing The shape of component, the mutual alignment between construction, each several part and annexation, the effect of each several part and operation principle etc. are made into one The detailed description of step.

Embodiment 1：

As illustrated, the bimetal leaf fully-automated synthesis equipment of the present embodiment includes conveyer belt 1, transition detection cabin 2, reset detection Cabin 3 and controller（It is not drawn into figure, controller can be done using mature technologies such as single-chip microcomputers）, two detection cabin be equipped with outlet and Entrance, and independent temperature conditioning unit（Including but not limited to heater, temperature sensor）；The conveyer belt 1 is along conveying direction Sequentially pass through transition detection cabin 2 and reset detection cabin 3；Conveyer belt 1 is strip flake structure, is carried out using driving wheel, driven pulley Continue circumference to drive, positioning supported hole 11 is interval with thereon, the depth for positioning supported hole 11 is far smaller than vertical bimetal leaf 4 Height during placement；Transition detection cabin 2 is sequentially provided with non-toggle area 21 and saltus step area 22 along the conveying direction of conveyer belt 1；Reset Detection cabin 3 is sequentially provided with non-reset area 31 and reset area 32 along the conveying direction of conveyer belt 1.

Bimetal leaf fully-automated synthesis equipment is respectively provided on two sides with inclined first supporting walls 5 and second conveyer belt 1 Supporting walls 8, wherein the first supporting walls 5 are extended to the tail end in transition detection cabin 2, the second supporting walls 8 by the front in transition detection cabin 2 Extend to the rear in reset detection cabin 3 by saltus step area 22, and the first supporting walls 5 and the second supporting walls 8 incline direction conversely, Gradually to be inclined to the direction away from conveyer belt 1 from the bottom to top, so as to constitute the section of similar V-arrangement；In the present embodiment, second Supporting walls 8 are higher than the first supporting walls 5, and the bimetal leaf for coming is skipped such that it is able to more stably accept from the first supporting walls 5 4。

The bimetal leaf fully-automated synthesis equipment is in the correspondence non-toggle area 21, position in non-reset area 31 and saltus step inspection Survey the defective work recovery area 6 being equipped with the tail end in cabin 2, the tail end of conveyer belt 1 less than conveyer belt 1；In correspondence reset area 32 Position be provided with certified products recovery area 7 less than conveyer belt 1.

In the present embodiment, defective work recovery area 6, certified products recovery area 7 are the drawer that can be taken off correspondence cabin nacelle, In order to categorised collection certified products and defective work.

Bimetal leaf fully-automated synthesis equipment is additionally provided with the display for showing transition detection cabin 2, the temperature of reset detection cabin 3 Device 9, in order to intuitively observe the temperature in each cabin.

The Cleaning Principle of above-mentioned bimetal leaf fully-automated synthesis equipment is as follows：

Controller controls the conveying of conveyer belt 1, and transition detection cabin 2, reset detection is controlled by corresponding temperature conditioning unit Temperature in cabin 3 so that the temperature in transition detection cabin 2 is higher than the temperature in reset detection cabin 3, and makes the non-of transition detection cabin 2 The temperature in saltus step area 21 is higher than reset area 32 less than the temperature in saltus step area 22, the temperature for making the non-reset area 31 in reset detection cabin 3 Temperature.In the present embodiment, the temperature in non-toggle area 21 is 167 DEG C, and the temperature in saltus step area 22 is 171 DEG C, non-reset area 31 Temperature be 157 DEG C, the temperature in reset area 32 is 149 DEG C.

In detection, bimetal leaf 4 is placed at the positioning supported hole 11 of conveyer belt 1（Preferably by bimetal leaf 4 according to same One direction, in the present embodiment, the central raised direction of bimetal leaf 4 is towards the first supporting walls 5）, and bimetal leaf 4 is inclined Sway and lean against on the first supporting walls 5, when conveyer belt 1 is moved, you can drive bimetal leaf 4 to move with it.

Bimetal leaf 4 is first into the non-toggle area 21 in transition detection cabin 2, and temperature herein is less than bimetal leaf 4 Saltus step temperature；Bimetal leaf 4 should not occur saltus step in this area, but should continue to saltus step area 22 with conveyer belt 1； Once there is bimetal leaf 4 in the saltus step because temperature is raised of this area（As defective work）, bimetal leaf 4 can be to away from the first support The direction bounce of wall 5, because opposite is without the second supporting walls 8, therefore the defective work for being dropped to from conveyer belt 1 below is returned Area is received, will not continue to move ahead.The defective work of the defective work recovery area is that the double of saltus step occur less than predetermined saltus step temperature Sheet metal 4.

After bimetal leaf 4 enters into saltus step area 22 with conveyer belt 1, its temperature is progressively heated at saltus step temperature range, at this In area, bimetal leaf 4 should occur saltus step, and so as to be beated to the direction of the second supporting walls 8, and then inclination rests on the second support On wall 8, now bimetal leaf 4 will not also drop from conveyer belt 1, but as conveyer belt 1 continues to proceed to reset detection cabin 3.Certainly, also there is part bimetal leaf 4 that saltus step does not occur（It is defective work）, still rely on the first supporting walls 5 and with defeated Band 1 is sent to continue to move ahead, the tail end until advancing to the first supporting walls 5 loses the defective work for relying on and falling below conveyer belt 1 Recovery area.The defective work of the defective work recovery area is the still bimetal leaf 4 of not saltus step in predetermined saltus step temperature range.

After bimetal leaf 4 enters into the non-reset area 31 in reset detection cabin 3 with conveyer belt 1, because the temperature in this area is higher than The reset temperature of bimetal leaf 4, therefore bimetal leaf 4 should not reset in this area, but should be continued on conveyer belt 1 To reset area；Once there is bimetal leaf 4 to be resetted because of temperature reduction in this area, as defective work, it is double due to resetting Sheet metal 4 can beat to the direction away from the second supporting walls 8, because opposite is without the first supporting walls 5, therefore the meeting of bimetal leaf 4 So as to drop to defective work recovery area below from conveyer belt 1, will not continue to move ahead.The defective work recovery area is not Certified products are the bimetal leaf 4 that not up to reset temperature has resetted.

After bimetal leaf 4 enters into the reset area 32 in reset detection cabin 3 with conveyer belt 1, its temperature is gradually lowered to reset In temperature range, in the area, bimetal leaf 4 should reset, and due to resetting, bimetal leaf 4 can be to away from the The direction bounce of two supporting walls 8, because opposite can drop to without the first supporting walls 5, therefore bimetal leaf 4 from conveyer belt 1 Certified products recovery area below, will not continue to move ahead.Certainly, part bimetal leaf 4 also resets（For unqualified Product）, still continue to move ahead with conveyer belt 1, until move to the tail end of conveyer belt 1 because lack the second supporting walls 8 support and The defective work recovery area of the lower section of conveyer belt 1 is dropped to, the defective work of the defective work recovery area is in predetermined reset temperature In the range of the bimetal leaf 4 that does not reset still.

Certainly, the defective work recovery area 6 of the above-mentioned tail end of transition detection cabin 2 is reclaimed with the defective work at non-reset area 31 Area 6 can also merge, but it is in predetermined saltus step temperature model that cannot thus distinguish the bimetal leaf 4 inside dropping to The still bimetal leaf 4 of not saltus step in enclosing, or the bimetal leaf 4 that not up to reset temperature has resetted, and both maintenances Method is different, therefore for ease of the maintenance in later stage, preferably two defective work recovery area 6 is separated.

Embodiment 2：

As shown in Fig. 2 as different from Example 1, in the present embodiment, also being set between transition detection cabin 2 and reset detection cabin 3 There is the transfer chamber 10 for being not equipped with heater, the supporting walls 8 of conveyer belt 1 and second pass through transfer chamber 10；The temperature of transfer chamber 10 （151 DEG C~167 DEG C）Between transition detection cabin 2 and reset detection cabin 3；The bimetal leaf fully-automated synthesis equipment correspondence The position of transfer chamber 10 is provided with the defective work recovery area 6 less than conveyer belt 1.Due to transition detection cabin 2 and reset detection cabin 3 it Between the temperature difference it is larger, setting transfer chamber 10 can rapidly reduce the temperature of bimetal leaf 4, so as to reduce the length of conveyer belt 1, such as Fruit bimetal leaf 4 resets in transfer chamber 10, then can drop in defective work recovery area 6.The defective work recovery area 6 Defective work be the bimetal leaf 4 resetted in not up to reset temperature.

Claims (6)

1. a kind of bimetal leaf fully-automated synthesis equipment, including conveyer belt, transition detection cabin, reset detection cabin and controller, two Individual detection cabin is equipped with outlet and entrance, and independent temperature conditioning unit, and the temperature in transition detection cabin is higher than reset detection cabin Temperature；The conveyer belt sequentially passes through transition detection cabin and reset detection cabin along conveying direction；It is characterized in that the conveyer belt On be interval with positioning supported hole or positioning support recess, transition detection cabin is sequentially provided with non-toggle along the conveying direction of conveyer belt Area and saltus step area, the temperature of the temperature less than saltus step area in non-toggle area；Reset detection cabin sets successively along the conveying direction of conveyer belt There are non-reset area and reset area, the temperature of the temperature higher than reset area in non-reset area；Being respectively provided on two sides with for conveyer belt is inclined First supporting walls and the second supporting walls, wherein the first supporting walls are by extending to the tail in transition detection cabin in front of transition detection cabin End, the second supporting walls are extended to the rear in reset detection cabin by saltus step area, and the first supporting walls and the second supporting walls inclination side Gradually inclined to the direction away from conveyer belt from the bottom to top to conversely, being；The bimetal leaf fully-automated synthesis equipment is right Answer non-toggle area, the tail end of the position in non-reset area and transition detection cabin, be equipped with less than conveyer belt at the tail end of conveyer belt Defective work recovery area；The certified products recovery area less than conveyer belt is provided with the position in correspondence reset area.

2. bimetal leaf fully-automated synthesis equipment according to claim 1, it is characterised in that the transition detection cabin and multiple Transfer chamber is provided between the detection cabin of position, conveyer belt and the second supporting walls pass through transfer chamber；The temperature of transfer chamber is between transition detection Between cabin and reset detection cabin；The position of the bimetal leaf fully-automated synthesis equipment correspondence transfer chamber is provided with less than conveyer belt Defective work recovery area.

3. bimetal leaf fully-automated synthesis equipment according to claim 2, it is characterised in that the transition detection cabin, reset Detection cabin and transfer chamber are equipped with openable hatch door.

4. bimetal leaf fully-automated synthesis equipment according to claim 3, it is characterised in that the hatch door be provided with it is transparent or The observation portion of person's hollow out.

5. bimetal leaf fully-automated synthesis equipment according to claim 1 and 2, it is characterised in that the defective work is reclaimed Area, certified products recovery area are the drawer that can be taken off correspondence cabin nacelle.

6. bimetal leaf fully-automated synthesis equipment according to claim 1 and 2, it is characterised in that the bimetal leaf it is complete from Dynamic testing equipment is additionally provided with the display for showing transition detection cabin, reset detection cabin and transfer chamber temperature.