CN217947334U - Embedded module hoist device - Google Patents

Abstract

The utility model provides an embedded module hoisting device, which comprises a base body, a hoisting mechanism and a control mechanism; the hoisting mechanism is arranged in the base body, the control mechanism is connected with the input end of the hoisting mechanism, and the control mechanism can control the output end of the hoisting mechanism to extend out of the base body. The utility model discloses a hoisting machine constructs, the setting of control mechanism and base member for the device all does not have the structure that stretches out module size scope on length and width direction, has avoided the risk of hoist and mount income case in-process and box or module interference, the integrated assembly of compact module of effective adaptation.

Description

Embedded module hoist device

Technical Field

The utility model relates to a battery manufacturing technology field specifically is an embedded module hoist device.

Background

Since the 21 st century, the international new energy market is continuously developed and strengthened, and along with the continuous expansion of the new energy battery market, the domestic new energy electric automobile market is also well assisted by the influence of international large environment; the lithium ion battery pack has higher and higher requirements on the new energy electric automobile as a core component of the new energy electric automobile, and the safety and high energy density are the targets which are pursued all the time; for improving battery system energy density, integrate more electric cores in finite space, furthest dwindle the interval between the module, put forward higher requirement to the PACK technology.

The module integration assembly is a crucial link in the production process of the lithium ion battery system of the new energy automobile; in the daily module boxing process, a large assembling space is needed in the manual carrying boxing and lifting hook hanging boxing process; the robot automatically enters the box for assembly, the position of the module entering the box is easy to deviate, the module collides and the like; the assembly of the modules in the box affects whether the production and the manufacture of products are feasible, and the quality of the modules in the box directly affects the fastening degree of the fixation of the modules, so that the safety and the stability of a battery system are related; poor road test and vibration performance will cause the client to malfunction, cause complaints, and lead to factory return, thus causing an increase in production and repair costs.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that solve lies in how to carry out integrated assembly to the compact module.

The utility model discloses a following technical means realizes solving above-mentioned technical problem:

an embedded module hoisting device comprises a base body (1) and a hoisting mechanism (2); the hoisting mechanism (2) is arranged in the base body (1), and the output end of the hoisting mechanism (2) can extend out of the base body (1).

Has the beneficial effects that: through the setting of hoisting machine structure and base member, the during operation can be with embedding module in the output of hoisting machine structure in the base member, then the output of regulation and control hoisting machine structure stretches out the base member and penetrates the module, the later stage of being convenient for carries out the hoist and mount transportation of module, through the aforesaid setting for the device all does not have the structure that stretches out module size range on length and width direction, has avoided the risk of hoist and mount income case in-process and box or module interference, the integrated assembly of the compact module of effective adaptation.

Furthermore, the hoisting device further comprises a control mechanism (3), and the control mechanism (3) is electrically connected with the hoisting mechanism (2).

Further, the base body (1) comprises a front cover (11) and a rear cover (12); mounting grooves are formed in the front cover (11) and the rear cover (12) in a mirror image mode; the hoisting mechanism (2) is arranged in the mounting groove; the side wall of the base body (1) penetrates through the mounting groove to form a connecting port (115), and the output end of the control mechanism (3) is arranged in the connecting port (115).

Has the beneficial effects that: through protecgulum, hou gai, mounting groove, hoisting machine construct, control mechanism's setting, inside the front and back lid substructure embedding module end plate during the use, the location is accurate, and the atress is even, all does not have the structure that stretches out module size range on length and the width direction, has avoided the risk of hoist and mount income case in-process and box or module interference, has solved the not enough problem of module income case space.

Furthermore, the front cover (11) and the rear cover (12) are detachably connected.

Furthermore, a sliding groove (113) is formed in the front cover (11) in a penetrating manner to the installation groove; the rear cover (12) penetrates through the mounting groove and is provided with an opening (114).

Further, the hoisting mechanism (2) comprises a transmission shaft (21), a gear (22) and a moving block (23); the transmission shaft (21) is arranged in the connecting port (115), a gear (22) is fixed at one end, close to the mounting groove, of the transmission shaft (21), and a control mechanism (3) is fixed at one end, far away from the mounting groove, of the transmission shaft (21); a tooth-engaging groove (231) matched with the gear (22) is formed in the end wall, close to the gear (22), of the moving block (23), the moving block (23) can slide in the sliding groove (113), and a hook (232) is fixed to the position, close to the opening (114), of the moving block (23).

Has the beneficial effects that: through the setting of transmission shaft, gear, movable block, meshing tooth's socket, the meshing of gear tooth's socket can be with the rectilinear motion who converts pivoting motion to fore-and-aft direction to can drive the couple and stretch out the base member and penetrate the module.

Furthermore, the moving block (23) is positioned below the gear (22), and a tooth-engaging groove (231) matched with the gear (22) is formed in the top wall of the moving block (23).

Furthermore, at least one bearing (211) is fixed on the shaft body of the transmission shaft (21).

Furthermore, a limiting block (1152) is fixed in the middle of the connecting port (115), two bearings (211) are fixed on the shaft body of the transmission shaft (21), and the two bearings (211) are located on two sides of the limiting block (1152).

Furthermore, two sides in the connecting port (115) are provided with limit grooves (1151); the transmission shaft (21) between the gear (22) and the bearing (211) is sleeved with a lock catch (213), the transmission shaft (21) between the bearing (211) and the control mechanism (3) is sleeved with a lock catch (213), and the two lock catches (213) are respectively positioned in limit grooves (1151) formed in two sides of the connecting port (115).

Has the advantages that: through the setting of stopper, spacing groove, hasp, can be with the spacing regulation position department in the interface of transmission shaft, realize each mechanism relative motion, mutual noninterference.

Furthermore, the top end of the base body (1) penetrates through the mounting groove and is provided with a bayonet (112).

Has the beneficial effects that: through the setting of bayonet socket, be convenient for be connected the hoist and mount transportation that realizes the module with crane and arm.

The utility model has the advantages of:

the utility model discloses a hoisting machine constructs and the setting of base member, the during operation can be with embedding module in the output of hoisting machine structure in the base member, then the output of regulation and control hoisting machine structure stretches out the base member and penetrates the module, the later stage of being convenient for carries out the hoist and mount transportation of module, through the aforesaid setting for the device all does not have the structure that stretches out module size range on length and width direction, has avoided the hoist and mount income case in-process and the risk of box or module interference, the integrated assembly of the compact module of effective adaptation.

The utility model discloses a setting of protecgulum, hou gai, mounting groove, hoisting machine structure, control mechanism, inside the front and back lid substructure embedding module end plate during the use, the location is accurate, and the atress is even, all does not have the structure that stretches out module size range on length and the width direction, has avoided the risk of hoist and mount income case in-process and box or module interference, has solved the not enough problem of module income case space.

The utility model discloses a setting of transmission shaft, gear, movable block, meshing tooth's socket, the meshing of gear meshing tooth's socket can be with the rectilinear motion who converts pivoting motion to the fore-and-aft direction to can drive the couple and stretch out the base member and penetrate the module.

The utility model discloses a setting of stopper, spacing groove, hasp can be with the spacing regulation position department in the connecting port of transmission shaft, realizes each mechanism relative motion, mutual noninterference.

The utility model discloses a setting of bayonet socket is convenient for be connected the hoist and mount transportation that realizes the module with crane and arm.

Drawings

Fig. 1 is a front view of an embedded module hoisting device (except for a rear cover) according to an embodiment of the present invention;

fig. 2 is a perspective view of an embedded module hoisting device according to an embodiment of the present invention;

fig. 3 is a perspective view of another view angle of the embedded module hoisting device according to the embodiment of the present invention;

fig. 4 is a perspective view of an embedded module hoisting device (excluding a rear cover) according to an embodiment of the present invention;

fig. 5 is an assembly view of an embedded module hoisting device according to an embodiment of the present invention.

Detailed Description

To make the purpose, technical solution and advantages of the embodiments of the present invention clearer, the embodiments of the present invention are combined to clearly and completely describe the technical solution in the embodiments of the present invention, and obviously, the described embodiments are some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without making creative efforts belong to the protection scope of the present invention.

Example one

As shown in fig. 1 and fig. 2, the present embodiment provides an embedded module hoisting device, which includes a base 1, a hoisting mechanism 2, and a control mechanism 3.

As shown in figures 1 and 2, the hoisting mechanism 2 is arranged in the base body 1, and the control mechanism 3 is connected with the input end of the hoisting mechanism 2.

As shown in fig. 2 and 3, the base body 1 includes a front cover 11 and a rear cover 12; the front cover 11 and the rear cover 12 are detachably connected; mounting grooves are formed in the front cover 11 and the rear cover 12 in a mirror image mode, and the hoisting mechanism 2 is arranged in the mounting grooves; the top end of the base body 1 penetrates through the mounting groove to form a bayonet 112, so that the mechanical arm can be clamped and fixed conveniently; the front cover 11 penetrates through the mounting groove and is provided with a sliding groove 113; the rear cover 12 is provided with an opening 114 penetrating to the mounting groove; the side wall of the base body 1 penetrates through the mounting groove to form a connecting port 115.

As shown in fig. 1 and 4, the hoisting mechanism 2 comprises a transmission shaft 21, a gear 22 and a moving block 23; the transmission shaft 21 is arranged in the connecting port 115, two sides in the connecting port 115 are provided with limiting grooves 1151, and a limiting block 1152 is fixed in the middle of the connecting port 115; a gear 22 is fixed at one end of the transmission shaft 21 close to the mounting groove, and a control mechanism 3 is fixed at one end of the transmission shaft 21 far away from the mounting groove; at least one bearing 211 is fixed on the shaft of the transmission shaft 21, in this embodiment, two bearings 211 are fixed on the shaft of the transmission shaft 21, and the two bearings 211 are located at two sides of the limit block 1152; the lock catch 213 is sleeved on the transmission shaft 21 between the gear 22 and the bearing 211, the lock catch 213 is sleeved on the transmission shaft 21 between the other bearing 211 and the control mechanism 3, the two lock catches 213 are respectively positioned in the limit grooves 1151 formed on the two sides of the connecting port 115, and the transmission shaft 21 can be limited at the specified position in the connecting port 115 through the arrangement of the lock catches 213 and the limit blocks 1152;

as shown in fig. 2, 3 and 4, the end wall of the moving block 23 close to the gear 22 is provided with a tooth groove 231 adapted to the gear 22, in this embodiment, the moving block 23 is located below the gear 22, and the top wall of the moving block 23 is provided with a tooth groove 231 adapted to the gear 22; the moving block 23 can slide in the chute 113; a hook 232 is fixed to the moving block 23 at a position close to the opening 114, and the hook 232 can slide in the opening 114.

As shown in fig. 4, the control mechanism 3 is a runner, and the runner is sleeved on the transmission shaft 21.

When the lifting device is used, as shown in fig. 2, 4 and 5, the bottom of the base body 1 is inserted into a hole on the upper surface of an end plate of a module, the rotating wheel is rotated, the gear 22 is driven to rotate through the transmission shaft 21, the gear 22 is meshed with the tooth engaging groove 231 on the moving block 23 to drive the moving block 23 to move towards the rear cover 12, the hook 232 on the moving block 23 penetrates through the opening 114 and passes through a lifting hole on the side edge of the end plate, and then the hook or the mechanical arm (not shown) extends into the bayonet 112 to lift the module.

The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims (10)

1. An embedded module hoisting device is characterized by comprising a base body (1) and a hoisting mechanism (2);

the hoisting mechanism (2) is arranged in the base body (1), and the output end of the hoisting mechanism (2) can extend out of the base body (1).

2. The in-line module hoisting device of claim 1, wherein: the hoisting mechanism is characterized by further comprising a control mechanism (3), wherein the control mechanism (3) is electrically connected with the hoisting mechanism (2).

3. The in-line module hoisting device of claim 2, wherein: the base body (1) comprises a front cover (11) and a rear cover (12); mounting grooves are formed in the front cover (11) and the rear cover (12) in a mirror image mode; the hoisting mechanism (2) is arranged in the mounting groove; the side wall of base member (1) runs through to the mounting groove and has seted up connector (115), the output of control mechanism (3) sets up in connector (115).

4. The in-line module hoisting device according to claim 3, wherein: a sliding groove (113) is formed in the front cover (11) in a penetrating mode and extends to the mounting groove; the rear cover (12) penetrates through the mounting groove and is provided with an opening (114).

5. The in-line module hoisting device according to claim 4, wherein the hoisting mechanism (2) comprises a transmission shaft (21), a gear (22) and a moving block (23); the transmission shaft (21) is arranged in the connecting port (115), a gear (22) is fixed at one end, close to the mounting groove, of the transmission shaft (21), and a control mechanism (3) is fixed at one end, far away from the mounting groove, of the transmission shaft (21); a tooth-engaging groove (231) matched with the gear (22) is formed in the end wall, close to the gear (22), of the moving block (23), the moving block (23) can slide in the sliding groove (113), and a hook (232) is fixed at the position, close to the opening (114), of the moving block (23).

6. The in-line module hoisting device according to claim 5, wherein: the moving block (23) is positioned below the gear (22), and a tooth-engaging groove (231) matched with the gear (22) is formed in the top wall of the moving block (23).

7. The in-line module hoisting device according to claim 5, wherein: at least one bearing (211) is fixed on the shaft body of the transmission shaft (21).

8. The in-line module hoisting device according to claim 7, wherein: a limiting block (1152) is fixed in the middle of the inside of the connecting port (115), two bearings (211) are fixed on the shaft body of the transmission shaft (21), and the two bearings (211) are located on two sides of the limiting block (1152).

9. The in-line module hoisting device according to claim 8, wherein: two sides in the connecting port (115) are provided with limiting grooves (1151); the transmission shaft (21) between the gear (22) and the bearing (211) is sleeved with a lock catch (213), the transmission shaft (21) between the bearing (211) and the control mechanism (3) is sleeved with a lock catch (213), and the two lock catches (213) are respectively positioned in limit grooves (1151) formed in two sides of the connecting port (115).

10. The in-line module hoist device of any one of claims 2-9, wherein: the bayonet socket (112) has been seted up to the mounting groove to base member (1) top run through.

Images