CN217552293U - Jacketing machine for automatically installing insulating sleeve - Google Patents

Abstract

The utility model relates to a battery copper bar flexible coupling production facility discloses a jacketing machine for automatic installation insulation support, including first support, the first linear track that installs on the first support, it has second linear track to slide on the first linear track, it has vertical drive arrangement who arranges to slide on the second linear track, the last extension mechanism that installs of drive arrangement, extension mechanism includes the support, pull rod assembly and expansion rod, pull rod assembly one end is passed the support and is connected with drive arrangement, its other end both sides all articulate there is link assembly, every link assembly other end is articulated with the both ends of support respectively, two expansion rods are installed to every link assembly tip. Extension mechanism can carry out preceding, back, left and right, upper and lower removal under first linear track, second linear track and drive arrangement's assistance to make extension mechanism can be accurate remove insulating sleeve place position, extension mechanism during operation can open automatically and with insulating sleeve spacing on the extension rod.

Description

A jacketing machine for automatic installation insulation support

Technical Field

The utility model relates to a battery copper bar flexible coupling production facility especially relates to a jacketing machine for automatic installation insulation support.

Background

With the exhaustion of global petroleum resources and the continuous aggravation of environmental pollution, all countries in the world are strongly supporting the development of new energy automobiles. The rapid development of the new energy automobile industry drives the demand for accessories related to the new energy automobile industry to increase. The power battery is a core component of the electric automobile, and the plurality of batteries are connected in series or in parallel by the soft copper bars to form a battery module. The soft copper busbar can adapt to complicated spatial arrangement, and has strong flexibility and convenient installation. At present, a manual and semi-automatic production mode is mainly adopted for the soft copper busbar, a plurality of workers are required to operate simultaneously during machining, the shearing, stacking and fixing and clamping processes of the copper busbar are manually completed, the production efficiency is low, the operation precision is low, the production capacity of the soft copper busbar is greatly limited, and meanwhile, a certain potential safety hazard exists in a manual operation machine, for example, the application number is 201811235806.3.

SUMMERY OF THE UTILITY MODEL

The utility model discloses shortcoming to among the prior art provides a jacketing machine for automatic installation insulation support.

In order to solve the technical problem, the utility model discloses a following technical scheme can solve:

the utility model provides a jacketing machine for automatic installation insulating tube, including first support, the first linear track that installs on the first support, it has first slider to slide on the first linear track, install second linear track on the first slider, install the second slider on the second linear track, the vertical second support of installing of second slider, install drive arrangement on the second support, the last extension mechanism who is used for extending insulating tube of installing of drive arrangement, extension mechanism includes the support, pull rod assembly and extension rod, pull rod assembly one end is passed the support and is connected with drive arrangement, its other end both sides all articulate there is link assembly, every link assembly other end is articulated with the both ends of support respectively, two extension rods are installed to every link assembly tip. Extension mechanism can carry out preceding, back, left side, right side, upper and lower removal under first linear track, second linear track and drive arrangement's assistance to make extension mechanism can be accurate remove to insulation support position, extension mechanism during operation can open automatically and with insulation support spacing on the extension rod, when extension mechanism with insulation support suit in copper bar flexible coupling, link assembly can drive the extension rod and draw close together, and take out from insulation support.

Preferably, the driving device comprises a first air cylinder and a first connecting plate, the first air cylinder is mounted on the second support, an air rod of the first air cylinder is fixedly connected with the first connecting plate, a second air cylinder is mounted on the lower end face of the first connecting plate, and an air rod of the second air cylinder is connected with the pull rod assembly. The first cylinder drives the first cylinder to lift up and down, so that the expansion mechanism is driven to move up and down to position the position of the insulating sleeve, the cylinder of the second cylinder stretches and pulls the pull rod assembly, and the pull rod assembly can drive the expansion rod to open or close, so that the automatic assembly of the insulating sleeve is realized.

Preferably, guide rods are arranged at two ends of the first connecting plate, guide seats are arranged on two sides of the end face of the second support, guide holes are formed in the guide seats, the guide rods lift on the guide seats through the guide holes, and the first air cylinder is arranged between the two guide seats. The guide rod makes the first connecting plate drive the extension mechanism to move together and the stability is high.

Preferably, the support comprises a front support and a rear support, the front support is connected with the rear support through a rod, the side projection of the front support is in a shape like a Chinese character kou, the pull rod assembly comprises a pull rod and a second connecting plate, one end of the pull rod penetrates through one side wall of the front support, the other end of the pull rod is vertically connected to the second connecting plate, and two ends of the second connecting plate are hinged to the connecting rod assemblies. The pull rod assembly can be in the fore-stock by limiting activity, and the stability of pull rod assembly removal is good.

Preferably, notches are formed in the upper end and the lower end of the rear support, and the rear support is H-shaped in projection. The rear support is firmly hinged with the second connecting plate, and the second connecting plate cannot shake easily.

Preferably, the connecting rod assembly comprises a first connecting rod and a second connecting rod, one end of each of the two first connecting rods clamps the second connecting plate through the front support, the other end of each of the two first connecting rods clamps the second connecting rod, and the other end of each of the two first connecting rods is hinged to the rear support through the notch. One end of the second connecting rod is limited between the two first connecting rods, the other end of the second connecting rod is limited on the rear support, the second connecting rod is evenly stressed, and the moving stability is good.

Preferably, the outermost end of the second connecting rod is provided with a fixing plate, and the two extension rods are horizontally fixed on the fixing plate. The second connecting rod drives and can drive the fixed plate to reciprocate to realize that the extension rod on the fixed plate reciprocates.

The utility model discloses owing to adopted above technical scheme, have apparent technological effect:

extension mechanism can be at first linear track, preceding under second linear track and drive arrangement's the assistance, back, a left side, right side, on, remove down, thereby make the removal that extension mechanism can be accurate to insulation support position, extension mechanism during operation can open automatically and with insulation support spacing on the extension rod, when extension mechanism with insulation support suit in copper bar flexible coupling, link assembly can drive the extension rod and draw close together, and take out from insulation support.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural view of the expanding mechanism of fig. 1.

Fig. 3 is a schematic view of the structure of the stent of fig. 2.

The names of the parts designated by the numerical references in the above figures are as follows:

10-first support, 11-first linear rail, 12-first slider, 13-second linear rail, 14-second slider, 15-second support, 16-drive, 17-expansion mechanism, 161-first cylinder, 162-first connecting plate, 163-second cylinder, 164-guide rod, 165-guide seat, 1611-air rod, 171-support, 172-pull rod component, 173-expansion rod, 174-connecting rod component, 175-fixed plate, 1721-pull rod, 1722-second connecting plate, 1741-first connecting rod, 1742-second connecting rod, 1711-front support, 1712-rear support, 17121-notch.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings 1-3 and examples.

Example 1

The utility model provides a jacketing machine for automatic installation insulation support, includes first support 10, and first linear track 11 that has installed on the first support 10, first support 10 are used for supporting first linear track 11, and first linear track 11 can drive second linear track 13 back-and-forth movement to drive expanding mechanism 173 back-and-forth movement. A first slider 12 slides on the first linear track 11, a second linear track 13 is mounted on the first slider 12, the second linear track 13 moves on the first linear track 11 through the first slider 12, a second slider 14 is mounted on the second linear track 13, a second support 15 is vertically mounted on the second slider 14, a driving device 16 is mounted on the second support 15, the second support 15 is used for fixing the driving device 16, the driving device 16 is in a pneumatic driving mode, an expanding mechanism 17 for expanding an insulating sleeve is mounted on the driving device 16, the expanding mechanism 17 comprises a support 171, a pull rod assembly 172 and an expanding rod 173, one end of the pull rod assembly 172 penetrates through the support 171 to be connected with the driving device 16, two sides of the other end of the pull rod assembly 172 are hinged to two ends of the support 171, the other end of each link assembly 174 is hinged to two ends of the support link assembly 171, and two expanding rods 173 are mounted at the ends of each link assembly 174. Since the second support 15 is vertically disposed, the driving device 16 can drive the expanding mechanism 173 to move up and down. The two link assemblies 174 are symmetrically disposed on two sides of the bracket 171, and the pull rod assembly 172 can drive the two link assemblies 174 to move simultaneously, and the upper link assembly 174 and the lower link assembly 174 can move relatively close to or away from each other, so as to open or close the expansion rod 173.

The driving device 16 includes a first cylinder 161 and a first connecting plate 162, the first cylinder 161 is installed on the second support 15 through a bolt, an air rod 1611 of the first cylinder 161 is vertically and fixedly connected with an end surface of the first connecting plate 162, when the first cylinder 161 drives the air rod 1611 to stretch, the first connecting plate 162 can move up and down, a second cylinder 163 is installed on a lower end surface of the first connecting plate 162 through a bolt, an air rod of the second cylinder 163 is connected with the pull rod assembly 172, the air rod of the second cylinder 163 can drive the pull rod assembly 172 to move back and forth, and therefore the expansion rod 173 of the upper end and the lower end can be opened or closed.

The two ends of the first connecting plate 162 are provided with guide rods 164, the two sides of the end surface of the second support 15 are provided with guide seats 165, the guide seats 165 are provided with guide holes, the guide rods 164 are lifted on the guide seats 165 through the guide holes, and the first air cylinder 161 is arranged between the two guide seats 165. The guide rod 164 provides high stability when the first connecting plate 132 moves the expanding mechanism 17 together.

The bracket 171 includes a front bracket 1711 and a rear bracket 1712, the front bracket 1711 is connected to the rear bracket 1712 via a rod, the front side projection of the front bracket 1711 is in a shape of a square, and the top projection of the front bracket 1711 is in a shape of a convex. The pull rod assembly 172 comprises a pull rod 1721 and a second connecting plate 1722, one end of the pull rod 1721 penetrates through one side wall of the front bracket 1711, the other end of the pull rod 1721 is vertically connected to the second connecting plate 1722, and both ends of the second connecting plate 1722 are hinged to the connecting rod assembly 174.

Example 2

The embodiment 2 has substantially the same features as the embodiment 1, except that notches 17121 are formed at the upper and lower ends of the rear support 1712, and the rear support 1712 has an H-shaped projection. The rear support 1712 is firmly hinged with the second connecting plate 1722, and the second connecting plate 1722 cannot easily shake.

Link assembly 174 includes first connecting rod 1741 and second connecting rod 1742, and second connecting plate 1722 is cliied through fore-stock 1711 to two first connecting rod 1741 one end, and second connecting rod 1742 is cliied to its other end, and the other end of second connecting rod 1742 passes through breach 17121 and articulates with rear bracket 1712. Two first connecting rods 1741 and second connecting plate 1722 are through round pin axle swing joint, and two first connecting rods 1741 and second connecting rod 1742 are through round pin axle swing joint. One end of the second connecting rod 1742 is limited between the two first connecting rods 1741, the other end of the second connecting rod 1742 is limited on the rear support 1712, the second connecting rod 1742 is stressed uniformly, and the stability of the movement is good.

Example 3

Embodiment 3 has substantially the same features as embodiment 1 or 2 except that a fixing plate 175 is installed at the outermost end of the second link 1742 and two expansion rods 173 are horizontally fixed to the fixing plate 175. The second connecting rod 1742 drives the fixing plate 175 to move up and down, so as to move the extension rod 173 on the fixing plate 175 up and down.

Claims (7)

1. The utility model provides a jacketing machine for automatic installation insulation support, includes first support (10), first linear track (11) of installing on first support (10), it has first slider (12) to slide on first linear track (11), installs second linear track (13) on first slider (12), installs second slider (14) on second linear track (13), second slider (14) are vertically installed second support (15), its characterized in that: the driving device (16) is installed on the second support (15), the expansion mechanism (17) used for expanding the insulating sleeve is installed on the driving device (16), the expansion mechanism (17) comprises a support (171), a pull rod assembly (172) and expansion rods (173), one end of the pull rod assembly (172) penetrates through the support (171) to be connected with the driving device (16), two sides of the other end of the pull rod assembly are hinged with connecting rod assemblies (174), the other end of each connecting rod assembly (174) is hinged with two ends of the support (171) respectively, and two expansion rods (173) are installed at the end part of each connecting rod assembly (174).

2. The jacketing machine for automated insulation bushing installation according to claim 1, further comprising: the driving device (16) comprises a first air cylinder (161) and a first connecting plate (162), the first air cylinder (161) is installed on the second support (15), an air rod (1611) of the first air cylinder (161) is fixedly connected with the first connecting plate (162), a second air cylinder (163) is installed on the lower end face of the first connecting plate (162), and an air rod of the second air cylinder (163) is connected with a pull rod assembly (172).

3. The jacketing machine for automated insulation bushing installation according to claim 2, further comprising: both ends of first connecting plate (162) all are equipped with guide bar (164), and the terminal surface both sides of second support (15) all are equipped with guide holder (165), all are equipped with the guiding hole on guide holder (165), and guide bar (164) pass through the guiding hole and go up and down on guide holder (165), and first cylinder (161) are established between two guide holders (165).

4. A jacketing machine for automated insulation jacketing according to any of claims 1-3, wherein: the support (171) comprises a front support (1711) and a rear support (1712), the front support (1711) is connected with the rear support (1712) through a rod, the side projection of the front support (1711) is in a shape like a Chinese character kou, the pull rod assembly (172) comprises a pull rod (1721) and a second connecting plate (1722), one end of the pull rod (1721) penetrates through one side wall of the front support (1711), the other end of the pull rod is vertically connected to the second connecting plate (1722), and two ends of the second connecting plate (1722) are hinged to a connecting rod assembly (174).

5. The jacketing machine for automated insulation bushing installation according to claim 4, wherein: the upper end and the lower end of the rear support (1712) are both provided with notches (17121), and the projection shape of the rear support (1712) is H-shaped.

6. The jacketing machine for automated insulation bushing installation according to claim 5, wherein: link assembly (174) include first connecting rod (1741) and second connecting rod (1742), and second connecting plate (1722) are cliied through fore-stock (1711) to two first connecting rod (1741) one end, and second connecting rod (1742) are cliied to its other end, and second connecting rod (1742) other end passes through breach (17121) and rear bracket (1712) are articulated.

7. The jacketing machine for automated insulation bushing installation according to claim 6, wherein: the outermost end of the second connecting rod (1742) is provided with a fixing plate (175), and the two expansion rods (173) are horizontally fixed on the fixing plate (175).

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