CN210863982U - Lead accumulator low temperature discharge performance detection device - Google Patents

Abstract

The utility model discloses a lead accumulator low temperature discharge performance detection device, including bottom plate, device shell, first baffle and main baffle, movable universal wheel is all installed to four corners of bottom plate bottom, and the one end on bottom plate top installs the device shell, the equal vertical auxiliary frame of installing in both sides that device shell one end was kept away from on the bottom plate top, and the top of auxiliary frame is provided with supplementary gyro wheel, the vertical main baffle of installing of one end of the inside bottom of device shell, and the vertical bearing frame of installing of intermediate position department that the inside bottom of device shell is close to auxiliary frame one end. According to the device for detecting the low-temperature discharge performance of the lead storage battery, the water storage tank, the heat dissipation copper pipe, the cooling water pump and the cooling fan are installed, when the battery is subjected to entry detection in the device, liquid in the water storage tank is extracted by the cooling water pump, conveyed to the heat dissipation copper pipe, and then starts to rotate by the cooling fan, so that heat dissipation is performed on the battery in the device.

Description

Lead accumulator low temperature discharge performance detection device

Technical Field

The utility model relates to a battery detection area specifically is a lead accumulator low temperature discharge performance detection device.

Background

The battery is as the very general chemical power supply of industrial field, its stability of work, the security seems very important, but a lot of battery detection device, need manual operation too much, discharge current stability is not good, operate the damage that still causes the battery improperly, be difficult to satisfy the demand in market afterwards, battery discharge detection device among the prior art, the electric current that can't artificial control discharge, need manual handling battery to the device on, the battery produces parameter such as too high heat, it is convenient nimble not enough to operate, traditional lead accumulator low temperature discharge performance detection device can satisfy people's user demand basically, but still there is certain problem, concrete problem is as follows:

1. in most lead storage battery low-temperature discharge performance detection devices in the current market, when the batteries are subjected to discharge operation, manual consumption is increased when the batteries are manually carried to the devices, and manpower and material resources are wasted;

2. most of lead storage battery low-temperature discharge performance detection devices in the current market can only detect storage batteries with similar sizes when detecting the storage batteries, and are too single, so that the time is wasted;

3. most of lead storage battery low temperature discharge performance detection devices in the current market can generate overhigh heat in the operation process when performing discharge detection operation, and influence is caused to the detected data.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a lead accumulator low temperature discharge performance detection device to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a lead storage battery low-temperature discharge performance detection device comprises a bottom plate, a device shell, a Y-axis bottom plate, an X-axis stepping motor, a first partition plate and a main partition plate, wherein movable universal wheels are installed at four corners of the bottom end of the bottom plate, the device shell is installed at one end of the top end of the bottom plate, auxiliary frames are vertically installed on two sides of the top end of the bottom plate, which are far away from one end of the device shell, auxiliary rollers are arranged at the top ends of the auxiliary frames, the main partition plate is vertically installed at one end of the bottom end of the device shell, a bearing seat is vertically installed at the middle position, which is close to one end of the auxiliary frames, of the bottom end of the device shell, the first partition plate is transversely installed at the bottom end, which is far away from one end of the main partition plate, a reservoir is installed at, and cooling water pump is connected with the lateral wall bottom of cistern through the pipeline, the intermediate position department at the inside both ends of device shell all transversely installs the third baffle, and the device shell keeps away from the upper end of auxiliary frame one end and installs PLC control panel, the intermediate position department on the inside top of device shell installs the elevator motor shell, and the intermediate position department of the inside bottom of elevator motor shell installs lift step motor.

Preferably, the intermediate position department that main baffle is close to bearing frame one end evenly installs cooling fan, and cooling fan keeps away from bearing frame one side intermediate position department evenly installs the heat dissipation copper pipe, cooling water pump's output is connected with heat dissipation copper pipe one end through the pipeline, and the heat dissipation copper pipe one end of keeping away from cooling water pump runs through the cistern inner wall.

Preferably, the middle position of one end of the main baffle, which is far away from the bearing seat, is transversely provided with a second baffle, and the middle position of the top end of the second baffle, which is close to one end of the main baffle, is provided with a driving server.

Preferably, Y axle slide rails are transversely installed to the both sides of Y axle bottom plate bottom all, X axle step motor output all installs and runs through to the inside Y axle lead screw of X axle slide rail, and the lateral wall of Y axle lead screw all installs Y axle lead screw nut, the intermediate position department of Y axle lead screw nut bottom all installs the electrode contact board, and electrode contact board and Y axle slide rail sliding connection.

Preferably, the intermediate position department that bearing frame one end bottom was kept away from to main baffle transversely installs driving motor, and driving motor's output installs and runs through main baffle and extend to the inside drive screw-nut of bearing frame, the drive slide rail is all installed to the one end of drive screw-nut both sides main baffle, the one end that main baffle was kept away from to the drive slide rail is connected with the bearing frame, and the lateral wall in the drive screw-nut outside evenly installs drive shaft screw-nut, moving platform is installed on drive shaft screw-nut's top, and moving platform and drive slide rail sliding connection, main removal gyro wheel is evenly installed on the inside top of moving platform.

Preferably, the lift step motor output is installed and is run through the lift motor shell and extend to the inside lift lead screw of third baffle, and the lateral wall in the lift lead screw outside installs lift screw-nut, the equal vertical lift movable slide rail of installing in both ends that the inside top of device shell is close to lift step motor, the intermediate position department of lift screw-nut one side transversely installs the lift even board, and goes up and down even board and lift movable slide rail sliding connection, the lift is even installed the lifter that runs through the third baffle in the intermediate position department vertical uniform that the board kept away from lift screw-nut one side, and the elevating platform is installed to the bottom of lifter.

Preferably, the lift step motor output is installed and is run through the lift motor shell and extend to the inside lift lead screw of third baffle, and the lateral wall in the lift lead screw outside installs lift screw-nut, the equal vertical lift movable slide rail of installing in both ends that the inside top of device shell is close to lift step motor, the intermediate position department of lift screw-nut one side transversely installs the lift even board, and goes up and down even board and lift movable slide rail sliding connection, the lift is even installed the lifter that runs through the third baffle in the intermediate position department vertical uniform that the board kept away from lift screw-nut one side, and the elevating platform is installed to the bottom of lifter.

Preferably, the intermediate position department on the inside top of elevating platform installs Y axle bearing, Y axle step motor is all installed to four corners on the inside top of elevating platform, and Y axle step motor's output all installs and runs through to the inside X axle lead screw of Y axle bearing, X axle slide rail is all installed to the inside lateral wall Y axle step motor's of elevating platform both sides, X axle screw nut is all installed to the lateral wall in the X axle screw outside, the intermediate position department of X axle screw nut bottom transversely installs Y axle bottom plate, X axle bearing is all installed to the intermediate position department of Y axle bottom plate bottom, and X axle step motor is all installed to the intermediate position department at Y axle bottom plate bottom both ends.

Compared with the prior art, the beneficial effects of the utility model are that:

1. by installing the reservoir, the heat dissipation copper pipe, the cooling water pump and the cooling fan, when the battery is subjected to item detection in the device, liquid in the reservoir is extracted by the cooling water pump and conveyed to the heat dissipation copper pipe, and then the cooling fan starts to rotate to dissipate heat for the battery in the device;

2. meanwhile, the device is provided with a driving motor, a driving shaft screw nut, a driving screw nut, a moving platform and a main moving roller, a battery is placed on the moving platform, the driving motor drives the driving screw nut to rotate, the driving shaft screw nut is driven to move towards the inside of the device, and the battery is sent into the device, so that manual carrying is reduced;

3. meanwhile, after the device is provided with a lifting stepping motor, an electrode contact plate, an X-axis bearing, a Y-axis bottom plate, an X-axis stepping motor, a lifting rod lifting connecting plate, a lifting screw nut, a Y-axis screw nut, an X-axis screw, a Y-axis stepping motor and a Y-axis screw, the lifting screw is controlled by the lifting stepping motor to rotate to drive the lifting screw nut, the lifting screw nut drives the lifting connecting plate and the lifting rod to move downwards, the X-axis screw rod is driven by the Y-axis stepping motor to rotate, the X-axis screw rod drives the X-axis screw nut to move, the X-axis stepping motor drives the Y-axis screw rod to rotate, the Y-axis screw rod drives the Y-axis screw nut to move, the electrode contact plate is brought to a set position, and the discharge detection is carried out on the battery in the device, so that the battery detected in the device can not only detect the battery with a single size, detection of various types of batteries can be performed.

Drawings

FIG. 1 is a front view of the cross-sectional structure of the present invention;

FIG. 2 is a schematic diagram of the right-side cross-sectional structure of the present invention;

FIG. 3 is an enlarged view of the portion A of FIG. 2 according to the present invention;

FIG. 4 is a schematic top sectional view of the present invention;

fig. 5 is a schematic view of the structure of the right side of the present invention.

In the figure: 1. a movable universal wheel; 2. a base plate; 3. a device housing; 4. a drive motor; 5. a reservoir; 6. a second separator; 7. a PLC control panel; 8. a heat dissipation copper pipe; 9. lifting the movable slide rail; 10. a lift motor housing; 11. a lifting stepping motor; 12. an electrode contact plate; 13. an X-axis bearing; 14. a Y-axis base plate; 15. an X-axis stepping motor; 16. a first separator; 17. a bearing seat; 18. a drive shaft screw nut; 19. driving the feed screw nut; 20. a cooling water pump; 21. driving the slide rail; 22. a cooling fan; 23. a lifting rod; 24. lifting connecting plates; 25. a lifting screw nut; 26. a lifting screw rod; 27. a Y-axis screw nut; 28. a Y-axis slide rail; 29. an X-axis screw nut; 30. a Y-axis lead screw; 31. a Y-axis bearing; 32. an X-axis lead screw; 33. an X-axis slide rail; 34. a mobile platform; 35. a lifting platform; 36. a third partition plate; 37. a Y-axis stepper motor; 38. a main baffle; 39. driving a server; 40. an auxiliary frame; 41. an auxiliary roller; 42. the main moving roller.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides an embodiment: a lead storage battery low-temperature discharge performance detection device comprises a bottom plate 2, a device shell 3, a Y-axis bottom plate 14, an X-axis stepping motor 15, a first partition plate 16 and a main baffle plate 38, wherein four corners of the bottom end of the bottom plate 2 are respectively provided with a movable universal wheel 1, one end of the top end of the bottom plate 2 is provided with the device shell 3, two sides of the top end of the bottom plate 2, which are far away from one end of the device shell 3, are respectively and vertically provided with an auxiliary frame 40, the top end of the auxiliary frame 40 is provided with an auxiliary roller 41, one end of the bottom end inside the device shell 3 is vertically provided with the main baffle plate 38, and a bearing seat 17 is vertically arranged at the;

the cooling fans 22 are uniformly installed at the middle position of the main baffle 38 close to one end of the bearing seat 17, the model of each cooling fan 22 can be KA1225HA2S, the middle position of one side, far away from the bearing seat 17, of each cooling fan 22 is uniformly provided with a heat dissipation copper pipe 8, the output end of the cooling water pump 20 is connected with one end of each heat dissipation copper pipe 8 through a pipeline, and one end, far away from the cooling water pump 20, of each heat dissipation copper pipe 8 penetrates through the inner wall of the water storage tank 5;

a second clapboard 6 is transversely arranged at the middle position of the main baffle 38 far away from one end of the bearing seat 17, and a driving servo 39 is arranged at the middle position of the top end of the second clapboard 6 near one end of the main baffle 38, wherein the model of the driving servo 39 can be GT620-4T 0075;

a first baffle plate 16 is transversely arranged at the bottom end of one end of the main baffle plate 38 far away from the bearing seat 17, a water storage tank 5 is arranged at the middle position of one end of the first baffle plate 16 far away from the main baffle plate 38, a cooling water pump 20 is arranged at one end of the top end of the first baffle plate 16 near the main baffle plate 38, the model of the cooling water pump 20 can be TL-C01-A/3, the cooling water pump 20 is connected with the bottom end of the side wall of the water storage tank 5 through a pipeline, a third baffle plate 36 is transversely arranged at the middle position of two ends in the device shell 3, a PLC control panel 7 is arranged at the upper end of one end of the device shell 3 far away from the auxiliary frame 40, the model of the PLC control panel 7 can be FX1N-40MT-D, a lifting motor shell 10 is arranged at the middle position of the top end in the device shell 3, and, the type of the lifting stepping motor 11 can be 57CM 30;

both sides of the bottom end of the Y-axis bottom plate 14 are transversely provided with Y-axis slide rails 28 and an X-axis stepping motor 15, the model of the X-axis stepping motor 15 can be GM12-15BY-n1, the output end of the X-axis stepping motor is provided with a Y-axis lead screw 30 penetrating into the X-axis slide rails 33, the outer side wall of the Y-axis lead screw 30 is provided with a Y-axis lead screw nut 27, the middle position of the bottom end of the Y-axis lead screw nut 27 is provided with an electrode contact plate 12, and the electrode contact plate 12 is connected with the Y-axis slide rails 28 in a sliding manner;

a driving motor 4 is transversely installed at the middle position of the main baffle 38 far away from the bottom end of one end of the bearing seat 17, the model of the driving motor 4 CAN be ZD-M42P-485CAN, the output end of the driving motor 4 is provided with a driving screw nut 19 which penetrates through the main baffle 38 and extends into the bearing seat 17, one end of the main baffle 38 at the two sides of the driving screw nut 19 is provided with a driving slide rail 21, one end of the driving slide rail 21 far away from the main baffle 38 is connected with the bearing seat 17, the side wall of the outer side of the driving screw nut 19 is uniformly provided with a driving shaft screw nut 18, the top end of the driving shaft screw nut 18 is provided with a movable platform 34, the movable platform 34 is connected with the driving slide rail 21 in a sliding manner, and the;

the output end of the lifting stepping motor 11 is provided with a lifting screw rod 26 which penetrates through the lifting motor shell 10 and extends into the third partition plate 36, the side wall of the outer side of the lifting screw rod 26 is provided with a lifting screw rod nut 25, two ends of the top end of the inner part of the device shell 3, which are close to the lifting stepping motor 11, are both vertically provided with lifting movable slide rails 9, the middle position of one side of the lifting screw rod nut 25 is transversely provided with a lifting connecting plate 24, the lifting connecting plate 24 is in sliding connection with the lifting movable slide rails 9, the middle position of one side of the lifting connecting plate 24, which is far away from the lifting screw rod nut 25, is vertically and uniformly provided with a lifting rod 23 which penetrates through the third partition;

a Y-axis bearing 31 is arranged in the middle of the top end in the lifting platform 35, Y-axis stepping motors 37 are arranged at four corners of the top end in the lifting platform 35, the model of the Y-axis stepping motor 37 can be 42BYGH4818, and the output ends of the Y-axis stepping motor 37 are all provided with an X-axis lead screw 32 penetrating into the Y-axis bearing 31, the inner side walls of the lifting platform 35 at the two sides of the Y-axis stepping motor 37 are both provided with an X-axis slide rail 33, and one end of the X-axis slide rail 33 far away from the Y-axis stepping motor 37 is connected with the Y-axis bearing 31, the side walls of the outer sides of the X-axis screw rods 32 are all provided with X-axis screw rod nuts 29, and the middle position of the bottom end of the X-axis screw nut 29 is transversely provided with a Y-axis bottom plate 14, the middle position of the bottom end of the Y-axis bottom plate 14 is provided with an X-axis bearing 13, and the middle positions of the two ends of the bottom end of the Y-axis bottom plate 14 are respectively provided with an X-axis stepping motor 15.

The working principle is as follows: when the device for detecting the low-temperature discharge performance of the lead storage battery is used, the battery is placed on a moving platform 34 and is controlled by a PLC control panel 7, a driving motor 4 is controlled to drive a driving screw rod nut 19 to rotate, a driving shaft screw rod nut 18 is driven to move towards the inside of the device, the battery is sent to a preset position in the device, then the battery is sent to the preset position in the device from the upper part in the device, a lifting stepping motor 11 in a lifting motor shell 10 is controlled by the PLC control panel 7 to control a lifting screw rod 26 to move so as to drive a lifting screw rod nut 25 to start to move, the lifting screw rod nut 25 drives a lifting connecting plate 24 and a lifting rod 23 to move downwards, an X-axis screw rod 32 is driven by a Y-axis stepping motor 37 to rotate, the X-axis screw rod 32 drives an X-axis screw rod nut 29 to move, and the X-axis stepping motor 15 drives a Y-axis screw rod 30 to, simultaneously Y axle lead screw 30 drives Y axle lead screw nut 27 and removes, takes electrode contact plate 12 to the established position, then downstream, detects the inside battery of device, and the battery is gone into the item in the device and is detected when detecting, begins to produce the heat, is extracted the inside liquid of cistern 5by cooling water pump 20, carries to heat dissipation copper pipe 8, begins to rotate by cooling fan 22 again, dispels the heat for the inside battery of device, does above the utility model discloses a whole theory of operation.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (7)

1. The utility model provides a lead accumulator low temperature discharge performance detection device, includes bottom plate (2), device shell (3), Y axle bottom plate (14), X axle step motor (15), first baffle (16) and main baffle (38), its characterized in that: the device is characterized in that movable universal wheels (1) are mounted at four corners of the bottom end of the bottom plate (2), a device shell (3) is mounted at one end of the top end of the bottom plate (2), auxiliary frames (40) are vertically mounted on two sides of one end, far away from the device shell (3), of the top end of the bottom plate (2), auxiliary rollers (41) are arranged at the top ends of the auxiliary frames (40), a main baffle (38) is vertically mounted at one end of the inner bottom end of the device shell (3), a bearing seat (17) is vertically mounted at a middle position, near one end of the auxiliary frame (40), of the inner bottom end of the device shell (3), a first baffle (16) is transversely mounted at the bottom end, far away from one end of the main baffle (38), a water storage tank (5) is mounted at the middle position, far away from one end of the main baffle (38), of the top end of the first, and cooling water pump (20) are connected with the lateral wall bottom of cistern (5) through the pipeline, the intermediate position department at the inside both ends of device shell (3) all transversely installs third baffle (36), and device shell (3) keep away from the upper end of auxiliary frame (40) one end and install PLC control panel (7), the intermediate position department on the inside top of device shell (3) installs elevator motor shell (10), and the intermediate position department of the inside bottom of elevator motor shell (10) installs lift step motor (11).

2. The lead-acid battery low-temperature discharge performance detection device according to claim 1, characterized in that: the utility model discloses a cooling water pump, including bearing frame (17), main baffle (38), cooling fan (22) are evenly installed to the intermediate position department that is close to bearing frame (17) one end, and cooling fan (22) keep away from the intermediate position department of bearing frame (17) one side and evenly install heat dissipation copper pipe (8), the output of cooling water pump (20) is connected with heat dissipation copper pipe (8) one end through the pipeline, and the one end that cooling water pump (20) were kept away from in heat dissipation copper pipe (8) runs through cistern (5) inner wall.

3. The lead-acid battery low-temperature discharge performance detection device according to claim 1, characterized in that: the middle position of one end of the main baffle (38) far away from the bearing seat (17) is transversely provided with a second partition plate (6), and the middle position of the top end of the second partition plate (6) close to one end of the main baffle (38) is provided with a driving servo (39).

4. The lead-acid battery low-temperature discharge performance detection device according to claim 1, characterized in that: y axle slide rail (28) are all transversely installed to the both sides of Y axle bottom plate (14) bottom, X axle step motor (15) output all installs and runs through Y axle lead screw (30) to X axle slide rail (33) inside, and Y axle lead screw nut (27) are all installed to the lateral wall of Y axle lead screw (30), electrode contact board (12) are all installed to the intermediate position department of Y axle lead screw nut (27) bottom, and electrode contact board (12) and Y axle slide rail (28) sliding connection.

5. The lead-acid battery low-temperature discharge performance detection device according to claim 1, characterized in that: a driving motor (4) is transversely arranged at the middle position of the main baffle (38) far away from the bottom end of one end of the bearing seat (17), and the output end of the driving motor (4) is provided with a driving screw nut (19) which penetrates through the main baffle (38) and extends to the inside of the bearing seat (17), one end of the main baffle (38) at the two sides of the driving screw nut (19) is provided with a driving slide rail (21), one end of the driving slide rail (21) far away from the main baffle plate (38) is connected with the bearing seat (17), and the side wall of the outer side of the driving screw rod nut (19) is uniformly provided with a driving shaft screw rod nut (18), the top end of the driving shaft screw nut (18) is provided with a movable platform (34), and moving platform (34) and drive slide rail (21) sliding connection, main removal gyro wheel (42) are evenly installed on the inside top of moving platform (34).

6. The lead-acid battery low-temperature discharge performance detection device according to claim 1, characterized in that: lift step motor (11) output is installed and is run through lift motor shell (10) and extend to inside lift lead screw (26) of third baffle (36), and the lateral wall in lift lead screw (26) outside installs lift screw nut (25), the equal vertical lift movable slide rail (9) of installing in both ends that the inside top of device shell (3) is close to lift step motor (11), the intermediate position department of lift screw nut (25) one side transversely installs lift even board (24), and goes up and down even board (24) and lift movable slide rail (9) sliding connection, lift even board (24) keep away from the vertical lifter (23) of evenly installing the intermediate position department of lift screw nut (25) one side and run through third baffle (36), and elevating platform (35) are installed to the bottom of lifter (23).

7. The lead-acid battery low-temperature discharge performance detection device according to claim 6, characterized in that: the lifting platform is characterized in that Y-axis bearings (31) are installed at the middle positions of the top end inside the lifting platform (35), Y-axis stepping motors (37) are installed at four corners of the top end inside the lifting platform (35), X-axis lead screws (32) penetrating through the Y-axis bearings (31) are installed at the output ends of the Y-axis stepping motors (37), X-axis sliding rails (33) are installed on the inner side walls of the lifting platform (35) on the two sides of each Y-axis stepping motor (37), one ends, far away from the Y-axis stepping motors (37), of the X-axis sliding rails (33) are connected with the Y-axis bearings (31), X-axis lead screw nuts (29) are installed on the side walls of the outer sides of the X-axis lead screws (32), Y-axis base plates (14) are transversely installed at the middle positions of the bottoms of the X-axis lead screw nuts (29), and X-axis bearings (13) are installed at, and X-axis stepping motors (15) are arranged in the middle positions of the two ends of the bottom end of the Y-axis bottom plate (14).

Images